Resp/Cardio

Question 1

What is the cardiac lesion represented in this CXR?

Answer 1

TAPVD

Question 2

What is the cardiac lesion represented in this cxr?

Answer 2

Tetralogy of fallot

Question 3

What are the characteristics of Marfan syndrome?

Answer 3

Fibrillin gene defect

AUTOSOMINAL DOMINANT

Sx: thumb sign, pectus excavatum, scoliosis, long arms

Dilatation of the ascending Ao and MVP (mid systolic click)

Question 4

What does an ASD murmur sound like?

Answer 4

Low pitched systolic ehection murmur at base

Fixed split S2

Question 5

What does an AS murmur sound like?

Answer 5

SEM radiating to neck

Question 6

What are the characteristics of cardiac syncope?

Answer 6

1. Little or no prodrome
2. Prolonged LOC
3. Exercise induced
4. Fright/startle induced
5. Associated chest apin or palpitations
6. History of cardiac disease: AS, PHTN
7. FHx for: Long QTc, arrhythmia syndromes, devices, sudden death, cardiomyopathy

Question 7

When does Torsades des Pointes occur?

Answer 7

Long QT and hypomagnesemia

Question 8

What are the clues on history to long QT syndrome?

Answer 8

Unusual sz, palpitations while swimming

Deafness

FHx of sudden death, unexplained MVA, drownings, deafness

Question 9

What are the causes of long QT interval?

Answer 9

Low Ca

Low Mg

Low K

Drugs (TCAs)

Question 10

What is WPW?

Answer 10

Wolff Parkinson White

Accessory AV pathway allows for “early” depolarization of ventricles

Ass with ebsteins and CCTGA

Can cause SVT and sudden death

Question 11

What is the first step of the SV palliation?

Answer 11

Glenn or BT shunt at 4-6 months

• SVC to RPA
• Expected sats 75-85%

Fontan at 2-y4 years

• IVC to RPA
• Expected sats usually >90%

Question 12

What are the recommendations for antiplatelet therapy in Kawasaki disease?

Answer 12

If no aneurysms or ectasia or resolve within 6-8 weeks, discontinued in 6-8 weeks

If 1 large coronary artery aneurysm or complex aneurysms, long term antiplatelet therapy is recommended

Question 13

What are the general guidelines for SBE PPx?

Answer 13

High risk lesion + high risk procedure

Question 14

What qualifies as a high risk lesion?

Answer 14

• Cyanotic CHD, not repairs, shunts
• CHD repaired with prosthetic material
• CHD with residual defects

Question 15

What is considered a high risk procedure?

Answer 15

Dental procedure where the gums or lining of mouth likely to be injured

Gut or GU surgery through infected area

Question 16

Things that do not need antibiotics

Answer 16

Injections of anaesthetic to mouth

Loss of baby teeth

Accidental injury to lips/gums

Nosebleeds

Routine placements or adjustment of braces

Deliveries

Most surgeries and procedures

Question 17

What are the cynaotic CHD lesions?

Answer 17

6Ts: TGA, TOF, TA, TAPVR, TA, “TINGLE” ventricle

2As: PA, Ebsteins anomaly

Question 18

What are the lesions that cause CHF in the first weeks of life?

Answer 18

OBSTRUCTION

• HLHS
• Severe AS
• Coarctation
• Asphyxia
• Severe MR, TR
• Uncontrolled tachycardias

Question 19

What are the lesions that cause CHF in weeks 2-6?

Answer 19

Left to right shunts:

VSD

AVSD

PDA

Question 20

What are the lesions that cause CHF inolder children?

Answer 20

Pump failure

Dilated cardiomyopathy

Myocarditis

Tachycardias

Question 21

What are the three cardinal signs of CHF in infants?

Answer 21

Tachycardia

Tachypnea

Hepatomegaly

Question 22

What are the signs of infective endocarditis?

Answer 22

Janeway lesion

Embolus

Splinter hemorrhages

Oslers node: PAINFUL

Question 23

What is rheumatic fever?

Answer 23

Occurs after GAS infection

Pancarditis: aschoff bodies (collection of immunological cells and fibrinoid material around a central necrosis)

Question 24

What are the diagnostic criteria for rheumatic fever?

Answer 24

Major: (2)

1. Carditis
2. Polyarthritis
3. Chorea
4. Subcutaneous nodules
5. EM

Minor:

1. Fever
2. Arthralgia
3. Prolonged PR
4. Elevated ESR, CRP

Question 25

What are the complications of foreign body?

Answer 25

Recurrent pneumonia

Bronchiectasis

Cardiac arrest and death

Question 26

In what findings MUST you r/o cystic fibrosis?

Answer 26

Meconium ileus

HypoNa, hypoCl metabolic alkalosis

Recurrent rectal prolapse

Clubbing

Bronciectasis

Nasal polyps

Pseudomonas colonization

Question 27

What is the test positive in a sweat chloride?

Answer 27

>60 meQ/L

Question 28

What are the prognostic factors in CF?

Answer 28

Male?female

Lung disease:FEV1, Burkohderia, PTX

Nutritional status: Wt/Ht, DM

Question 29

How does primary ciliary dyskinesia?

Answer 29

Year round daily wet cough

Year round nasal congestion

Recurrent otitis media

Neonatal respiratory distress

Laterality defects

Question 30

What qualifies as asthma control?

Answer 30

Daytime Sx < 4 days/week

Nighttime Sx <1 night/week

Physical activity normal

Exacerbation: mild, infrequency

Absence: none

SABA use < 4 dose/week

FEV1 >90% personal best

Question 31

How do you diagnose asthma?

Answer 31

Clinical symptoms

+

Objective evidence: spirometry, peakflow, methacholine challenge

Question 32

What are the sequalae of OSA?

Answer 32

Neurocognitive: behavioural, attention, schoolperformance, developement

Cardiovascular: HTN, cor pulmonale

FTT

Inflammatory

Qualityof life

Question 33

How do diagnose OSA?

Answer 33

Polysomnography

Question 34

What are the treatment modalities for OSA?

Answer 34

Non-pharmacologic: Nasal and sleep hygiene

Pharmacologic: intranasal corticosteriods, montelukast

Surgical: T&A

Weight loss

CPAP

Question 35

What is the most common CHD?

Answer 35

VSD 25-30%, ASD +PDA 6-8%

Question 36

What is the hyperoxia test?

Answer 36

If PaO2 rise above 150 mm during 100% O2 administration then a shunt lesion is excluded

Question 37

What % of small VSD will close?

Answer 37

75% in the first 2 years of life

Question 38

What are the potential complications of a VSD?

Answer 38

Endocarditis

Aortic regurg

Subaortic stenosis

RVOTO

LV TO RA shunting: Gerbode defect

Question 39

What are the indications for surgery with a VSD?

Answer 39

< 6 months with uncontrolled CHF despite max medical RX

Children with significatn shunt and increased PA pressures

Children with significant shunt and N pressures

Subpulmonic and membranous defects

Question 40

What are the three types of ASD?

Answer 40

Primum (15%)

Secundum (75%)

Sinus venosus (10%)

Question 41

What are the features of an ASD?

Answer 41

Grade 3 SEM at ULSB with widely split S2

Age 3-4 years

Question 42

What are the four features of tetralogy of fallot?

Answer 42

PS

Overriding aorta

RVH

VSD

Question 43

What syndromes are associated with TOF?

Answer 43

T21, DiGeorge, Alagille

Question 44

If you find long Qt, what should you check

Answer 44

Ca, Mg, K, Drugs (TCAs)

Question 45

How do you approach SVT?

Answer 45

Stable: Vagal, Adenosine

Unstable: Syn cardio 0.5-1 J/kg

Question 46

What is the description of a stills murmur?

Answer 46

VIbratory LLSB SEM, changes with position

DDx: SubAo stenosis, Small VSD

Question 47

What is the description of a venous hum?

Answer 47

Infraclavicular hum, continuous R>L

DDx: PDA

Question 48

What is the differential for a widely split S2?

Answer 48

AS, PS, Ebstein, TAPVR, RBBB

Question 49

DDX for a wide pulse pressure?

Answer 49

PDA

Ao insuff

AVM

Vasodilation

Question 50

What defect is associated with alpha 1 AT deficiency?

Answer 50

PiZZ

Will present as liver disease in children

Question 51

What are the characteristics of CCAM?

Answer 51

Cystic adenomatoid malformation CCAM

Hamartomatous or dysplastic lung tissue mixed with normal lung

Presents in infancy

Question 52

What are the characteristics of congenital lobar emphysema?

Answer 52

Presents at 6 months: resp distress

HYperinflation of affect lobe with atelectasis of other

Question 53

What is the acronym to remember the compotents of CF?

Answer 53

CF PANCREAS

Chronic cough and wheezing

FTT
Pancreatic insufficiency

Alkalosis and HypoNa

Neonatal intestinal obstruction Nasal polyps

Clubbing

Rectal prolapse

Electrolytes elevation in sweat

Absence vas derens

Sputum with stap a or pseud

Question 54

What is the progression of bugs in CF?

Answer 54

S aureus, H flu, pseudo aeroginosa, B cepacia

Question 55

What are compotents of routine care for CF?

Answer 55

Chest physio + bronchodilatory BID

Balanced high calorie diet

Pancreatic supplemnts

ADEK replacement

Osteoporos monitoring

GERD monitoring

Question 56

Whatis kartagener syndrome?

Answer 56

1. Situs inversus (25% will have PCD)
2. Chronic sinusitis and otitis
3. Airway d/po leading to bronchiectasis

Question 57

What is the most common cause of chest pain?

Answer 57

MSK

Cardiac <1%

Question 58

What are the common MSK causes of CP?

Answer 58

Strained msucles

Costochondritis

Tietze syndrome

Precordial catch syndrome

Question 59

What is tietze syndrome?

Answer 59

Localized form of costochondritis usually involving junst one costochondral junction, tender swollen mass palpable at the site

Costochrondritis is usually multiple sites without swelling

Question 60

What is precordial catch syndrome?

Answer 60

Texidor twinge

Sudden onset CP in children, very localized, occurs most commonly over the left sternal border

At rest without trigger

Usuallys 30s to 3 minutes

Question 61

What is the difference between a vascular ring and sling?

Answer 61

Ring: trachea and/or esophagus is encircled by aberrant vascular strctures

Sling: compressions by nonencircling vessels

Question 62

What are the two types of complete vascular rings?

Answer 62

1. Double Ao arch
2. Right Ao arch with left ligamentum arteriosum

Question 63

What are the cardiac causes of sudden death?

Answer 63

1. HOCM
2. Anomalies of cornoary arteries
3. Margan
4. Arrhythmogenic right ventricular dysplasia (ARVD)
5. Brugada
6. Prolonged QTC

Question 64

What is commotio cordis?

Answer 64

Arrhythmia as a result of blunt, nonpenetrating direct blow to the chest

VF occurs during vulnerable phase of repolarization

CPR +Defib

Question 65

What are the signs of a Coarct in an older children?

Answer 65

Differential BP

Systolic murmur in the back

SystolicHTN in the upper extremities

Diminished femorals

Question 66

What are two neuromuscular conditions in which cardio consult is recommended?

Answer 66

DMD (Dystrophin)-Cardiomyopathy

Friedrich ataxia (Frataxin)-Cardiomyopathy, A fib/fliutter

Question 67

What CHD gives you decreased lung markings?

Answer 67

TOF
Pulmonary Atresia

Tricuspid atresia

Ebstein

Question 68

What lesions given with increased pulmonary markings?

Answer 68

Transposition

TAPVR

Truncus arteriosis

Question 69

What are the classic chest xray findings in CHD?

Answer 69

Boot: TOF
Egg: TGA

Snowman: TAPVR

Rib notching: Coarctation

Question 70

In what two conditions is a diminished murmur bad?

Answer 70

TOF: worsening RVOTO

VSD: eisenmenger syndrome

Question 71

At what age do you need to investigate an PPS mrumur?

Answer 71

6 months or older

Question 72

What is unique about a baby ECG?

Answer 72

RV dominance

T waves upright in chest leads, invert at 7 days until 12-13 years

Question 73

What are the two most common mechanisms of SVT?

Answer 73

1. WPW
2. AV nodal reentry

Question 74

When should you suspect myocarditis?

Answer 74

Unexplained CHF

Tachycardia out of proportion to fever, tachypnea, quiet precordium, muffled HS, gallop rhythm without murmur, HM

Question 75

What are the clinical signs of pericarditis?

Answer 75

CP, fever, cough, palpitations

Friction rub, pallor, pulsus paradoxus

Pt sitting up and leaning forward

Question 76

What are the side effects of indomethacin in the neonate?

Answer 76

1. Decreased renal function
2. Hyponatremia
3. Platelet dysfunction
4. GI blood loss

Question 77

What are the side effects of PGE?

Answer 77

Apnea, fever, cutaneous flushing, seizures, hypotension, bradycardia

Question 78

What do alpha receptors do?

Answer 78

Vascular smooth muscle, vasoconstriction

Question 79

What do beta 1 receptors do?

Answer 79

Myocardial smooth msucle, increase myocardial contractility (inotropic), cardiac rate (chronotrophic) and AV conduction (dromotophic)

Question 80

What do B2 receptors do?

Answer 80

Vascular smooth muscle, vasodilation

Question 81

What do doapminergic receptors do?

Answer 81

Renal and mesenteric vascular smooth muscle

Vasodilation

Question 82

What is the effect of sitting up on common innocent murmurs?

Answer 82

Venous hum= increased

Vinratory=decreases

Question 83

What is a BT shunt?

Answer 83

Anastomosis between subclavian artery and pulmonary artery

Question 84

What are the common rhythm issues post Fontan?

Answer 84

Loss of sinus

INtra-atrial reentrant tachycardia

Question 85

Which lesion does protein losing enteropathy occur after correction?

Answer 85

Fontan

Abnormal flow to mesenteric vasculature

Question 86

How common is allergic rhinitis?

Answer 86

40% of children experience

Question 87

If both parents are asthma, what is the risk that their child will have asthma?

Answer 87

60%

Question 88

What is the most common cause of infantile stridor?

Answer 88

Laryngomalacia

Question 89

What is the basic defect in CF?

Answer 89

Defect in the CF transmembrane conductance regulator (CFTR) protein

Regulates chloride and sodium transfer across the apical membrane of the epithetial cells

Question 90

What are Kussmaul respirations?

Answer 90

Deep, slow resps with prolonged exhalation

Question 91

What are Cheyne-stokes resps?

Answer 91

Crescendo-descendo respira with alternating apnea

Question 92

What are biot resps?

Answer 92

AKA ataxic breathing

Unpredictable irregularity in respirations

Question 93

Most common CHD?

Answer 93

VSD

Question 94

What is the medical management of a VSD prior to surgery?

Answer 94

1. Nutrition
2. Diuretics
3. ACEi

Question 95

What is the most common type of ASD?

Answer 95

Secundum 75%

Question 96

What are the risks of non closure of an ASD?

Answer 96

1. Right heart failure
2. Embolism
3. Arrhythmia
4. PVD

Question 97

What is the consequence of outflow tract obstruction?

Answer 97

Concentric ventricular hypertrophy from pressure overload

Initially adapative to maintain CO however becomes maladaptive increasing the stiffness of the chambers and resulting in diastolic dysfunction

Question 98

What is william syndrome?

Answer 98

Hypercalcemia

Elfin features

Supravalvular AS

PA Branch stenosis

MR

Question 99

What is situs solitus?

Answer 99

Normal viscera, lungs and atrial position

Question 100

What is situs inversus

Answer 100

Abdo, atria and lungs and reversed

Question 101

When does perfusion of the coronary arteries occur?

Answer 101

DIASTOLE

Question 102

What are the strategies to maximize CO in CHF?

Answer 102

1. Afterload reduction
2. Preload reudction
3. Sympathetic inhibition
4. Cardiac remodelling prevention
5. Inotrophy

Question 103

What are the common viruses that cause percarditis?

Answer 103

Coxsackie

Echovirus

Adenovirus

EBV

Influenza

HIV

Question 104

What is the benefit of FRC?

Answer 104

Functional residual capacity

Volume of air left in the lungs after tidal expiration

Buffer, minimizing PaO2 and PaCO2 changes during inspiration and expiration

Improved with PEEP

Question 105

What is the major determinant of FRC?

Answer 105

Chest wall compliance

FRC= Outward elastic recoil= inward lung recoil

Infants, more compliant chest wall therefore lower FRC

Question 106

Why are infants at a disadvantage?

Answer 106

1. CNS depression =chest wall retraction
2. Poor lung compliance= lung recoil, loss of FRC
3. Compliant chest wall= loss of FRC

Question 107

What is elastance?

Answer 107

Property of a substance to oppose deformation or stretching

Change in pressure over change in volume

Enbales return to original state

Question 108

What is compliance

Answer 108

repicrocal of elastance

Distensibility

Change in volume/change in pressure

Question 109

What is resistance?

Answer 109

Amount of pressure required to generate flow of gas across airways

R= 8 x length x viscosity/R⁴

Question 110

How do you classify size of pleural effusions on CXR?

Answer 110

1/2 height if hemithorax = large

Question 111

What are the signs of a pulmonary exacerbation in CF?

Answer 111

1. Increased cough/sputum
2. Hemoptysis
3. Anorexia and weight loss

Question 112

How do you interpret a PFT?

Answer 112

1. Look at flow-volume curve: is it reproducible (aka straight exp line vs squiggly)?
2. Look at effort curve: kids 12 should exhale for at least 10 seconds
3. Look at FEV1: mild (70-79), moderate (60-69), severe (50-59), very severe (12% change is significant, CHEO uses > 10%)
4. Compare FEV1 to last PFT: has it changed?

Question 113

What are complications of Cystic Fibrosis from head to toe?

Answer 113

1. Nasal polyps
2. Chronic sinusitis
3. Chronic cough
4. Bronchiectasis
5. Chronic colonization with staph, hemophilus, pseudomonas, burkholderia seppacia
6. GERD secondary to obstructive lung disease, hyperinflation and diaphragms pushing on stomach
7. Meconium ileus
8. Failure to thrive
9. Pancreatic insufficiency (with delta F508 mutation) –> Fat soluble vitamin deficiency, steatorrhea, eventual diabetes
10. Liver cirrhosis - from thickened bile
11. Congenital absence of vas deferens in males
12. Infertility in both males and females - in females, thick cervical secretions or secondary amenorrhea from malnutrition
13. Rectal prolapse - from chronic diarrhea, malnutrition and weak musculature
14. Clubbing
15. Cor pulmonary from pulmonary hypertension

Question 114

What is the pattern of colonization/chronic infection in CF patients?

Answer 114

Babies - staph aureus
Toddlers - hemophilus b influenza
School age children - pseudomonas
Teenagers - Burkholderia seppacia, stenotrophomonas maltophilia
This is prognosticator important: if a baby is already infected with pseudomonas, this means their CF is advanced; if a teenager is only colonized with h.flu, doing well

Question 115

What is the differential diagnosis of wheeze? (10)

Answer 115

1. Asthma
2. Aspiration penumonitis: ask about coughing/choking with feeds, reflux symptoms, rule out TEF
3. BPD
4. Bronchiolitis obliterans: chronic wheezing after adenovirus infection
5. Congenital cardiac lesion: left to right shunts causing increased pulmonary blood flow
6. Cystic fibrosis: ask about recurrent diarrhea, failure to thrive
7. Foreign body aspiration
8. Vascular rings/slings
9. Airway malformations: tracheomalacia, lung cysts, mediastinal mass
10. Primary ciliary dyskinesia: ask about recurrent sinusitis, ear infections

Question 116

What are the classic ECG findings in a patient with pulmonary embolism?

Answer 116

Most common: sinus tachycardia
Most characteristic: S1-Q3-T3
-large S wave in lead 1, large Q wave in lead 3, inverted T wave in lead 3
Also can have RBBB and right axis deviation since right heart is pumping heart against a blocked PA

Question 117

What is the most important cause of a false negative on a sweat chloride test?

Answer 117

Edema! (ie. hypoalbuminemia)
-other causes: malnutrition, hyponatremia (not enough sweat to collect)

Question 118

What is ABPA?

• diagnosis?
• treatment?

Answer 118

Allergic bronchopulmonary aspergillosis: allergic hypersensitivity reaction to aspergillus in lungs

• occurs most commonly in CF pts, NOT responsive to antibiotics
• diagnosis: PERIPHERAL EOSINOPHILIA, sputum culture with branching hyphae, RUST-COLORED SPUTUM, proximal bronchiectasis on CXR
• Treatment: steroids and anti-fungals (voriconazole) x 6 wks

Question 119

What is the inheritance pattern of cystic fibrosis?

Answer 119

Autosomal recessive

Question 120

Which chromosome has the gene for cystic fibrosis?
-most common mutation?

Answer 120

Chromosome 7 (encodes CFTR protein) = deltaF508 mutation

• chloride channel on surface of epithelial cells responsible for movement of salt and water across cell membranes
• essentially have overactive sodium pumps and impermeable chloride channels = thus, Na can get out of tubule structures and draw water out with it, leaving thick secretions left behind
• most common mutation delta F508 mutation

Question 121

What is considered a positive sweat chloride test?

Answer 121

CF test positive if > 60 mEQ/L
-negative if

Question 122

What are the 3 most important interventions in CF that affects prognosis?

Answer 122

1. Nutrition
2. Chest physiotherapy
3. Antibiotics

Question 123

What are the 6 causes of hypoxia?

Answer 123

1. V/Q mismatch
2. Shunt
3. Hypoventilation
4. Low FiO2
5. Diffusion barrier
6. Abnormal Hgb saturation curve

Question 124

What are 3 complications of bronchiectasis?

Answer 124

1. Increased risk of infection secondary to trapping of secretions
2. Increased risk of pneumothorax
3. Increased risk of pulmonary hemorrhage (and thus hemoptysis)

Question 125

What is the differential for:

• diffuse wheezing
• localized wheezing

Answer 125

Diffuse wheezing:

1. CF
2. Asthma
3. Bronchiolitis
4. Anaphylaxis with resp involvement
5. GERD

Localized wheezing:

1. Foreign body
2. Extrinsic compression by mass
3. Bronchomalacia

Question 126

What are the complications of chronic recurrent aspiration? (3)

Answer 126

1. Granuloma formation
2. Interstitial fibrosis
3. Lipoid pneumonia = through oral or nasal administration of animal or vegetable oils to treat childhood illnesses as a folk remedy

Question 127

What is the most common underlying problem associated with recurrent pneumonias in hospitalized children?
-defn of recurrent pneumonia?

Answer 127

Oropharyngal incoordination/dysphagia leading to chronic recurrent aspiration

• 2nd most common is probably GERD
• defn of recurrent pneumonia: 2 or more pneumonias in 1 year OR 3 or more in a lifetime

Question 128

What are the differences between a barium swallow, swallowing study with video fluoroscopy, and a gastroesophageal scintigraphy (milk scan)?

Answer 128

***All look for causes of recurrent aspiration
Barium swallow: Pt drinks barium and you take xrays to look at ANATOMIC ABNORMALITIES (vascular ring, stricture, hiatal hernia, TEF). Short viewing time so insensitive and nonspecific for GERD
-Swallowing study with video fluoroscopy: conducted with OT feeding different consistencies and is the gold standard for evaluating swallowing mechanism. More sensitive for demonstrating aspiration.
-Milk scan: pt swallows milk with radiolabel and multiple xrays are taken up to 60 minutes later to check gastric emptying

Question 129

What are the early childhood risk factors for persistent asthma? (10)

Answer 129

1. Parental asthma
2. Atopy
3. Reduced lung function at birth
4. Possible use of acetaminophen
5. Exposure to chlorinated swimming pools
6. Severe lower resp tract infection (pneumonia, bronchiolitis requiring hospitalization)
7. Male gender
8. Wheezing apart from colds
9. Environmental tobacco smoke exposure
10. Low birthweight

Question 130

What are the 2 main types of childhood asthma?

Answer 130

1. Recurrent wheezing in early childhood (ie. transient early wheezing): triggered by viruses, tends to resolve during preschool years without increased risk for asthma in later life
2. Chronic asthma (persistent atopy-associated asthma): associated with allergy (usually persists into later childhood and often adulthood)

Question 131

What is the treatment for acute vocal cord dysfunction exacerbations?

Answer 131

1. Relaxation breathing techniques
2. Inhalation of heliox to relieve vocal cord spasm

Question 132

What are the abnormalities seen on spirometry in asthma?

Answer 132

1. Airflow limitation
   - low FEV1
   - FEV1/FVC ratio 12%
2. Exercise challenge: worsening in FEV1 > 15%

Question 133

What is the broad differential for bronchiectasis?

Answer 133

1. Cystic fibrosis
2. Aspergillus (proximal bronchiectasis)
3. Ciliary dyskinesia
4. Immunodeficiencies

Question 134

What are the criteria for determining if a patient’s asthma is well-controlled? (7)

Answer 134

Daytime

Night

Question 135

What is the gene involved in congenital central hypoventilation syndrome?

Answer 135

PHOX2B gene: essential to embryologic development of the autonomic nervous system from the neural crest

• 90-95% are de novo mutations and the rest inherit the mutation from asymptomatic mosaic parent (autosomal dominant)
• an individual with CCHS has 50% chance of passing on the mutation to their children

Question 136

In a child with congenital central hypoventilation syndrome presenting with constipation, what condition should be ruled out?

Answer 136

Hirschsprung disease: 20% of CCHS children
-should undergo rectal biopsy to screen for absence of ganglion cells

Question 137

What are the clinical features of congenital central hypoventilation syndrome?

Answer 137

Deficient hypercarbia and hypoxia sensitivity during wakefulness and sleep and thus do not respond with increased ventilation or arousal during sleep (or awake for some)

• shallow respirations and apneas presenting in first few hours after birth
• can also present with autonomic nervous system abnormalities: cardiac asystole, tumors of neural crest origin, Hirschsprung disease

Question 138

What investigations should be ordered for a baby suspected to have central sleep apnea?

Answer 138

1. Congenital central hypoventilation: PHOX2B genetic testing
2. Airway obstruction: consider bronchoscopy/CT chest
3. Diaphragm dysfunction: diaphragm fluoroscopy
4. Congenital cardiac disease: consider ECHO
5. Structural hindbrain or brainstem abnormality: MRI head
6. Metabolic disorders

Question 139

What are the long term complications of obstructive sleep apnea?

Answer 139

1. Metabolic: insulin resistance, dyslipidemia
2. Cardiovascular disease
3. Pulmonary hypertension with cor pulmonale
4. Neurocognitive disturbances

Question 140

What are the long term complications of obstructive sleep apnea?

Answer 140

1. Metabolic: insulin resistance, dyslipidemia
2. Cardiovascular disease
3. Pulmonary hypertension with cor pulmonale
4. Neurocognitive disturbances

Question 141

What are the clinical manifestations of OSA?
-daytime vs nighttime

Answer 141

Daytime: mouth breathing and dry mouth, chronic nasal congestion, hyponasal speech, morning headaches, difficulty swallowing, poor appetite/FTT, secondary enuresis (due to disruption of normal nocturnal pattern of ADH), mood/behaviour/learning difficulties, daytime sleepiness, frequent napping

Nighttime: snoring, breathing pauses, choking or gasping arousals, restless sleep, adopt unusual sleeping positions to keep their necks hyperextended to open up airway

How well did you know this?

Question 142

What is the gold standard diagnostic test for obstructive sleep apnea?

• What is the first line treatment for obstructive sleep apnea?
• 2nd line?

Answer 142

Gold standard test: polysomnography (sleep study)

• 1st line treatment: Adenotonsillectomy
• 2nd line: CPAP if surgery fails or pts who are not candidates for surgery

Question 143

What is the polysomnographic parameter most commonly used in evaluating sleep disordered breathing?
-normal values for children 12 yo?

Answer 143

Apnea/Hyponea index (AHI): tells us number of apneic and hypopneic events per hr of sleep
-Normal cutoff AHI value for OSA in kids 1.5
-normal cutoff AHI value for OSA in kids > 12: >5
***consensus is that any child with an apnea index > 5 should be treated

Question 144

What is the treatment of a pneumothorax that is small

Answer 144

No treatment needed: will self-resolve usually in 1 wk
-recurrent pneumothoraces: may need to induce formation of strong adhesions between the lung and chest wall (sclerosing procedure with talc or iodopovidone into pleural space, VATS with stripping of the pleura to leave inflamed pleura to heal with sealing adhesions)

Question 145

What is the mechanism of action of theophylline?

• why is it not a first-line agent for young children?
• adverse effects?

Answer 145

Bronchodilation and anti-inflammatory properties (phosphodiesterase inhibitor)

• not first line agent because of differences in absorption and metabolism of theophylline in different patients –> narrow therapeutic window and need to closely monitor serum theophylline levels
• adverse effects with overdose: headaches, vomiting, cardiac arrhythmias, seizures and death

Question 146

What are the biologic risk factors for asthma morbidity and mortality? (8)

Answer 146

1. Previous hx of ICU admission or intubation due to severe asthma exacerbation
2. Sudden respiratory failure or arrest
3. Two or more hospitalizations for asthma in past year
4. 3 or more ED visits for asthma in past year
5. Use of > 2 cannisters of SABA per month
6. Poor response to systemic corticosteroid therapy
7. Low birthweight
8. Nonwhite ethnicity

Question 147

What are the 3 stages of symptoms from aspiration of an object into the airway?

Answer 147

1. Initial event: Violent paroxysms of coughing, choking, gagging, and airway obstruction
2. Asymptomatic interval: The foreign body becomes lodged, reflexes fatigue, and the immediate irritating symptoms subside. This stage is most treacherous and accounts for a large percentage of delayed diagnoses and overlooked foreign bodies. It is during this 2nd stage, when the child is first seen, that the possibility of a foreign body aspiration is minimized, the physician being reassured by the absence of symptoms that no foreign body is present.
3. Complications: Obstruction, erosion, or infection develops to direct attention again to the presence of a foreign body. In this 3rd stage, complications include fever, cough, hemoptysis, pneumonia, and atelectasis.

Question 148

What is the difference between a primary and secondary lung abscess?

Answer 148

Primary: occurs in previously healthy patient with no underlying medical conditions
-more commonly found on right side

Secondary: occurs in patient with underlying medical conditions
-more commonly on the left side

Question 149

Which conditions predispose children to the development of pulmonary abscesses? (6)

Answer 149

1. Aspiration pneumonia
2. Cystic fibrosis
3. GERD
4. TEF
5. Immunodeficiencies
6. Neurological conditions
   **anything that can lead to aspiration of infected materials with oral organisms
   **can also occur secondary to a pneumonia

Question 150

What is the classic finding on CXR for a lung abscess?

Answer 150

Parenchymal inflammation with a cavity containing an air fluid level

Question 151

What is the treatment for a pulmonary abscess?

• empiric abx
• treatment duration
• option for patient who does not improve with IV abx

Answer 151

2-3 wk course of IV abx followed by PO abx to complete 4-6 wk course

• choice of abx should be guided by results of gram stain and culture but should initially include agents with both aerobic and anaerobic coverage
• Ceftriaxone + clindamycin, add aminoglycoside if gram negative bacteria are isolated
• for severely ill patients who do not improve after 7-10 d IV abx, consider surgical intervention (CT guided percutaneous drainage or thoractomy)

Question 152

What is the most common cause of recurrent or persistent cough in children?

Answer 152

Asthma

Question 153

What is the characteristic features of a habit (tic) cough?
-treatment?

Answer 153

1. Cough occurs only during the day and never during sleep
2. Cough is absent if physician listens outside the exam room but appears immediatly on direct attention to the child and the symptom

Treatment: reassurance that pathologic lung condition is absent, recommend that child resume school immediately, speech therapy to allow child to increase awareness of the sensations that trigger cough, self hypnosis

Question 154

A child presents to your clinic with a cough that has persisted for > 6 weeks. What is your next step in management?

Answer 154

Test for cystic fibrosis regardless of race or ethnicity

Question 155

What is the most common foreign body aspirated by children?

Answer 155

Nuts!
-must ask parents specifically about nuts; if there is any history of eating nuts, bronchoscopy should be carried out immediately

Question 156

What percentage of foreign bodies lodge in the right main bronchus in children?
-what is the most important factor in determining the need for bronchoscopy in possible foreign body aspiration?

Answer 156

60%
-most important factor: history! (imaging may be negative in up to 30% of cases)

Question 157

What is the first step in evaluation for foreign body aspiration?
-what might you see if there is a foreign body obstructing a bronchus?

Answer 157

CXR! Expiratory PA chest film is most helpful
-will see obstructive emphysema and air trapping with persistent inflation of the obstructed lung and shift of the mediastium towards the opposite side during expiration

Question 158

What is the treatment for ARDS?

Answer 158

Overall: supportive management

1. Nitric oxide
2. Oxygen
3. Prone position (improves V/Q mismatch)
4. Surfactant (does not change mortality however)
5. Sedation (decrease pulm htn)
6. Limit tidal volumes to 6-8 ml/kg)
7. HFO (gentle ventilation)
8. Neuromuscular blockade
9. Permissive hypercapnea
10. Steroids (start within 72 hrs, can be used up to 30 d)

***If all else fails, ECMO

Question 159

What are the causes of ARDS?
-two broad categories

Answer 159

Direct lung injury

1. Pneumonia (most common)
2. Aspiration
3. Pulmonary contusion
4. Submersion injury
5. Inhalational injury

Indirect lung injury:

1. Sepsis
2. Shock
3. Burns
4. Transfusion related
5. Trauma

Question 160

What are the 3 phases of ARDS?

Answer 160

1. Exudative phase: decreased pulmonary compliance, increased hypoxia, increased tachypnea
   - see inflammation, diffuse alveolar infiltrates, pulmonary edema
2. Fibroproliferative phase: increased alveolar dead space, pulmonary hypertension
   - scarring of lung, epithelial damage, surfactant deactivation
3. Recovery phase: restoration of pulmonary epithelial barrier

Question 161

What is the definition of ARDS? (4)

Answer 161

1. Acute onset
2. PaO2/FiO2

Question 162

What are the benefits of using a spacer with an MDI? (4)
-optimal technique for MDI + spacer?

Answer 162

1. Decreases the coordination required to use MDIs
2. Improves delivery of drug to lower airways
3. Minimizes risk of thrush
4. Decreases risk of oral deposition of medicine

**Optimal technique: for each puff, take 5 sec inhalation with 5-10 sec breath hold
-for young children, use spacer and mask and after each puff, hold mask on face for 5-10 breaths (or 30 seconds)

Question 163

How does the presentation of alpha-1-antitrypsin deficiency differ between children and adults?

Answer 163

In children: has little or no detectable pulmonary disease during childhood; instead, causes liver disease

In adults: causes early-onset pulmonary emphysema in 30s and 40s
-alpha-1-antitrypsin is a protein that deactivates proteolytic enzymes released from dead bacteria or leukocytes in the lung: without this protein, the enyzmes destroy the pulmonary tissue and cause emphysema

Question 164

What is the treatment for alpha-1-antitrypsin deficiency?

Answer 164

IV enzyme replacement from pooled human plasma

Question 165

What are common risk factors for thromboembolic disease in children? (7)
-what thrombophilia disorders cause hypercoagulability? (5)

Answer 165

1. Malignancy (solid tumors > non solid)
2. Presence of a central venous catheter (induces endothelial damage)
3. Thrombophilia (deficiency of antithrombin 3, protein C or S; factor 5 leiden, hyperhomocysteinemia, antiphospholipid antibodies)
4. Recent surgery/immobilization
5. Nephrotic syndrome (losing protein C & S)
6. SLE (systemic inflammation)
7. OCP

***Remember virschow’s triad: hypercoagulability, endothelial injury, stasis

Question 166

What is the gold standard for diagnosis of PE?

• what is the diagnostic test of choice?
• what is the utility of a V/Q scan?

Answer 166

Gold standard: pulmonary angiography

• not necessary except in unusual cases since spiral CT is almost always available
• diagnostic test of choice: spiral CT with IV contrast (specificity 90%)
• V/Q scans are noninvasive and sensitive: use if pre-test probability is low

Question 167

What is the treatment for a PE?
-what is the mortality rate in children from PE?

Answer 167

Heparin infusion (aim for aPTT to be 1.5-2x normal) x several days, then begin PO warfarin x 3-6 mo

• LMWH can also be used
• thrombolytic agents should only be used in combo with anticoagulants in the sickest patients
• mortality rate: 2.2%

Question 168

In children with prolonged or high inhaled corticosteroid therapy, what are two things you should monitor for?
-does the use of inhaled corticosteroids affect adult height?

Answer 168

1. Height velocity
2. Cataracts

***Does not affect adult height

Question 169

What are the two most common adverse effects of inhaled corticosteroids?

Answer 169

1. Thrush
2. Hoarse voice (dysphonia)

Question 170

What population do you most commonly see idiopathic pneumothorax in?

Answer 170

Tall, thin male with subpleural bleb

Question 171

What recreational drug is associated with pneumothorax?

Answer 171

Ecstasy!

Question 172

What are the 5 Ts of anterior mediastinal mass?

Answer 172

1. Thymoma
2. T cell leukemia
3. Terrible lymphoma
4. Thyroid tumors
5. Teratoma

Question 173

What is the differential diagnosis for middle mediastinal mass?

Answer 173

A+B

1. Adenopathy: infectious (histoplasmosis most common), neoplastic, metastatic, sarcoidosis
2. Bronchogenic cyst

Question 174

What is the differential diagnosis for posterior mediastinal mass?

Answer 174

The Ns

1. Neurogenic tumor: neuroblastoma, benign ganglioneuroma, ganglioneuroblastoma
2. Neurofibroma
3. Esophageal duplication cysts
4. Pulmonary sequestration

Question 175

In which infection does CXR look worse than clinical picture?

Answer 175

Mycoplasma chlamydia and mycoplasma pneumoniae

Question 176

What radiological signs can be seen on a CXR in a patient with ABPA?

Answer 176

1. Proximal bronchiectasis
2. Bronchial wall thickening
3. Pulmonary infiltrates

Question 177

What controls respiratory drive?

Answer 177

1. Central chemoreceptors in the medulla = sense hypercarbia (major role in respirations)
2. Peripheral chemoreceptors in the carotid arteries/arch of aorta = sense hypoxia (minor role in respirations)

Question 178

What is a clue on exam that can help you differentiate between laryngomalacia vs. tracheomalacia?

Answer 178

• Laryngomalacia = inspiratory stridor (above thoracic inlet)
• tracheomalacia (weak tracheal rings collapse with expiration)= expiratory or biphasic stridor (below thoracic inlet

Question 179

What is the differential diagnosis for chronic cough? (9)
-initial work-up?

Answer 179

Chronic cough > 3 wks:

1. Asthma
2. Recurrent infections
3. Cystic fibrosis
4. GERD
5. Immunodeficiency: IgA deficiency, hypogammaglobulinemia
6. Primary ciliary dyskinesia (Kartagener syndrome, immotile cilia syndrome)
7. Anatomic lesions: foreign body, mediastinal tumor, congenital heart disease), TEF
8. Allergy/irritants: tobacco smoke, pollution, etc.
9. Psychogenic cough
   - initial work up: guided by clues in history and physical; if no clues, then start with:
10. CXR
11. PFTs if possible
12. Sweat chloride

Question 180

What can give falsely high O2 sat readings?
-what can give falsely low O2 sat readings?

Answer 180

Pulse oximeter measures differential absorption of light and calculates ratio of oxyhemoglobin to deoxyhemoglobin

• Falsely high O2 sat readings (ie. monitor reads 100% sat but patient is actually hypoxic) = carbon monoxide poisoning due to high infinity of CO to hemoblogin and thus, looks like hemoglobin is saturated
• Falsely low O2 sat readings (ie. monitor reads 70% but patient is not hypoxic) = methemoglobin

Question 181

A patient with a pleural effusion receives a chest tube for drainage. The pleural fluid is chocolate colored. What is your diagnosis?

Answer 181

Amebiasis (entamoeba histolytica)

Question 182

What causes chylothorax? (3)

• aggravating factor?
• treatment? (2)

Answer 182

Chylothorax = disruption of thoracic duct leading to accumulation of chyle (high lipid and protein content)

1. Thoracic surgery complication
2. Birth injury: thoracic duct leaks with stretch
3. Obstruction of central veins by thrombosis or malignancy
   - worsened by ingestion of fat
   - treatment:
4. low fat diet (portagen formula = medium-chain fatty acids, or TPN without lipids)
5. If severe, can ligate thoracic duct

Question 183

What are the main differences between exudative and transudative effusions? (ie. modified lights criteria)

Answer 183

Exudative:

• pH 0.5
• pleural:serum LDH > 0.6
• high polymorphonuclear leukocytes

Transudative:

• pH > 7.3
• glucose > 50% of serum
• pleural:serum protein

Question 184

What is a possible resp complication of empyema?

Answer 184

Bronchopleural fistula

Question 185

Causes of transudative pleural effusions? (5)

Answer 185

1. Cirrhosis
2. Congestive heart failure
3. Nephrotic syndrome
4. Malignancies
5. Infections (viral, Klebsiella, GAS, etc.)

Question 186

What age group do you commonly see the peak incidence of the following:

• croup
• epiglottitis
• bacterial tracheitis

Answer 186

-Croup: 3 mo-4 yo
-bacterial tracheitis: 3 mo - 4 yo
-epiglottitis: 2 yo - 10 yo
***overall, these can occur in any age really

Question 187

Where is the acute airway obstruction seen in croup?

Answer 187

Subglottic narrowing at the cricoid cartilage!!

Question 188

What are the 3 most common causes of epiglottis in the post-HIB vaccine era?

Answer 188

1. Strep pneumo
2. GAS
3. Staph aureus

Question 190

What is the management of epiglottitis?

Answer 190

This is a MEDICAL EMERGENCY! Child looks toxic and can progress to complete airway obstruction within 24 hrs of presentation

• clinical diagnosis = do NOT need xray to confirm if this will only agitate child (thumbprint sign on xray)
• Send CBC and blood culture since bacteremia occurs before epiglottitis and can help identify the organism
• don’t agitate the child (no IV, no bloodwork until airway secured)
• start immediate antibiotics once airway is secured (3rd generation cephalosporin IV +/- vancomycin)

Question 191

How can you differentiate between epiglottitis vs. croup vs. bacterial tracheitis?

Answer 191

***All have inspiratory stridor

• Epiglottitis: drooling, tripod position, no cough, toxic appearance, high fever
• Croup: non toxic appearance, responds to epi, hoarse barking cough
• bacterial tracheitis: toxic appearance, prominent brassy cough (usually no drooling or dysphagia), do not respond to epi, high fever, usually a secondary complication of croup

Question 192

What is the most common bacterial infection associated with bronchiolitis?

Answer 192

AOM

Question 193

What are the 2 most sensitive physical findings in pneumonia?

Answer 193

1. Fever
2. Tachypnea

***unfortunately neither are very specific

Question 194

What are the components of pulmonary toileting? (3)

Answer 194

Overall goal: improve mucous clearance

1. Chest physio
2. Mucolytics
3. Bronchodilators

Question 195

What is the role of azithromycin therapy in the treatment of CF?

Answer 195

Azithromycin = shown to reduce lung inflammation if given 3x weekly, thus decreasing pulmonary exacerbations

Question 196

What are risk factors for persistent asthma into adulthood? (5)

Answer 196

1. Maternal history of asthma
2. Asthma onset prior to 3 years of age
3. Eosinophilia
4. Elevated IgE levels
5. Allergic rhinitis

Question 197

What are clinical features of Kartagener syndrome? (7)

• diagnosis?
• treatment?

Answer 197

Primary ciliary dyskinesia!

1. Chronic sinusitis with nasal polyps
2. Situs inversus in 50% of patients
3. Chronic otitis media with hearing loss
4. Bronchitis and bronchiectasis
5. Pneumonia
6. Clubbing
7. Male and female infertility/decreased fertility
   - abnormal sperm movement
   - increased ectopic pregnancy

Diagnosis:

1. CXR = dextrocardia, bronchiectasis
2. Gold standard = look at cilia from nasal/bronchial brush by electron microscopy

Treatment:

1. Pulmonary toilet to maximize mucous clearance
2. Antibiotics to treat infection
3. May need lobectomy if severe bronchiectasis

Question 198

• What do you see on PFTs of someone with restrictive lung disease?
• What is the differential diagnosis of restrictive lung disease?

Answer 198

• On PFT: see normal FEV1/FVC, decreased FEV1, decreased FVC, decreased TLC, decreased RV
• Differential diagnosis: think from lungs and work outwards
• Lung:
  1. Resection
  2. Atelectasis
  3. Interstitial lung disease (fibrosis) = ex. sarcoidosis, fibrosis from radiation, infections (adenovirus, CMV, PCP, aspergillus, mycoplasma), langerhans histiocytosis, hemosiderosis
  4. Pulmonary vascular congestion secnodary to CHF
  5. Tumor
  6. Pneumonia
• Pleural cavity:
  7. Effusion/empyema
• Chest wall:
  8. Scoliosis
  9. Splinting due to pain
  10. Ascites
• Muscle:
  11. Neuromuscular disease
  12. Diaphragmatic paralysis

Question 199

What is the gold standard for diagnosis for interstitial lung disease?
-additional workup?

Answer 199

Lung biopsy

• workup needs to rule out conditions on the huge ddx:
  1. Infectious work-up: mycoplasma PCR, CMV serologies, chlamydia culture, sputum samples
  2. Rheumatic disease markers
  3. ACE level (sarcoidosis)
  4. UA to rule out associated renal disease

Question 200

A patient presents with chronic cough and shortness of breath. After extensive investigations, you decide to do a bronchoscopy. On sputum sample, you see siderophages. What is your differential diagnosis? (6)

Answer 200

Hemosiderosis!
-siderophages = macrophages with iron inside

Differential diagnosis:

1. Heiner’s syndrome: CMPA with pulmonary hemorrhage
2. Idiopathic pulmonary hemosiderosis
3. Pulmonary capillary hemangiomatosis (proliferation of capillaries with alveolar hemorrhage)
4. Goodpasture syndrome
5. Wegner’s granulomatosis

Question 201

What medication class should be avoided in individuals with history of obstructive or central sleep apnea?

Answer 201

OPIOIDS!!!! They are very sensitive to these medications and have worsening of apnea

Question 202

What is the differential diagnosis for obstructive sleep apnea? (5)

Answer 202

1. Tonsilly/adenoid hypertrophy (most common)
2. Obesity
3. Craniofacial anomalies
4. Neuromuscular disorders (ie. muscular dystrophy)
5. Neurologic disorders involving incoordination of upper airway musculature

Question 203

Why should you never put O2 on a child with history of OSA and walk away?

Answer 203

Children with OSA are chronic CO2 retainers and thus their respiratory drive is dependent on hypoxia! If you give them O2, then there will be no more respiratory drive and they will become apneic

Question 204

A baby born vaginally to a poor controlled gestatioal diabetic mom had cyanosis, irregular work of breathing and decreased breath sounds on the right side. There is also decreased tone in the right arm. A CXR is normal. What is your next best test to figure out diagnosis?

Answer 204

Chest ultrasound to rule out phrenic nerve paralysis

Question 205

What are the treatment modalities of CF? (10)

Answer 205

1. Nutrtional support
2. Inhalation therapy
3. Chest PT
4. Bronchodilators
5. Oxygen
6. Antibiotics
7. alpha-1-antitrypsin (inhibits neutrophil elastase which breaks down lung tissue)
8. amiloride (diuretic inhibiting sodium and water reabsorption from secretions)
9. DNAse = reacts with DNA released by dead leukocytes to reduce sputum viscosity
10. Gene therapy: alters CF gene

Question 206

What is considered delayed passage of meconium?

Answer 206

>48 hrs after birth with no passage

Question 207

What are 5 causes of a false positive sweat chloride test?

Answer 207

1. Untreated adrenal insufficiency (Addisons)
2. Untreated hypothyroidism
3. Ectodermal dysplasia
4. Atopic dermatitis
5. Age

Question 208

A 16 yo patient with CF complains of chest pain and a cough that produced a rust-colored sputum. What is the most likely diagnosis?

Answer 208

ABPA

Question 209

What is the second line monotherapy for mild asthma?

Answer 209

Leukotriene receptor antagonists! (Montelukast)

Question 210

What are poor prognostic indicators in CF? (4)

Answer 210

1. Poor nutritional status
2. Pneumothorax
3. Burkholderia cepacia (very deadly bug in CF)
4. Poor FEV1

Question 211

What is the CLASSIC clinical feature on history for primary ciliary dyskinesia?

Answer 211

YEAR ROUND DAILY WET COUGH AND NASAL CONGESTION!!!!

Question 212

What is the best test to rule out laryngeal cleft?
-clinical feature of laryngeal cleft?

Answer 212

Clinical feature: coughing/choking occurs DURING swallowing
-best test: rigid bronchoscopy is REQUIRED to rule it out!

Question 213

How do you diagnose TEF? Name 2 tests.

Answer 213

UGI series to start, rigid bronchoscopy is gold standard

Question 214

UGI series to start, rigid bronchoscopy is gold standard

Answer 214

1. Confirm diagnosis
2. Environmental controls, education and written action plan: eliminate smoking, second hand smoke, allergens, need to improve adherence
3. Fast-acting bronchodilators prn
4. Inhaled corticosteroids:
   (-low dose: 6-11 yo: 12 yo: 12 yo: 251-500 mcg/d)

• for age 6-11:
  a. start with low dose ICS
  b. Then increase to medium dose ICS
  c. Then add a LABA (for child with more exercise s/s) OR LTRA (for more atopic child)
  d. Then use medium dose ICS + LABA + LTRA
• for 12 and older:
  a. start with low dose ICS
  b. then ADD LABA
  c. THEN increase ICV to medium dose OR add a LTRA
  d. THEN use medium dose ICS + LTRA + LABA

Question 215

At what age should you start using the yellow aerochamber? Blue?

Answer 215

Yellow = pediatric = 1-5 yo
Blue = adult = \>5 yo

Question 216

A 10 yo girl with asthma is prescribed fluticasone 50 mcg 1 puff BID. She has no night time symptoms, has daytime symptoms of cough/wheezing 4x/wk while playing hockey. Most appropriate next step?

a. Take salbutamol before exercise
b. Increase fluticasone to 125 mcg 1 puff BID
c. add montelukast
d. add LABA

Answer 216

B! This is a child 6-11 yo with poorly controlled asthma since she is needing beta agonist > 4x/wk!
-she is currently on low dose ICS THUS next step is to increase to medium dose ICS!

Question 217

What is the differential diagnosis for vocal cord paralysis?
-unilateral vs. bilateral?

Answer 217

Bilateral vocal cord paralysis (hear inspiratory stridor)
-congenital CNS lesion (myelomeningocele, arnold-chiari malformation, hydrocephalus) = think of things that compress the brainstem (CN X)

Unilateral vocal cord paralysis (see choking, aspiration, coughing, weak cry)
-usually damaged by surgery/intubation to the recurrent laryngeal nerve

Dx: flexible awake laryngoscopy, need MRI head if bilateral vocal cord palsy, consider Neuro and Cardio consult

Tx: most spontaneously resolve within 6-12 mo but some bilateral paralysis require trach temporarily

Question 218

What is the differential diagnosis of prolonged QT?

Answer 218

1. Congenital:
   - Romano-Ward syndrome (most common genetic cause of prolonged QT syndrome, autosomal dominent)
   - Jervell-Lange-Nielsen syndrome (associated with deafness)
2. Acquired
   - Drugs (antiarrhythmics, dexmedetomidate, TCAs, antipsychotics, antibiotics such as macrolides)
   - Electrolytes (hypocalcemia, hypokalemia, hypomagnesemia)
   - Intracranial lesion (encephalitis, head trauma, stroke)
   - Cardiac disease

Question 219

What is the treatment for myocarditis?

Answer 219

SUPPORTIVE for mild cases

1. Bed rest
2. Digoxin
3. Cautious diuresis since they’re preload dependent (will need some volume)
4. Afterload reduction - ACE inhibitor
5. Anti arrhythmic

For severe cases: may need inotropes/ICU support

Question 220

What is the rule of 1/3s for myocarditis?

Answer 220

1/3 complete recover
1/3 develop chronic dilated cardiomyopathy and require lifelong failure management
1/3 require transplant or have sudden death from arrhythmia

Question 221

What is the differential diagnosis for left axis deviation on ECG (5)?

Answer 221

Left axis deviation is always abnormal

1. AVSD
2. Tricuspid atresia
3. Pulmonary atresia
4. Pulmonary stenosis
5. Single LV

Question 222

What is the cause of biventricular hypertrophy on ECG?

Answer 222

VSD

Question 223

What 3 congenital heart diseases is most likely to present with severe cyanosis within the first few hours of life?

Answer 223

1. Transposition of the great arteries (MOST COMMON PRESENTING CYANOTIC LESION TO PRESENT IN NEWBORN PERIOD)
   - only mixing is through an open PDA and PFO
   - need PGE1 to keep PDA open in order to maintain oxygenation to systemic circulation
2. Pulmonary atresia
3. Ebstein’s anomaly

Question 224

What are the clinical signs and symptoms of a “tet spell” (3)?

What occurs physiologically during a “tet spell”?

Answer 224

(aka hypercyanotic spell)

1. Acute onset of intense cyanosis
2. Sudden softening of murmur (due to decreased blood flow through the obstructed right outflow tract)
3. Deep rapid respiratory pattern (no work of breathing should be seen theoretically)

“Tet spell” - acute, sudden onset of increased right ventricular outflow tract obstruction and resultant decreased pulmonary blood flow (can be precipitated by agitation, fever, exercise, etc) –> obstruction of deoxygenated blood flow into the pulmonary artery –> deoxygenated blood shunts through the large VSD into the left ventricle –> deoxygenated blood flows into systemic circulation causing cyanosis

• typically present starting at around 2 months of age as right ventricular outflow tract obstruction worsens
• indication for urgent surgical repair

Question 225

What are the 4 characteristic heart defects in Tetralogy of Fallot?

Answer 225

1. Overriding aorta (empties from both the LV and RV)
2. RVH
3. Right ventricular outflow tract obstruction (ie. pulmonary stenosis)
4. VSD

Question 226

In Tetralogy of Fallot, what does the severity of clinical signs and symptoms depend on?

Answer 226

The degree of right ventricular outflow tract obstruction

Question 227

What 3 genetic conditions can be commonly be associated with Tetrology of Fallot?

Answer 227

1. DiGeorge syndrome (22q11 deletion)
2. Down syndrome
3. Alagille syndrome

Question 228

What is the immediate management of a “tet spell”?

Answer 228

Step-wise approach: if one step fails, move onto the next

1. Put patient in knee-chest position
   - as with squatting, knee-chest position increases systemic vascular resistance, thus increasing left ventricular pressure and decreasing the right to left shunt of deoxygenated blood, promoting flow instead back into the lungs
   - also increases venous return to right side of heart to promote flow to lungs
2. Administer O2
   - O2 is pulmonary vasodilator (decreasing pulmonary vascular resistance and thus increases blood flow to lungs) and systemic vasoconstrictor
3. Administer morphine (0.1 mg/kg) and give fluid bolus
   - morphine theoretically decreases agitation and thus RVOT obstruction
   - fluids improves venous return
4. Administer IV beta blocker (propanolol 0.1 mg/kg)
   - causes relaxation of RVOT obstruction
5. Administer IV phenylephrine (selective alpha agonist)
   - increases afterload (systemic vascular resistance)

Question 229

What is a PVC?

Answer 229

Premature ventricular contraction - heartbeat is initiated by Purkinje fibers in the ventricles instead of the SA node

• wide QRS
• ventricles contract before atria has had time to fill them with blood

Question 230

What are the 4 types of PVCs?

Answer 230

1. Bigeminy
   - PVC occurs after every normal beat = non concerning
2. Trigeminy
   - two normal beats to one PVC = non concerning
3. Quadrigeminy
   - three normal beats to one PVC = non concerning
4. Ventricular tachycardia
   - 3 or more PVCs occuring in a row = concerning obviously

Question 231

What noninvasive tests can be ordered to investigate a history of arrhythmia (4)?

Answer 231

1. ECG
2. Holter monitor
3. Event recorders
   - loop recorders: children always wear the device and press a button when they experience symptoms
   - pacer tracers: connected to telephone for recording
4. ECHO

Question 232

What are the two treatment modalities for chronic arrhythmias?

Answer 232

1. Medical therapy with antiarrhythmics
2. Catheter ablation therapy

Question 233

When would catheter ablation be the treatment of choice for a child with a tachyarrthymia over medical therapy?

Answer 233

If tachyarrhythmia has caused a life-threatening event

Question 234

What is the treatment of choice for children with bradyarrythmias?

Answer 234

Cardiac pacing

Question 235

What can be seen on ECG of a patient with Wolff-Parkinson-White syndrome (2)?

Answer 235

1. Delta waves - short PR interval with upsloping, reflects pre-excitation (electrical conduction from atria to ventricle via pathway other than AV node) since the normal delay between the P and the R is missing (ie. the normal delay of electrical conduction by the AV node)
2. Wide QRS

Question 236

What are the 2 types of SVT (and 2 subtypes within each type)?

Answer 236

1. Re-entry
   a) AVRT (atrioventricular reentrant tachycardia)
   b) AVNRT (atrioventricular nodal reentrant tachycardia)
2. Automaticity: MAY see variability, warm up and slow down period, usually a bit lower rate, most will NOT respond to adenosine
   a) Ectopic atrial tachycardia
   b) Junctional ectopic tachycardia (JET)

Question 237

What is Wolff-Parkinson-White Syndrome?

Answer 237

Pre-excitation syndrome: presence of abnormal accessory electrical conduction pathway (Bundle of Kent) between the atria and ventricles

• pathway conducts electrical activity at higher rate than AV node and thus, if pt had atrial flutter, would conduct all the beats to the ventricles (bypassing the AV node’s natural ability to slow down atrial impulses to protect the ventricles from beating too fast)
• risk of ventricular fibrillation and sudden death

Question 238

Describe the pathophysiology of AVRT SVT.

Answer 238

• presence of accessory pathway outside of AV node
• normal SA antegrade conduction goes through the AV node and then retrograde up accessory pathway to reactivate the ventricles
• in WPW, normal SA goes antegrade through the accessory pathway bypassing AV node (and thus no normal delay in conduction)

Question 239

Describe the pathophysiology of AVNRT SVT.

Answer 239

• presence of two conducting pathways WITHIN the AV node (one fast and slow) creating a reentrant loop using one pathway in antegrade direction and one in retrograde
• more likely in > 6 yo

Question 240

Adenosine is only effective at terminating which type of SVT (2)?

Answer 240

Re-entry

1. AVRT
2. AVNRT

-Adenosine blocks AV node conduction

Question 241

Why do vagal maneuvers assist in terminating SVTs?

Answer 241

Vagal maneuvers activate parasympathetic nervous system conducted to the heart by the vagus nerve
-increase AV nodal block to eliminate conduction to the ventricles

Question 242

Which antiarrhythmics should be avoided in children with WPW (2)?

Answer 242

1. Digoxin
2. Calcium channel blockers (ie. verapamil)

Both have potential proarrhythmia effects and can enhance conduction properties of accessory pathway (by blocking AV node so the impulse is forced to go to the accessory pathway) resulting in more rapid ventricular rate during atrial flutter and increased risk for sudden death

Question 243

In which clinical circumstances do you worry that PVCs may lead to increased risk of sudden cardiac death/

Answer 243

1. Post-op CHD
2. Poor cardiac function (ie. cardiomyopathy)

Question 244

What 4 features of syncope may be suggestive of a cardiogenic etiology?

Answer 244

1. Sudden onset (“drop”) without prodromal symptoms or awareness
2. Occurred during exercise
3. Limp or lifeless during syncope leading to injury
4. Palpitations or abnormal heart rate noted before event
5. Family history of sudden death

Question 245

What are 5 causes of cardiogenic syncope with risk of sudden cardiac arrest?

Answer 245

1. HOCM
2. WPW
3. Prolonged QT syndrome
4. Coronary artery anomalies (ie. coronaries comes between pulmonary artery and aorta; during exercise, increases stroke volume and thus great vessel size and squishes coronary arteries and get MI)
5. Arrhythmogenic RV dysplasia

Question 246

What 3 congenital heart defects are seen with maternal diabetes?

Answer 246

1. VSD
2. HOCM
3. PDA

Question 247

Which cyanotic heart defect is most likely to present in:

• newborn period
• infancy period
• childhood period

Answer 247

• Newborn period: transposition of great arteries
• Infancy period: tricuspid atresia
• Childhood period: TOF

Question 248

What is Ebstein’s anomaly?

Answer 248

Abnormal tricuspid valve leaflets (either abnormal shape, too large or adhered to the septum)

• get constant connection between RA and RV with tricuspid regurgitation due to inadequate valve closure
• wall to wall heart on CXR

Question 249

When interpreting an ECG in a patient with a pacemaker, what does it mean to have “good capture”?

Answer 249

Should always check for good capture on an ECG in a patient with a pacemaker:
-means that every time the pacemaker discharges (“spike” on ECG), there should be a subsequent QRS following each “spike”

Question 250

What is the sequence of reading an ECG?

Answer 250

1. Heart rate
2. Rhythm
   - Sinus: P before every QRS, upright P in leads II, III, and AVF
3. Axis
   - Look at lead I and AVL: upright?
   - Look at II, III, and AVF: upright?
   (overall: leads II, III and AVF are stickers on legs so if you see upright QRS, means that electrical impulse is moving towards the stickers on legs from above ie. the SA node so this means this is atrial impulse. If you see inverted QRS, means that the electrical impulse is coming from the ventricles moving away from the legs)
4. Look at PR and QRS intervals and compare to normal for age values
5. Look at precordial leads (V1-V6) for normal R wave progression
   - QRS should get bigger as you move from V1-V6 (since in older children, left ventricle is thicker than right ventricle so higher voltage)
6. Look at T wave in all leads
   - should always be upright in limb leads
   - in children 10 yo, should start to have upright T waves starting in V6 and moving towards V1 (can take up to 18 yo for T wave to become upright in all V1-V6 leads)
7. QTc calculation and compare to normal for age

Question 251

What clinical features are seen in DiGeorge Syndrome?

Answer 251

CATCH-22
Deletion of chromosome 22q11

1. Congenital heart defect (usually TOF)
2. Abnormal facies
3. Thymic aplasia
4. Cleft palate
5. Hypocalcemia

Question 252

What are 2 things you MUST do prior to cardioverting an infant presenting with new SVT?

Answer 252

Since we don’t know how long infant has been in SVT for, may have developed heart failure or poor cardiac function; thus, may be rate dependent for cardiac output. With cardioversion and return to normal HR, may significantly decrease cardiac output and thus cause them to go into cardiogenic shock.

1. Need to call Cardiology and PICU and be prepared for this circumstance in order to do in controlled setting
2. Need to put a 12 lead ECG or rhythm monitor on the patient

Question 253

What is Beck’s triad?

Answer 253

Clinical features of cardiac tamponade:

1. Hypotension
2. Muffled heart sounds
3. Distended neck veins

Question 254

What is the underlying mutation in prolonged QT syndrome?

Answer 254

Mutations in cardiac potassium and sodium channels = ion channelopathies

Question 255

What is the most common presenting symptom of LQTS in children?

Answer 255

Syncopal episode brought on by exercise, fright, or sudden startle
-some occur during sleep (LQT type 3)

Question 256

What is QTc?
-What QTc is considered prolonged?

Answer 256

• QTc = QT interval (ventricular depolarization and repolarization) that is adjusted for heart rate differences
• Prolonged = > 0. 440

Question 257

What is the significance of genetic testing in identifying prolonged QT syndrome?

Answer 257

Genotyping can identify mutation in ~75% of patients known to have LQTS by clinical criteria.
-if negative, it does NOT mean that a patient does not have LQTS if they fit clinical criteria BUT it does help identify asymptomatic affected relatives of the index case

Question 258

What is the treatment for prolonged QT syndrome?

Answer 258

1. Beta blockers
   - if beta blockers cause significant bradycardia, may need pacemaker
2. For patients who have had cardiac arrest, need implantable cardiac defibrillator (ICD)

Question 259

What other ECG features can be seen in prolonged QT syndrome? (3)
-what are patients with prolonged QT syndrome at risk for? (2)

Answer 259

1. Bradycardia
2. Notched T waves
3. T wave alternans (alternating upright and downgoing T waves)

-At risk for torsades de pointes and ventricular fibrillation

Question 260

What is the underlying pathophysiology of Hypoplastic Left Heart Syndrome?

• how does circulation occur?
• main problems resulting from abnormal circulation?

Answer 260

1. Hypoplasia of left ventricle (secondary to atresia of the mitral orifice)
2. Hypoplasia of ascending aorta (secondary to atresia of the aortic ortifice)
   **Remember: no flow, no grow

*Circulation: red blood (100% O2) from lungs –> LA cannot pass to LV and aorta –> passes through PFO or ASD –> RA and mixes with blue blood (60%) from SVC/IVC = 85% O2 –> RV –> pulmonary artery –> lungs and systemic circulation via PDA to descending aorta with blood flow retrograde to ascending aorta (to supply cerebral and upper extremity perfusion) and coronary arteries

• main problems:
  1. Increased pulmonary flow (from moderate or large ASD and all blood flowing into RA –> RV –> lungs)
  2. Pulmonary vein hypertension (from small ASD or restrictive PFO leading to backup of blood in LA and pulmonary vein)
  3. Inadequate maintenance of systemic circulation

Question 261

What are the clinical features of hypoplastic left heart syndrome? (3)

Answer 261

1. Increased pulmonary flow: can have pulmonary edema (crackles, wet lungs on CXR)
2. Decreased systemic circulation: weak or absent pulses, cyanosis, shock once PDA starts closing
3. Right ventricular volume overload: right ventricular parasternal lift
   **typically present within 1st few hours or days of life

Question 262

What 3 genetic syndromes can HLHS be seen in?

Answer 262

1. Turners
2. Trisomy 13
3. Trisomy 18

Question 263

What is seen on ECG of patients with HLHS?

Answer 263

1. Right ventricular hypertrophy (due to volume overload)
2. Prominent P waves (right atrial dilatation from volume overload)
3. Reduced left sided signals

Question 264

What is the association of central nervous system abnormalities with HLHS?
-association of dysmorphic features?

Answer 264

30% of HLHS have major or minor central nervous system abnormalities

• 40% of HLHS have dysmorphic features
• thus, need genetics, neuro, ophtho assessment before surgery

Question 265

What is the treatment for HLHS?

Answer 265

1. Prostaglandin E1 to maintain PDA
2. Norwood procedure

Question 266

Describe the Norwood procedure.

• stage 1 (commonly called the Norwood)
• stage 2
• stage 3

Answer 266

Stage 1 (neonatal period): commonly referred to as the Norwood

• atrial septectomy
• attach the proximal pulmonary artery to the hypoplastic aortic arch with a patch to form a neoaorta to supply systemic circulation
• Blalock-Taussig shunt connects the subclavian artery to the main pulmonary artery to increase total pulmonary blood flow and thus increases oxygen saturation to systemic circulation (decreases cyanosis)

Stage 2 (2-6 mo of age): Glenn anastomosis
-disconnect the SVC from the RA and connect it directly to the pulmonary arteries

Stage 3 (2-3 yr of age: modified Fontan procedure
-disconnect the IVC from the RA and connect it directly to the pulmonary arteries

Question 267

Describe the circulation in HLHS post Norwood procedure.

Answer 267

Blue blood from SVC/IVC enters pulmonary artery directly –> passive flow to lungs –> LA –> ASD –> RA –> RV –> pulmonary artery –> neoaorta to systemic circulation

Question 268

What are the common ductal-dependent cardiac lesions?

• ductal dependent pulmonary blood flow (4)
• ductal dependent systemic blood flow (3)

Answer 268

Ductal dependent pulmonary blood flow:

1. Critical pulmonary valve stenosis
2. Pulmonary atresia
3. TOF with severe pulmonary stenosis
4. Tricuspid atresia with pulmonary stenosis or pulmonary atresia

Ductal dependent systemic blood flow:

1. Coarctation of the aorta
2. Hypoplastic left heart syndrome
3. Interrupted aortic arch

Question 269

What is the distribution of aortic stenosis in males vs. females?

Answer 269

More common in males (3:1)

Question 270

What is the most common form of aortic stenosis and what is the pathophysiology?

Answer 270

Most common form: valvular aortic stenosis

• thickened aortic leaflets and commissures are fused
• obstruction to LV blood flow = increased LV systolic pressure = LVH

Question 271

What is the triad of Shone syndrome?

Answer 271

1. Subvalvular aortic stenosis
2. Mitral stenosis
3. Coarctation of aorta

Question 272

What are clinical features of Williams syndrome? (7)
-what is the underlying genetic mutation?

Answer 272

1. Supravalvular aortic stenosis
2. Developmental delay
3. Hypercalcemia
4. Elf face (prominent lips, abnormal teeth)
5. Hypothyroidism
6. Cocktail party personality
7. Joint hypermobility

Genetic mutation: chromosome 7q11.23 (codes for elastin protein)

Williams loves going to 7/11 to drink slurpees and socialize with his big lips

Question 273

What are the clinical features of aortic stenosis?
-murmur?

Answer 273

Think decreased left ventricular outtract flow and back up of blood into LA and lungs!

• decreased cardiac output = decreased pulses, decreased urine output
• left ventricular failure and pulmonary edema
• murmur: early systolic ejection click at apex and left sternal edge with RUSB murmur radiating to neck (aortic arch)

Question 274

What are findings on ECG of aortic stenosis?

Answer 274

1. LVH
2. left heart strain (inverted T waves in left precordial leads)

Question 275

What is the treatment for aortic stenosis?
-what is a complication of untreated severe aortic stenosis?

Answer 275

Balloon valvuloplasty or surgery
-untreated severe AS: sudden cardiac death especially during exercise

Question 276

What are patients with bicuspid aortic valves at increased risk for developing?

Answer 276

Dilated ascending aorta
-dissection and rupture are described in adult populations due to severe aortic root dilation but there is insufficient data to determine the risk in children (only isolated cases reported)

Question 277

What is the triad of Holt-Oram syndrome?

Answer 277

1. Hypoplastic or absent radii
2. 1st degree heart block
3. ASD

Question 278

What is the difference between an ostium primum and ostium secundum?

Answer 278

Both are types of ASDs

• ostium primum: defect is at center of the septum
• ostium secundum: defect is inferior and is part of an AV canal defect and can involve tricuspid or mitral valve abnormalities

Question 279

How do children with VSDs typically present?
-large vs. small

Answer 279

Large VSD: signs of CHF usually appear at 4-8 wks of age when the pulmonary vascular resistance drops and pulmonary blood flow increases from L-R shunting

Small VSD: spontaneous closure often occurs

Question 280

What is the indication for closure of ASD?
-when does it occur?

Answer 280

Secundum ASD associated with RV dilation (from volume overload) and increased pulmonary blood flow
-repair occurs electively at 3-5 years of age

Question 281

What are the clinical features of ASD?

Answer 281

Most children are asymptomatic
-when they do have symptoms, you hear a fixed split S2

Question 282

Why do you hear a fixed split S2 in ASD?

Answer 282

From RV volume overload and prolonged ejection of blood during systole leading to delayed pulmonary valve closure

Question 283

What is the result of persistent increased pulmonary blood flow?

Answer 283

Pulmonary HTN

Question 284

What is the pathophysiology behind congestive heart failure due to left to right shunting?
-Eisenmenger

Answer 284

1. Resp symptoms due to increased pulmonary blood flow and pulmonary edema
2. Increased left ventricular output since cardiac output to systemic circulation is decreased due to loss through the L to R shunt –> to maintain this output, have increased heart rate and stroke volume –> increased sympathetic nervous system activity –> increased catecholamines –> increased total body oxygen consumption, sweating, irritability and FTT –> remodeling of heart with dilatation and hypertrophy –> Eisenmenger (pulmonary hypertension with reversal of shunt from R-L)

Question 285

What are characteristics of Still murmur?

• location & quality
• age group

Answer 285

Classic vibratory murmur

• LLSB and apex
• low-frequency vibratory “twanging string”
• 3-6 yo
• turbulent flow out of LV
• decreases in intensity with sitting

Question 286

What are the characteristics of a pulmonary ejection murmur?

• location & quality
• age group

Answer 286

• ULSB
• early to midsystolic murmur
• crescendo-decrescendo
• 8-14 yo
• from turbulence of blood flow into the pulmonary vein

Question 287

What are the characteristics of a pulmonary flow murmur of newborn? (PPS)

• location & quality
• age group

Answer 287

• ULSB
• transmits to axilla and back
• premature and full-term newborns
• disappears by 3-6 months of age
• angulation or narrowing of peripheral pulmonary stenosis
• heard usually during resolving URTI

Question 288

What are the characteristics of a venous hum murmur?

• location & quality
• age group

Answer 288

Continuous, supraclavicular murmur
-3-6 years old
-from turbulence of flow in jugular venous system HENCE why you hear it best in the supraclavicular area
-can decrease it by turning neck or compressing the jugular venous system in the neck
*****ONLY INNOCENT MURMUR THAT WILL INCREASE WITH SITTING

Question 289

What are the characteristics of a carotid bruit murmur?

Answer 289

Right supraclavicular areas and over carotids
-any age

Question 290

What does sitting up do to:

• venous hum murmur
• Still’s murmur

Answer 290

Venous hum: increases with sitting up
Still’s: decreases with sitting up

Question 291

What is the most common innocent murmur?

Answer 291

Still’s murmur = medium pitched, vibratory or musical systolic ejection murmur heard at the LLSB

Question 292

What is pulsus alternans?

Answer 292

Pulsus alternans: beat to beat variability of pulse strength due to decreased left ventricular performance
-seen in severe CHF

Question 293

Describe the pathophysiology of pulsus paradoxus.

Answer 293

Fall in SBP > 10 mm Hg during inspiration

• NORMALLY: when you take a breath, you increase intrathoracic negative pressure and increase venous return to the right side of the heart and lungs = this causes blood pooling in the lungs and thus decreased pulmonary venous blood flow = decreased blood return to LA = decreased cardiac output = SBP drops by no more than 10 mm Hg. Also more right heart filling impairs left heart filling and decreased stroke volume
• IN PULSUS PARADOXUS: pressure is equalized between right heart and left heart = when right heart fills, pushes septum into left side of heart impairing filling since left heart cannot expand to accommodate blood flow with the constriction) = decreased stroke volume = drop in SBP > 10 mm Hg. Also can have increased negative thoracic pressure exerting a transmural load onto the LV and thus increases afterload, decreasing stroke volume

Question 294

What are causes of pulsus paradoxus? (4)

Answer 294

1. Pericardial tamponade
2. Constrictive pericarditis
3. Severe respiratory disease (status asthmaticus, pneumonia)
4. Myocardium diseases that affects wall compliance (amyloidosis)

Question 295

What is the antidote for digoxin toxicity?
-what if digibind is not available?

Answer 295

Digibind = digoxin-specific Fab antibody fragments = binds free digoxin in intravascular and interstitial space that forms inactive complex and then you pee it out

• if not available, can use phenytoin or lidocaine to stabilize the myocardium and decrease ventricular irritability
• atropine is helpful too
• also use activated charcoal

Question 296

How does Digoxin work?

What are the signs and symptoms of digoxin toxicity? (5)

Answer 296

• Digoxin blocks the Na-K-ATPase pump = leads to movement of K from intracellular to extracellular and movement of Na and Ca into cells
• increase of Ca in cardiac myocardial cells improves inotropy. Also decreases nodal conduction

Digoxin toxicity:

• bradycardia & heart block
• nausea and vomiting
• lethargy, confusion and weakness
• hyperkalemia
• pulsus bigeminus (2 heart beats close together followed by long pause)

Question 297

Why should digoxin NEVER be given in WPW patient?

Answer 297

Digoxin decreases AV nodal conduction BUT can enhance cnoduction through a bypass tract THUS increasing chance of ventricular fibrillation

Question 298

What connective tissue diseases may be associated with mitral valve prolapse? (3)

Answer 298

1. Marfan syndrome
2. Ehlers-Danlos syndrome
3. Osteogenesis imperfecta

Question 299

What is mitral valve prolapse?

• physical exam finding?
• treatment?

Answer 299

Abnormal mitral valve mechanism that causes billowing of one or both mitral valve leaflets into the LA at the end of systole

• physical exam finding: apical murmur with a click
• Minimal mitral valve prolapse can be a normal variant
• Treatment: nothing!

Question 300

What conditions are associated with the development of myocarditis?

(3 broad classes)

Answer 300

1. Infectious
   - bacterial: diphtheria, strep species, mycoplasma
   - viral: Coxsackie B (most common), HIV, echoviruses, rubella, adenovirus
   - fungal
   - protozoal: trypanosomiasis (Chagas disease), toxoplasmosis
2. Inflammatory
   - Kawasaki
   - SLE
   - RA
   - IBD
3. Chemical and physical agents
   - doxorubicin
   - radiation injury
   - lead
   - alcohol

Question 301

What is Chagas disease?

• clinical features (2)
• what is Romana sign?

Answer 301

American trypanosomiasis infection
-Romana sign (unilateral, painless, violaceous, palpebral edema accompanied by conjunctivitis) + CHF

Question 302

What are the causes of a single S2? (6)

Answer 302

• Physical presence of only one semilunar valve:
  1. Aortic atresia
  2. Pulmonary atresia
  3. Truncus arteriosus
• P2 not audible:
  4. Tetralogy of fallot (pulmonary stenosis)
  5. Transposition of great arteries
• A2 delayed:
  6. Severe aortic stenosis

Question 303

What is the cause of a loud P2?

Answer 303

Pulmonary hypertension since pulmonary valve is closing against pressure

Question 304

Name the 4 cyanotic CHD with increased pulmonary blood flow?

Answer 304

• Single ventricle pathology
  1. HLHS
  2. Truncus arteriosus

3. Transposition of the great vessels
4. TAPVR without obstruction

***These cause cyanosis because of systemic and venous blood mixing

Question 305

Name the 4 cyanotic CHD with decreased pulmonary blood flow?

Answer 305

1. TOF
2. Pulmonary atresia
3. Tricuspid atresia
4. TAPVR

***These cause cyanosis because of obstruction to pulmonary blood flow

Question 306

What syndrome is associated with pulmonary stenosis and hypercholesterolemia?

Answer 306

Alagille syndrome (hypercholesterolemia is secondary to liver disease)

Question 307

What evaluations can be done if a vascular ring is suspected? (5)

Answer 307

1. CXR: to identify right sided aortic arch
2. Barium swallow: was the gold standard; confirms external indentation of esophagus in 95% of cases
3. MRI: noninvasive and is the primary diagnostic modality
4. Arteriogram: rarely used
5. Echocardiogram: cannot identify the ring itself but can rule out congenital heart lesions which can occur simultaneously

Question 308

What is commotio cordis?

Answer 308

Ventricular fibrillation due to a blunt, non-penetrating direct blow to the chest during the vulnerable phase of repolarization

Question 309

What percentage of HOCM is genetically inherited?
-what is the inheritance pattern?

Answer 309

60% of HOCM is genetic
-AD

Question 310

What are the 4 common causes of AV block?

Answer 310

1. Myocarditis
2. Maternal history of lupus
3. Lyme disease
4. Acute rheumatic fever

Question 311

What cardiac defect is associated with maternal lithium use?

Answer 311

Ebstein’s anomaly

Question 312

What are the features of VACTERL syndrome?

Answer 312

Vertebral anomalies
Anal atresia
Cardiac defects
TEF
Renal agenesis/dysplasia
Limb defects

Question 313

What cardiac condition is associated with bilateral rib notching?

Answer 313

Coarctation of the aorta = due to collateral vessels forming around the ribs impairing bone growth

Question 314

Name two cardiac conditions in which a decrease or disappearance of a murmur is BAD NEWS BEARS.

Answer 314

1. Tetralogy of fallot: indicates worsening RV outflow tract obstruction
2. VSD: indicates that Eisenmenger syndrome has developed with increased pulmonary vascular resistance and thus reversal of shunt from R to L

Question 315

What are the ECG findings of hypokalemia? (3)

Answer 315

1. Prominent U wave (small deflection immediately following the T wave
2. Diphasic T wave
3. Depressed ST segment

Question 316

What are the ECG findings of hyperkalemia? (4)

Answer 316

1. Prolonged PR interval
2. Wide QRS
3. Tall, peaked T waves
4. Sinusoidal wave

Question 317

What is the definition of torsades de pointes?

Answer 317

Polymorphic ventricular tachycardia with a prolonged QT interval

Question 318

What vagal maneuvers can be used to treat SVT in infants? (2)

Answer 318

1. Ice in bag over face
2. Gagging with tongue depressor

***Do NOT use ocular pressure as it has been associated with retinal damage

Question 319

What are the two types of familial hypercholesterolemia?

• pathophysiology?
• features of each?
• bloodwork findings?

Answer 319

Lack of LDL receptors on cell membrane so no negative feedback loop to stop cholesterol production

Question 320

Who should be checked for elevated cholesterol levels?

Answer 320

2-10 year old:

• Family history (parent or grandparent) with age 95%)
• Diabetes
• Hypertension > 95th percentile
• Smokers
• nephrotic syndrome

Question 321

What is the management of hypercholesterolemia?

Answer 321

1. Lifestyle + diet modification x 6 months, then recheck
   - not a lot of research on pharmaceutical therapy on treating hypercholesterolemia in children
2. Statins

Question 322

What bloodwork should you monitor while patients are on statins? (2)

Answer 322

1. Liver enzymes
2. CK

Question 323

What are cardiac causes of SVT? (4)

Answer 323

1. Post op cardiac
2. Ebstein’s anomaly
3. Cardiomyopathy
4. Myocarditis

Question 324

What is the lethal arrhythmia of WPW syndrome?

Answer 324

Atrial fibrillation which then travels down the bundle of kent accessory pathway with a rapid ventricular response leading to ventricular fibrillation

Question 325

What is the most common cause of SVT in children?

Answer 325

WPW syndrome

Question 326

What are Osler nodes?
What are Janeway lesions?

Answer 326

Osler nodes: PAINFUL nodules on pads of fingers and toes in IE due to immune complex deposition

Janeway lesions: PAINLESS, hemorrhagic nodular lesions on palms and soles in IE due to septic emboli

Osler is a dude so he’s whiney when it comes to pain

Question 327

What are the signs of pericarditis on exam?

Answer 327

Friction rub, distended neck veins, hepatomegaly, pulsus paradoxus, muffled heart sounds

Question 328

What is the most important complication of untreated Kawasaki disease?

Answer 328

Coronary artery aneurysms –> heal with stenosis –> MI

Question 329

What is the typical age of children with Kawasaki disease?

Answer 329

6 mo - 5 yr
-however, can also happen in infants and teenagers (higher risk of developing coronary artery aneurysms, possible because of delayed diagnosis)

Question 330

What condition should be suspected if you see a child with fever for 5 days and marked erythema/induration around BCG scar?

Answer 330

Kawasaki = early, specific marker

Question 331

What is the medical management of Kawasaki disease?

Answer 331

1. IVIG: decreases incidence of coronary artery aneurysms
   - single infusion over 8-12 hrs of 2 g/kg
   - if still febrile > 36 hr after first infusion, can give second infusion of 2 g/kg
2. High dose aspirin (80 mg/kg div q6h) (decreases fever and discomfort, unclear whether it decreases coronary artery aneurysms) until fever free x 48 hrs, then switch to low dose aspirin (3 mg/kg/d) x 6-8 wks until f/u ECHO (decreases thrombotic complications).
   - If ECHO normal, d/c. If ECHO abnormal, then continue indefinitely.

Question 332

What is the likelihood of developing coronary artery aneurysms with untreated vs. treated Kawasaki disease?

Answer 332

Untreated: 25%
Treated: Lower

Question 333

What are the indications for prostaglandin E1 in the neonate?

Answer 333

1. Inadequate pulmonary blood flow:
   - Pulmonary atresia with intact ventricular septum
   - Tricuspid atresia with intact ventricular septum
   - critical pulmonary stenosis
2. Inadequate systemic blood flow:
   - HLHS
   - interrupted aortic arch
   - Critical coarc of aorta
3. Inadequate mixing
   - TGA

Question 334

What are the actions of the following receptors:

• alpha receptors
• beta 1 receptors
• beta 2 receptors
• dopaminergic receptors

Answer 334

• alpha receptors: vascular smooth muscle vasoconstriction
• beta 1 receptors: myocardial smooth muscle inotropy and chronotropy
• beta 2 receptors: vascular smooth muscle vasodilation (bronchodilation)
• dopaminergic: renal and mesenteric vascular smooth muscle vasodilation

Question 335

What are 2 common rhythm disturbances after the Fontan procedure?

Answer 335

Fontan procedure involves manipulation of the RA

1. Loss of sinus rhythm –> nonsinus atrial rhythm or junctional rhythm
2. Intra-atrial reentrant tachycardia

Question 336

What is the most common form of ASD?

Answer 336

Ostium secundum

Question 337

What are the findings on ECG of ASD?

Answer 337

1. Right axis deviation
2. RVH
3. RSR prime

Question 338

What are the indications for indomethacin in treating PDA? (3)
-dose?

What are the contraindications for indomethacin in treating PDA? (7)

Answer 338

Indications:

1. Deteriorating respiratory status
2. Poor cardiac output
3. Evidence of CHF
   - dose: indomethacin 0.1 mg/kg/day x 6 days

Contraindications:

1. Thrombocytopenia
2. Renal impairment
3. Active bleeding (GI or intracranial)
4. Proven or suspected untreated infection
5. NEC or suspected NEC
6. Evidence of bleeding diathesis
7. CHD in which PDA is needed for pulmonary or systemic blood flow

Question 339

What are the side effects of indomethacin?

Answer 339

1. Renal impairment
2. Platelet dysfunction
3. Pulmonary hemorrhage
4. GI hemorrhage
5. Hyponatremia
6. Hypoglycemia
7. Hyperkalemia (due to decreased renal function)

Question 340

What are 3 CXR findings of coarctation of the aorta?

Answer 340

1. Rib notching
2. Intrapulmonary vascular markings increased
3. 3-sign on left para mediastinal shadow
   - prominent aortic bulge, indentation of descending aorta, post stenotic dilation of aorta

Question 341

What is the most common cardiac defect associated with Noonan syndrome and Alagille syndrome?

Answer 341

Pulmonary stenosis

Question 342

What congenital heart defect is most commonly seen with congenital rubella syndrome?

Answer 342

Peripheral pulmonary stenosis (of the pulmonary arteries leading to restricted bloodflow to lungs)

Question 343

What is the differential diagnosis of intracranial bruit? (9)

Answer 343

1. Fever
2. Cardiac murmur
3. Intracerebral tumor
4. Thyrotoxicosis
5. Cerebral aneurysm
6. Increased ICP
7. Anemia
8. AV malformation (ie. vein of galen)
9. Meningitis

Question 344

What is the most common cardiac finding in IDM?
-treatment

Answer 344

Septal hypertrophy with possible left ventricular outflow obstruction

• resolves spontaneously within 1 year
• usually requires no treatment
• may need beta blockers if severe left ventricular outflow obstruction

Question 345

What is the vein of galen AVM?
-associated with? (2)

Answer 345

Blood is shunted from arterial vasculature into venous system so you get high output heart failure
-associated with heart failure & hydrocephalus

Question 346

What cardiac defect is a common cause of infective endocarditis in the Western world?

Answer 346

Mitral valve prolapse
-but do NOT need prophylaxis because incidence of infective endocarditis is so low and mitral valve prolapse incidence is low

Question 347

What is the most common type of cardiomyopathy caused by doxorubin?
-mortality risk?

Answer 347

Dilated cardiomyopathy

• dose dependent
• more likely to have cardiac damage if they have radiation treatment at the same time
• mortality risk if heart failure develops: 30-50%
• develops chronically (over months-years)

Question 348

What are ECG findings of anorexia nervosa?

Answer 348

1. Bradycardia
2. Low voltages
3. Prolonged QT
4. Wide QRS

Question 349

Where is the most common location of coarctation of aorta?

Answer 349

Juxtaductal (right beside PDA, below the origin of the left subclavian artery)

Question 350

What are the Duke’s Criteria for infective endocarditis?

Answer 350

Definite diagnosis:
1. Intracardiac or embolized vegetations on histology

Possible diagnosis:
Need 2 major, 1 major + 3 minor or 5 minor

Major:

1. 2 positive blood cultures
2. Evidence of endocardial involvement: positive echo for vegetations OR new regurg murmur

Minor:

• predisposition:
  1. Predisposition: predisposing heart condition OR IV drug use
  2. Fever
  3. Vascular phenomena: septic emboli to lungs, intracranial hemorrhage, conjunctival hemorrhages, janeway lesions
  4. Immunologic phenomena: glomerulonephritis, Roth spots, Osler’s nodes, positive RF
  5. Microbiological evidence: positive blood culture x 1 or of organism not known to cause IE
  6. Echocardiographic findings: consistent with IE but does not meet major criterion as noted above

Question 351

What organisms most commonly cause infective endocarditis? (4)

• what empiric abx would you start in a patient with suspected IE?
• treatment duration

Answer 351

1. Strep viridans
2. Staph aureus
3. Staph epi
4. H flu

• start Amp + Gent
• treatment duration 4-6 wks

Question 352

What are three causes of congenital heart block?

Answer 352

1. Maternal lupus
2. Sjogren’s syndrome
3. Myocardial tumors

Question 353

What is Pompe’s disease?

• how is it inherited?
• clinical features?
• lab findings?

Answer 353

Glycogen storage disease

• glycogen accumulates in cardiac, smooth muscle, and skeletal muscle
• autosomal recessive
• Presents with severe hypotonia, cardiomegaly & heart failure, feeding difficulties, constipation, hepatomegaly
• lab findings: elevated CK, LDH, AST

Question 354

What ECG findings are found in Pompe’s disease?
-CXR finding?

Answer 354

1. High voltage QRS due to ventricular hypertrophy
2. Shortened PR

CXR: ECG finding

Question 355

What are anesthesia considerations in pre-op assessment of Down Syndrome patient? (6)

Answer 355

1. Atlantoaxial instability: consider in intubation, order flex-ex views before intubation
2. Large tongue: difficult airway
3. Risk of post op resp infections
4. Congenital cardiac lesions: if repaired, increased risk of arrhythmias post-op
5. Pulmonary hypertension
6. OSA

Question 356

What is a cardiac condition that needs to be ruled out in every patient who has hypertension?

Answer 356

Coarctation of aorta

Question 357

In what condition do you see radio-femoral delay?
-what is the cause?

Answer 357

Radio-femoral delay: seen in coarctation of aorta
-normally, femoral pulse comes before radial pulse; however, it is reversed in coarc of aorta since femoral pulse is generated by collaterals which takes longer than the generation of radial pulse by large vessels

Question 358

In a patient with coarc of aorta, what does the presence of a systolic ejection click or thrill in the suprasternal notch suggest?

Answer 358

Bicuspid aortic valve (present in 70% of coarc cases)

Question 359

What is the underlying primary defect in tetralogy of fallot leading to the classic 4 findings?

Answer 359

Anterior deviation of the infundibular septum (conus)

• allows for the VSD to happen since septum can’t grow up towards the conus
• anterior deviation pulls the aorta forward giving the overarching aorta
• spasm of the excess muscle causing the anterior deviation leads to tet spell

Question 360

Why might a baby with TOF suddenly deteriorate at 7 days of life?
-what treatment should be started immediately?

Answer 360

If their right ventricular outflow tract obstruction is severe, their PDA may be their only means of pulmonary blood flow

• at 7 days, the PDA closes, thus causing them to go into cardiogenic shock
• treatment: PGE1

Question 361

What is the corrective surgical therapy for tetralogy of fallot?

Answer 361

1. Relief of RV outflow tract obstruction - resection of obstructive muscle bundles
2. Patch closure of VSD
3. Pulmonary valvotomy (if pulmonary valve is stenotic) or valvectomy (if pulmonary valve is thickened or too small = add in a transannular patch)
   - valvotomy = leads to pulmonary insufficiency
   - now we aim to leave as much of the pulmonary stenosis as we can to prevent backflow but add in a patch to allow good forward flow

2nd option (less preferred): BT shunt

Question 362

What is an alternate way of obtaining a BP if you are getting an inaccurate one from the monitor?

Answer 362

Doppler BP! (can only get SBP from it however since the doppler is so sensitive, you will still hear the pulse down to pressure of 0 so won’t be able to obtain DBP)

Question 363

How do you check for RV enlargement in a neonate?

Answer 363

Put your thumb under the xiphoid process - should not feel any pulse if RV is normal. If RV enlarged, will feel a pulse

Question 364

What is considered a pre/pos ducal sat differential?

Answer 364

>10% is abnormal

Question 365

What is the hyperoxic test?

Answer 365

1. Draw ABG on RA, expect PAO2 = 80-100 mm Hg; if PAO2 150 then it is likely not cardiac disease.
   ****Really, it is the lack of change with 100% O2 that indicates cardiac disease

Question 366

You have an unwell 2 mo baby with cyanosis and a CXR showing small heart and extremely wet lungs. What is your diagnosis?

Answer 366

Obstructed TAPVD
-blood is trying to get back to the heart through a small vessel and into RA. If PFO is open, bloodflow will go from RA to LA to LV to body. If PFO closes, then you’re screwed

Question 367

Difference in CXR findings between obstructed TAPVR vs. unobstructed TAPVR?

Answer 367

Obstructed (obstructed flow into the heart): small heart, very wet lungs (looks reticular, like RDS)
Unobstructed (L to R shunt): snowman sign, enlarged heart

Question 368

What is the classic finding of coarctation of aorta in neonate on ECG?
-in children?

Answer 368

• in neonates: RVH on ECG since it is the right heart that’s been pumping through the PDA against the coarctation
• in children: LVH on ECG since it’s the left heart that’s pumping against the coarctation

Question 369

What is the starting dose of PGE1?
-other management with starting PGE1?

Answer 369

Start high at 0.2 mcg/kg/minute IV

• Give a fluid bolus 20 cc/kg prior to prevent hypotension, run TFI at 130-150 cc/kg/d
• Best to leave baby free breathing if stablized from above. Intubate if severely acidotic

Question 370

What is the most common type of VSD?

Answer 370

Perimembranous (70%)

Question 371

When is surgical correction indicated in VSD?

Answer 371

When there is no weight gain

Question 372

What are the V4R and V3R for on ECG?

Answer 372

V4R, V3R = look at right sided pathology

Question 373

What is the fast way to access rate on ECG?

Answer 373

300, 150, 100, 75, 60, 50 for each big box (5 little boxes)

Question 374

What are the criteria for sinus rhythm? (2)

Answer 374

1. P for every QRS and QRS for ever P
2. Normal P axis

Question 375

At what age does RAD disappear on ECG?

Answer 375

After 6 months

Question 376

What does tall P wave on ECG signify? What about wide P wave or bifid?

Answer 376

Tall = right atrial enlargement
Wide or bifid = left atrial enlargement

Question 377

What is the treatment for first degree AV block?

Answer 377

Nothing - usually asymptomatic, seen in athletes, anorexia nervosa

Question 378

What are 4 potential causes of third degree (complete) AV block?

Answer 378

Myocarditis, lyme disease, congenital, cardiac surgery

Question 379

Which leads should you see Q waves?

Answer 379

Q waves = septal depolarizaion

• should be in the leads that look left (V5-V6) and leads that look down (II, III)
• abnormal if absent in the expected leads or presence in other leads
• common in African American population

Question 380

What is the difference between complete vs. incomplete RBBB?
-what is the significance of the LBBB?

Answer 380

Complete = > 3 small squares = common in post op cardiac paients

Question 381

What is the normal QTC in males vs. females?

Answer 381

QTC 500 msec, the risk of arrhythmias increases dramatically

Question 382

What are 2 signs on ECG of acute pericarditis?

Answer 382

1. Depression of PR interval
2. Diffuse ST elevation

Question 383

What does it mean if you have normal V1 and V6 but deep or tall V2-V4?

Answer 383

Nothing. This is normal in children

Question 384

What are ECG findings of LVH?

Answer 384

1. ST depression or T wave inversion in V5-7
2. S wave in V1 > 95h percentile for age
3. R wave in V6 > 95th percentile for age
4. Deep Q waves in V5-7

Question 385

What is a possible cause of myocardial ischemia in a young child?

Answer 385

Anomalous left coronary artery from the pulmonary artery = see biventricular hypertropy, Q wave in V6, ST elevation

Question 386

Which CHD are essentially normal children post-op (and thus we do not need to call cardio if these children present in ED)? (5)

Answer 386

No exercise restrictions, no limitations, they are essentially a normal child

1. VSD
2. ASD
3. AVSD
4. TAPVD
5. Coarctation

***Only care if there are residual lesions

Question 387

Which post-op CHD should we worry about if they present to ED (and thus call cardio)?

Answer 387

Degree of worry is based on residual defect:

1. TOF
2. TGA
3. HLHS

Essentially, worry MOST about Norwood, Glenn, Fontan, PA/VSD/MAPCAs (multiple aortopulmonary collaterals) = call cardio always if these patients come in for anything

Question 388

Why do we worry about children with a transannular patch for CHD presenting with gastroenteritis?

Answer 388

May have stiff RV = very dependent on preload for cardiac output to the lungs for oxygenation

Question 389

What are post-op complications of tetralogy of fallot?
-do we worry if they get a URTI/LRTI?

Answer 389

1. Severe PI –> dilated RV –> decreased RV function
2. Branch PA stenoses
3. Arrhythmias (RBBB) due to RV dilatation/transannular patch
   - since we expect them to be normal hemodynamically post-op, don’t worry about resp infections

Question 390

What is the surgical repair for TGA?

• what are post-op complications? (3)
• a patient post op TGA presents with chest pain. Worried or not worried?

Answer 390

Arterial switch operation at 2nd week of life (Jatene operation)

• coronary buttons are reimplanted
• LPA and RPA are draped in front of the aorta = pulling the PA anterior and can cause PA stenosis

Post-op complications:

1. Branch PA stenosis
2. Proximal coronary button stenosis
3. Dilatation of ascending aorta

Chest pain? = WORRY!

Question 391

Which CHD undergo norwood/glenn/fontan repair?

Answer 391

Overall: these have a single usuable ventricle and an unusable ventricle:
No pulmonary output: TA, PA, PS, Ebstein’s
OR
No systemic output: HLHS, MS
OR
Unobstructed pulmonary flow: single ventricle with no PS, DORV with PS

Question 392

What is the Norwood 3 stage palliation?
-ages for each?

Answer 392

Stage 1: norwood @ 7 d old
Stage 2: Glenn @ 4-6 mo
Stage 3: Fontan @ 3 yo

Question 393

What is the norwood operation?
-what happens if you give these children O2?

Answer 393

Overall: want the heart to be one big bag that pumps to the body and not at all to the lungs

1. Atrial septectomy (take out the atrial septum completely)
2. Cut the MPA off the heart
3. Take the outflow tracts (aorta and MPA) and merge them with a patch (pericardium or gortex) = sew together = DKS = side to side anastamosis
4. BT shunt = systemic to pulmonary shunt = allows just enough blood to go to the PA from the systemic circulation
   - it does siphon away blood from the coronaries during diastole (blood can choose to go through the aorta to the coronary OR through the BTS to the PA…will usually choose BTS because pulmonary pressures are lower than systemic = this is why 30% of children die from this = coronary steal)
   - new procedure now = hybrid procedure: only put in a PDA stent with bilateral PA bands so that there is still pulmonary flow from the descending aorta without compromising coronary artery flow, then postpone the rest of the Atrial septectomy, MPA removal, etc. in Glenn procedure
   - normal stas: 75-85%
   - O2 causes pulmonary vasodilation and increases pulmonary blood flow; this is BAD because it STEALS the blood from their systemic circulation and can cause arrest so do NOT target 100% sats!

Question 394

What are the expected O2 sats for post-Glenn?
-what happens if you give O2 to Glenn?

Answer 394

Normal sats = 75-85%

• O2 causes pulmonary vasodilation and increases pulmonary blood flow and increase cardiac output since the blood will then go back to the body
• if high PVR = blood can’t flow to lungs and thus blood can’t flow to the system since they have a SERIES circuit instead of parallel

Question 395

What are 3 questions to ask the patient who has gone through the Norwood 3 stage procedure? (ie. fontan is completed)

Answer 395

1. What are your baseline sats?
2. Are you fenestrated?
   - protective mechanism against pulmonary hypertension
   - if the pressures in the lung are so high that blood can’t flow there, then at least the blood will flow from the extracardiac conduit (tube that connects IVC to PA) to the right atrium (that isn’t being used), through the ASD, into the LA –> LV to be pumped to the body = at least you’ll get some O2 to systemic circulation
   - this is why they are on anticoagulation = if they have a thrombus somewhere, can flow from right side to left side and get a stroke!!! Bad!
   - if yes: sats can be low 85%
   - if no, sats should be normal
3. Is your warfarin therapeutic?

Question 396

What is the Fontan procedure?
-complications? (4)

Answer 396

Essentially, you cut the IVC off the heart and connect it to an extracardiac conduit which then connects to the PA

• you do get sluggish flow
  1. Fontan circuit obstruction (thrombosis, vascular stenosis)
  2. Outflow obstruction
  3. Ventricular dysfunction
  4. Arrhythmias
  5. Strokes

Question 397

What does 80% sat on a finger mean in a kid with a single ventricle?

Answer 397

Tells you there is equal bloodflow to the lungs and the body
Ao sat% - SVC sat% / PV Sat % - PA sat%
-Ao and PA sats should be the same
-SVC sat % = expected to be 60%
-PV sat% = expected to be 100%

= 80-60/100-80 = 20/20 = 1:1 = this is why we target 80% sats!

If sats = 90%, this tells you there is too much PBF and not enough to body
If sats = 70%, there is too little PBF
-if you have wet lungs, then this is BAD, means overcirculation BUT your sats will be high so don’t let this trick you

Question 398

What are the effects of the following on children with single ventricle pathophysiology?

• URTI
• Gastroenteritis

Treatment?

Answer 398

Colds increase PVR thus decreasing PBF
V&D decreases SBF from hypovolemia

Treatment: GIVE VOLUME!!! Don’t be worried about giving them too much fluid!

Question 399

What is the cause of sinus arrhythmia?

Answer 399

Increased vagal tone
-HR increases with inspiration, decreases with expiration

Question 400

What are 5 causes of first degree AV block?

Answer 400

1. High vagal tone
2. Acute rheumatic fever
3. Hyper/hypokalemia, hypermagnesemia
4. Drug effect/toxicity (digoxin)
5. Lyme disease
6. CHD: ASD, AVSD, ebstein’s anomaly

Question 401

What are the 2 types of second degree AV block?

Answer 401

Mobitz I (Wenckebach): progressive PR lengthening prior to block
-usually due to high vagal tone

Mobitz II: no change in PR interval before block

• THIS is the one that should worry us!
  1. Exposure to maternal autoantibodies (ie. SLE)
  2. Drugs
  3. CHD

Question 402

What are 2 common causes of 3rd degree block?

Answer 402

1. Postop CHD
2. Lyme disease

Question 403

What are PACs?
-treatment?

Answer 403

Premature P waves differing in axis and morphology from normal sinus P waves
-AV conduction may be normal, aberrant (BBB), or blocked
-Rarely require treatment
(50% newborns, 14-64% infants & children)

Question 404

How can you tell the difference between AVRT and AVNRT on ECG? (2)

Answer 404

AVRT = retrograde P waves following QRS, with RP interval > 0.07 sec
-more common in infants/children
AVNRT: retrograde P waves within QRS or at terminal end, RP internal

Question 405

How does the valsalva work for SVT?

Answer 405

Increases intra-thoracic pressure and affects baro-receptors (pressure sensors) within the arch of the aorta = increases vagal tone = needs to be in the supine position x 15 seconds

Question 406

What 5 medications can be used for acute treatment of SVT?
-what 4 medications can be used for chronic treatment of SVT?

Answer 406

Acute treatment:

1. Adenosine
2. Verapamil
3. Procainamide
4. Esmolol
5. Amiodarone

Chronic treatment:

1. Propranolol
2. Sotalol
3. Flecainide
4. Propafenone

Question 407

What 2 populations will you see atrial flutter in?

Answer 407

Atrial rates 250-480 bpm

1. Neonate with structurally normal heart
2. Older patient s/p CHD surgery

Question 408

What 2 populations will you see atrial fibrillation in?
-treatment?

Answer 408

Atrial rates > 350 bpm
“Irregularly irregular” ventricular response
1. CHD
2. Thyrotoxicosis
-if no prior CHADS (congestive heart failure, hypertension, diabetes, stroke), no oral anticoagulation needed. Just cardiovert

Question 409

Why do we not worry about accelerated idioventricular tachycardia?

Answer 409

Not worrisome because starts and stops by itself, rate is not that much faster than sinus
-still important to make sure heart is structurally normal with an ECHO

Question 410

How much deoxygenated hemoglobin must be present before you can clinically see cyanosis?

• how does this change in a patient with anemia?
• how does this change in a patient with polycythemia?

Answer 410

5 g/100 ml of deoxygenated hemoglobin must be present before cyanosis can be appreciated

• in anemic patient: have much less hemoglobin so need higher percentage of reduced hemoglobin before cyanosis will be appreciated. Thus they might be hypoxemic without showing any cyanosis
• in polycythemic patient: have much more hemoglobin so need lower percentage of reduced hemoglobin before cyanosis will be appreciated. Thus they might be cyanotic without actually being hypoxemic

Question 411

What is the treatment for hypertrophic cardiomyopathy?

Answer 411

1. No competitive sports and strenuous physical activity = risk of sudden death
2. Beta blockers or calcium channel blockers = diminish ventricular outflow tract obstruction, modifies ventricular hypertrophy, improves ventricular filling
3. Anti arrhythmics or implantable cardioverter defibrillator = if patients have history of arrhythmias, strong family histories of arrhythmias or sudden death, patients with syncope
4. Screen first degree relatives with ECG and ECHO, genetic testing

Question 412

What connective tissue diseases may be associated with MVP?

Answer 412

Marfan syndrome, Ehlers-Danlos syndrome, pseudoxanthoma elasticum, osteogenesis imperfecta, and Hurler syndrome may be associated with MVP.

Question 413

Name five disorders in which a screening ECG might identify a subject at risk for sudden death

Answer 413

• Wolf-Parkinson-White syndrome: short PR, delta wave, T wave abnormalities leading to supraventricular tachycardia and ventricular fibrillation
• Prolonged QT syndrome: Secondary to congenital channelopathy, electrolyte or drug-induced abnormality leading to ventricular tachycardia and torsades de pointes
• Brugada syndrome: Right ventricular conduction delay with profound ST elevation in V1-V3 leading to ventricular fibrillation
• Hypertrophic cardiomyopathy
• AV block

Question 414

What are two of the more common neuromuscular diseases in which a cardiac consultation is routinely recommended?

Answer 414

•

Duchenne muscular dystrophy is an X-recessive disease with an abnormality in the dystrophin gene, which leads to muscle necrosis and fibrosis. Although the majority of deaths are due to respiratory insufficiency, death from cardiomyopathy can occur in up to 25% of patients. Symptoms of heart disease are typically hidden by the skeletal myopathy that masks any exercise-induced complaints such as shortness of breath with exertion. Therefore, screening echocardiograms and ECGs are recommended for long-term follow-up.

•

Friedrich ataxia is an autosomal recessive disorder involving a gene encoding frataxin, a mitochondrial protein. Symptoms include ataxia and muscle weakness, typically manifesting by 9 years of age. Cardiac abnormalities include both dilated and concentric cardiomyopathies. Atrial fibrillation and atrial flutter are commonly reported arrhythmias. Because muscle weakness and ataxia will prevent prolonged exertion, periodic echocardiograms and ECGs are recommended.

Question 415

Decreased pulmonary markings (diminished pulmonary blood flow)

Answer 415

Pulmonary atresia or severe stenosis

•

Tetralogy of Fallot

•

Tricuspid atresia

•

Ebstein anomaly

Question 416

Increased pulmonary markings (increased pulmonary blood flow)

Answer 416

•

Transposition of great arteries

•

Total anomalous pulmonary venous return

•

Truncus arteriosus

Question 417

What are the common ductal-dependent cardiac lesions?

Answer 417

Ductal-dependent pulmonary blood flow

•

Critical pulmonary valve stenosis

•

Pulmonary atresia

•

Tetralogy of Fallot with severe pulmonary stenosis

•

Tricuspid atresia with pulmonary stenosis or pulmonary atresia

Ductal-dependent systemic blood flow

•

Coarctation of the aorta

•

HLHS

•

Interrupted aortic arch

Question 418

What should parents be told about the risk for recurrence of common heart defects?

Answer 418

The risk for CHD in pregnancies after the birth of one affected child is about 1% to 4%. With two affected first-degree relatives, the risk is about 10%. With three affected children, the family may be considered at even higher risk.

Question 419

Common Cardiac Causes of Congestive Heart Failure in a 6-Week-Old Infant

Answer 419

1.

Ventricular septal defect

2.

Atrioventricular canal

3.

Patent ductus arteriosus

4.

Coarctation of the aorta

Question 420

the murmurs

Answer 420

Question 421

If both parents are asthmatic, what is the risk that their child will have asthma?

Answer 421

The risk is 60%. For a child with only one parent with asthma, the risk is estimated to be about 20%. If neither parent has asthma, the risk is 6% to 7%.

Question 422

A patient with chronic sinusitis and recurrent pulmonary infections has a chest radiograph that demonstrates a right-sided cardiac silhouette. What diagnostic test should be considered next?

Answer 422

Bronchial or nasal turbinate mucosal biopsy for electron microscopic evaluation of cilia should be performed. Kartagener syndrome is one of the ciliary dyskinesia (or immotile cilia) syndromes

Question 423

A 2-day-old infant presents in congestive heart failure. He has hydrocephalus. He has a seizure 1 hour after admission. Most likely cause:

a) vein of Galen aneurysm
b) intraventricular hemorrhage

c) hypoxic ischemic encephalopathy d) cerebral abscess
e) meningitis

Answer 423

a) vein of Galen aneurysm

Question 424

33. Which of the following is associated with an increased risk of necrotizing fasciitis?

a) parvo virus
b) roseola
c) Kawasaki disease d) varicella
e) rosacea

Answer 424

d) varicella

Question 425

PGE SE

Answer 425

• apnea/respiratory depression
• cutaneous vasodilation/flushing (10%)
• fevers
• hypotension

Question 426

PDA NSAID SE

Answer 426

• renal failure
• decreased u/o
• bleeding (platelet adhesion defect)
• IVH
• GI bleeding/NEC -CNS bleeding -hyponatremia

Question 427

List four clinical signs of endocarditis in a patient with fever and a new murmur.

Answer 427

• splenomegaly, petichiae
• osler nodes, janeway lesions, roth spots, splinter hemorrhages

-tachycardia -evidence of CHF -athritis

Question 428

4 risk factors for atherosclerosis.

Answer 428

• smoking
• DM2
• hyperlipidemia

-early MI in family

Question 429

Neonate with complete heart block. ECHO normal. List 2 causes.

Answer 429

-congenital: maternal lupus or Sjogren syndrome other AI disease

• genetic: long QT
• Congenital malformation of conduction system – Kearn-Sayre syndrome

Question 430

2 year old with signs of CHF. EKG looks like SVT. Give 3 things that would suggest SVT on EKG

Answer 430

Narrow complex
Tachycardia >200
No P waves visible, abnormal P waves

Question 431

WhatisthemostsensitivePFTforsmallairwaysdisease:

a) FEV1
b) FEV1/FVC
c) FEF25-75

Answer 431

c) FEF25-75

Question 432

A patient with recurrent pneumonia, sinusitis, bronchiectasis in RML. One should investigate for all of the following except:

1. CF
2. Alpha-1-antitrypsin deficiency
3. Ciliary dyskinesia
4. Hypogammaglobulinemia
5. CGD

Answer 432

2. Alpha-1-antitrypsin deficiency

Question 433

4 causes of a false postive sweat chloride test

Answer 433

• eczema
• ectodermal dysplasia
• malnutrition/FTT
• anorexia nervosa
• CAH
• adrenal insufficiency
• glucose-6-phosphatase deficiency -nephrogenic DI
• hypothryoidism

Question 434

Teenager with history of asthma. She is currently on Fluticasone 125 mcg bid. She has been needing to use her Ventolin puffers, two to three times a week in the day time over the past while. What four suggestions could you make for her management?

Answer 434

• ensure correct technique with MDIs, ensure compliance -evaluate for triggers: ?environmental, ?allergies
• could increase dose of fluticasone switch to ciclesonide -could add singular or LABA
• CXR, PFTs
• evaluate for possible VC dysfunction, anxiety component to symptoms -teach how to do peak flow monitoring at bedside

Question 435

You are unable to obtain a sweat sample in a neonate. List 3 other ways to confirm the diagnosis of CF.

Answer 435

• nasal potential difference
• genetic test for common mutations
• newborn screen (serum immunoreactive trypsinogen)