6. Nephrology

Question 1

Definition of acute kidney injury ?

Answer 1

• A rapid decline in renal function, with an increase in serum creatinine level (a relative increase of 50% or an absolute increase of 0.5 to 1.0 mg/dL)

Question 2

Acute renal failure (ARF) ?

Answer 2

The creatinine may be normal despite a markedly reduced glomerular filtration rate (GFR) in the early stages of acute kidney injury (AKI) due to the time it takes for creatinine to accumulate in the body.

Question 3

RIFLE criteria ?

Answer 3

• Classification severity of acute kidney injury.

1. RISK:
   - 1.5x increase in Cr.
   - GFR decreased by 25%.
   - Urine output: <0.5 mL/kg?hr for 6 hrs.
2. INJURY:
   - 2x increase in Cr.
   - GFR decreased by 50%.
   - Urine output: <0.5 mL/kg/hr for 12 hrs.
3. FAILURE:
   - 3x increase in Cr.
   - GFR decreased by 75%.
   - Urine output: <0.5 mL/kg/hr for 24 hrs. or anuria for 12 hrs.
4. LOSS:
   - Complete loss of kidney function (i.e. requiring dialysis) for more than 4 wks.
5. ESRD:
   - Complete loss of kidney function (i.e. requiring dialysis) for more than 3 months.

• Svereity (stage 1-3).
• Outcome (4 and 5)

Question 4

The most common cause of death in AKI ?

Answer 4

Infections (75%).

Question 5

Types of AKI ?

Answer 5

• Prerenal AKI (decrease in renal blood flow 60% of cases)
• Intrinsic AKI. (40%)
• Psotrenal AKI. (5%)

Question 6

Prerenal AKI causes ?

Answer 6

• Most common cause of AKI; potentially reversible.
• Hypovolemia (dehydration, excessive diuretic use, vomiting, diarrhea, burns, hemorrhage)
• CHF. (less blood will be send to the tissues)
• Hypotension.
• Renal arterial obstruction.

Question 7

Diagnostic Approach in AKI ?

Answer 7

• hx and PE.

1. To determine the duration of renal failure. A baseline Cr level provides this info.
2. To determine whether AKI is due to prerenal, intrarenal, or postrenal.
3. Medication review.
4. Urinalysis.
5. Urine chemistry (FENa, osmmolality, urine Na+, urine Cr)
6. Renal US ( to rule out obstruction)

Question 8

How to know whether AKI is due to prerenal, intrarenal, or postrenal ?

Answer 8

• This is done via combination of H&P and labs findings:
• Signs of volume depletion and CHF suggest a prerenal etiology.
• Signs of an allergic reaction (rash) suggest acute interstitial nephritis (an intrinsic renal etiology).
• A suprapubic mass, BPH, or bladder dysfunction suggests a postrenal etiology.

Question 9

Medication causes Intrarenal AKI ?

Answer 9

1. Acute tubular necrosis ->
   - Aminoglycosides.
   - Heavy metals (leads).
   - Myoglobin (damaged muscle).
   - Ethylene glycol. (anti-freeze)
   - Uric acid
   - Radiocontrast dye.
2. Acute Interstitial AKI -> (type I and IV hypersensitivity)
   - NSAIDs.
   - Penicillin.
   - Diuretics.

Question 10

Prerenal AKI ?

• Urinalysis:
• BUN/Cr ratio:
• FENa:
• Urine osmolality:
• Urine sodium:

Answer 10

• Urinalysis: hyaline cast
• BUN/Cr ratio: >20:1
• FENa: <1%
• Urine osmolality: >500 mOsm
• Urine sodium: <20

Question 11

Intrinsic AKI ?

• Urinalysis:
• BUN/Cr ratio:
• FENa:
• Urine osmolality:
• Urine sodium:

Answer 11

• Urinalysis: abnormal.
• BUN/Cr ratio: <20:1
• FENa: >2-3%
• Urine osmolality: 250-300 mOsm.
• Urine sodium: >40

Question 12

Acute tubular necrosis urine sediment findings ?

Answer 12

• Full brownish pigment, granular casts with epithelial cells.

Question 13

Intrinsic AKI causes ?

Answer 13

• Tubular diseases (ATN): can be caused by ischemia (most common), nephrotoxins.
• Glomerular disease (acute glomerulonerphritis): for example, Goodpasture syndrome, Wegener granulomatosis, poststreptococcal GN, lupus.
• Vascular disease: for example, renal artery occulsion, TTP, HUS.
• Interstitial disease. (allergic interstitial nephritis, often due to hypersensitivity reaction to medication)

Question 14

The 3 basic tests for postrenal failure ?

Answer 14

• PE: palpate the bladder.
• US: look for obstruction, hydronephrosis.
• Catheter: look for large volume of urine.

Question 15

Postrenal AKI causes ?

Answer 15

• Urethral obstruction. (2ndary to enlarged prostate (BPH) is the most common cause).
• Obstruction of solitary kidney.
• Nephrolithiasis.
• Obstructing neaplasms (bladder, cervix, prostate, and so on)

Question 16

RBC casts in ureine sediment indicates ?

Answer 16

Glomerular disease.

Question 17

WBC casts in ureine sediment indicates ?

Answer 17

Renal parenchymal inflammation “ acute interstitial nephritis “

Question 18

Fatty casts in ureine sediment indicates ?

Answer 18

Nephrotic syndrome

Question 19

What are the nosy common mortal complications in early phase of AKI ?

Answer 19

• Hyperkalemic cardiac arrest.

- Pulmonary edema.

Question 20

Chronic Kidney Disease is ?

Answer 20

Defined as either:
- Decreased kidney function (GFR<60 mL/min)
OR
- Kidney damage (structural or functional abnormalities).
for at least 3 months.

Question 21

Causes of Chronic Kidney Diseases ?

Answer 21

• • Diabetes. (most common 30%).
• • HTN (25%)
• Chronic GN.
• Interstitial nephritis, PCKD.
• any cause of AKI may lead to CKD if prolonged and/or treatment is delayed.

Question 22

NUTRITIONAL THERAPY in Chronic kidney diseases ?

Answer 22

• WATER RESTRICTION
• intake depends on daily urine output.
• SODIUM RESTRICTION:
• depends on the degree of hypertension and edema
• salt substitutes should not be used because they contain KCl

Question 23

life-threatening complications in CKD ?

Answer 23

• Hyperkalemia: check ECG (although it K can be high without ecg changes)
• Pulmonary edema (2ndary to volume overload) (look for recent weight gain).
• Infections

Question 24

Absolute Indications for Dialysis ?

Answer 24

• Acidosis: significant, intractable metabolic acidosis.
• Electrolytes: severe, persistent hyperkalemia.
• Intoxications: methanol, ethylene glycol, lithium, aspirin.
• Overload: hypervolemia not managed by other means.
• Uremia (severe): based on clinical presentation NOT labs values.

Question 25

Symptoms of uremia ?

Answer 25

• Nausea and vomiting.
• Lethargy/detrioration in mental status, encephalopathy, seizures.
• Pericarditis.

Question 26

Dialyzable Substances ?

Answer 26

• Salicylic acid.
• Lithium.
• Ethylene glycol.
• Magnesium-containing laxatives.

Question 27

Complications of Hemodialysis during dialysis ?

Answer 27

• Hypotension. “most frequent”
• Arrhythmias.
• Exsanguination.
• Seizures.
• Fever.

Question 28

Complications of Hemodialysis between treatments ?

Answer 28

• Hyper/Hypotension.
• Edema.
• Pulmonary edema.
• Hyperkalemia.
• Bleeding,
• Clotting access.

Question 29

Long term Complications of Hemodialysis ?

Answer 29

• Hyperparathyroidism.
• CHF.
• AV access failure.
• Pulmonary edema.
• Neuropathy.
• Anemia.
• GI bleeding.

Question 30

Kt/V ?

Answer 30

• Kt/V is the preferred method for measuring the dialysis
  dose.
• Kt/V is defined as the dialyzer clearance of urea (K) multiplied by the duration of the dialysis treatment (t, in minutes) divided by the volume of distribution of urea in the body (V, in mL), which is approximately equal to the total body water, corrected for volume lost during ultrafiltration .

Question 31

Absolute contraindications of Peritoneal Dialysis ?

Answer 31

1. Peritoneal fibrosis and adhesion following intraabdominal operation.
2. Inflammatory gut diseases.

Question 32

AZOTEMIA def ?

Answer 32

A pathologic increase in urea and other nitrogenous substances in the blood.

Question 33

UREMIA def ?

Answer 33

Systemic manifestation of severe persistent decrease in renal function.

Question 34

AKIN Criteria?

Answer 34

• for diagnosing AKI.

1. Time course – rapid (<48hours).
2. Reduction in Kidney function
   - increase serum creatinine (absolute increase of >0.3mg/dl or percentage increase of > 50%)
   - decrease urine output (<0.5ml/kg/hr for> 6hours)

Question 35

RIFLE Criteria: URINE OUTPUT ?

Answer 35

• ANURIA: <100 mL/24 h
• OLIGURIA: 100-400 mL/24h
• NONOLIGURIA: : > 400 mL/24h
• 50-60% of AKI cases are nonoliguric

Question 36

Treatment of Potassium >6.0 mmol/L ?

Answer 36

– calcium resonium 15g QDS PO

– If septic or rising quickly treat as though K+ 6.5

Question 37

Treatment of Potassium >6.5 mmol/L ?

Answer 37

– dextrose-insulin (50ml 50% Dextrose with 10units Actrapid insulin, IV over 5mins) Monitor BM
– calcium resonium 15g QDS PO.

Question 38

Treatment of Potassium >7 mmol/L ?

Answer 38

– Calcium gluconate.
– Dextrose insulin.
– Nebulised salbutamol 5mg
– IV sodium bicarbonate.
– Calcium resonium.

Question 39

Treatment approach to hyperkalemic emergencies ?

including MOA?

Answer 39

• Antagonism of membrane actions of potassium:
• Calcium.
• Drive extracellular potassium into the cells:
• Insulin and glucose.
• Sodium bicarbonate. (if metabolic acidosis)
• B-2-adrenergic agonists. (salbutamol)
• Removal of potassium from the body:
• Loop or thiazide diuretics.
• Cation exchange resin.
• Dialysis. preferably if severe.

Question 40

HYPERKALEMIA ?

Answer 40

• Normal Potassium range is 3.5 - 5mmol/L.
• Signs and symptoms: muscle weakness and arrhythmia (VF).
• ECG changes:
  – Flattened P waves
  – Broad QRS complex
  – Slurring of ST segment
  – Tall tented T waves

Question 41

HTN management in CKD ?

Answer 41

• Diuretics
• Ca channel blockers.
• ACEI, ARB.

Question 42

ANEMIA treatment in CKD ?

Answer 42

• ERYTHROPOETHIN:
• increases Hb and HT levels in 2-3 weeks.
• side effect: hypertension (so its CI if we have HTN patient).
• Iron supplements:
• in case of low plasma ferritin (<100 ng/mL).
• Folic acid supplements:
• removed by dialysis.
• necessary for RBC formation.
• Levels should be:
  1. Hg: 11-12 g/dl.
  2. Ht: 33-36%.

Question 43

Management of RENAL OSTEODYSTROPHY in CKD ?

Answer 43

– dietary phosphorus restriction (<1000 mg/day),
– oral P-binding agents (limit P absorption from bowel, with each meal) (e.g. calcium carbonate)
– vit. D
– increase sensitivity of Ca receptors in parathyroid glands (sensipar)
– subtotal parathyroidectomy,
– calcitriol

Question 44

Proteinuria is?

Answer 44

• Defined as the urinary excretion of >150mg protein/24 hrs.

Question 45

Proteinuria classifications ?

Answer 45

A. Glomerular.
B. Tubular.
C. Overflow proteinuria.
D. Other causes of proteinuria (UTI, fever, heavy exertion/stress,CHF..etc)

Question 46

Nephrotic syndrome ?

Answer 46

• Proteinuria “ >3.5 mg/24 hr”
• Hypoalbuminemia.
• Hyperlipidemia .
• Edema. “often initial complaint”.
• Lipiduria.

Question 47

Causes of Nephrotic syndrome ?

Answer 47

• Primary glomerular disease. (50-75%):
  1. Membranous nephropathy (most common in adults 40%).
  2. Focal segmental glomerulosclerosis (FCGS) (35%).
  3. membranoproliferative GN (15%).
  4. Minimal change disease (MCD) commonest in kids 75%.
• Systemic disease: diabetes, collagen vascular disease, SLE, RA, HSP, PAN, Wegener granulomatosis.
• Amyloidosis, cryglobulinemia.
• Drugs/toxins.
• Infections.
• Multiple myeloma.

Question 48

Pathology of Membranous nephropathy or “MEMBRANOUS

GLOMERULONEPHRITIS” ?

Answer 48

-Inflammation of glomerular basement membrane triggered by immune complex deposits -> increased permeability, proteinuria -> nephrotic syndrome.

Question 49

Pathology of Focal segmental glomerulosclerosis (FCGS) ?

Answer 49

▪ Histologic finding of glomerular damage, not distinct disease.
▪ Affects parts (segmental) of some (focal) glomeruli of nephron; damage, scarring → proteinuria
▪ Foot processes of podocytes damaged → plasma proteins, lipids permeate glomerular filter
▪ Proteins, lipids trapped → build up inside glomeruli → hyalinosis (hyaline/ glassy view on histology) → scar tissue (glomerulosclerosis)

Question 50

Causes of Focal segmental glomerulosclerosis (FCGS) ?

Answer 50

▪ Primary: unknown
▪ Secondary: result of underlying cause
- Sickle cell disease, HIV, renal hyperfiltration (e.g. unilateral renal agenesis), heroin abuse
▪ Genetic forms: FSGS 1–6

Question 51

Hematuria ?

Answer 51

• Defined as >3 erythrocytes/HPF on urinalysis.

- Consider gross painless hematouria to be a sign of bladder or kidney cancer until proven otherwise.

Question 52

Nephritic syndrome ?

Answer 52

• Hematouria.
• Oliguria.
• Azotemia.
• HTN.
• Edema.

Question 53

Pathology of Minimal change disease ?

Answer 53

▪ Type of glomerulonephritis; podocytes in glomeruli damaged by T cells cytokines
▪ Foot processes of podocytes damaged, flattened (AKA effacement) → lose function as barrier → albumin permeates, bigger proteins cannot get through (selective proteinuria)

Question 54

MEMBRANOUS GN findings on sliver staining ?

Answer 54

“SPIKES” ON THE OUTER ASPECT OF GBM.

Question 55

IDIOPATHIC MEMBRANOUS NEPHROPATHY ?

Answer 55

Ag: phospholipase A2receptor (PLA2R) (may be shown in a biopsy)
in patient;’s blood: anti PLA2R

Question 56

THE ACUTE NEPHROTIC SYNDROME info about pathology ?

Answer 56

The structural abnormality shared by all nephrotic conditions or diseases with heavy proteinuria is diffuse simplification or “fusion” of the foot processes of the glomerular visceral epithelial cells.

Question 57

THE ACUTE NEPHRITIC SYNDROME info about pathology ?

Answer 57

Diseases characterized by the acute nephritic syndrome are associated invariably with deposition of immune complexes in the more proximal layers of the glomerular capillary wall, in close proximity to the endothelial cell surfaces

Question 58

Diffuse proliferative glomerulonephritis in a patient with recent hepatitis C infection ?

Answer 58

• Ultrastructural details of subendothelial deposits.
• Immune deposits are present exclusively in the subendothelial space.
• Early formation of a second basement membrane (arrows) by the displaced endothelium has resulted in an early double contour.

Question 59

CONDITIONS ASSOCIATED WITH DIFFUSE PROLIFERATIVE GLOMERULONEPHRITIS ?

Answer 59

• Acute Postinfectious Glomerulonephritis:.
• Diffuse proliferative lupus nephritis.
• Dense Deposit Diseases early phase.
• Essential mixed cryoglobulinemia, early phase

Question 60

Clinical manifestation of Membranoproliferative glomerulonephritis ?
and PATTERN OF INJURY ?

Answer 60

CHRONIC nephrotic syndrome and nephritic syndrome

1. IMMUNE DEPOSITS-MEDIATED DISEASES (glomerulonephritis)
2. THROMBOTIC ANGIOPATHIES
3. DEPOSITION DISEASE

Question 61

RAPIDLY PROGRESSIVE GLOMERULONEPHRITIS ?

Answer 61

Clinical conditions that evolve with rapidly progressive decline in renal function and an active urine sediment are usually characterized by an inflammatory process that results in the formation of cellular crescents within Bowman’s space (crescents).

Question 62

Type III RPGN ?

Answer 62

• Pauci-immune

- ANCA (+) necroticans GN

Question 63

CRESCENTIC GLOMERULONEPHRITIS types ?

AKA rapidly progressive glomerulonephritis (RPGN)

Answer 63

• Type I, anti-GBM disease: (Goodpasture syndrome (GPS))
• Type II, immune complex-mediated:
• post-infectious GN, IgA nephropathy, MPGN,
  Systemic diseases (SLE, RA, H-S purpura)
• Type III, pauci immune (ANCA-associated):
  Vasculitides (ANCA-associated): microscopic form of polyarteritis nodosa, Wegener’s granulomatosis Churg-Strauss syndrome
  Drug-induced vasculitides

Question 64

Diabetic nephropathy findings ?

Answer 64

• 1st 3 are major histologic findings:
• Thickened glomerular basement membrane.
• Mesangial expansion.
• Glomerular sclerosis
• Kimmelstiel-wilson nodules.
• Disruption of podocytes.

Question 65

Hepato-Renal syndrome ?

Answer 65

• Is a life-threatening medical condition that consist of rapid deterioration in kidney function in individuals with cirrhosis or fulminant liver failure.
• HRS is usually fatal unless a liver transplant is performed, although various treatments, such as dialysis, can prevent advancement of the condition.

Question 66

Absolute contraindication for renal biopsy ?

Answer 66

• Bleeding diathesis.
• Uncontrolled severe HTN.
• Uncooperative patient.
• Presence of a solitary native kidney.

Question 67

Nephritic syndrome with normal serum complement ?

Answer 67

1- IgA nephropathy.
2- Hereditary nephritis (Alport syndrome).
3- Crescentic Rapidly progressive ANCA positive GN (can also present as acute renal failure).
4- Anti-basement membrane disease (Goodpasture’s disease)
(can also present as acute renal failure).
5- Systemic vasculitis, ANCA positive. (can also present as acute renal failure).
6- Thrombotic microangiopathy.

Question 68

Nephritic Syndrome with decreased Serum Complement ?

Answer 68

1. Membrano-proliferative GN.
2. C3 nephropathy.
3. Lupus nephritis

Question 69

Thrombotic Microangiopathy (TMA) gen info?

Answer 69

• Nephritic syndrome or acute renal failure accompanied by hemolytic anemia, hemorrhages, and purpura.
• Has multiple clinical presentations and names.
• Most frequent presentations are TTP & HUS.
• Many cases respond to treatment.
• Renal biopsy confirms the diagnosis.
• Also referred as micro-angiopathic hemolytic anemia (MAHA).

Question 70

Thrombotic Microangiopathy (TMA) clinical presentations and names ?
1- With predominantly neurologic symptoms:
2- With a domination of kidney insufficiency:
3- as complication of hypertension:
4- as complication of pregnancy:.
5- as a complication of ……………
6- as a component of ……………….

Answer 70

• With predominantly neurologic symptoms: thrombotic thrombocytopenic purpura (TTP)
• With a domination of kidney insufficiency: hemolytic uremic syndrome (HUS).
• as complication of hypertension: malignant hypertension.
• as complication of pregnancy: eclampsia.
• as a complication of cemplement disorders (inborn or acquired).
• as a component of scleroderma.

Question 71

Causes of acute interstitial nephritis ?

Answer 71

A. Acute allergic reaction to medications “MOST COMMON”.
B. Infection (esp. in kids). (esp. Streptococcus spp. and Legionella pneumophila.)
C. Collagen vascular diseases (eg. sarcoidosis).
D. Autoimmune disease (eg. SLE, sjögren syndrome).

Question 72

What are the classical findings of acute interstitial nephritis ?

Answer 72

Rash, fever and eosinophilia.

Question 73

MEDULLARY PYRAMIDS NECROSIS ?

Answer 73

• Its one of the acute pylonephritis complications.
• More common in diabetics.
• more common in cases associated with urinary obstruction.
• A characteristic component of analgetic nephropathy.

Question 74

What is the most common location for obstruction in Nephrolithiasis ?

Answer 74

Ureterovesical junction.

Question 75

Types of stones in Nephrolithiasis ?

Answer 75

• Calcium stones (most common form). (80%).
• Uric acid stones (2nd most common).
• Struvite stones (staghorn stones).
• Cystine stones.

Question 76

Calcium oxalate urine sediments ?

Answer 76

• dumbbel-shaped calcium oxalate monohydrate.

- envelope-shaped calcium oxalate dihydrate.

Question 77

Struvite stones (staghorn stones) urine sediments ?

Answer 77

• Multiple “coffin lid” magnesium ammonium phosphate crystals that form only in an alkaline urine.

Question 78

Uric acid urine sediments ?

Answer 78

• Urine sediment loaded with uric acid crystals.
• These crystals are pleomorphic, most often appearing as rhombic plates or rosettes.
• They are yellow or reddish-brown and form only in an acid urine

Question 79

Cystine stones ?

Answer 79

Cystine stones only develop in patients with cystinuria (an autosomal recessive disorder) due to the poor solubility of cystine in the urine.

Question 80

Cystinuria ?

Answer 80

• Autosomal recessive disease, defective renal transport of cystine,
  ornithine, lysine, arginine -> nephrolithiasis.
• urine sample – hexagonal crystals.

Question 81

Cystinosis ?

Answer 81

• A genetic lysosomal storage disease, (typically autosomal

recessive inheritance pattern).

Question 82

Pathology of Cystinosis ?

Answer 82

• Defective transport of cystine across the lysosomal membrane, renal Fanconi syndrome, cellular accumulation of cystine -> destroys tissue ->
  • renal insufficiency.
  • hypothyroidism.
  • blindness.

Question 83

Treatment of Cystinosis ?

Answer 83

cysteine-leting drug cysteamine

Question 84

What is the examination of choice for the detection and localization of urinary stones ?
the most sensitive in nephrolithiasis ?

Answer 84

nonenhanced CT scanning.

Question 85

opaque stones (90%) ?

Answer 85

– calcium oxalate
– calcium phosphate
– cystine
– struvit with calcium phosphate complexes

Question 86

nonopaque stones ?

Answer 86

– uric acid

– struvit (without complexes with calcium phosphate)

Question 87

Benign renal tumors ?

Answer 87

• Cortical (papillary) adenoma.
• Fibroma.
• Angiomyolipoma.
• Oncocytoma.

Question 88

Malignant renal tumors ?

Answer 88

• Renal cell carcinoma (RCC).

- Wilm’s tumor.

Question 89

Cortical (papillary) adenoma ?

Answer 89

• small well-defined tumors.
• asymptomatic.
• are found commonly at autopsy in
  people over 40 years, the vast majority
  of whom are males.
• They form pale yellow to gray
  subcapsular, cortical masses usually less than 2 cm in diameter.

Question 90

Renal oncocytoma ?

Answer 90

• Benign, unifocal renal tumor that averages 5-7 cm in diameter.
• More in females.
• the tumors are well circumscribed and the
  cut surface has a uniform mahogany-brown
  color without foci of hemorrhage or necrosis.

Question 91

Angiomyolipoma ?

Answer 91

• benign lesions characterized by the presence of:
  1. mature adipose tissue.
  2. smooth muscle.
  3. thick-walled blood vessels.

Question 92

Renal cell carcinoma (RCC) ?

Answer 92

• 85% of all malignant tumors arising in kidneys.

- most common: 60-70 years.

Question 93

Renal cell carcinoma (RCC) risk factors ?

Answer 93

– smoking
– obesity
– HT
– asbestos, petroleum products, heavy metals – CKD and acquired cystic disease
– inborn predisposition (multifocal and bilateral tumors):
• hereditary clear cell Ca
• hereditary papillary Ca
• von Hippel-Lindau syndrome

Question 94

The classic triad symptoms of RCC?

Answer 94

• Back pain.
• Abdominal pain.
• Hematouria.
• seen in
  only about 10% of patients and indicates advanced disease

Question 95

Renal cell carcinoma (RCC)

Gross morphology ?

Answer 95

• yellowish tumor with hemorrhagic, necrotic cystic areas

* may grow into the renal vein

Question 96

Renal cell carcinoma (RCC) Microscopically ?

Answer 96

• clear cell Ca (70-80%)
• papillary Ca (10-15%)
• chromophobe renal Ca (5%)
• sarcomatoid Ca

Question 97

Nephroblastoma (Wilms tumor) ?

Answer 97

the most common renal malignancy in children and the fourth most
common childhood cancer.

Question 98

Wilms Tumor may occur as a part of a multiple malformation syndrome including ?

Answer 98

– WAGR.
– Denys-Drash.
– Beckwith-Wiedemann syndromes.

Question 99

WAGR ?

Answer 99

• WT.
• Aniridia.
• Genitourinary malformations in affected 46XY males.
• mental Retardation.
• This is associated with deletion of the Wilm’s tumor-associated gene, WT1, located on the short arm of chromosome 11 (11p13).

Question 100

Denys-Drash syndrome ?

Answer 100

• WT.
• Nephropathy.
• ambiguous genitalia in affected males.
• DDS is due to mutation of both alleles of the WT1 gene that renders it inactive.

Question 101

Beckwith-Wiedman syndrome ?

Answer 101

• WT.
• Organomegaly and body overgrowth (either as gigantism or hemihypertrophy).
• This is associated with loss of the maternal allele of a locus on 11p15 called WT2, germline duplication of paternal WT2 allele or inheritance of two paternal WT2 alleles and none from the mother.

Question 102

Clinical features of Nephroblastoma (Wilm’s Tumor) ?

Answer 102

• the most common presentation is detection of an abdominal mass or swelling without other signs or symptoms
• symptoms or signs that may be present include abdominal pain (30%), hematuria (12-25%), and hypertension (25%).

Question 103

Prognosis of Nephroblastoma (Wilm’s Tumor) ?

Answer 103

good outcome with early diagnosis (currently 90% long term survival)

Question 104

Simple renal cysts ?

Answer 104

• the most common renal masses, accounting for approximately 65-70% of cases.
• most often in patients >50 (M>F)
• may be solitary, or multiple and bilateral.
• typically asymptomatic.

Question 105

Autosomal recessive polycystic kidney

disease (ARPKD) ?

Answer 105

• cystic dilations of the renal collecting ducts and congenital hepatic fibrosis.
• ARPKD is caused by mutations in the PKD1 gene that encodes for fibrocystin (also referred to as polyductin).
• Progressive renal failure occurs in most patients.

Question 106

Autosomal dominant Polycystic Kidney Disease (DPKD) ?

Answer 106

• the most common genetic cause of chronic kidney disease.
• main characteristics:
• large multicystic kidneys,
• liver cysts,
• berry aneurysm

Question 107

main clinical features of Autosomal dominant Polycystic Kidney Disease (DPKD) ?

Answer 107

• hematuria
• flank pain
• UTI
• renal stones
• Hypertension

Question 108

Autosomal dominant PKD (ADPKD) is caused by mutations of ?

Answer 108

• Either PKD1 (gene product: polycystin 1) or PKD2 (gene product: polycystin 2) genes.
• PKD1 mutations are more common and cause more severe disease than PKD2 mutations.

Question 109

Medullary sponge kidney (MSK) ?

Answer 109

• is a congenital disorder characterized by malformation of the terminal collecting ducts in the pericalyceal region of the renal pyramids.
• usually asymptomatic.

Question 110

What is the most valuable laboratory diagnostic test for UTI ?

Answer 110

Pyuria

• The most accurate method for assessing pyuria is to examine an unspun voided midstream urine specimen with a hemocytometer; an abnormal result is ≥10 leukocytes/microL.

Question 111

Recurrent UTI ?

Answer 111

Recurrent UTI- ≥2 infections in six months or ≥3 infections in one year. Recurrent UTIs -young, healthy women with anatomically and physiologically normal urinary tracts

Question 112

Drug absorption in patient with CKD can be affected by ?

Answer 112

Edema of mucus membrane.

Question 113

A 30-year-old man complaining of chest pain, shortness of breath, and back pain during hemodialysis. Lab test reveal rapidly falling hematocrit, hyperkalemia and pink color of the plasma in a centrifuge specimens. The most likely diagnosis is?

Answer 113

Hemolysis

Question 114

Indicate the pathogen that is most common cause of peritonitis in patients undergoing continuous peritoneal dialysis?

Answer 114

Gram-positive bacteria

Question 115

Which of glomerulopathies typically manifests with erytrocyturia ?

Answer 115

IgG nephropathy

Question 116

Treatment of calcium stone disease with hypercalcinuria consist of ?

Answer 116

• High fluid intake.
• Thiazide diuretics, potassium citrate, low-protein and low-sodium diet.
• Avoid avoid dietary calcium restriction !

additional info
- what was written above for idiopathic hypercalciuria.
* primary hyperparathyroidism:
– surgery
– avoid thiazide diuretic

Question 117

Urinary alkalinization is indicated in ?

Answer 117

Cystine and uric acid nephrolithiasis.

Question 118

Clinical manifestations of Diabetic nephropathy ?

Answer 118

• Renal insufficiency.
• Nephrotic syndrome.
• HTN.
• it usually accompanied by microangiopathic changes in other organs.

Question 119

macroalbuminuria is present ?

Answer 119

albumin excretion >300mg.

Question 120

microalbuminuria is present ?

Answer 120

albumin excretion 30-300 mg

Question 121

Minimal change disease characteristically produces ultrastructural changes in which renal glomerular element ?

Answer 121

Epithelium (podocytes)

Question 122

A kidney biopsy specimens that shows subendothelial granular electron-dense deposits is characteristic of which disease ?

Answer 122

SLE

Question 123

Mercury posioning causes which condition in the kidney ?

Answer 123

Acute tubular necrosis (ATN)

Question 124

Malakoplakia of the renal pelvis occurs following infection by which organism ?

Answer 124

E. Coli

Question 125

An immunoflurescence stained kidney specimen from a patient with poststreptococcal glomerulonephritis is likely to show ?

Answer 125

Granular deposits of immunoglobulin G (IgG)

Question 126

Renal cell carcinoma (RCC) common symptoms ?

Answer 126

• The classic histopathology is that of clear cell carcinoma.
• The combination of hematuria, flank pain, and flank mass is found in only 10% of patients and indication of severe disease.
• affected pts may present with polycythemia and erythrocytosis.

Question 127

Postinfectious Glomerulonephritis ?

Answer 127

• The disease follows infection with gr A strep.
• Large subepithelial immune-type deposits are seen by electron microscopy.
• The histologic picture is that of diffuse proliferative glomerulonephritis.
• Clinical picture is acute nephritis.
• there was an old question (all true except )

Question 128

Goodpasture’s syndrome ?

Answer 128

• Patients present with hemoptysis and hematuria.
• Death occurs due to uremia and pulmonary hemorrage.
• Electron microscopy shows an absence of electron-dense deposits.
• Immunofluorescence reveals linear deposits of IgG in the glomeruli.
• there was an old question (all true except )

Question 129

immunoflurescence stained kidney specimen from a patient with Poststreptococcal glomerulonephritis (PSGN) are likely to show deposits of ?

Answer 129

1. Immunoglobulin.
2. Fibrin.
3. Complement.

Question 130

Condition leads to hydronephrosis ?

Answer 130

1. Prostatic hypertrophy.
2. Pelvic tumor.
3. Renal calculi.

• was a question except (chronic vein thrombosis)

Question 131

Asymptomatic bacteriuria ?

Answer 131

Significant (>10(5)) bacteria count in the urine culture in individuals with no clinical or laboratory signs of UTI.

Question 132

Is the major cause of anemia in chronic kidney disease is?

Answer 132

Erythropoietin deficiency.

Question 133

The most common type of chronic GN in the world?

Answer 133

IgG neohropathy.

Question 134

Typical biochemical findings associated with end-stage renal disease are ?

Answer 134

• Increase PTH.
• Decrease calcium.
• Increase PO4-
• Decrease 1,25 (OH) vit D3
• Renal osteodystrophy

Question 135

Percentage of HTN presentation in patient with kidney failure ?

Answer 135

80-90%

Question 136

Pure red-cell aplasia is caused by ?

Answer 136

Anti-erythropoietin antibodies.

Question 137

Which organism constitute the most common cause of urinary tract infection?

Answer 137

E. coli

Question 138

What are the typical components of dialysis fluid ?

Answer 138

Sodium, potassium, bicarbonates, ultra pure water, calcium, chloride, glucose.

Question 139

Patient with chronic kidney disease what is the main alternative route of potassium excretion?

Answer 139

GI tract.

Question 140

first line treatment regimen of acute and uncomplicated cystitis in young women ?

Answer 140

Fosfomycin

Question 141

Indicate the dysfunctions of the renal tubules in fanconi syndrome ?

Answer 141

• glycosuria
• aminoaciduria
• phosphaturia
• proximal renal tubular acidosis

Question 142

ANGIONEPHROSCLEROSIS ?

Answer 142

A phenomenon secondary to long-lasting, poorly controled arterial hypertension and renal tissue aging

Question 143

Biochemical risk factors associated with calcium stone formation ?

Answer 143

1. Hypercalciuria.
2. Hyperoxaluria.
3. hypocitraturia. “citrate is important inhibitor of calcium oxlate stone formation”
4. A persistently alkaline urine pH.
5. Low urine vloume.

Question 144

Q: dialysis disequilibrium syndrome (DDS) ?

Answer 144

• caused due to water movement into the brain leading cerebral edema
• severe DDS can be reversed by rising the plasma osmolality with infusion of hypertonic fluid
• symptoms of this syndrome are self-limited and usually disappear within several hours
• early findings include headache nausea restlessness and ….

WRONG: Usually progress Tacoma and death.

Question 145

Q: dialysis related amyloidosis ?

Answer 145

• eventually develops in all patients who have been haemodialyzed for more than 13 years
• beta-2-microglobulin is major protein found in amyloid deposits
• mostly affects musculoskeletal system
• ””"”all of the above

Question 146

Q: analgesic nephropathy ?

Answer 146

• associated with chronic use of analgesics
• promotes urinary tract tumors
• chronic interstitial nephritis

all of the above

Question 147

the most common cause of secondary membranous glomerulonephritis?
A. infection with hepatitis C virus
B. lymphoproliferative cnacer
C. bacterial infection
D. SLE

Answer 147

A. infection with hepatitis C virus

Question 148

Asymptomatic bacteriuria

Whom to treat ?

Answer 148

• Pregnancy (beta-lactams,nitrofurantoin, fosfomycin).
• Urologic intervention.
• Renal transplant recipents.

Question 149

Asymptomatic bacteriuria

Whom not to treat ?

Answer 149

• Nonpregnant premenopausal women,
• Diabetics,
• The elderly (in community and in health care facilities),
• Nursing home residents,
• Patients with spinal cord injury,
• Patients with indwelling urethral catheters,

Question 150

The diagnosis of acute cystitis in young woman should be based on?

Answer 150

• Clinical symptoms (dysuria, polyuria, suprapubic pain).
• Result of urinalysis.
• Result of urine culture - bacteriuria 10(3).