Week 227 - Acute Renal Injury Flashcards

Question 1

Q

Week 227 - Acute Renal Injury: What are the pre-renal causes of Acute Renal Failure?

Answer

A

• Due to disturbance in renal blood supply.

- E.g. Hypotension/Hypovolaemia, Cirrhosis, renal artery stenosis.

Question 2

Q

Week 227 - Acute Renal Injury: What are the renal/intrinsic causes of Acute Renal Failure?

Answer

A

• Damage to the parenchyma of the kidney itself.

- E.g. glomerulonephritis, acute tubular necrosis, acute interstitial nephritis.

Question 3

Q

Week 227 - Acute Renal Injury: What are the post-renal causes of Acute Renal Failure?

Answer

A

• Usually a consequence of urinary tract obstruction.

- E.g. BPH, renal stones, obstructed urinary catheter, bladder stones or malignancy.

Question 4

Q

Week 227 - Acute Renal Injury: What is Rhabdomyolysis?

Answer

A

Skeletal muscle breakdown secondary to injury.
For example following strenuous exercise, trauma or infection.
Leading to the leakage of potentially toxic intracellular contents into the blood stream,

Question 5

Q

Week 227 - Acute Renal Injury: What is the ‘triad’ of Rhabdomyolysis?

Answer

A

1) Myalgia
2) Generalized weakness
3) Tea-coloured urine.

Question 6

Q

Week 227 - Acute Renal Injury: How can rhabdomyolysis cause acute renal failure?

Answer

A

Obstruction with haem pigment casts.
Proximal tubular injury by haem iron.
Volume depletion (Damaged muscles can accumulate fluid over time, causing a reduction in circulating volume).

Question 7

Q

Week 227 - Acute Renal Injury: What are some of the non-traumatic causes of rhabdomyolysis?

Answer

A

Marathon runners
Hot weather
Hypokalaemia
Prolonged convulsions
Metabolic myopathy
Malignant hyperthermia
Hypothermia

Question 8

Q

Week 227 - Acute Renal Injury: Which drugs can cause rhabdomyolysis?

Answer

A

• Alcohol, opiates, statins, colchicine, cyclosporin.

Question 9

Q

Week 227 - Acute Renal Injury: How is rhabdomyolysis induced AKI diagnosed?

Answer

A

History
Red to brown urine
Elevated serum enzyme level - CK, LDH
Electrolyte abnormalities.

Question 10

Q

Week 227 - Acute Renal Injury: Which electrolyte abnormalities do you get with rhabdomyolysis induced AKI?

Answer

A

Hyperkalaemia
Hyperphosphatamia
Hyperuricaemia
Hypocalcaemia (However, you will get hypercalcaemia in the recovery phase)

Question 11

Q

Week 227 - Acute Renal Injury: What are the preventative options for stopping rhabdomyolysis causing AKI?

Answer

A

Fluid repletion - Improve renal perfusion, washout obstructing casts.
Forced alkaline diuresis - Using Sodium Bicarbonate - Reduces myoglobin precipitation.
Forced diuresis - Using Mannitol.

Question 12

Q

Week 227 - Acute Renal Injury: What is Mannitol used for and what are the complications of its use?

Answer

A

Osmotic diuretic - Forced diuresis - Free radical scavenger.
Can cause hypernatraemia.
And can cause increased plasma osmolality and volume expansion in those with poor renal function.

Question 13

Q

Week 227 - Acute Renal Injury: What are urinary casts?

Answer

A

They are cylindrical structures formed in the distal convoluted tubules.
They are primarily made from tubular mucoprotein (Tamm-Horsfall protein).
The presence of the them in urine microscopy can signify a number of disease states.

Question 14

Q

Week 227 - Acute Renal Injury: The presence of a red blood cell cast can indicate which disease state?

Answer

A

• Patients with glomerular haematuria.

- E.g. glomerulonephritis.

Question 15

Q

Week 227 - Acute Renal Injury: The presence of a white blood cell cast indicates which disease state?

Answer

A

• Acute pyelonephritis or interstitial nephritis.

Question 16

Q

Week 227 - Acute Renal Injury: The presence of a fatty cast indicates the presence of which disease state?

Answer

A

• Lipiduria

- E.g. nephrotic syndrome.

Question 17

Q

Week 227 - Acute Renal Injury: What is nephrotic syndrome?

Answer

A

• This is where the permeability of the walls of the glomerulus is increased resulting in proteinuria.

Question 18

Q

Week 227 - Acute Renal Injury: The presence of a pigmented cast indicates the presence of which disease states?

Answer

A

Haemoglobinuria

* Myoglobinuria

Question 19

Q

Week 227 - Acute Renal Injury: What is the shape of calcium oxalate crystals?

Answer

A

Square, enveloped shapes.

Question 20

Q

Week 227 - Acute Renal Injury: What is the shape of a triple phosphate crystal? What does it indicate?

Answer

A

Coffin lid shape.
Alkaline urine
Proteus UTI

Question 21

Q

Week 227 - Acute Renal Injury: What shape are uric acid crystals? What does their presence indicate?

Answer

A

Diamond shaped.

* Hyperuricaemia.

Question 22

Q

Week 227 - Acute Renal Injury: What is the definition of clearance (In terms of measuring renal function)?

Answer

A

Volume of plasma cleared of substance in unit time.

* Measured as the volume of indicator removed from plasma divided by average plasma concentration during a given time.

Question 23

Q

Week 227 - Acute Renal Injury: What are the limitations of using creatinine clearance to measure renal function?

Answer

A

Difficult, time consuming.
Inaccurate urine collections.
Diurnal and day-to-day variations in creatinine clearance.
Not adjusted for age,gender,race etc.

Question 24

Q

Week 227 - Acute Renal Injury: What is the eGFR, clinical findings and treatment of stage one of CKD?

Answer

A

Normal kidney function but urine findings or structural abnormalities point to kidney disease.
eGFR 90+
Observation, control of BP.

Question 25

Q

Week 227 - Acute Renal Injury: What is the eGFR, clinical findings and treatment of stage two of CKD?

Answer

A

Mildly reduced kidney function and urine/structural/genetic findings point to kidney disease.
eGFR 60-89
Observation, control of BP, Control of risk factors.

Question 26

Q

Week 227 - Acute Renal Injury: What is the eGFR, clinical findings and treatment of stage three of CKD?

Answer

A

Moderately reduced kidney functions.
eGFR 30-59
Observation, control of BP, Control of risk factors.

Question 27

Q

Week 227 - Acute Renal Injury: What is the eGFR, clinical findings and treatment of stage four of CKD?

Answer

A

Severely reduced kidney function.
eGFR 15-29
Planning for end stage renal failure.

Question 28

Q

Week 227 - Acute Renal Injury: What is the eGFR, clinical findings and treatment of stage five of CKD?

Answer

A

Very severe, or end stage renal failure.

* eGFR

Question 29

Q

Week 227 - Acute Renal Injury: What is the RIFLE criteria?

Answer

A

• Categorizes the degree of renal failure into,

Risk
Injury
Failure
Loss
End stage kidney disease

Question 30

Q

Week 227 - Acute Renal Injury: What are the pulmonary complications of acute kidney injury?

Answer

A

Fluid overload > Pulmonary oedema
Increased pulmonary vascular permeability.
Leucocyte migration
Pulmonary haemorrhage
Infection
ARDS

Question 31

Q

Week 227 - Acute Renal Injury: What are the CNS complications of acute kidney injury?

Answer

A

Inflammatory reaction
Acidosis
Electrolyte imbalance
Confusion
Convulsions
Altered conscious levels
Coma

Question 32

Q

Week 227 - Acute Renal Injury: What are the cardiac complications of acute kidney injury?

Answer

A

Acidosis
Sympathetic overactivity
Hypertension
Pericarditis
Arrhythmia
Cardiac hypertrophy
Heart Failure
MI

Question 33

Q

Week 227 - Acute Renal Injury: What characterises pre-renal acute renal failure?

Answer

A

• Intravascular volume depletion.
• Decreased effective blood volume.
• Altered intrarenal haemodynamics 
- Afferent vasoconstriction
- Efferent vasodilation

Question 34

Q

Week 227 - Acute Renal Injury: What are the characteristics of intrinsic acute renal failure?

Answer

A

Acute tubular necrosis
Acute interstitial nephritis
Acute glomerulonephritis
Acute vascular syndromes

Question 35

Q

Week 227 - Acute Renal Injury: What is third space sequestration?

Answer

A

Accumulation of fluid in the third space - i.e. the transcellular compartment.
Can be a result of bowel obstruction, peritonitis, pancreatitis, ascites.
Can result in hypovolaemia resulting in acute renal injury.

Question 36

Q

Week 227 - Acute Renal Injury: How can third space sequestration clinically manifest?

Answer

A

Respiratory compromise.
Decreased cardiac output.
Intestinal ischaemia.
Hepatic dysfunction.
Oliguric renal failure - Oliguria occurs when intra-abdominal pressure exceeds 15mmHg, with anuria developing when the pressure exceeds >30mmHg.

Question 37

Q

Week 227 - Acute Renal Injury: How is third space sequestration treated?

Answer

A

• Abdominal decompression.

Paracentesis
Surgical decompression

Question 38

Q

Week 227 - Acute Renal Injury: What is the normal GFR?

Answer

A

120 ml/min, >7L/hr

Question 39

Q

Week 227 - Acute Renal Injury: In cases of partial post-renal obstruction, what dysfunction does the distal tubule experience in terms of concentration and acid/base balance?

Answer

A

Reduced concentration - Polyuria

* Loss of acidification resulting in a metabolic acidosis.

Question 40

Q

Week 227 - Acute Renal Injury: In terms of history and examination, what may indicate post-renal failure?

Answer

A

History - Colic, stone disease, polyuria, nocturia, Haematuria, DM, Neurological condition.
Examination - Palpable bladder, bladder scan, post-micturition residual urine, KUB ultrasound scan.

Question 41

Q

Week 227 - Acute Renal Injury: What type of acute kidney injury is acute tubular necrosis?

Answer

A

Intrinsic

Question 42

Q

Week 227 - Acute Renal Injury: What are some of the causes of acute tubular necrosis?

Answer

A

• Ischaemic - e.g. Hypotension, Sepsis.

• Nephrotoxic - Drug-induced e.g. Aminoglycosides, cisplatinum, paracetamol.
- Pigment nephropathy - Intravascular haemolysis, rhabdomyolysis.

Question 43

Q

Week 227 - Acute Renal Injury: What is the most common form of intrinsic acute renal failure?

Answer

A

• Acute Tubular Necrosis (ATN)

Question 44

Q

Week 227 - Acute Renal Injury: What is the mortality rate of uncomplicated ATN?

Question 45

Q

Week 227 - Acute Renal Injury: 50% of radiocontrast nephropathies develop after which procedures?

Answer

A

• Cardiac diagnostic and interventional procedures.

Question 46

Q

Week 227 - Acute Renal Injury: What are the risk factors for developing radiocontrast nephropathy?

Answer

A

Pre-existing renal disease.
DM
Hypertension
ACEI, NSAIDs
Volume depletion
Large volume of contrast

Question 47

Q

Week 227 - Acute Renal Injury: How can the risk of developing radiocontrast nephropathy be reduced?

Answer

A

Low-osmolality contrast media.
IV fluid

(Antioxidants, N acetyl cysteine, diuretics, IV sodium bicarbonate)

Question 48

Q

Week 227 - Acute Renal Injury: What are the causes of Acute tubulo-interstitial nephritis?

Answer

A

Drug-induced - Penicillins, cephalosporins, sulfonamides, rifampicin, frusemide, NSAIDs.
Infection - Bacterial, viral, rickettsial disease, tuberculosis.

Question 49

Q

Week 227 - Acute Renal Injury: What (from history, signs, examination, investigations) would lead you to consider acute tubulo-interstitial necrosis?

Answer

A

History - Exposure, drug/infection.
Fever
Rash
Arthralgia
Oesinophilia
Biopsy - cellular infiltrate.

Question 50

Q

Week 227 - Acute Renal Injury: How do you treat acute tubulo-interstitial necrosis?

Answer

A

Withdraw the offending agent/ treat infection.
Steroids.

• Has a very good outcome.

Question 51

Q

Week 227 - Acute Renal Injury: What are the three life-threatening complications of acute kidney injury?

Answer

A

Metabolic Acidosis
Hyperkalaemia
Acute pulmonary oedema

Question 52

Q

Week 227 - Acute Renal Injury: How is the serum anion gap calculated?

Answer

A

AG = Cations - Anions
AG= Na + K - Cl - HCO3

Question 53

Q

Week 227 - Acute Renal Injury: What occurs during normal anion gap metabolic acidosis? What causes it?

Answer

A

Acidosis is due to loss of bicarbonate, this is replaced by chloride resulting in a normal anion gap.
Can be caused by diarrhoea, renal tubular acidosis.

Question 54

Q

Week 227 - Acute Renal Injury: What occurs to give an increased anion gap metabolic acidosis? What can cause it?

Answer

A

Increased acid production with anion other than Cl.

* Can be caused by lactic acidosis, DKA, Renal failure, Methanol, Ethylene Glycol.

Question 55

Q

Week 227 - Acute Renal Injury: What is the clinical effect of a metabolic acidosis?

Answer

A

Muscle weakness
Altered mental state
Kussmaul breathing
Hyperkalaemia
Hypotension

Question 56

Q

Week 227 - Acute Renal Injury: What is Kussmaul breathing?

Answer

A

Deep and labored breathing.

* Associated with severe metabolic acidosis.

Question 57

Q

Week 227 - Acute Renal Injury: What is the treatment of metabolic acidosis?

Answer

A

Treat the cause!
Volume expansion
IV sodium bicarbonate (Only in severe acidosis

Question 58

Q

Week 227 - Acute Renal Injury: What are the effects of hyperkalaemia?

Answer

A

Muscle weakness
Constipation
Cardiac effects
ECG changes - loss of P wave, AV block, bradycardia, V tachycardia, asystole.

Question 59

Q

Week 227 - Acute Renal Injury: What are the ECG changes associated with hyperkalaemia?

Answer

A

Loss of p waves.
AV block
Bradycardia
V tachycardia
Asystole

Question 60

Q

Week 227 - Acute Renal Injury: What are the treatment options for hyperkalaemia?

Answer

A

Treatment of the cause!
IV fluid
Bicarbonate therapy
IV dextrose insulin - shifts K into intracellular.

Question 61

Q

Week 227 - Acute Renal Injury: What are the four main mechanisms for maintaining blood pressure?

Answer

A

1) Sympathetic stimulation.
2) Stimulation of renin-angiotensin system.
3) Mechanisms to retain fluid - Thirst + ADH
4) Retaining sodium

Question 62

Q

Week 227 - Acute Renal Injury: How does sympathetic activation maintain blood pressure?

Answer

A

1) Tachycardia and increased cardiac contractility

2) Peripheral vasoconstriction > Diverting blood to vital organs.

Question 63

Q

Week 227 - Acute Renal Injury: What are the key steps in the renin-angiotensin pathway? Pro-Renin > Aldosterone

Answer

A

Pro-renin > Renin converts Angiotensinogen > Angiotensin I > Angiotensin II (Angiotensin II has a number of effects)

Question 64

Q

Week 227 - Acute Renal Injury: ACE is responsible for what step in the renin-angiotensin system?

Answer

A

Conversion of angiotensin I into angiotensin II.

Answer 64

A

1) Increases sympathetic activity.
2) Tubular Na, Cl reabsorption and K excretion, H20 retention.
3) Stimulates adrenal cortex to release aldosterone.
4) Arteriolar constriction.
5) Stimulates posterior pituitary gland to increase ADH secretion.

Answer 65

A

Afferent arterioles.

Answer 66

A

Distal tubular cells.

Answer 67

A

You will get decreased tubular flow rate. Results in,
Decreased Cl delivery to macular densa. The Macula densa then,
Decreases afferent arteriolar resistance, which,
Increases renal blood flow, which
Increases glomerular pressure, causing an
Increase in tubular flow.

Answer 68

A

Afferent arteriolar constriction in order to protect the glomeruli.

Answer 69

A

• Barostretch receptors are triggered causing afferent dilation and an increase in angiotensin II causing efferent constriction and an increase in glomerular pressure.

Answer 70

A

• Rise in tubular flow, causing an increased delivery of Na and Cl to the macula densa, there is then afferent constriction to reduce glomerular pressure.

Answer 71

A

Constricts both. However efferent is already narrower, so has the net effect of increasing glomerular pressure.

Answer 72

A

Prostaglandins
Ca channel blockers
Decreased tubular flow rate.

Answer 73

A

Increased barostretch
Increased tubular flow rate
Increased sympathertic activity
NSAIDs
Angiotensin II

Answer 74

A

Decreased barostretch > Afferent dilation.
Increased sympathetic tone > Increased renin.
Increase in Renin and ATII > Rise in GFR
Increase of Na absorption in proximal convoluted tubules due to ATII.
Decreased delivery of NaCl to macula densa which also decreases afferent resistance.

Answer 75

A

• Angiotensin receptor blocker.

Answer 76

A

200ml/min

Answer 77

A

An external AV shunt used to dialysis. Goes from the radial artery into a vein in the arm (Ulna side). Or ankle.

Answer 78

A

• Low sodium (

Answer 79

A

Angiotensin II
Sympathetic stimulation
Hyperosmolarity
Hypovolaemia
Hypotension

Answer 80

A

V1 receptors - Causes vasoconstriction

* V2 receptors - Renal fluid reabsorption

Answer 81

A

Hyperglycaemia, DKA
Mannitol
Hyperlipidaemia
Glycine solutions

Answer 82

A

(2x serum Na) + serum glucose + plasma urea

Answer 83

A

Renal failure - Uraemic solutes compensate for low osmolality.
Marked hypoglycaemia, DKA
Mannitol therapy - Osmotic diuresis.

Answer 84

A

Hyponatraemia caused by severe hyperlipidaemia or hyperproteinaemia.

Answer 85

A

High ADH
Low ADH
high plasma osmolality.

Answer 86

A

Increased water intake

* Exercise stimulates ADH secretion

Answer 87

A

Increased CNS level of serotonin, norepinephrine and dopamine.
Increased plasma level of ADH, prolactin, cortisol, ACTH.
Have a direct effect on water retention and thirst centre.

Answer 88

A

Renal failure - Impairment in water excretion.

* Primary polydipsia (thirst) - May be due to antipsychotic drugs, hypothalamic lesions, beer drinkers.

Answer 89

A

• The severity of the symptoms reflect the severity of cerebral oedema.

Nausea, confusion.
Headache, lethargy.
Convulsions, coma.

Answer 90

A

Serum osmolality
Urine osmolality
Urinary Na concentration

Answer 91

A

Low serum osmolality
Low serum Na
Low blood urea
High urine osmolality
High urinary Na
Normal acid/base balance
Normal adrenal and thyroid function.

Answer 92

A

Treat underlying cause!
Fluid restriction
Salt replacement
Loop diuretics
ADH receptor antagonist

Answer 93

A

Acute - safe to correct rapidly.
Chronic - Risk of osmotic demyelination
Increase by 10 in 1st 24hrs
Increase by 18 in next 24 hrs.

Answer 94

A

Thiazide diuretics

* Loop diuretics

Answer 95

A

ACE inhibitors
Angiotensin receptor blockers
Spironolactone

Answer 96

A

Aminoglycosides (gentamicin)

* NSAIDs

Answer 97

A

Statins

* Calcineuin inhibitors : Cyclosporin / tacrolimus

Answer 98

A

Renal Biopsy

Answer 99

A

Urine microscopy looking for cell casts, urine culture.

Answer 100

A

Urinary Na

Answer 101

A

Physical examination and bladder scan.

Answer 102

A

Hypocalcaemia

Answer 103

A

Hypercalcaemia

Answer 104

A

Hyperkalaemia

Answer 105

A

Hypokalaemia

Answer 106

A

Glomerulonephritis

Answer 107

A

Pyelonephritis

Answer 108

A

Nephrotic syndrome

Answer 109

A

Rhabdomyolysis

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Week 227 - Acute Renal Injury Flashcards

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