Renal Flashcards

Question 1

Q

What is acute kidney injury (AKI) and how is it diagnosed ?

Answer

A

Its is defined as an acute drop in kidney function. It is diagnosed by measuring the serum creatinine.

Question 2

Q

NICE criteria for diagnosing AKI ?

Answer

A

Use any of the following:

Rise in creatinine of 26 micromol/L or greater within 48 hrs
Rise in creatinine of 50% or more in 7 days
Urine output of < 0.5ml/kg/hour for more than 6 hours

Question 3

Q

Consider the possibility of an AKI in pts that are suffering with an acute illness, such as infection or having a surgical operation. Risk factors that would predispose to developing AKI include ?

Answer

A

CKD
Heart failure
Diabetes
Liver disease
Older age (above 65 years)
Cognitive impairment
Nephrotoxic medications such as NSAIDS and ACE inhibitors
Use of a contrast medium such as during CT scans

Question 4

Q

TOM TIP

Answer

A

Whenever someone asks you the causes of renal impairment always answer “the causes are pre-renal, renal or post-renal”. This will impress them and allow you to think through the cases more logically.

Question 5

Q

Pre-renal causes of AKI ?

Answer

A

Pre-renal pathology is the most common cause of acute kidney injury. It is due to inadequate blood supply to the kidneys reducing the filtration of blood. Inadequate blood supply may be due to:

Dehydration
Hypotension (shock)
Heart failure

Question 6

Q

Renal causes of AKI ?

Answer

A

This is where intrinsic disease in the kidney is leading to reduced filtration of blood. It may be due to:

Glomerulonephritis
Interstitial nephritis
Acute tubular necrosis

Question 7

Q

Post renal causes of AKI ?

Answer

A

Post renal AKI is caused by obstruction to outflow of urine from the kidney, causing back-pressure into the kidney and reduced kidney function. This is called an obstructive uropathy. Obstruction may be caused by:

Kidney stones
Masses such as cancer in the abdomen or pelvis
Ureter or urethral strictures
Enlarged prostate or prostate cancer

Question 8

Q

Investigations for AKI ?

Answer

A

Urinalysis for protein, blood, leucocytes, nitrites and glucose:

Leucocytes and nitrites suggest infection
Protein and blood suggest acute nephritis (But can be positive in infection)
Glucose suggests diabetes

US of the urinary tract is used to look for obstruction. It is not necessary if an alternative cause is found for the AKI.

Question 9

Q

Management of AKI ?

Answer

A

Prevention of AKI is important. This is achieved by avoiding nephrotoxic medications where possible and ensuring adequate fluid input in unwell pts, including IV fluids if they are not taking enough orally.

The first step to treating AKI is to correct the underlying cause:

Fluid rehydration with IV fluids in pre-renal AKI
Stop nephrotoxic medications such as NSAIDS and antihypertensives that reduce the filtration pressure (i.e. ACE inhibitors)
Relieve obstruction in post-renal AKI, for example insert a catheter for a pt in retention from a large prostate.

In severe AKI, where there is doubt about the cause or where complications develop, input from a renal specialist is required. They may need dialysis.

Question 10

Q

Name 4 complications of AKI ?

Answer

A

Hyperkalaemia
Fluid overload, heart failure and pulmonary oedema
Metabolic acidosis
Uraemia (high urea) can lead to encephalopathy or pericarditis.

Question 11

Q

What is chronic kidney disease ?

Answer

A

CKD describes a chronic reduction in kidney function. this reduction in kidney function tends to be permanent and progressive.

Question 12

Q

Causes of CKD ( 6 bullet points) ?

Answer

A

Diabetes
HTN
Age related decline
Glomerulonephritis
Polycystic kidney disease
Medications such as NSAIDs, PPIs and lithium

Question 13

Q

Name 5 risk factors for CKD

Answer

A

Older age
HTN
Diabetes
Smoking
Use of medications that affect the kidneys

Question 14

Q

Presentation of CKD ?

Answer

A

Usually CKD is asymptomatic and diagnosed on routine testing. A number of signs and symptoms might suggest CKD:

Pruritis (itching)
Loss of appetite
Nausea
Oedema
Muscle cramps
Peripheral neuropathy
Pallor
HTN

Question 15

Q

Investigations for CKD ?

Answer

A

eGFR can be checked using a U&E blood test. Two tests are required 3 months apart to confirm a diagnosis of CKD
Urine albumin:creatinine ratio (ACR) can be used to check for proteinuria. A result of ≥ 3mg/mmol is significant.
A urine dipstick can be used to check for haematuria. A significant result is 1+ of blood. Haematuria should prompt investigation for malignancy (i.e. bladder cancer)
Renal US can be sued to investigate pts with accelerated CKD, haematuria, FH of polycystic kidney disease or evidence of obstruction

Question 16

Q

Staging CKD : G score ?

Answer

A

The G score is based on the eGFR:

G1 = eGFR>90
G2 = eGFR 60-89
G3a = eGFR 45-59
G3b = eGFR 30-44
G4 = eGFR 15-29
G5 = eGFR < 15 (known as "end-stage renal failure"

Question 17

Q

Staging CKD: A score ?

Answer

A

The A score is based on the albumin:creatinine ratio:

A1= < 3mg/mmol
A2 = 3-30mg/mmol
A3 = > 30mg/mmol

Question 18

Q

When would a pt not have CKD/ have CKD ?

Answer

A

The pt does not have CKD if they have a score of A1 combined with G1 or G2. They need at least an eGFR of less than 60 (G3a and above) or proteinuria for a diagnosis of CKD.

Question 19

Q

Name 5 complications of CKD ?

Answer

A

Anaemia 
Renal bone disease
Cardiovascular disease
Peripheral neuropathy
Dialysis related problems

Question 20

Q

When do NICE suggest referral to a specialist in CKD ?

Answer

A

Any of the following:

eGFR < 30
ACR ≥ 70mg/ mmol
Accelerated progression defined as a decrease in eGFR of 15 or 25% or 15ml/min in 1 year
Uncontrolled HTN despite 4 or more antihypertensives

Question 21

Q

Aims of management of CKD ?

Answer

A

Slow the progression of the disease
Reduce the risk of cardiovascular disease
Reduce the risk of complications
Treating complications

Question 22

Q

Management of CKD (use headings) ?

Answer

A

Slowing the progression of the disease:

Optimise diabetic control
Optimise hypertensive control
Treat glomerulonephritis

Reducing the risk of complications:

Exercise, maintain a healthy weight and stop smoking
Special dietary advice about phosphate, sodium, potassium and water intake.
Offer atorvastatin 20mg for primary prevention of cardiovascular disease

Treating complications:

Oral sodium bicarbonate to treat metabolic acidosis
Iron supplementation and erythropoietin to treat anaemia
Vit D to treat renal bone disease
Dialysis in end stage renal failure
Renal transplant in end stage renal failure

Question 23

Q

Treating HTN in CKD ?

Answer

A

ACEi are the first line in pts with CKD. These are offered to all pts with:

Diabetes plus ACR > 3mg/mmol
HTN plus ACR > 30mg/mmol
All pts with ACR > 70mg/mmol

Aim to keep BP < 140/90 (or 130/80 if the ACR > 70mg/mmol)

Serum potassium needs to be monitored as CKD and ACEi both cause hyperkalaemia.

Question 24

Q

How can CKD cause anaemia ?

Answer

A

Healthy kidney cells produce erythropoiein. Erythropoietin is the hormone that stimulates production of red blood cells. Damaged kidney cells in CKD cause a drop in erythropoietin Therefore, there is a drop in RBCs and a subsequent anaemia.

Question 25

Q

How can anaemia of CKD be treated ?

Answer

A

With erythropoiesis stimulating agents, such as exogenous erythropoietin. Blood transfusions should be limited as they can sensitise the immune system (“allosensitisation”) so that transplanted organs are more likely to be rejected.

Question 26

Q

What should be treated before offering EPO in anaemia of CKD, with what and why does this happen ?

Answer

A

Iron deficiency should be treated before offering EPO. IV iron is usually given, particularly in dialysis pts. Oral iron is an alternative. This happens as CKD causes a rise in hepcidin which reduces iron absorption from the GI tract.

Question 27

Q

What is renal bone disease also known as ?

Answer

A

Chronic kidney disease-mineral and bone disorder (CKD-MBD)

Question 28

Q

Features of renal bone disease ?

Answer

A

Osteomalacia
Osteoporosis
Osteosclerosis

Question 29

Q

Xray changes of renal bone disease ?

Answer

A

Spinal xray shows sclerosis of both ends of the vertebra (denser white) and osteomalacia in the centre of the vertebra (less white). This is classically known as “rugger jersey” spine after the stripes found on a rugby shirt.

Question 30

Q

Pathophysiology of renal bone disease ?

Answer

A

HIGH SERUM PHOSPHATE due to reduced phosphate excretion. LOW ACTIVE VIT D occurs because the kidney is essential in metabolising vit D to its active form. ACTIVE VIT D is essential in calcium absorption from the intestines and kidneys, therefore there is a low serum calcium. Vit D also regulates bone turnover.

SECONDARY HYPERPARATHYROIDISM occurs because the PT glands react to the low serum calcium and high serum phosphate by excreting more PTH. This leads to increased osteoclast activity. Osteoclast activity leads to the absorption of calcium from bone.

OSTEOMALACIA occurs due to increased turnover of bones without adequate calcium supply

OSTEOSCLEROSIS occurs when the osteoblasts respond by increasing their activity to match the osteoclasts, creating new tissue in the bone. Due to the low calcium level this new tissue is not properly mineralised.

OSTEOPOROSIS can exist alongside the renal bone disease due to other risk factors such as age and use of steroids.

Question 31

Q

Management of renal bone disease ?

Answer

A

A combination of:

Active forms of vit D (alfacalcidol and calcitriol)
Low phosphate diet
Biphosphonates

Question 32

Q

What is dialysis, which pts is it used in and what does it involve ?

Answer

A

A method of performing the filtration tasks of the kidneys artificially. It is used in pts with end stage renal failure or complications of renal failure. It involves removing excess fluid, solutes and waste products.

Question 33

Q

Indications for acute dialysis in pts with severe AKI ?

Answer

A

AEIOU

A - Acidosis (Severe and not responding to treatment)
E - Electrolyte abnormalities (severe and unresponsive hyperkalaemia)
I - Intoxication (overdose of certain medications)
O - Oedema (severe and unresponsive pulmonary oedema)
U - Uraemia symptoms such as seizures or reduces consciousness

Question 34

Q

Indications for long term dialysis ?

Answer

A

End stage renal failure (CKD stage 5)

- Any of the acute indications continuing long term

Question 35

Q

Options for maintenance dialysis ?

Answer

A

Continuous ambulatory peritoneal dialysis
Automated peritoneal dialysis
Haemodialysis

Question 36

Q

Decision about which form of dialysis to use is based on ? (4 bullet points)

Answer

A

Patient preference
Lifestyle factors
Co-morbidities
Individual differences regarding risks

Question 37

Q

How does peritoneal dialysis work ?

Answer

A

It uses the peritoneal membrane as a filtration membrane. A special dialysis solution containing dextrose is added to the peritoneal cavity. Ultrafiltration occurs from the blood, across the peritoneal membrane, into the dialysis solution. The dialysis solution is then replaced, taking away the waste products that have filtered out of the blood.

Question 38

Q

How does dialysis solution get into and out of the peritoneal cavity ?

Answer

A

By using a Tenckhoff catheter. This is a plastic tube that is inserted into the peritoneal cavity with one end on the outside.

Question 39

Q

What is continuous ambulatory peritoneal dialysis ?

Answer

A

This is where the dialysis solution is in the peritoneum at all times. There are various regimes for changing the solution. One example is where 2 litres of fluid are inserted into the peritoneum and changed four times a day.

Question 40

Q

What is automated peritoneal dialysis ?

Answer

A

This involves peritoneal dialysis occurring overnight. A machine continuously replaces the dialysis fluid in the abdomen overnight to optimise ultrafiltration. It takes 8-10 hours.

Question 41

Q

Complications of peritoneal dialysis ?

Answer

A

BACTERIAL PERITONITIS - Infusions of glucose solution make the peritoneum a great place for bacterial growth. Bacterial infection is a common and potentially serious complication of peritoneal dialysis.
PERITONEAL SCLEROSIS - Involves thickening and scarring of the peritoneal membrane.
ULTRAFILTRATION FAILURE can develop - This occurs when the pt starts to absorb the dextrose in the filtration solution. This reduces the filtration gradient making ultrafiltration less effective. This becomes more prominent over time.
WEIGHT GAIN can occur as they absorb the carbohydrates in the dextrose solution
PSYCHOLOGICAL EFFECTS - there are huge social and psychological effects of having to change dialysis solution and sleep with a machine every night.

Question 42

Q

What is haemodialysis + what is needed for this to work ?

Answer

A

Pts have their blood filtered by a haemodialysis machine. Regimes can vary but a typical regime might be 4 hours day for 3 days a week.

They need good access to an abundant blood supply. The options for this are:

Tunnelled cuffed catheter
Arterio-venous fistula

Question 43

Q

What is a tunnelled cuffed catheter ?

Answer

A

A tube inserted into the subclavian or jugular vein with a tip that sits in the superior vena cava or right atrium. It has two lumens, one where blood exits the body (red) and one where blood enters the body (blue).

Question 44

Q

What is a Dacron cuff ?

Answer

A

Part of a tunnelled cuffed catheter. It is a ring that surrounds the catheter. It promotes healing and adhesion of tissue to the cuff, making the catheter more permanent and providing a barrier to bacterial infection. These can stay in long term and be used for regular haemodialysis.

Question 45

Q

Main complications of a tunnelled cuffed catheter ?

Answer

A

Infection and blood clots within the catheter

Question 46

Q

What is an AV fistula, how does it work + why is this useful and how are they created ?

Answer

A

An artificial connection between an artery and a vein. It bypasses the capillary system and allows blood to flow under high pressure from the artery directly into the vein. This provides a permanent, large, easy access blood vessel with high pressure arterial blood flow. Creating an A-V fistula requires a surgical operation and a 4 week to 4 month maturation period without use.

Question 47

Q

Where are AV fistulas usually made ?

Answer

A

They are typically formed between an artery and vein in the pts forearm:

Radio-cephalic
Brachio-cephalic
Brachio-basilic (less common)

Question 48

Q

Examining an AV fistula is a common exam question. Look for ?

Answer

A

Skin integrity
Aneurysms
Palpable thrill (a fine vibration felt over the anastomosis)
Stereotypical “machinery murmur” on auscultation

Question 49

Q

Complications of an AV fistula ?

Answer

A

Aneurysms
Infection
Thrombosis
Stenosis
STEAL syndrome
High output heart failure

Question 50

Q

What is STEAL syndrome ?

Answer

A

It is where there is inadequate blood flow to the limb distal to the AV fistula. The AV fistula “steals” blood from the distal limb. The blood is diverted away from where it was supposed to supply and flows straight into the venous system. This causes distal ischaemia

Question 51

Q

How can an AV fistula cause high output heart failure ?

Answer

A

Blood is flowing very quickly from the arterial to the venous system through an A-V fistula. This means there is rapid return of blood to the heart. This increases the pre-load in the heart. this leads to hypertrophy of the heart muscle and heart failure

Question 52

Q

TOM TIP

Answer

A

Never take blood from a fistula !! This is a lifeline for the pt, providing access to dialysis. If it gets damaged it will set them back and you will be in big trouble.

Question 53

Q

Patients and donor kidneys are matched based on what ?

Answer

A

The human leukocyte antigen (HLA) type A, B and C on chromosome 6.

Note: They don’t have to fully match. Recipients can receive treatment to desensitise them to the donor HLA when there is a living donor. The less they match, the more likely the transplant is to fail.

Question 54

Q

What happens during a renal transplant procedure ?

Answer

A

The pts own kidneys are left in place. The donor kidney’s blood vessels are connected (anastomosed) with the pts pelvic vessels, usually the external iliac vessels. The ureter of the donor kidney is anastomosed directly with the pts bladder. The donor kidney is placed anteriorly in the abdomen and can usually be palpated in the iliac fossa area. They typically use a “hockey stick incision” and there will be a “hockey stick scar”

Question 55

Q

When will the new kidney start functioning post transplant ?

Answer

A

Immediately

Question 56

Q

What will the pts require to reduce the risk of transplant rejection ? (Give an example regime)

Answer

A

Life long immunosuppression. The usual immunosuppressant regime is:

Tacrolimus
Mycophenolate
Prednisolone

Other possible immunosuppressants:

Cyclosporine
Sirolimus
Azathioprine

Question 57

Q

Name 3 complications relating to a renal transplant ?

Answer

A

Transplant rejection (hyperacute, acute, chronic)
Transplant failure
Electrolyte imbalances

Question 58

Q

Name 6 complications related to immunosuppressants?

Answer

A

Ischaemic heart disease
Type 2 diabetes (steroids)
Infections are more likely and more severe
Unusual infections can occur (PCP, CMV, PJP and TB)
Non-Hodgkin lymphoma
Skin cancer (particularly squamous cell carcinoma)

Question 59

Q

What is “nephritis” ?

Answer

A

A very generic term that means inflammation of the kidneys. It is a very non-specific descriptive term and is not a diagnosis or syndrome that has any criteria.

It is easy to get confused and think that when a pt is described as having “nephritis” this is a diagnosis. It is not, they are simply saying that the pt has inflammation of the kidney.

Question 60

Q

What is a nephritic syndrome ?

Answer

A

This term refers to a group of symptoms not a diagnosis. When we say a pt has “nephritic syndrome” it simply means they fit a clinical picture of having inflammation of their kidney and it does not represent a specific diagnosis or give the underlying cause. Unlike nephrotic syndrome there are no set criteria however there are the following features of nephritic syndrome:

Haematuria - microscopic or macroscopic
Oliguria
Proteinuria - In nephritic syndrome there is less than 3g per 24hrs of urine. Any more and it starts being classified as nephrotic syndrome
Fluid retention

Question 61

Q

What is a nephrotic syndrome ?

Answer

A

It refers to a group of symptoms without specifying the underlying cause. Therefore nephrotic syndrome is not a disease, but is a way of saying “the pt has these symptoms”. To have a nephrotic syndrome a pt must fulfil the following criteria:

Peripheral oedema
Proteinuira (more than 3g per 24 hrs)
Serum albumin (less than 25g per litre)
Hypercholesterolaemia

Question 62

Q

What is glomerulonephritis ?

Answer

A

An umbrella term applied to conditions that cause inflammation of or around the glomerulus. Therefore, there are many conditions that can be described as a glomerulonephritis.

Question 63

Q

What is interstitial nephritis ?

Answer

A

A term to describe a situation where there is inflammation of the space between cells and tubules (the interstitium) within the kidney.

It is important not to confuse this with glomerulonephritis. Under the umbrella term of interstitial nephritis there are two key specific diagnoses: acute interstitial nephritis and chronic tubulointerstitial nephritis.

Question 64

Q

What is glomerulosclerosis ?

Answer

A

A term to describe the pathological process of scarring of the tissue in the glomerulus. It is not a diagnosis in itself and is more a term used to describe the damage and scarring done by other diagnoses

Answer 65

A

It can be caused by any type of glomerulonephritis or obstructive uropathy (blockage of urine outflow), and by focal segmental glomerulosclerosis.

Answer 66

A

Minimal change disease
Focal segmental glomerulosclerosis
Membranous glomerulonephritis
IgA nephropathy (AKA Berger’s disease)
Post streptococcal glomerulonephritis (AKA diffuse proliferative glomerulonephritis)
Mesangiocapillary glomerulonephritis
Rapidly progressive glomerulonephritis
Goodpasture syndrome

Answer 67

A

Immunosuppression (e.g. steroids)

- Blood pressure control by blocking the renin-angiotensin system (i.e. ACE inhibitors or angiotensin receptor blockers)

Answer 68

A

Thrombosis
HTN
High cholesterol

Answer 69

A

Minimal change disease .

This is normally idiopathic and treated successfully with steroids.

Answer 70

A

Focal segmental glomerulosclerosis

Answer 71

A

The most common cause of primary glomerulonephritis
Peak age at presentation is in the 20s
Histology shows “IgA deposits and glomerular mesangial proliferation”

Answer 72

A

Most common type of glomerulonephritis overall
There is a bimodal peak in age in the 20s and 60s
Histology shows “IgG and complement deposits on the basement membrane”
The majority (about 70%) are idiopathic
Can be secondary to malignancy, rheumatoid disorders and drugs (e.g. NSAIDs)

Answer 73

A

Pts are typically under 30 years old.

It presents as:

1 to 3 weeks after a streptococcal infection (e.g. tonsillitis or impetigo)
They develop a nephritic syndrome
There is usually a full recovery

Answer 74

A

Anti-GBM (glomerular basement membrane) antibodies attack the glomerulus and pulmonary basement membranes. This causes glomerulonephritis and pulmonary haemorrhage. In my exam there may be a pt that presents with acute kidney failure and haemoptysis

Answer 75

A

Histology shows “crescentic glomerulonephritis”
It presents with a very acute illness with sick pts but it responds well to treatment
Often secondary to Goodpasture syndrome

Answer 76

A

Diabetic nephropathy

Answer 77

A

The chronic high level of glucose passing through the glomerulus causes glomerulosclerosis.

Answer 78

A

Proteinuria. This is due to damage to the glomerulus allowing protein to be filtered from the blood to the urine.

Answer 79

A

Urine albumin:creatinine ratio

- U&Es

Answer 80

A

Treatment is through optimising blood sugar levels and blood pressure. ACEi are the treatment of choice in diabetics for BP control. They should be started in pts with diabetic nephropathy even if they have a normal BP.

Answer 81

A

Acute inflammation of the tubules and interstitium

Answer 82

A

AKI and HTN

It is usually caused by a hypersensitivity reaction to:

Drugs (e.g. NSAIDS or antibiotics)
Infection

Other features of a generalised hypersensitivity reaction can accompany the acute kidney injury:

Rash
Fever
Eosinphilia

Answer 83

A

Treating the underlying cause. Steroids have a role in reducing inflammation and improving recovery.

Answer 84

A

Chronic inflammation of the tubules and interstitium.

It presents with CKD.

It has a large number of underlying autoimmune, infectious, iatrogenic and granulomatous disease causes.

Management involves treating the underlying cause. Steroids have a role when guided by a specialist

Answer 85

A

It is damage and necrosis of the epithelial cells of the renal tubules. Damage to the kidney cells occurs due to ischaemia and toxins. The epithelial cells have the ability to regenerate making acute tubular necrosis reversible. It usually takes 7 to 21 days to recover.

Answer 86

A

Ischaemia can occur secondary to hypoperfusion in:

Shock
Sepsis
Dehydration

Direct damage from toxins can occur due to:

Radiology contrast dye
Gentamicin
NSAIDs
Lithium
Heroin

Answer 87

A

“Muddy brown casts” found on urinalysis if a pathognomic finding specific to acute tubular necrosis. There can also be renal tubular cells in the urine.

Answer 88

A

Same as other other causes of acute kidney injury:

Supportive management
IV fluids
Stop nephrotoxic medications
Treat complications

Answer 89

A

Where there is a metabolic acidosis due to pathology in the tubules of the kidney. The tubules are responsible for balancing the hydrogen and bicarbonate ions between the blood and urine and maintaining a normal pH. There are four types, each with a different pathophysiology.

Type 1 and type 4 are the two that may come up in exams and are most relevant to clinical practice.

Answer 90

A

It is due to pathology in the distal tubule. There is failure of H+ secretion into lumen of nephron by the alpha intercalated cells.

There are many causes

Genetic. There are both autosomal dominant and recessive forms
Systemic lupus erythematosus
Sjogrens sydnrome
Primary biliary cirrhosis
Hyperthyroidism
Sickle cell anaemia
Marfan’s syndrome

Presentation:

Failure to thrive in children
Hyperventilation to compensate for the metabolic acidosis
CKD
Bone disease (osteomalacia)

Results:

Hypokalaemia
Metabolic acidosis
High urinary pH (above 6)

Treatment is with oral bicarbonate. This corrects the other electrolyte imbalances as well as the acidosis.

Answer 91

A

The alpha interecalated cells cannot secrete hydrogen ions thus cannot reabsorb potassium.

In other words, the intercalated cells’ apical H+/K+ antiporter is non-functional.

Answer 92

A

It is due to pathology in the proximal tubule. The proximal tubule is unable to reabsorb bicarbonate from the urine into the blood. Excessive bicarbonate is excreted in the urine.

Fanconi’s syndrome is the main cause. This is a genetic condition commonly associated with Ashkenazi Jews, that causes bone marrow failure, acute myeloid leukaemia and other cancers. There are certain features on examination such as cafe au lait spots, certain facial featurs and an absence of the radius bone bilaterally.

Results:

Hypokalaemia
Metabolic acidosis
High urinary pH (above 6)

Treatment is with oral bicarbonate.

Answer 93

A

A combination of type 1 and 2 with pathology in the proximal and distal tubules.

This is rare and unlikely to appear in exams or clinical practice

Answer 94

A

It is caused by reduced aldosterone. Aldosterone is responsible for stimulating sodium reabsorption and potassium and hydrogen ion excretion in the distal tubules. This leads to insufficient potassium and hydrogen ion excretion causing a hyperkalaemic renal tubular acidosis. Normally ammonia is produced in the distal tubules to balance the excretion of hydrogen ions and prevent the urine from becoming to acidotic (ammonia is a base). Hyperkalaemia suppresses the production of ammonia so the urine is acidotic in type 4 RTA.

Low aldosterone or low aldosterone activity can be due to adrenal insufficiency, mediactions such as ACEi and spironolactone or systemic conditions that affect the kidneys such as SLE, diabetes or HIV.

Results

Hyperkalaemia
High chloride
Metabolic acidosis
Low urinary pH (due to reduced ammonia production)

Management is with fludrocortisone. Sodium bicarbonate and treatment of hyperkalaemia may also be required.

Answer 95

A

It is when there is thrombosis in small blood vessels throughout the body. This is usually triggered by a bacterial toxin called the shiga toxin. It leads to the classic triad of:

Haemolytic anaemia
Acute kidney injury
Low platelet count (thrombocytopenia)

Answer 96

A

The most common cause is a toxin produced by the bacteria e. coli 0157 called the shiga toxin. Shigella also produces this toxin. The use of antibiotics and anti-motility medications such as loperamide to treat gastroenteritis caused by these pathogens increases the risk of developing HUS

Answer 97

A

E. coli 0157 causes a brief gastroenteritis, often with bloody diarrhoea.

Around 5 days after the diarrhoea the person will start displaying S+S of HUS:

Reduced urine output
Haematuria or dark brown urine
Abdominal pain
Lethargy and irritability
Confusion
HTN
Bruising

Answer 98

A

It is a medical emergency and has a 10% mortality rate. The condition is self limiting and supportive management is the mainstay of treatment:

Antihypertensives
Blood transfusions
Dialysis

70-80% of pts make a full recovery.

Answer 99

A

It is a conditon where skeletal muscle tissue breaks down and releases breakdown products into the blood. This is usually triggered by an event that causes the muscle to break down, such as extreme underuse or overuse or a traumatic injury.

The muscle cells (myocytes) undergo apoptosis. the apoptosis results in muscle cells releasing:

Myoglobin (causing myoglobinuria)
Potassium
Phosphate
Creatine kinase

These breakdown products are filtered by the kidney and cause injury to the kidney. Myoglobin in particular is toxic to the kidney in high concentrations. This results in AKI. The AKI results in the breakdown products accumulating further in the blood.

Answer 100

A

Potassium is the most immediately dangerous breakdown product, as hyperkalaemia can cause cardiac arrhythmias that can potentially result in a cardiac arrest.

Answer 101

A

Anything that causes significant damage to muscle cells can cause rhabdomylosis:

Prolonged immobility - particularly frail pts that fall and spend time on the floor before being found
Extremely rigorous exercise beyond the person’s fitness level (e.g. ultramarathon, triathlon or crossfit competiton)
Crush injuries
Seizures

Answer 102

A

Muscle aches and pain
Oedema (fluid accumulating in damaged muscle)
Fatigue
Confusion (particularly in elderly frail pts)
Red-brown urine

Answer 103

A

CREATINE KINASE (CK) blood test is a key investigation in establishing the diagnosis. It will be in the thousands to hundreds of thousands of Units/L. CK typically rises in the first 12 hours, then remains elevated for 1 to 3 days, then falls gradually. A higher CK increases the risk of kidney injury.
MYOGLOBINURIA. It gives urine a dark red-brown colour. This will cause a urine dipstick to be positive for blood.
U&E blood tests for AKI and hyperkalaemia
ECG is important in assessing the heart’s response to hyperkalaemia

Answer 104

A

Suspect rhabdomyolysis in pts with trauma, crush injury, prolonged immobilisation or excessive exercise.

IV fluids are the mainstay of treatment. The aim is to rehydrate the pt and encourage the filtration of the breakdown products.
Treat complications particularly hyperkalaemia. Hyperkalaemia can be immediately life threatening as it can cause arrhythmias (particularly ventricular fibrillation).
Consider IV sodium bicarbonate. This aims to make the urine more alkaline (pH ≥ 6.5), reducing the toxicity of the myoglobin on the kidneys. The evidence of this is not clear and there is some debate about whether to use it.
Consider IV mannitol. This aims to increase the GFR to help flush the breakdown products and to reduce oedema surrounding muscles and nerves. Hypovolaemia should be corrected before giving mannitol. The evidence on this is not clear and there is some debate about whether to use it.

Answer 105

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Cardiac arrhythmias such as ventricular fibrillation. These can be fatal .

Answer 106

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Conditions:

Acute kidney injury
Chronic kidney disease
Rhabdomyolysis
Adrenal insufficiency
Tumour lysis syndrome

Medications :

Aldosterone antagonists (spironolactone and eplerenone)
ACEi
Angiotensin II receptor blockers
NSAIDs
Potassium supplements

Answer 107

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Hyperkalaemia is diagnosed on a formal U&E blood test. Pay attention to creatinine, urea and eGFR. Acute or chronic renal failure is important as they will need discussion with the renal team and consideration of haemodialysis.

Haemolysis during sampling can result in falsely elevated potassium. The lab might indicate that they have noticed some haemolysis and require a repeat sample to confirm the correct potassium result

Answer 108

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Tall peaked T waves
Flattening or absence of P waves
Broad QRS complexes

Answer 109

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Pts with a POTASSIUM ≤ 6 mmol/L with otherwise stable renal function don’t need urgent treatment and may just require a change in diet and medications (i.e. stopping their spironolactone or ACE inhibitor)

Pts with a POTASSIUM ≥ 6 mmol/L and ECG changes need urgent treatment.

Pts with a POTASSIUM ≥ 6.5 mmol/L need urgent treatment regardless of the ECG

The mainstay of treatment is with an insulin and dextrose infusion and IV calcium gluconate:

Insulin and dextrose drive carbohydrate into cells and take potassium with it, reducing the blood potassium
Calcium gluconate stabilises the cardiac muscle cells and reduces the risk of arrhythmias.

Other options for lowering the serum potassium:

Nebulised salbutamol temporarily drives potassium into cells.
IV fluids can be used to increase urine output which encourages potassium loss from the kidneys (but don’t fluid overload pts with renal failure)
Oral calcium resonium draws potassium out of the gut and into stools. It works slowly and is suitable for milder cases of hyperkalaemia
Sodium bicarbonate (IV or oral) may be considered on the advice of a renal specialist in acidotic pts with renal failure. It drives potassium into cells as the acidosis is corrected.
Dialysis may be required in severe or persistant cases associated with renal failure.

Answer 110

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Follow the local policy and protocol for treating hyperkalaemia. Get help from an experienced doctor. Pts with significant hyperkalaemia will need close ECG monitoring to detect changes and arrhythmias. Pts with significant renal impairment should be discussed with renal physicians.

Answer 111

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A genetic condition where the kidneys develop multiple fluid filled cysts. Kidney function is also significantly impaired.

Answer 112

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Palpable enlarged kidneys.

Answer 113

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Autosomal dominant PKD and autosomal recessive PKD. Autosomal dominant PKD is more common.

Answer 114

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By kidney US and genetic testing

Answer 115

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PKD-1: chromosome 16 (85% of cases)

PKD-2: chromosome 4 (15% of cases)

Answer 116

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Cerebral aneurysms
Hepatic, splenic, pancreatic, ovarian and prostatic cysts
Cardiac valve disease (mitral regurgitation)
Colonic diverticula
Aortic root dilation

Answer 117

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Chronic loin pain
HTN
Cardiovascular disease
Gross haematuria can occur with cyst rupture. This usually resolves within a few days
Renal stones are more common in pts with PKD
End stage renal failure occurs at a mean age of 50 years

Answer 118

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chromosome 6

Answer 119

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It often presents in pregnancy with oligohydramnios as the fetus does not produce enough urine.

Answer 120

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The oligohydramnios leads to underdevelopment of the lungs, resulting in respiratory failure shortly after birth. Pts may require dialysis within the first few days of life. They can have dysmorphic features such as underdeveloped ear cartilage, low set ears and a flat nasal bridge. They usually have end stage renal failure before reaching adulthood.

Answer 121

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Tolvaptan can slow the development of cysts and the progression of renal failure in AD PKD.

Management of PKD is mainly supportive of the complications:

Antihypertensives for HTN
Analgesia for renal colic related to stones or cysts
Antibiotics for infection. Drainage of infected cysts may be required
Dialysis for end stage renal failure
Renal transplant for end stage renal failure

Other management steps:

Genetic counselling
Avoid contact sports due to the risk of cyst rupture
Avoid anti-inflammatory medications and anticoagulants
Regular US to monitor cysts
Regular blods to monitor renal function
Regular blood pressure to monitor for HTN
MR angiogram can be used to diagnose intracranial aneurysms in symptomatic pts or those with a family history

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Renal Flashcards

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