Exam 2 Endocrine

Question 1

What are the functions of the Pancreas?

Answer 1

Digestion, metabolism, utilization, and storage of energy substrates.

Made up of Exocrine and Endocrine cells.

Question 2

The endocrine cells (islets of Langerhans) of the Pancreas are composed of what kind of cells?

Exocrine cell function.

Answer 2

Alpha cells – 18-20% (Glucagon)
Beta cells – 75% (Insulin)
Delta cells – 5% (Somatostatin)

Exocrine secretes digestive enzymes into the small intestine to aid in digestion.

Question 3

The hormone that increases BS by stimulating hepatic glucose production

Answer 3

Glucagon

Question 4

The hormone that decreases BS

Answer 4

Insulin

Question 5

Glucose physiology is a balance between_______
and _________.

Answer 5

Glucose physiology is a balance between glucose utilization
and endogenous production or dietary delivery.

Question 6

What organ is the primary source of endogenous glucose production?

About 70 to 80% of the glucose that the ______ produces is metabolized by the _______, _________, and ________.

Answer 6

The Liver: Glycogenolysis (glycogen to glucose) and gluconeogenesis (synthesis of glucose from non-carb precursors)

About 70 to 80% of the glucose that the liver produces is metabolized by the Brain,GI tract,& RBCs.

Question 7

PancreasInsulin/Glucagon Feedback Loop

Answer 7

Question 8

What is Diabetes Mellitus?

Signs and Symptoms of Diabetes Mellitus

Answer 8

Inadequate supply of insulin
Inadequate tissue response to insulin

Hyperglycemia (several days to weeks), fatigue, weight loss
Polyuria, polydipsia, blurred vision,hypovolemia

DM can lead to Micro- and macrovascular complications

Question 9

Type 1 DM Characteristics

Answer 9

T cell–mediated autoimmune destruction of beta cells
Absence or minimal circulating levels of insulin
80%–90% beta cell function lost
Always need insulin

Question 10

Type 2 DM Characteristics

What are 3 things we see in DM 2?

Answer 10

Relative beta cell insufficiency and insulin resistance
Pancreatic cell function decreases⇨insulin levels are unable to compensate⇨hyperglycemia

1. Increased rate of hepatic glucose release
2. Impaired basal and stimulated insulin secretion
3. Insulin resistance

Question 11

DM Diagnosis

A1C:
Fasting Glucose (8 hours):
Glucose Tolerance Test:
Random Glucose:

Answer 11

Question 12

DM Treatment (Initial Therapy)

Answer 12

Diet, weight loss, and increased activity

Biguanides – decreases hepatic gluconeogenesis and enhances the utilization of glucose by skeletal muscle and adipose tissue (metformin)- First-line treatment

Sulfonylureas – stimulating insulin secretion from beta cells (glyburide, glipizide, glimepiride)

Question 13

Types of Insulin for DM Treatment.

Answer 13

Rapid Acting or Short Acting (Regular) -Provides glycemic control at mealtimes

Basal -Intermediate-acting and administered 2x daily

Long Acting -Administered once daily

Question 14

What is DM DKA and Sign/Sx

Answer 14

Usually seen in DM-1 patients: Severe insulin deficiency and unrestrained lipolysis lead to hypovolemia and anion gap metabolic acidosis

Decreased sodium, potassium, and phosphorus

Signs and symptoms
Tachypnea (Kaussmal), N/V, altered LOC, dehydration

Question 15

DM DKA
Serum Glucose Level
pH
HCO3-
Serum Osmolarity
Serum and urine ketone levels

Answer 15

Question 16

DMDKA Treatment

Answer 16

IVF (NS or LR)
Regular insulin gtt (goal: pH > 7.3 and HCO3-> 18 mEq/L)
Replace electrolytes
NaHCO3- if pH < 7.0
Blood glucose levels Q1H or more

Question 17

DMHyperglycemic hyperosmolar syndrome (HHS) description, labs, and symptoms.

Answer 17

Present in DM2 patients: Severe hyperglycemia, hyperosmolarity, and dehydration.

metabolic acidosis (only in severe dehydration or organ failure secondary to HHS)

Question 18

DMHyperglycemic hyperosmolar syndrome (HHS) treatment.

Answer 18

Fluid resuscitation, insulin gtt ,and electrolyte replacement

Hypotonic saline if plasma osmolarity >320mOsm/L to bring osmolarity down.

Question 19

What microvascular complications can be seen with DM?

Answer 19

Renal failure
Proteinuria and decreased GFR

Peripheral neuropathy
Decreased perception of pain and temperature
Dysesthesia (abnormal sensation), paresthesia (pins/needle sensation), and neuropathic pain
Lower extremity ulcers, foot fractures, amputations

Retinopathy

Question 20

Autonomic Neuropathy of DM
CV:
GI:

Answer 20

CV – systolic and diastolic dysfunction w/ reduced EF, dysrhythmias, orthostatic BP/HR changes (silent changes)

GI – gastroparesis (delayed gastric emptying), feel full early, N/V

Question 21

Macrovascular Complicationsof DM

Answer 21

Elevated triglyceride levels, low HDL, and high LDL

Question 22

DMAnesthetic Considerations
CV:
Renal:
GI:
MS:
Insulin and Meds:

Answer 22

CV: MI and myocardial ischemia, Pre-op EKG

Renal: Tight HTN control, maintain renal blood flow, Watch U/O if surgery is longer than hour, put in a foley.

GI: Gastroparesis Treat pt as full stomach

MS: limited joint mobility, position with care, and use pads, document. Prayer Hands, pictured

Insulin and Meds:
One-third to half of the usual NPH morning dose day of surgery- best to talk to patient
Hold regular or rapid-acting morning dose
Insulin pump – continue the basal rate or reduce up to 25%
D/C PO meds morning of sx

Question 23

How many lobes and isthmus make up the thyroid?

Answer 23

2 lobes
1 isthmus

Question 24

How many parathyroid glands are there?

Answer 24

4

Question 25

Fucntion of Thyroglobulin and Parafollicular C cells

Answer 25

Thyroglobulin: T3 and T4 productions
Parafollicular C cells: calcitonin production, secreted d/t hypercalcemia

Question 26

Thyroid HormoneSynthesis Process

Answer 26

Exogenous iodine comes from our diet (salt).

Iodine reduced to iodide

Iodide binds to thyroglobulin and gets catalyzed by peroxidase to form inactive monoiodotyrosine and diiodotyrosine which will undergo coupling to form T3 and T4.

Even though there is a 10:1 T4 to T3 ration, T3 is 3x-4x more active than T4.

Question 27

Hypothalamus Pituitary Thyroid (HPT) Feedback Loop

Answer 27

Thyroid function controlled by hypothalamus, pituitary, and thyroid glands

Hypothalamus: Thyrotropin-releasing hormone (TRH) secreted to anterior pituitary

Anterior Pituitary: Thyrotropin-stimulating hormone (TSH) released to thyroid gland

Thyroid Gland: Synthesis and secretion of T4 and T3

Cell: T4 converted to T3 by iodinase enzyme

Homeostasis

Question 28

ThyroidHormone Functions

Answer 28

Increases myocardial contractility decreases SVR, increases intravascular volume

Stimulates protein synthesis, carbohydrate metabolism, and lipid metabolism

Regulation of weight, temperature, energy levels

Question 29

Hyperthyroidism: TSH and T3/T4 levels

Hypothyroidism: TSH and T3/T4 levels

Answer 29

Hyperthyroidism = low TSH with elevated T3and T4

Hypothyroidism = high TSH with reduced levels of T3 and T4

Question 30

What is Hyperthyroidism?
Signs and symptoms.

Answer 30

Hyper-functioning thyroid gland, with excessive secretion of T3 and T4

Question 31

What is Graves disease?
Who does it occur more in?

Answer 31

A systemic, autoimmune disease where thyroid-stimulating antibodies cause the thyroid gland to release large amounts of T3/T4 (you will see a low TSH level).

Occurs in females > males

Question 32

What is ThyroidThyroid Storm (Thyrotoxicosis)

Signs and Sx.

Treatment.

Answer 32

Life-threatening exacerbation of hyperthyroidism

S/S: extreme anxiety, fever, tachycardia, CV instability, dehydration, and altered consciousness

TX: alleviate thyrotoxicosis and general supportive care
Crystalloids - should contain glucose
Dexamethasone - stop the peripheral conversion of T4 to T3
Propylthiouracil (PTU) - interferes with the peroxidase enzyme
Phenylephrine - if the patient goes into circulatory shock
Beta-blockers (propranolol) - control HR, and will also stop peripheral conversion from T4 to T3

Question 33

Hyperthyroidism Treatment (Durgs/Procedures)

Answer 33

Propylthiouracil (PTU) - first-line treatment, overloads the peroxidase enzyme, 6-8 weeks before surgery to achieve a euthyroid state.

Iodide - large overdose will decrease T3 and T4 production (short-term fix).

Beta antagonists - Propranolol will decrease the peripheral conversion of T4 to T3.

Subtotal or total thyroidectomy- can inadvertently remove the parathyroid hormone

Ablation

Question 34

HyperthyroidAnesthetic Considerations.
Meds:
Airway:
Drugs to Avoid:
Eyes:

Answer 34

Want to achieve euthyroidism (use PTU 6-8 weeks)
If it is an emergency case, use β-blockers (propranolol), ipodate (iodide), and glucocorticoids to achieve short-term euthyroid.

Upper airway evaluation (look for goiter)

Avoid drugs that cause SNS stimulation
Epinephrine, ephedrine, ketamine, pancuronium, atropine

Eye protection - Exophthalmos, use an ointment and tape their eyes.

Question 35

Hypothyroidism characteristics and conditions.

What autoimmune disorder is associated with this?

What will TSH and T3/T4 labs look like?

Medication for Treatment.

Answer 35

Decreased production of thyroid hormones despite adequate or increased levels of TSH

Hashimoto thyroiditis - Autoimmune disorder where antibodies attack the thyroid gland. There will be a goiter present d/t inflammation and the TSH trying to stimulate the thyroid gland.

Labs: High TSH with reduced levels of T3 and T4

Treatment: Levothyroxine, Go ahead and take this medication before surgery.

Question 36

Hypothyroidism S/S

Answer 36

Question 37

HypothyroidAnesthetic Considerations

Answer 37

Continue Levothyroxine

Airway- look for goiter/obstruction

Decreased GI emptying- treat as full stomach if they are not compliant with levothyroxine.

Hypodynamic CV - give anesthesia with care

Decreased ventilatory responsiveness- may take longer

Hypothermia - warm them with blankets.

Elective surgeries can wait until the euthyroid state has been achieved.

Question 38

Adrenal Gland is made of up what two components?
What does each component release?

Answer 38

Adrenal cortex (outer layer)
Glucocorticoids (Cortisol) - “Sugar”
Mineralocorticoids - “Salt”
Androgens - “Sex”

Adrenal medulla (inner layer)
Epinephrine (85%)
NE (15%)

Question 39

What is the hypothalamic-pituitary-adrenal (HPA) axis?

Answer 39

A neuroendocrine mechanism that mediates the effects of stressors by regulating numerous physiological processes, such as metabolism, immune responses, and the autonomic nervous system.

Question 40

What does cortisol regulate?

How is cortisol inactivated and how is it excreted?

Answer 40

Regulate:
Carbohydrate, protein, and fatty acid metabolism
Enhances gluconeogenesis
Anti-inflammatory effects
Maintenance of blood pressure
Promotion of appetite
Na/K maintenance

Cortisol is inactivated by the liver; excreted in urine

Question 41

What isPheochromocytoma?

Where are chromaffin cells located?

What is the percentage of NE: EPI released d/t pheochromocytoma?

Answer 41

Catecholamine-secreting tumor from the Chromaffin cells. The cause is unknown.

Chromaffin cells are located in the adrenal medulla

85% Norepinephrine and 15% Epinephrine This percentage is switched in the normal adrenal medulla.

Question 42

Pheochromocytoma S/S

Answer 42

Extreme HTN (>220/120)

Headache, sweating, pallor, and palpitations

ECG will show
ST-segment elevation or depression
Left Axis Deviation
Dysrhythmias

Question 43

PheochromocytomaAnesthetic Considerations

Answer 43

Phenoxybenzamine
Non-competitive α-blocker
D/C 24-48 hours before surgery

Prazosin and doxazosin
α1-competitive blockers

Metyrosine - Catecholamine synthesis inhibitor

CCBs and ACE-I - use to control hypertension

Tachycardia > 120 bpm or other dysrhythmias after α-blockade, give β-adrenergic blocker
Avoid beta blockade before alpha blockade

Question 44

What is Cushing Syndrome (Hypercortisolism)?

Answer 44

Chronic exposure to excess glucocorticoids.
Overproduction of ACTH leads to excess cortisol.
Can also develop from chronic exposure to exogenous corticoids.

Question 45

Cushing Syndrome (Hypercortisolism) S/Sx.

Answer 45

Truncal obesity
Hyperglycemia
HTN
Skeletal muscle weakness
Osteoporosis
Hypokalemia

Question 46

Cushing Syndrome Treatment

Answer 46

Transphenoidal microadenomectomy
Anterior pituitary resection

Question 47

Cushing Syndrome Anesthetic Considerations

Answer 47

Blood glucose and HTN control
Assess skeletal muscle weakness
Replace potassium

Question 48

Conn Syndrome(Primary Hyperaldosteronism) characteristics and S/S.

Answer 48

Mineralocorticoid (aldosterone) excess, usually a result of a tumor

S/S
Hypokalemic HTN (LOW K+ and High BP)
Skeletal muscle weakness and cramps
Headache
Polyuria
Nocturia

Question 49

Conn Syndrome Treatment and Anesthetic considerations.

Answer 49

HTN control
Restricting sodium intake
Spironolactone
Potassium replacement
Volume replacement

Question 50

Addison’s Disease (Primary Adrenal Insufficiency) Characteristics and S/S.

Answer 50

The underproduction of glucocorticoids, mineralocorticoids, and androgens d/t bilateral adrenal destruction

S/S
Fatigue, weakness,anorexia, N/V, hyperpigmentation (tan), hypovolemia, hyponatremia, and hyperkalemia

Question 51

Addison’s Disease (Primary Adrenal Insufficiency) Anesthetic Considerations.

Answer 51

Anesthetic Considerations
Preoperative glucocorticoid coverage
Electrolytes (Na+ replacement)
Hydration
Minimal doses of narcotics

Question 52

HPA Suppression and Stress Dose

Answer 52

Exogenous glucocorticoids suppress cortisol secretion
Adrenal insufficiency and adrenal atrophy
May blunt the normal cortisol hypersecretion

Stress dose with HPA Suppression if patient has taken
>20 mg prednisone/day, >3 weeks
No suppression with short-duration, low-dose steroids

Question 53

What hormone does the parathyroid gland release? What is its function?

Answer 53

PTH
Calcium levels and bone remodeling

Low Serum calcium and Low vitamin D will increase PTH

Question 54

PTH and Calcitonin reponse loop

Answer 54

Question 55

What isHyperparathyroidism, what is it caused by, and what age group does it most likely affect?

Answer 55

Excess production of PTH leads to hypercalcemiawith calcium levels exceeding 5.5 mEq/L (normal 4.4-5.2 mEq/L).

Usually caused by parathyroid hyperplasia or a parathyroid adenoma (90%).

Age group affected: the 30s-50s.

Question 56

Hyperparathyroidism S/S
CNS:
NM:
GI:
Renal:
Early S/S:

Answer 56

CNS: confusion, depression
NM: weakness, fatigue
GI: anorexia, N/V, constipation, PUD
Renal: kidney stones
Early S/S: sedation and vomiting. Loss of skeletal muscle strength and mass noted.

Question 57

Hyperparathyroidism treatment and anesthetic considerations

Answer 57

Treatment: Parathyroidectomy

Anesthetic Considerations
Hydration
NMBDs unpredictable - d/t hypercalcemia, use less
Positioning - osteoporosis
Confusion/weakness
ECG

Question 58

Hypoparathyroidism characteristics and S/S.
CNS:
MS:
Respiratory:
CV:

Answer 58

Absence/ deficiency of PTH secretion or resistance of PTH to peripheral tissues which will lead to Hypocalcemia (Ca < 4.5 mEq/L).

CNS: fatigue and seizures
MS: skeletal muscle spasms, tetany
Respiratory: stridor and apnea
CV: Prolonged QT

Question 59

Hypoparathyroidism Treatment and Anesthetic Considerations

Answer 59

Treatment: Electrolyte replacement

Anesthetic Considerations:
Electrolytes
cautious administration NMBDs and sedatives
ECG
Avoid respiratory alkalosis (Lowers ionized Ca2+ levels).

Question 60

Hormones of the Pituitary Gland

Answer 60

Anterior and posterior lobes

Anterior pituitary
GH, TSH, FSH, LH, ACTH, Prolactin

Posterior pituitary
Vasopressin (ADH) and oxytocin

Question 61

What is the cause of Acromegaly?

S/S.
Airway:
MS:
Glucose:
CV:

Answer 61

Excessive secretion of GH

S/S:
Airway: tongue and epiglottis enlargement, hoarseness
MS: OA, osteoporosis, skeletal muscle weakness, fatigue
Glucose intolerance
CV: systemic HTN, ischemic heart disease

Question 62

Acromegaly treatment.

Anesthetic considerations.

Answer 62

TX: transsphenoidal surgery

Anesthetic Considerations
Distorted facial anatomy - difficult to bag mask
Airway obstruction and poor visualization of vocal cords
History of dyspnea on exertion, hoarseness, stridor
Monitor blood glucose
Muscle weakness

Question 63

Diabetes Insipidus Characteristics

What is used to differentiate neuro DI vs nephro DI?

S/S of DI.

Answer 63

Decrease of synthesis and release of ADH (neurogenic)
Resistance or insensitivity of renal tubules to ADH (nephrogenic)

Response to DDAVP differentiates neurogenic from nephrogenic. Neurogenic DI will respond to the DDAVP challenge.

S/S:
Polydipsia, eleavated serum osmolality, and large volume diluted urine. AMS/seizures,fatigue, weakness, and hemodynamic instability

Question 64

Diabetes Insipidus treatment and anesthetic considerations.

Answer 64

Treatment
Neurogenic – DDAVP
Nephrogenic – Diuretics

Anesthetic considerations
Monitoring urine output
Monitor and replace electrolytes

Question 65

Syndrome of Inappropriate ADH (SIADH) Characteristics and S/S.

Answer 65

Excessive secretion of ADH is usually from lung carcinoma.

S/S: nausea, weakness, lethargy, confusion, depressed mental status, and seizures
Hyponatremia, decreased serum osmolality, and increased urine osmolality

Question 66

Syndrome of Inappropriate ADH (SIADH) treatment.

Answer 66

Treatment of the malignancy
Restrict free water
Demeclocycline - inhibits ADH in renal tubules
Severe hyponatremia - give NS or 3% saline

Question 67

Syndrome of Inappropriate ADH (SIADH) anesthetic considerations.

Frequent measurements of:
IVF:
What drugs to avoid:

Answer 67

Frequent measurement of urine osmolality, plasma osmolality, and serum Na

Careful administration of IVF

Avoid drugs that increase confusion (BZD, ketamine)