9. Urinary Flashcards

Question 1

Q

What is renal agenesis?

Answer

A

Lack of development of kidney, causes symptoms if bilateral.

Question 2

Q

What causes renal agenesis?

Answer

A

Failure of the ureteric bud to interact with the metanephric blastema and stimulate the future metanephros to grow.

Question 3

Q

What is Wilm’s tumour?

Answer

A

Congenital malignant tumour of the metanephric blastema in otherwise well chidlren.

Question 4

Q

What is a duplication defect?

Answer

A

Ureteric bud splits before it stimulates metanephros so there is an extra kidney or the kidney divides into two lobes.

Question 5

Q

What is a common sequelae of a duplication defect?

Answer

A

The extra kidney or lobe gives rise to an ectopic ureteric orifice.

Question 6

Q

What is a horseshoe kidney?

Answer

A

Fusion of the kidneys in the midline by their inferior poles during ascent which causes them to get caught on the inferior mesenteric arteries in ascent.

Question 7

Q

Where do horseshoe kidneys sit?

Answer

A

Just inferior to the inferior mesenteric artery.

Question 8

Q

What is an ectopic ureteric orifice?

Answer

A

The ureter opens into somewhere other than the trigone of the bladder, causing incontinence and chronic inflammation of epithelia at new opening as they’re not used to urine content.

Question 9

Q

What is cystic kidney disease?

Answer

A

Multicystic leading to atresia of the ureter, or polycystic which is incompatible with life.

Question 10

Q

How is cystic kidney disease detected?

Answer

A

Oligohydramnios during foetal development.

Question 11

Q

What causes urorectal fistulae?

Answer

A

Usually a defect in the urogenital sinus leading to a failure of cloacal portioning so there is communication between urinary and GI tracts.

Question 12

Q

What are the results of urorectal fistulae?

Answer

A

Infection due to colonic flora and irritation due to urea content.

Question 13

Q

What is exstrophy of the bladder?

Answer

A

A result of incomplete obliteration of the allantois/urachus so the bladder opens onto the abdominal wall and there is leakage of the urine through the umbilicus - incontinence.

Question 14

Q

What is ectopic urethral orifice?

Answer

A

Urethra opens into somewhere other than the correct place on the external genitalia - incontinence.

Question 15

Q

What is hypospadia?

Answer

A

Defect in the union of urethral folds in males so there is a urethra opening onto the ventral surface of the penis rather than at the end of the glans.

Question 16

Q

How does renovascular disease cause hypertension?

Answer

A

Renal artery stenosis or aneurysm leads to a reduced perfusion pressure in the kidney. This is detected by macula densa cells so there is more renin release and ATII created so hypertension.

Question 17

Q

What is diabetes insipidus?

Answer

A

Creation of large amount of dilute urine due to either a lack of production of ADH (neurogenic) or insensitivity to ADH (nephrogenic).

Question 18

Q

What are the consequences of diabetes insipidus?

Answer

A

Dangerous dehydration.

Question 19

Q

How is diabetes insipidus treated?

Answer

A

ADH injections of nasal spray.

Question 20

Q

What is syndrome of inappropriate ADH productions (SIADH)?

Answer

A

Huge overactivity of ADH production from a pituitary adenoma so there is excessive fluid retention and dilutional hyponatraemia.

Question 21

Q

How is SIADH managed?

Answer

A

Remove the source of hyponatraemia which otherwise leads to systemic cell lysis and death.

Question 22

Q

What is hypercalcaemia defined as?

Answer

A

[Ca2+] > 2.5mmol/L.

Question 23

Q

What are the common causes of hypercalcaemia?

Answer

A

Haematological malignancies, non-haematological malignancies, primary hyperparathyroidism, vitamin D toxicity.

Question 24

Q

What are the symptoms of hypercalcaemia?

Answer

A

Stones, depression, anorexia, nausea/vomiting, constipation, bone pain, hypertension, shorted QT interval on ECG.

Question 25

Q

What is the treatment for hypercalcaemia?

Answer

A

Hydration, furosemide - loop diuretic, bisphosphonates (protect bones), IV calcitonin, treat underlying condition.

Question 26

Q

What are renal calculi?

Answer

A

Stone within the collecting system of the urinary tract, normally calcium stone - urine saturated with calcium and oxalic acid so forms calcium oxalate that precipitates as a stone.

Question 27

Q

What are the three most common sites for stones in the urinary system?

Answer

A

Ureteropelvic junction (as ureter begins at renal pelvis), ureteric crossing of iliac vessels/pelvic brim, ureterovesical junction (where ureter ends at the bladder).

Question 28

Q

What are the symptoms of renal calculi?

Answer

A

Haematuria, renal colic - rolling around on floor in pain, post-renal AKI if it obstructs both kidneys, symptoms of pyelonephritis if infection from stasis, nausea, increased frequency and urgency of urinating.

Question 29

Q

What are the investigations for renal calculi?

Answer

A

Bloods to check PO4(3-), PTH, and Ca2+ levels. Abdominal X ray to spot radio-opaque stones (Ca2+ oxalate), ultrasound scan, non-constrast CT if negative AXR.

Question 30

Q

How are renal calculi managed?

Answer

A

Small stones (<4mm) passed naturally, increase fluid intake and decrease Na+/oxalate intake.
Large stones (>6mm): extracorporeal shockwave lithotripsy (ESWL) - uses vibration to obliterate stone, non invasive; ureteroscopy; open surgery - very rare.

Question 31

Q

What is hyperkalaemia defined as?

Answer

A

[K+] > 5mmol/L.

Question 32

Q

What are the causes of hyperkalaemia?

Answer

A

External balance dysfunction: increased intake; decreased excretion.
Internal balance dysfunction: DKA (no insulin); cell lysis; metabolic acidosis.

Question 33

Q

What are the symptoms of hyperkalaemia?

Answer

A

Heart ECG changes: tented T waves, prolonged PR interval, ST depression, QRS widening, VF, asystole.
GI: paralytic ileus.
Acidosis: K+ uptake into cells promotes H+ movement into ECF.

Question 34

Q

How is hyperkalaemia acutely managed?

Answer

A

IV calcium gluconate to protect heart, move K+ into ECF using insulin and dextrose, remove K+ by dialysis as last resort.

Question 35

Q

How is hyperkalaemia managed long term?

Answer

A

Change diuretics, treat diabetic ketoacidosis, reduce dietary intake, gut resins to bind K+ to inhibit dietary uptake.

Question 36

Q

What is hypokalaemia defined as?

Answer

A

[K+] < 3.5mmol/L.

Question 37

Q

What are the causes of hypokalaemia?

Answer

A

External balance dysfunction: excessive GI loss (diarrhoea and vomiting), renal loss (loop diuretics).
Internal balance dysfunction: metabolic alkalosis from vomiting.

Question 38

Q

What are the symptoms of hypokalaemia?

Answer

A

Heart ECG changes: hyperexcitability from hyperpolarisation, low/absent T wave (no pot, no tea - no potassium, no T waves).
GI: paralytic ileus.
Skeletal muscle: muscle weakness.
Renal: unresponsive to ADH so nephrogenic diabetes insipidus.

Question 39

Q

What is the acute management of hypokalaemia?

Answer

A

Treat cause, replace K+ - dietary or IV, spironolactone/ACE inhibitors with excessive mineralocorticoid activity.

Question 40

Q

What are urinary tract infections?

Answer

A

Colonisation of the urinary tract with bacteria.

Question 41

Q

What are the types of urinary tract infection?

Answer

A

Simple/uncomplication (cystitis) - woman of reproductive age, most common.
Complicated (cystitis) - men, children, uncommon.
Pyelonephritis (upper) - inflammation of renal pelvis, can cause kidney injury, or septic shock.
Chronic nephritis.

Question 42

Q

What are the influencing host factors of UTIs?

Answer

A

Gender - females have shorter urethras and shorter distance between perianal area and bladder.
Obstruction of collecting system - benign prostatic hyperplasia, pregnancy, etc.
Neurological lesions - incomplete emptying with stasis.
Ureteric reflux - angle hasn’t changed before puberty so ascending bladder infection in children.
Comorbidites - diabetes, CKD, AKI, etc.

Question 43

Q

What are the influencing bacterial factors of UTIs?

Answer

A

Fimbrae - epithelial attachment.
Haemolysins - damaged host membranes for nutrition.
K antigens on polysaccharide capsule so evasion f macrophages.
Urease so NH3 production for bacterial growth.
E. coli fits all this.

Question 44

Q

What are the common causative pathogens of UTIs?

Answer

A

E. coli, enterobacteriacae, enterococci (atypical), staphylococci.

Question 45

Q

What are the symptoms of cystitis?

Answer

A

Frequent urination, pyuria (burning when weeing), bad smelling urine, cloudy urine, malaise.

Question 46

Q

What are the symptoms of pyelonephritis?

Answer

A

Fever and chills, nausea and vomiting, renal pain, SIRS if severe.

Question 47

Q

What are the investigations of UTIs?

Answer

A

Urine samples for cloudiness and dipstick test for nitrite/leukocyte esterase.
MCS of urine samples (for complicated, pyelonephritis, comorbidities) - WBC/RBC count, culture for pathogens.

Question 48

Q

How are UTIs treated?

Answer

A

Conservative: fluid intake; address comorbidites/underlying conditions.
Antibiotics: uncomplicated - 3 days of trimethoprim; complicated - 7 days of trimethoprim/nitrofurantoin; pyelonephritis - 14 days of ciprofloxacin/cefuroxime.
Recurrent: low dose trimethorpim/nitrofurantoin for prophylaxis.

Question 49

Q

What is stress urinary incontinence?

Answer

A

Involuntary passing of urine in response to exertion - coughing, sneezing.

Question 50

Q

What is the typical history with stress urinary incontinence?

Answer

A

Childbirth, previous pelvic surgery.

Question 51

Q

What are the examinations for stress and urge urinary incontinence?

Answer

A

Weight and height, abdominal exam, female - external genitalia stress test, male - prostate exam.

Question 52

Q

How are stress and urge urinary incontinence investigated?

Answer

A

Urine dipstick test, frequency and volume chart, bladder diary, pressure/flow studies.

Question 53

Q

How are stress and urge urinary incontinence treated generally and contained incontinence?

Answer

A

General: decrease fluid/caffeine intake, avoid constipation, stop smoking.
Contained incontinence: indwelling catheter, condom catheter, incontinence pads.

Question 54

Q

What are the conservative, pharmacological, and surgical treatments for stress urinary incontinence?

Answer

A

Conservative: pelvic floor exercises.
Pharmacological: dulotexine (increases external urethral sphincter activity in filling phase).
Surgical: females - low tension vaginal tapes to support mid urethra, retropubic suspension procedure to correct position of bladder neck, intramural bulking agents to increase urethral wall size; males - artificial urethral sphincter with control in scrotum so artificial continence.

Question 55

Q

What is urge urinary incontinence?

Answer

A

Urinary incontinence preceded or accompanied by urgency.

Question 56

Q

What are the conservative, pharmacological, and surgical treatment for stress urinary incontinence?

Answer

A

Conservative: voiding scale training - void every hour and hold or leak in between, increase time by 15 mins a week until 2-3 hour is reached.
Pharmacological: cholinergic antagonists (oxybutynin) to block M3 receptors so detrusor relaxes and less urge to void, B3 agonists (mirabegron) to stimulate B3 adrenoceptors so detrusor relaxes, botunlinum toxin to block ACh release at M3 receptors so loss of detrusor contraction.
Surgical: sarcal nerve neuromodulation, augmentation cystoplasty (use bowel as bladder), urinary diversion (send to GI tract).

Question 57

Q

What is acute kidney injury?

Answer

A

Clinical syndrome encompassing abrupt decline in GFR, increased [NH3] and [urea], acid/base disturbance, and Na+ upset.

Question 58

Q

What are the stages of AKI?

Answer

A

Serum creatinine >26.5mmol/L or >150% of patient’s baseline.
SCr >200% of baseline.
SCr >354mmol/L, acute rise of >44mmol/L in <24hours, >300% of baseline.

Question 59

Q

What is the pre-renal acute kidney injury a result of generally?

Answer

A

Renal insult from hypoperfusion of the kidney, anything that causes decreased O2 delivery to >50% of the kidney parenchyma.

Question 60

Q

What are the pre-renal causes of AKI?

Answer

A

Hypovolaemia, systemic vasodilation, left ventricular failure, renal artery aneurysm/stenosis/thrombus/emolus, impairment of renal autoregulation - preglomerular vasoconstriction from sepsis, posterglomerular vasodilation from ACE inhibitors.

Question 61

Q

What is the pathophysiology of pre-renal AKI?

Answer

A

Decreased Na+ to macula densa from reduced GFR causes prostaglandin release to dilate afferent arteriole, and renin release causing efferent arteriole vasoconstriction.

Question 62

Q

How can pre-renal AKI be treated?

Answer

A

With fluid resuscitation.

Question 63

Q

What is acute tubular necrosis?

Answer

A

A result of decompensation following pre-renal AKI that sees the loss of function of the tubular cells.

Question 64

Q

What are the implications of acute tubular necrosis?

Answer

A

Fluid flows through and out into the urine at a constant rate due to PCT cells damage, this means the kidneys can’t respond to changes in osmolarity so fluid resuscitation for pre-renal AKI treatment leads to hyponatraemia.

Answer 65

A

Ischaemia, nephrotoxins, rhabdomyolysis (huge breakdown of skeletal muscle causing high myoglobin release - nephrotoxin).

Answer 66

A

Any pathological process that actually affects the renal parenchyma.

Answer 67

A

Glomerular disease - inflammation clogs glomerulus so GFR declines.
Acute tubulo-interstitial glomerulonephritis - infection from pyelonephritis or toxin induced.
Haemolytic uraemic syndrome, malignant hypertension, pre-eclampsia damage endothelium so cause microvascular thrombi which occlude small arteries and decrease O2 to renal parenchyma.

Answer 68

A

Obstruction of the collecting tract causes increased intraluminal pressure so a backup and hydronephritis and renal impairment.

Answer 69

A

Intraluminal - renal calculi, thrombus, tumour.
Within wall - post TB stricture.
Extrinsic - hyperplastic prostate, tumour, aneurysm.

Answer 70

A

Renal colic and haematuria.

Answer 71

A

Elderly, hypotensive, nauseated, lethargic.

Answer 72

A

Hypovolaemic sock - tachycardia, hypotensive, peripheral cyanosis, decreased JVP.
Septic shock - tachycardia, hypotensive, red and warm peripheries, decreased capillary refill time, rigors, pyrexia.

Answer 73

A

Nephrotoxin drug history, UTIs, trauma.

Answer 74

A

Renal colic (flank pain T11-L3), anuria, palpable bladder, potentially enlarged prostate.

Answer 75

A

Urinalysis - nitrites, blood and protein (suggestive of intrinsic).
Urine biochemistry - pre-renal causes high urine osmolarity and low Na+, ATN causes low urine osmolarity and high Na+.
Serum biochemistry - urea and creatinine high for all, hypocalcaemia, hyponatraemia, hyperkalaemia.
Imaging - ultrasound scan, chest X ray, abdominal X ray.
Renal biopsy - differentiates type of renal AKI when unsure.

Answer 76

A

Correct fluid balance and treat underlying insult.

Answer 77

A

Supportive of normal body homeostasis.

Answer 78

A

Supportive of normal body homeostasis, treat specific causes.

Answer 79

A

Remove the blockage.

Answer 80

A

Persistent hyperkalaemia despite treatment, fluid overload despite treatment, metabolic acidosis where NaHCO3- is contraindicated, dialysable nephrotoxin, severe uraemia.

Answer 81

A

> 3.5g of protein lost in urination in <24hours.

Answer 82

A

Minimal change glomerulonephritis - podocyte damage seen under transmission electron microscopy.
Focal segmental glomerulosclerosis - scarring in isolated areas of glomerulus that leads to filtration dysfunction.
Membranous glomerulonephritis - immune deposits in sub-epithelial space so leaky membrane.

Answer 83

A

1/3 get better, 1/3 show no change, 1/3 progress to renal failure.

Answer 84

A

Damage to glomerulus so significant haematuria with proteinuria and decreased renal function.

Answer 85

A

IgA nephropathy - most common, mesangial proliferation and scarring with IgA deposits.
Thin GBM nephropathy - hereditary benign nephropathy, thin GBM leads to isolated haematuria.
Alport syndrome - X linked recessive abnormal collagen IV so dysfunction of basement membrane.
Goodpasture syndrome - anti-GBM disease, overnight onset of severe nephritic syndrome from antibody to collagen IV.
Vasculitis - systemic inflammation of blood vessels from attack of ANCA and neutrophils, segmental necrosis.

Answer 86

A

Immunosuppression and IgG plasmophoresis if quick enough.

Answer 87

A

Increased age, black>white>asian, family history - BRCA2 gene.

Answer 88

A

Doesn’t increase quality or length of life and prostate specific antigen isn’t specific to prostate cancer.

Answer 89

A

Elderly, haematuria, renal colic, asymptomatic, bone bain if metastasised.

Answer 90

A

Rectal exam, PSA blood test, bone scan, tranrectal ultrasound biopsy.

Answer 91

A

If localised - surveillance, radial prostatectomy or radiotherapy.
If advanced localised - surveillance, hormones, or radiotherapy.
If metastasised - surgical/medical castration with LHRH agonists to slow growth, bisphosphonates protect bone, chemotherapy, and radiotherapy.

Answer 92

A

Smoking, schistosomiasis, occupational exposure to carcinogens.

Answer 93

A

TNM stages. T stages:
T1 = up to submucosa.
T2 = penetrated <50% thickness of detrusor.
T3a = penetrates 50-100% thickness of detrusor.
T3b-T4b = penetrated entire thickness of detrusor.

Answer 94

A

Depends on type.
Non-muscle invasive - surveillance and intravesical chemotherapy.
Muscle invasive - neoadjuvant chemo/radiotherapy along with reconstructive surgery: ileal conduit; orthotopic reconstruction use bowel as bladder.

Answer 95

A

Cancer of the kidney parenchyma.

Answer 96

A

Smoking, obesity, dialysis.

Answer 97

A

Perinephric spread to secondary renal tumours.
Lymphatic spread to nodal metastases.
Venous drainage to IVC obstruction and tumour clot.

Answer 98

A

Surveillance, radical nephrectomy. Palliative - molecular angiogenesis antagonists, sunitinib.

Answer 99

A

Cancer from the kidney down to the trigone.

Answer 100

A

Smoking, phenacetin - a now discontinued pain killer, Balkan’s nephropathy (familial interstitial nephritis).

Answer 101

A

Radical removal of kidney, fat, ureter, and part of the trigone.

Answer 102

A

Irreversible and progressive degeneration in renal function over months to years. Replacement of renal parenchyma with fibrous scar tissue leading to shrunken, fibrotic kidney that’s not specialised for function.

Answer 103

A

GFR base: G1 - >90ml/min to G5 - <15ml/min = renal failure.
ACR (albumin:creatinine ratio): A1 <3 to A3 >30.
Combine scores for a code, e.g. G3aA3.

Answer 104

A

Diabetes, hypertension, renal artery sclerosis, infection, genetics, obstruction/reflux nephropathy, idiopathic.

Answer 105

A

CV - atherosclerotic plaques form, hypertension etc.
Ca2+ regulation - loss of Ca2+ in filtrate and more H3PO4-. Osteomalacia, osteititis fibrosa cystica, renal osteodystrophy.
Bodily pH - acidosis from inability to retain HCO3-.
Anaemia - from decreased secretion/sensitivity to EPO so less RBC productoin.
Breathlessness, seizure, aches and pains, nausea and vomiting, itching.

Answer 106

A

Inulin clearance - true GFR.

eGFR - creatinine levels and then adjust for age, gender, and if black.

Answer 107

A

Context from past medical history. Blood tests for immunoglobulin (IgA nephropathy), ANCA (vasculitis/lupus), CRP (infection), etc. Imaging for pathology: USS (hydronephrosis secondary to obstruction), CT (renal artery stenosis/aneurysm), MRI (renal artery stenosis/aneurysm).

Answer 108

A

Modify lifestyle factors - smoking, obesity, lack of exercise. Treat comorbidities - diabetes and hypertension. Treat underlying pathology. Reduce lipid intake and amount (statins). ACE inhibitors if proteinuria. Dialysis or renal transplant if end stages.

Answer 109

A

Level of renal function that would cause death without intervention, GFR <15ml/min generally.

Answer 110

A

Tiredness/fatigue/difficulty sleeping/difficulty concentrating. Volume overload as can’t excrete fluid. Anaemia. Bone disease. Acidosis. Uraemic symptoms. Increased sensitivity and narrowing of therapeutic index of many drugs due to decreased metabolism and or excretion.

Answer 111

A

Haemodialysis, peritoneal dialysis, kidney transplant.

Answer 112

A

Creates an arteriovenous fistula that can be used to allow a point for withdrawal of 300mls of blood at a time. Exchange along an extracorporeal circuit that causes diffusion between sterile dialysis fluid and blood across a semi permeable membrane so toxins are eliminated. Heparin is given to prevent clotting.

Answer 113

A

Less responsibility for own care, get 4 days off a week from treatment, good evidence for long term effectiveness.

Answer 114

A

Arteriovenous fistula can be a cosmetic problem, limits travel and holidays as have to keep specific appointment, can damage CVS due to volume change.

Answer 115

A

Failed vascular access, heart failure, coagulopathy.

Answer 116

A

Uses the peritoneum as the semi-permeable membrane. Peritoneum is filled with dialysis fluid and the exchange with the ECF/blood vessels allows for toxin elimination. One type has 4-5 bag changes a day, the other has overnight bags.

Answer 117

A

Autonomy of care, less fluid/diet/travel restriction than haemodialysis.

Answer 118

A

No days off, frequent changes, responsibility, indwelling catheter increases risk of peritonitis and hernias etc.

Answer 119

A

Failure of peritoneum, patient/carer can’t connect bag, obese/dench.

Answer 120

A

Gold standard for renal replacement therapy. Kidney is implanted in at the iliac fossa instead of normal T11-L2 so the iliac vessels and bladder can be easily accessed.

Answer 121

A

Deceased after brain death, deceased after circulatory death, live donation (related or altruistic).

Answer 122

A

Restores renal function to a much higher level than dialysis, no repetitive treatment, lower mortality than dialysis, good long term prognosis.

Answer 123

A

Risk of operative mortality, limited donor supply, life long immunosuppression so infection more likely, not a permanent fix.

Answer 124

A