Urology/Nephrology

Question 1

Name the three types of incontinence?

Answer 1

• Stress, Urge and Overflow

- There is also mixed

Question 2

Stress incontinence

Answer 2

• Outlet incompetence (urethral hyper mobility or intrinsic sphincter deficiency)
• Also due to weak pelvic floor muscles
• Leak with increase in intra-abdominal pressure
• Increased risk with obesity, vaginal delivery, prostate surgery
• Positive bladder stress test (observed leakage with cough or Vasalva)
• Treat with pelvic floor muscle strengthening such as Kegel exercises or weight loss
• Pseudophedrine (alpha-1-agonist) tightens up sphincter

Question 3

Urgency Incontinence

Answer 3

• Overactive bladder such as detrussor instability or spastic
• Leads to leak with urge to void immediately
• Treat with Kegel exercises, or bladder training such as timed voiding, distraction or relaxation techniques.
• May treat with antimuscarinics such as Oxybutynin
  5,15 and 15mg

Question 4

Overflow incontinence

Answer 4

• Incomplete emptying (detrusor under activity or outlet obstruction)
• Leads to leak with overfilling bladder
• Diabetics and patients with spinal cord injuries due to damaged nerves
• Increased post void urinary retention on catheterization or ultrasound
• Treat with catheterization or relieving obstruction such as alpha-blockers for BPH

Question 5

Vesicourethral Reflux

Answer 5

• Retrograde flow of urine from the bladder to the kidneys
• May be associated with UTIs, hydronephrosis or renal dysplasia (abnormal kidney development).
• Increase risks of pyelonephritis, hypertension or progressive renal failure
• Diagnosed with voiding cystourethrography
• Treat with prophylactic antibiotics to avoid infection

Question 6

Define Hydronephrosis

Answer 6

• Distension of the renal calyces and pelvis with urine as a result of obstruction of the outflow of urine distal to the renal pelvis
• Can be physiologic or pathologic, acute or chronic, unilateral or bilateral
• Can be secondary to obstruction or can present without obstruction

Question 7

Define Hydroureter

Answer 7

• Dilation of the ureter
• Can be physiologic or pathologic, acute or chronic, unilateral or bilateral
• Can be secondary to obstruction or can be present without obstruction

Question 8

Define obstructive uropathy

Answer 8

• Functional or anatomic obstruction of urinary flow at any level of the urinary tract

Question 9

Define obstructive nephropathy

Answer 9

• When the obstruction causes functional or anatomic renal damage
• Rarely does it occur without the presence of hydronephrosis

Question 10

How does hydronephrosis and/or hydroureter typically present in children?

Answer 10

-Anatomical abnormalities such as posterior urethral valves or stricture and stenosis at the uterovesical or uteropelvic junction

Question 11

How does hydronephrosis and/or hydroureter typically present in adults young and old?

Answer 11

• Calculi in young adults
• Prostatic hypertrophy or carcinoma, retroperitoneal or pelvic neoplasms and calculi in older adults
• Common during pregnancy in women, progesterone causes dilation of the pelvises and caliceal system or ureters may be compressed at the pelvic brim

Question 12

Describe testicular torsion and its management

Answer 12

• Seen in young adolescents
• Present with severe testicular pain, no fever, pyuria, or history of recent mumps.
• On exam, testis may be swollen, tender, high riding and with a horizontal line, the spermatic cord is not tender.
• Immediate surgical untwisting and orchipexi, contralateral orchipexi is also indicated

Question 13

Describe acute epididymitis

Answer 13

• Can be confused with testicular torsion
• Seen in sexually active men
• Starts with severe testicular pain, fever and pyuria
• Testis are swollen and tender but in normal position
• Spermatic cord is also very tender
• Most common causes are E. coli, Chlamydia and Gonorrhea
• Histology shows neutrophil infiltration
• Treat with antibiotics

Question 14

What medications are used to treat acute epididymitis based on age group?

Answer 14

• Sexually active males 14 to 35 years of age, ceftriaxone IM 250 mg with 10 days of oral doxycycline 100 mg BID
• Men who have anal intercourse, ceftriaxone 250 mg IM with 10 days of oral levofloxacin 500 mg QD or ofloxacin 300 mg BID
• Men older than 35 years, epididymitis is usually caused by enteric bacteria in the ejaculatory ducts caused by reflux of urine secondary to bladder outlet obstruction. In such cases, levofloxacin 500 mg QD or ofloxacin 300 mg BID

Question 15

Patient whom is being allowed to pass a ureteral stone spontaneously develops chills, fever spike and flank pain, how do you manage?

Answer 15

• IV antibiotics if not already on
• Immediate decompression of the urinary tract above the obstruction.
• Ureteral stent placement or percutaneous nephrostomy

Question 16

Define nephrolithiasis and its presentation

Answer 16

• Calculi in the kidneys or the ureters (ureterolithiasis) that cause pain
• Pain generated by renal colic is caused by dilation, stretching and spasm due to acute uterus obstruction
• Presents as sudden, severe pain in the flank that radiates inferiorly and anteriorly
• May present with nausea and vomiting

Question 17

Characteristic pain of stones obstructing the utero pelvic junction

Answer 17

• Mild to severe deep flank pain without radiation to the groin
• Irritative voiding symptoms
• Suprapubic pain, urinary frequency, dysuria, stranguria or bowel symptoms

Question 18

Characteristic pain of stones within ureter

Answer 18

• Abrupt, severe, colicky pain in the flank and ipsilateral lower abdomen
• Radiation to testicles or vulvar area
• Intense nausea with or without vomiting

Question 19

Characteristic pain of upper ureteral stones

Answer 19

• Radiate to flank or lumbar areas

Question 20

Characteristic pain of midureteral calculi

Answer 20

• Radiate anteriorly and caudally

Question 21

Characteristic pain of distal ureteral stones

Answer 21

• Radiate into groin or testicle (men) or labia majora (women)

Question 22

Characteristic pain of stones passed into bladder

Answer 22

• Mostly asymptomatic; rarely, positional urinary retention

Question 23

Which labs and imaging tests are done to asses and diagnose nephrolithiasis?

Answer 23

• Urinary dipstick
• Serum creatinine
• CBC with differential for febrile patients
• Serum electrolyte for vomiting patients
• Serum and urinary pH level for type of calculus
• Microscopic UA
• Urine culture if infection
• Non-contrast abdominopelvic CT (image of choice)
• Renal ultrasound ( to determine presence of renal stone, hydronephrosis or Urethral dilation)
• Abdominal radiograph (to asses total stone burden, size, shape, composition and location)

Question 24

Kidney proper develops from what and what structures and what does it include?

Answer 24

• Develops from the metanephros

- All the kidney structures up to the distal convoluted tubule

Question 25

What forms from the Ureteric bud?

Answer 25

The entire collecting system

• Collecting ducts
• Major and minor calyces
• Papilla
• Hilum
• Ureters

Question 26

What must make contact with the metanephros for the kidney to develop?

Answer 26

The ureteric bud

Question 27

What is the mesonephros and what does it give rise to?

Answer 27

• Appears late in the 4th week
• Functions as the interim kidney for 5-6 weeks
• Regresses and gives rise to the male genitalia (testis, seminal vesicles, vas deferrals and epididymis)

Question 28

What must happen in order to form the internal half of the internal male genitalia?

Answer 28

• Mullein Inhibiting Factor (MIF) must be secreted from the testes
• MIF supresses the female internal mullein structures from developing.
• Embryo requires Y chromosome

Question 29

Define true hemaphrodite

Answer 29

• Internal genitalia does not match a persons genotype
• XY Genotype with female internal genitalia
• Missing MIF to prevent female internal genitalia from forming
• Deficiency in MIF is most common cause
• Could be due to Sertoli cell disfunction

Question 30

Define pseudohermaphroditism

Answer 30

• External genitalia does not match persons genotype
• Only concentrate on external exam
• Females with excess androgens is number 1 cause

Question 31

What is the paramesonephros and what does it give rise to?

Answer 31

• The mullerian ducts
• Give rise to female genitalia
• Ovaries, fallopian tubes, uterus and upper vagina

Question 32

What are the two ways females can be developed?

Answer 32

• By design XX

- By default XY missing MIF

Question 33

What does the urogenital sinus give rise to?

Answer 33

Males: Prostate, prostatic urethra and bulbourethral glands (Cowpers glands)
Females: Lower vagina and labia minor

Question 34

What does the urogenital tubercle give rise to?

Answer 34

Males: Penis
Females: Clitoris

Question 35

What does the labia-scrotal swellings five rise to?

Answer 35

Males: Scrotum
Females: Labia majora

Question 36

What are the 2 types of congenital adrenal hyperplasia?

Answer 36

21- Hydroxylase deficiency

11Beta- Hydroxylase deficiency

Question 37

21- Hydroxylase deficiency

Answer 37

Missing 21-hydroxylase enzyme
Lack aldosterone
- Low sodium, high potassium and hypovolemia
Lack cortisol
- Hypoglycemia
Excess androgens
- Ambiguous genitalia in females
Increases ACTH
- No feedback inhibition from Aldosterone or Cortisol
- Pro-opio-melano-cortin is produced causing melanocyte production and hyper pigmentation

Question 38

11Beta-Hydroxylase deficiency

Answer 38

• Missing 11-hydroxylase
  causes build up of 11-deoxycorticosterone
• Weak mineralocorticoid that acts like aldosterone
• High sodium, low potassium and hypertension
• Leads to excess androgen production, ambiguous genitalia and hyper pigmentation

Question 39

Leydig cells

Answer 39

• Adjacent to the seminaphorus tubules of the testes
• Pre-leydig cells produce testosterone for masculinization of inner genitalia in fetus weeks 8-20
• Leydig cells are then not activated until puberty
• Produce testosterone when stimulated by LH

Question 40

Sertoli cells

Answer 40

• Located in the seminaphorus tubules
• Stimulated by FSH
• Secrete MIF in fetal life
• Secretes inhibin to counteract FSH
• Secrete androgen binding protein increasing testosterone concentration in the seminaphorus tubules stimulating spermatogenesis
• Secrete estradiol aromatase converts testosterone to 17-beta estradiol

Question 41

Medications for urge incontinence

Answer 41

Oxybutynin 2.5-5 mg bid-tif

Question 42

Effects of Hypercalcemia on the kidneys?

Answer 42

• Polyuria and Polydipsia because of induction of nephrogenic diabetes insipidus
• Calcium also precipitates in the kidney resulting in kidney stones and nephrolithiasis.

Question 43

Carbonic anhydrase inhibitors work on the?

Answer 43

Proximal convoluted tubule

Ex. Acetazolamide

Question 44

Osmotic diuretics work on the?

Answer 44

Descending limb of the loop of Henle and on the proximal convoluted tubule
Ex. Mannitol

Question 45

Loop diuretics work on the?

Answer 45

Thick ascending limb of the loop of Henle

Ex Furosemide

Question 46

Thiazide diuretics work on the?

Answer 46

Distal convoluted tubule

Ex. Hydrochlorothiazide

Question 47

Potassium sparing diuretics work on the?

Answer 47

Collecting duct

Ex. Amiloride and Spironolactone

Question 48

Spironolactone

Answer 48

• Inhibits the effects of aldosterone and reduces secretion of K+ and H+ by the collecting tubule

Question 49

Poststreptococcal Glomerulonephritis

Answer 49

• Nonsuppurative complication of pharyngeal or skin infections with nephrotic strains of Group A Strep (S. Progenes)

Question 50

Presentation of Poststreptococcal Glomerulonephritis

Answer 50

• Presents in children with gross hematuria (cola/tea colored urine), periorbital edema and hypertension.
• Urine studies reveal RBCs, protein and RBC casts
• Serum studies show elevated creatinine (renal insufficiency), streptococcal antibodies (from recent infection) and decreased C3 (glomerular complement deposition)

Question 51

Hyperacute transplant rejection

Answer 51

Onset time
- Occurs minutes to hours
Etiology
- Do to preformed antibodies against graft in recipients circulation
Morphology
- Gross mottling and cyanosis
- Arterial fibrinoid necrosis and capillary thrombotic occlusion

Question 52

Acute transplant rejection

Answer 52

Onset time
- Usually < 6 months
Etiology
- Exposure to donor antigen induces humoral/cellular activation of naive immune cells
Morphology
- Humoral: C4d deposition, neutrophilic infiltrate, necrotizing vasculitis
- Cellular: Lymphocytic interstitial infiltrate and endotheliitis
Symptoms
- Usually asymptomatic
- Can experience fever, chills, malaise and arthralgia
Labs
- Increased serum creatinine, hypertension, and reduced uric output
Treatment
- Mycophenolate and tacrolimus are immunosuppressants that reduce risk of acute rejection

Question 53

Chronic transplant rejection

Answer 53

Onset time
- Months to years
Etiology
- Chronic low grade immune response refractory to immunosuppressants
Morphology
- Vascular wall thickening and luminal narrowing
- Interstitial fibrosis and parenchyma atrophy

Question 54

Effects of ACE inhibitors on the kidney?

Answer 54

• Reduce the amount of Angiotensin II, therefore they prevent it from constricting the efferent arteriole and cause efferent vasodilation reducing GFR.
• Lowers the intraglomerular pressure and prevent the kidney from maintaining GFR thereby may increase creatinine in and cause acute renal failure.

Question 55

Autosomal Dominant Polycystic Kidney Disease

Answer 55

• Manifests in patients 40-50 years old
• Presents as enlarged kidneys, hypertension and renal failure
• In newborns kidneys are of normal size and cysts are too small to be detected on ultrasound ultrasonography
• As cyst enlarge they compress the renal parenchyma and cause symptoms

Question 56

Which nerve may be injured in prostectomy and what may it cause?

Answer 56

• The prostatic plexus lying within the fascia of the prostate which innervates the corpus cavernosa of the penis and facilitates erection.
• Injury may cause erectile dysfunction

Question 57

What is the cremasteric reflex, what nerve mediates it and when may it be injured?

Answer 57

• Elicited by light stroking of the medial upper thigh.
• Causes contraction of the cremaster muscle pulling up the ipsilateral testis.
• Mediated by the genitofemoral nerve which originates from L1-L2 in the spine
• Injury may occur with injury to L1-L2 or in testicular torsion.

Question 58

Cystinuria

Answer 58

• Autosomal recessive
• Caused by defective transportation of cystine, ornithine, lysine and arginine across the intestinal and renal tubular epithelium
• Recurrent nephrolithiasis is the only clinical manifestation
• Leads to high urinary cystine concentration, resulting in the formation of cystine kidney stones
• Leads to aminoaciduria due to elevated cysteine levels.
• Cyanide nitroprusside test used to diagnose (red-purple discoloration is positive test)
• Flat yellow hexagonal stones may be seen
• Treat with hydration and urinary alkalinization with acetazolamide

Question 59

Increased bladder capacity
Increased sphincter pressure
Decreased detrusor muscle activity

Answer 59

Overflow incontinence

Question 60

Decreased bladder capacity
Normal sphincter pressure
Increased detrusor muscle activity

Answer 60

Urge incontinence

Question 61

Normal bladder capacity
Decreased sphincter pressure
Normal detrusor muscle activity

Answer 61

Stress incontinence

Question 62

Hypospadia

Answer 62

• Opening in the base of the ventral penis
• Penis fails to fuse properly
• Usually near the anus, may lead to UTIs
• Most common congenital genital-urinary abnormality
• Treat surgically

Question 63

Phimosis

Answer 63

• Scarred foreskin adheres to the head of the penis
• Occurs when foreskin is not retracted and cleaned properly
• Treat with circumcision

Question 64

Paraphimosis

Answer 64

• Scarred foreskin at the base of the penis

- Treat with circumcision

Question 65

Ballantis

Answer 65

• Infection of the head of the penis (cellulitis)
• Caused by S. aureus
• Occurs with zipper injuries
• More common in uncircumcised men

Question 66

Urethritis

Answer 66

• Inflammation of the urethra
• Causes dysuria
• MCC Chlamydia and Gonorrhea
• If gonorrhea + then you treat for both with 250 ceftriaxone and 1 gm azithromycin
• If chlamydia only, treat with 1 gm azythromycin

Question 67

Cystitis

Answer 67

• Bladder infection
• Urgency, frequency and dysuria
• Most commonly caused by E. coli
• Treat with Nitrofurantoin, TMP-SMX or Fosfomycin IM

Question 68

Pyelonephritis

Answer 68

• Ascending infection to the kidney
• Urinary urgency, frequency, dysuria and flank pain
• Can spread into blood and cause sepsis
• WBC casts on urine microscopy, indicates nephritis or inflammation of the nephron
• MCC by bacteria that are nitrite + are E. Coli, Proteus and Klebsiella
• MCC by cater that are nitrite - is Enterococcus
• MCC virus is adenovirus

Question 69

Mechanism of action of Thiazide diuretics?

Answer 69

Inhibit Na-Cl cotransporter in the early distal convoluted tubule.

Question 70

Electrolyte abnormalities of Thiazide Diuretics?

Answer 70

• Hyponatremia
• Hypokalemia
• Metabolic alkalosis
• Hypercalcemia

Question 71

Clinical indications for Thiazide Diuretics?

Answer 71

• Hypertension

- Calcium nephrolithiasis prophylaxis

Question 72

Name 4 Thiazide Diuretics

Answer 72

• Hydrochlorothiazide
• Chlorthalidone
• Indapamide
• Metolazone

Question 73

Mechanism of action of Loop Diuretics?

Answer 73

Inhibit the Na-K-2Cl cotransporter in the thick ascending limb of the loop of Henle

Question 74

Electrolyte abnormalities of loop Diuretics?

Answer 74

• Hypokalemia
• Metabolic alkalosis
• Hypocalcemia

Question 75

Clinical indications for Loop Diuretics?

Answer 75

• Volume overload states such as congestive heart failure

Question 76

Name 4 Loop diuretics

Answer 76

• Furosemide
• Torsemide
• Bumetanide
• Ethacrynic acid

Question 77

Mechanism of action of carbonic anhydrase inhibitors?

Answer 77

Inhibits carbonic anhydrase enzyme in the proximal tubule

Question 78

Electrolyte abnormalities caused by Carbonic Anhydrase inhibitors?

Answer 78

• Hypokalemia

- Metabolic acidosis

Question 79

Clinical indications for carbonic anhydrase inhibitors?

Answer 79

• Refractory metabolic alkalosis
• Intracranial hypertension
• Acute angle-closure glaucoma

Question 80

Name a common carbonic anhydrase inhibitor?

Answer 80

Acetazolamide

Question 81

Mechanism of action of Sodium Channel Blockers?

Answer 81

Inhibit the apical ENaC channel in the cortical collecting duct

Question 82

Electrolyte abnormalities seen with Sodium Channel Blockers?

Answer 82

• Hyperkalemia

- Metabolic Acidosis

Question 83

Indications for Sodium Channel Blockers?

Answer 83

• Used in synergy with loop and thiazide diuretics to limit potassium loss.

Question 84

Mineralocorticoid receptor antagonists mechanism of actions?

Answer 84

Inhibit the apical ENaC channel and basolateral Na-K-ATPase pump in the cortical collecting tubules

Question 85

What are the electrolyte abnormalities caused by mineralocorticoid receptor antagonists?

Answer 85

• Hyperkalemia

- Metabolic acidosis

Question 86

What are the clinical indications for mineralocorticoid receptor antagonists?

Answer 86

• Used in synergy with loop and thiazide diuretics to limit potassium loss

Question 87

Name 2 sodium channel blockers?

Answer 87

• Amiloride

- Triamteren

Question 88

Name a 2 Mineralocorticoid Receptor Antagonists

Answer 88

• Spironolactone

- Eplerenone

Question 89

Patient has recurrent pneumonia, digital clubbing, azoospermia and bilateral absence of the vas deferens, most likely diagnosis?

Answer 89

Cystic fibrosis

Question 90

What is the pathogenesis for cystic fibrosis?

Answer 90

Due to mutation in the CFTR gene, causes impaired ion transport.

Question 91

Describe the respiratory tract features of patients with cystic fibrosis?

Answer 91

• Chronic sinopulmonary infections
• Nasal polyps
• Bronchiectasis
• Digital clubbing

Question 92

What extrapulmonary features are seen in cystic fibrosis?

Answer 92

• Pancreatic insufficiency
• Infertility due to absent vas deferens (azoospermia)
• Failure to thrive

Question 93

How is cystic fibrosis diagnosed?

Answer 93

• Elevated sweat chloride levels
• Abnormal nasal transepithelial potential difference
• Genetic testing for CFTR gene mutation

Question 94

Characteristics of acute tubular necrosis on cytology?

Answer 94

• Patchy loss of proximal tubular epithelial cells with tubular dilation (ballooning)
• Regenerating epithelial cells with hypo chromatic nuclei
• Epithelial cell vacuolization

Question 95

What effects does angiotensin II have on the kidneys?

Answer 95

• It is a powerful vasoconstrictor that dilates the afferent arteriole and constrict the efferent arteriole in order to maintain GFR

Question 96

What happens if you block ACE in the kidney?

Answer 96

• Does not allow for afferent arteriole dilation and efferent arteriole constriction
• Instead it causes efferent arteriole dilation, leading to increased renal bloodflow and decreased renal vascular resistance thereby dropping GFR.

Question 97

Horseshoe Kidney

Answer 97

• Congenital abnormality where kidneys fuse sometime during development
• Kidneys are lower in the abdomen because the inferior mesenteric artery prevents their migration upward
• Associated with kidney stones, recurrent infections, turner syndrome, trisomy 13, 18 and 21, films tumor and carcinoid tumor

Question 98

Most common side effect with furosemide and why?

Answer 98

• Ototoxicity (Tinnitus, Vertigo, Hearing Impairment or Deafness)
• Due to inhibition of similar Na/Cl/K symporters in the inner ear
• Occurs with higher dosages, pre-existing CKD, rapid intravenous administration or when used with other ototoxic agents such as ahminoglycosides, salicylate or cisplatin.
• Hearing is reversible but may be permanent.

Question 99

What is the most effective strategy for preventing urinary tract infections after surgery?

Answer 99

• Avoiding unnecessary catheterization
• Using sterile technique when inserting the catheter
• Removing the catheter as soon as possible .

Question 100

Minimal Change Disease

Answer 100

• Most common cause of nephrotic syndrome in ages 2-6
• Occurs after a recent upper respiratory tract infection, immunizations or atopic disorders due to immune dysregulation
• Leads to glomerular permeability factor, a cytokine that directly damages podocytes causing foot process effacement and fusion.
• It decreases the anionic properties of the glomerular basement membrane and a loss of negative charge leading to a loss of albumin in urine
• Treat with corticosteroids

Question 101

What is the limiting factor for phosphate excretion in patients with CKD?

Answer 101

• A low GFR

- Does not allow phosphate to be excreted leading to hyperphosphatemia

Question 102

Presentation of Metabolic Bone Disease due to Chronic Kidney Disease

Answer 102

• Presents with hyperphosphatemia, secondary hyperparathyroidism and decreased calcitriol levels
• Patients can be asymptomatic or develop weakness, bone pain and fractures.

Question 103

Pathophysiology behind metabolic bone disease due to Chronic Kidney Disease

Answer 103

• Hyperphosphatemia develops due to decreased GFR
• It reduces levels of calcium and stimulates osteocytes and osteoclasts to release fibroblast growth factor-23 that decreases proximal tubule phosphate reabsorption.
• Leads to decreased calcitriol synthesis, leading to decreased calcium and phosphate absorption in the intestines
• Hypocalcemia is due to elevated levels of phosphate, FGF
• Hypocalcemia and hyperphosphatemia lead to increased PTH, stimulating osteoclast bone turnover.
• Osteitis fibrous results from long term hyperparathyroidism leading to weakness, bone pain and fractures

Question 104

What converts 25-Hydroxy Vitamin D3 into 1,25 Hydroxy Vitamin D3?

Answer 104

• 1-alpha-hydroxylase

- Stimulated by parathyroid hormone

Question 105

What are the complications of cryptorchidism?

Answer 105

• Seminiferous tubule and sertoli cells atrophy due to high body temperatures
• Decreased fertility and increased risk for testicular cancer and testicular torsion

Question 106

What is cryptorchidism and how it it treated?

Answer 106

• Incomplete descent of the testis from the abdomen to the scrotum.
• Present in 1% of males under 1 year of age
• Treat with Orchipexi

Question 107

What is orchitis?

Answer 107

• Acute inflammation of the testes secondary to an infection
• Viral mumps is most common cause
• Exam shows enlarged, indurated testis with tenderness and erythematous or edematous scrotal skin.
• Enlarged epididymis or soft boggy prostate with epididymo-orchitis.
• Lymphoplasmacytic inflammatory infiltrate

Question 108

What are the most common causes of epididymitis in young children and men older than 35?

Answer 108

• E. coli

Question 109

What is the most common cause of epididymitis in sexually active males between 14-35?

Answer 109

• Gonorrhea and Chlamydia

Question 110

What causes BPH?

Answer 110

Caused by DHT which binds to androgen receptors in the prostate causing its enlargement.

• 5-alpha reductase converts testosterone to DHT
• Castrated males do not develop BPH due to absence of testosterone
• Enlarged prostate constricts the urethra which restricts flow of urine from the bladder

Question 111

What are the clinical symptoms of BPH?

Answer 111

• Increased urinary frequency
• Nocturia
• Difficulty starting and stopping urine
• Dysuria
• May lead to dissension and hypertrophy of bladder
• Hydronephrosis
• UTIs
• Labs show increased PSA

Question 112

What is the treatment for BPH?

Answer 112

1. alpha-1-antagonists which cause relaxation of the smooth muscle in the prostate and the lower urethral sphincter
   - Terazosin
   - Tamsulosin (flomax)
2. 5-alpha reductase inhibitors which reduce the amount of DHT
   - Finasteride
3. Phosphodiesterase-5 inhibitors
   - Tadalafil (cialis)
   - Sildenafil (viagra)

Question 113

What are the three main cell types in the testes and what do they do?

Answer 113

1. Germ cells / spermatogonia
   - Produce primary spermatocytes
2. Sertoli cells
   - Produce androgen binding protein that helps develop sperm
3. Leydig cells
   - Help synthesize testosterone

Question 114

Name the germ line cell tumors in testicular cancer

Answer 114

• Seminoma
• Embryonal
• Teratoma
• Choriocarcinoma
• Yolk sac tumore

Question 115

Name the non-germ line cell tumors in testicular carcinoma

Answer 115

• Leydig cell tumors
• Sertoli cell tumors
• Lymphoma

Question 116

What are the Germ line cell tumor facts

Answer 116

• Make up 95% of all testicular tumors
• Almost always malignant
• Age: 15-35
• Cryptorchidism is a risk factor
• They do not transilluminate (when light is shined behind the scrotum, it will not shine through)

Question 117

Seminoma

Answer 117

• Most common germ line cell tumor
• Young men between 15-35
• Never occurs in children
• Histology: “Fried egg appearance” nests of large cells with central nuclei
• Appearance: Homogenus mass
• Tumor markers: may see elevated ALP and BHCG
• Presents as painless unilateral mass

Question 118

Yolk sac tumor

Answer 118

• Most common in children under 3 years old males
• Histology: Schiller duval bodies, resemble primitive glomeruli
• Tumor marker: Increased AFP

Question 119

What other type of tumor has elevated AFP?

Answer 119

Hepatocellular carcinoma (HCC)

Question 120

Choriocarcinoma

Answer 120

• Malignant tumor of placental like tissue
• Histology: Syncytiotrophoblast and cytotrophoblasts
• Tumor marker: Beta-hCG
• Presentation: Testicular mass with gynecomastia or hyperthyroid (Beta-HcG mimics LH, FSH and TSH)
• May metastasize hematogenously to the lungs described as cannon ball lesions

Question 121

Teratoma

Answer 121

• Tumors containing cell types from all three germ layers (Endoderm, Mesoderm and Ectoderm)
• Unlike females however, teratomas in adult males are always malignant
• Histology: Squamous epithelium in the mass or any cell type from all three layers
• Appearance: Large mass with hair, muscle or neural tissue
• No tumor markers

Question 122

Embryonal Carcinoma

Answer 122

• Painful unilateral mass
• Occurs in young men
• Histology: hemorrhagic mass with necrosis
• May see elevated Beta-HCG and AFP
• The necrosis and hemorrhage cause the pain

Question 123

Lydia Cell Tumors

Answer 123

• Androgen and estrogen producing tumors
• Occur in young men
• Histology: Reinke crystals (eosinophilic cytoplasmic inclusions)
• Appearance: Golden brown color
• No tumor markers
• In older men may present with gynecomastia, in younger children may present with precocious puberty

Question 124

Sertoli Cell Tumors

Answer 124

• Benign, don’t produce hormones

Question 125

Testicular Lymphoma

Answer 125

• Testicular tumor in men >60

- Usually bilateral and may be NHL that has metastasized

Question 126

Which medication is used to treat acute angle-closure glaucoma, how does it do this and where does it act on the kidney?

Answer 126

• Acetazolamide
• Acts on the proximal convoluted tubule
• Blocks carbonic anhydrase and prevents reabsorption of bicarbonate
• Also acts on carbonic anhydrase in the eye which modulates bicarbonate formation in the aqueous humor, thereby decreasing its formation

Question 127

What does renal biopsy for Poststreptococcal Glomerulonephritis show in for light microscopy, electron microscopy and immunofluorescence?

Answer 127

1. Light Microscopy
   - Glomeruli are enlarged and hyper cellular due to leukocyte infiltration and proliferation of endothelial and mesangial cells
2. Electron Microscopy
   - Electron dense deposits (humps) on the epithelial side of the basement membrane
3. Immunofluorescence
   - Coarse granular deposits of IgG and C3 that have lumpy-bumpy appearance

Question 128

Describe the filtration of PAH (Para-aminohippuric acid)

Answer 128

• Primarily secreted in the proximal tubule
• Only some is freely filtered in the glomerulus
• It is not reabsorbed in any portion of the nephron
• Therefore its concentration is lowest in bowman space

Question 129

What are the effects of clamping one renal artery, simulating renal artery stenosis?

Answer 129

• Causes significant renal hypo perfusion
• Results in decreased GFR in that kidney
• Activates Renin-Angiotensin-Aldosterone system
• Modified smooth muscle cells (juxtaglomerular) within the afferent glomerular arterioles release the renin
• Leads to hyperplasia of these cells and the juxtaglomerular apparatus

Question 130

Which cells make up the juxtaglomerular apparatus?

Answer 130

Macula densa
- Sense low levels of sodium and chloride
Juxtaglomerular cells
- Receive signal from macula dense, sense low blood pressure and secrete renin
Extraglomerular mesangial cells
- Help send signal from macula dense to juxtaglomerular cells

Question 131

Where is more than 60% of water reabsorbed by the glomeruli regardless of the patients hydration state?

Answer 131

In the proximal tubule

Question 132

What happens in the kidneys during the dehydrated state?

Answer 132

• Plasma osmolarity increases, stimulating osmoreceptors in the anterior hypothalamus
• Triggers ADH to be released
• ADH improves water permeability on the collecting ducts
• Allows production of maximally concentrated urine (Osm of 1200)
• Reflects kidneys acting properly
• Without fluid replenishment, will lead to death because kidney still puts out about .5 L of urine per day

Question 133

Uric acid stones

Answer 133

• Appear as yellow/brown, diamond or rhomboid shaped crystals that are radiolucent on x ray
• Caused by low urinary pH (acidic urine) and low urine volume with high uric acid concentration which may occur in chronic diarrhea

Question 134

Effects of acute ureteral obstruction

Answer 134

• Leads to increased hydrostatic pressure proximal to the constriction
• Pressure rise is transmitted back to the Bowmans space resulting in decreased GFR
• Leads to a decreased filtration fraction (FF= GFR/RPF)

Question 135

Anti- Glomerular Basement Membrane Antibodies

Answer 135

• Goodpasteurs Syndrome
• Anti Glomerular Basement Membrane Nephritis
• React to GBM and Alveolar Basement Membrane
• Leads to hematuria and hemoptysis

Question 136

Hereditary Nephritis

Answer 136

• Mutation of the alpha chains, unable to make the proper helix in the collagen type IV of the basement membrane
• Causes weak basement membrane
• Patients have hematuria and glomerular injury early in life

Question 137

Polyanionic Proteoglycans

Answer 137

• Have multiple negatively charged negative molecules

- Makes glomerular basement membrane electronegative

Question 138

Minimal Change Glomerulopathy

Answer 138

Don’t see any change in the glomeruli

• Under microscopy you see no change
• Under electron microscopy you see that podocytes have been flattened, swollen and lost some podocytes
• Leads to excess albuminuria
• Negative charges of the glomerular basement membrane lose their charge
• Thereby albumin cases through

Question 139

Mesangial Cells

Answer 139

1. Can contract
2. Can phagocytose
3. Can proliferate and deposit mesangium and collagen

Question 140

How does renal blood flow?

Answer 140

1. Renal artery
2. Segmental artery
3. Interlobar artery
4. Arcuate artery
5. Interlobular artery
6. Afferent arterial
7. Glomerulus
8. Efferent arteriole
9. Vasa recta/peritubular capillaries
10. Venous outflow

Question 141

What anatomic structures are above the ureters?

Answer 141

• In males, the vas deferent
• In females, the uterine artery
• Gynecologic procedures that ligate the uterine or ovarian vessels may damage the ureter and lead to obstruction or leakage

Question 142

Contraction Alkalosis

Answer 142

• Volume contraction leads to alkalosis
• During dehydration, the RAAs leads to increased ATII which acts on the Na+/H+ exchanger increasing the reabsorption of Na+, H2O and HCO3

Question 143

Proximal Convoluted Tubules

Answer 143

• Located in the renal cortex (Isotonic)
• Reabsorbs all glucose and amino acids, most HCO3-, Na+ (60-80%), Cl-, PO43-, K+, H2O and Uric Acid
• Generates and secretes NH3 which allows kidney to secrete more H+
• PTH inhibits Na+/PO43- cotransport which leads to PO43- excretion
• ATII stimulates Na+/H+ exchanger, leads to increased Na+, H2O and HCO3- reabsorption (contraction alkalosis)
• Carbonic anhydrase breaks down carbonic acid into H2O and CO2
• Carbonic anhydrase inhibitors prevent breakdown of carbonic acid leading to acid urine

Question 144

Thin Descending Loop of Henle

Answer 144

• Passively reabsorbs H2O via medullary hypertonicity
• Impermeable to Na+
• Concentrates urine and makes it Hypertonic

Question 145

Thick Ascending Loop of Henle

Answer 145

• Reabsorbs Na+, K+ and Cl-
• Indirectly induces paracellular reabsorption of Mg+ and Ca2+ via + lumen from K+ backleaks
• Impermeable to H2O
• Make urine less concentrated as it ascends
• 10-20% Na+ reabsorbed
• Loop diuretics block the luminal Na+, K+, 2Cl- cotransporter leading to hypokalemia, metabolic akalosis and hypocalcemia
• Hypocalcemia results from no K+ backleak

Question 146

Early Distal Convoluted Tubule

Answer 146

• Reabsorbs Na+ and Cl- via cotransporter
• Makes urine fully hypotonic (dilute)
• PTH causes increased Ca2+/Na+ exchange which leads to Ca2+ reabsorption
• 5-10% of Na+ reabsorbed
• Thiazide diuretics block the luminal Na2+/Cl- cotransporter here

Question 147

Collecting ducts

Answer 147

• Aldosterone causes reabsorption of Na+ in exchange for K+
• In principal cells, aldosterone increases K+ conductance, increased Na+/K+ pump, increases epithelial Na+ channel (ENaC) activity which leads to negativity and K+ secretion
• In alpha-intercalated cells: lumen negativity leads to increased H+ ATPase activity which leads to H+ secretion and increased luminal HCO3-/Cl- exchanger activity
• ADH acts on V2 receptor which inserts aquaporin H2O channels on apical side leading to water and urea reabsorption
• 3-5% of Na+ is reabsorbed

Question 148

Renal Tubular Acidosis Type 2

Answer 148

• Deficient/defective carbonic anhydrase enzyme
• Kidney can not reabsorb bicarbonate and it is lost in urine
• HCO3- is negatively charged and will pull K+ into the lumen
• Patients are acidotic, hypokalemic, hypochloremic and hyponatremic

Question 149

What other substances does sodium help reabsorb in the proximal convoluted tubule and how?

Answer 149

Amino acids
Glucose
Phosphorus
Magnesium
Calcium
- With the "Fanconi" protein

Question 150

What is Fanconi Syndrome?

Answer 150

• Generalized reabsorptive defect in the PCT
• Increased excretion of all amino acids, glucose, bicarb and phosphate
• May result in proximal tubule renal acidosis
• Low glucose leads to low energy state
  Caused by:
  1. Hereditary defects such as Wilson’s disease, tyrosinemia, glycogen storage disease, cystinosis
  2. Ischemia
  3. Multiple myeloma
  4. Nephrotoxicity/Drugs such as ifosfamide, cisplatin, tenofovir and expired tetracyclines
  5. Lead poisoning

Question 151

Characteristics of the medullary interstitium

Answer 151

• Is hypertonic, has a high osmolarity
• Allows it to reabsorb water easily from the collecting duct
• Countercurrent multiplier allows it to have 5X concentration (1200-1500 mOsm)
• ADH initiates reabsorption of water as it responds to elevated osmolarity

Question 152

Afferent arteriole constriction effects on GFR, RPF and FF (GFR/RPF)?

Answer 152

GFR: Decreased
RPF: Decreased
FF: No change

Question 153

Efferent arteriole constriction effects on GFR, RPF and FF?

Answer 153

GFR: Increased
RPF: Decreased
FF: Increased

Question 154

Increased plasma protein concentration on GFR, RPF and FF?

Answer 154

GFR: Decreased
RPF: No change
FF: Decreased

Question 155

Decreased plasma protein concentration on GFR, RPF and FF?

Answer 155

GFR: Increased
RPF: No change
FF: Increased

Question 156

Constriction of ureter effect on GFR, RPF and FF?

Answer 156

GFR: Decreased
RPF: No change
FF: Decreased

Question 157

Dehydration effect on GFR, RPF and FF?

Answer 157

GFR: Decreased
RPF: Decreased Dramatically
FF: Increased

Question 158

What effect do NSAIDs have on the nephron?

Answer 158

• They prevent prostaglandins from dilating the afferent arteriole
• Decrease GFR, Decrease RPF, no change to FF

Question 159

What effect do ACE inhibitors have on the nephron?

Answer 159

• They prevent the efferent arteriole from constricting

- Decreased GFR, Increase RPF, Decrease FF

Question 160

Loop diuretics inhibit which electrolyte and what are the effects of that?

Answer 160

• Inhibit chloride in the Na+, K+, 2Cl cotransporter
• Affects the reabsorption of Na+, K+ and 2Cl
• Also affects the reabsorption of Ca2+ and Mg+
• Leads to low volume state, can lead to alkalosis, uric a cid rises, can lead to gout

Question 161

What is the macula dense and what does it do?

Answer 161

• Located at the distal convoluted tubule
• Measures osmolarity of plasma and urine
• If osmolarity is high, ADH is released
• If osmolarity is low, ADH is inhibited
• ADH brings aquaphorins to reabsorb water and urea

Question 162

What is post obstructive diuresis?

Answer 162

• If there is a urinary tract obstruction, it backs up urine into the collecting ducts
• Urine will flow into the medullary interstitium and dilute its concentration.
• Prevents the medullary interstitium from concentrating urine
• When the obstruction is relieved, unable to concentrate the urinary flow, there will be excess fluid in the collecting duct leading to excess urination
• Treat with normal saline replacement for every CC of urine lost

Question 163

What is Bartter Syndrome?

Answer 163

• Autosomal recessive disorder
• Reabsorptive defect in the thick ascending loop of Henle
• Affects the Na+, K+, 2Cl- con transporter
• Results in hypokalemia and metabolic alkalosis with hypercalciuria
• Similar to chronic loop diuretic use

Question 164

Gitelman Syndrome

Answer 164

• Autosomal recessive disorder
• Reabsorptive defect of NaCl in distal convoluted tubule
• Leads to hypokalemia, hypomagnesemia, metabolic alkalosis, hypercalciuria
• Similar to long term thiazide diuretic use
• Less severe than Bartter

Question 165

Liddle Syndrome

Answer 165

• Autosomal dominant
• Gain of function mutation
• Increased Na reabsorption in the collecting tubules
• Results in hypertension, hypokalemia, metabolic alkalosis.
• Presents like hyperaldosteronism but aldosterone is almost undetectable
• Treat with amiloride (ENaC channel blocker)

Question 166

Syndrome of Apparent Mineralocorticoid Excess (SAME)

Answer 166

• 11Beta-Hydroxysteroid dehydrogenase deficiency
• Normally converts cortisol into cortisone (inactive form)
• Therefore there is excess cortisol
• Increases mineralocorticoid receptor activity
• Leads to hypertension, hypokalemia, metabolic alkalosis, low serum aldosterone
• Can acquire disorder from glycyrrhetinic acid (licorice)
• Treat with corticosteroids which causes a decrease in endogenous cortisol production and decreases mineralocorticoid receptor activation
  “Cortisol tries to be the SAME as Aldosterone”

Question 167

What secretes Renin and what stimulates its secretion?

Answer 167

• Secreted by Juxtaglomerular cells
• Secreted when there is:
  1. Decreased arteriole pressure (BP)
  2. Decreased sodium delivery to macula dense
  3. Increased renal sympathetic discharge (Beta1 receptors)

Question 168

How is angiotensin II made and what is its main function?

Answer 168

• Released by the liver as Angiotensinogen
• Converted into Angiotensin I by Renin
• Converted into Angiotensin II by ACE
• Mainly maintains blood volume and BP, affects baroreceptor function and limits reflex bradycardia.
• Synthesized in response to decreased BP.
• Causes efferent arteriole constriction which eads to increased GFR and FF but with compensatory Na+ reabsorption in proximal and distal nephron.
• It preserves renal function in the low volume state with simultaneous Na+ reabsorption to maintain blood volume. secretes aldosterone from the adrenal cortex, releases ADH from the pituitary, increases PCT Na+/H+ activity and stimulates the hypothalamus for thirst

Question 169

When is ANP and BNP released and what do they do?

Answer 169

• ANP is released by the atria
• BNP is released by the ventricles
• Released when there is an increase in atrial or ventricular volume
• They relax vascular smooth muscle via cGMP which increases GFR and decreases Renin
• Dilate the afferent arteriole and constricts the efferent arteriole promoting natriuresis (sodium excretion)

Question 170

When is ADH secreted and what does it do?

Answer 170

• Secreted in response to increased plasma osmolarity and decreased blood volume.
• Binds to V2 receptors on principal cells in the collecting tubule
• Leads to increased number of aquaporins - - - Allows for water and urea reabsorption

Question 171

Name every place where angiotensin II acts and what are its effects?

Answer 171

1. Angiotensin II receptor on vascular smooth muscle
   - Causes vasoconstriction and increases BP
2. Constricts efferent arteriole of the glomerulus
   - Increased FF (GFR/RPF) to preserve renal function in low volume state (Low RBF)
3. Leads to Aldosterone secretion from adrenal cortex
   - Increases Na+ channel insertion (ENaC)
   - Increases activity of Na+/K+ pump leading to K+ excretion and Na+ reabsorption
   - Increased H+ excretion by alpha-intercalated H+ ATPases
   - Increased K+ excretion by principal cell K+ channels
   - All allows for better Na+ and H2O reabsorption
4. ADH secretion by posterior pituitary
   - Increased aquaporin insertion in principal cells leading to increased H2O reabsorption
5. Increased Proximal Convoluted Tubule Na+/H+ activity
   - Leads to Na+, HCO3- and H2O reabsorption
   permitting contract alkalosis
6. Stimulates the hypothalamus to increase thirst

Question 172

Which hormone primarily regulates ECF volume and Na+ content, responds to low blood volume state and responds to hyperkalemia by K+ excretion?

Answer 172

Aldosterone

Question 173

When is parathyroid hormone secreted and what are its effects on the kidney?

Answer 173

Secreted when: 
- Plasma Ca2+ is low
- Plasma PO43- is high
- Plasma 1,25-(OH)2 D3 is low
Causes:
- Increased Ca2+ reabsorption in DCT
- Decreased PO43- reabsorption in PCT
- Increased 1,25-(OH)2 D3 production leading to increased Ca2+ and PO43- absorption from gut

Question 174

When is erythropoietin released and what does it do?

Answer 174

• Released by interstitial cells in peritubular capillaries in response to hypoxia
• Stimulates RBC proliferation in the bone marrow

Question 175

How is 1,25-OH Vitamin D3 made and what does it do?

Answer 175

• PCT cells convert 25-OH vitamin D3 to 1,25-(OH)2 Vitamin D 3 (Calcitriol) via 1alpha-hydroxylase
• PTH stimulates this conversion

Question 176

What effect do prostaglandins have on the kidney?

Answer 176

• Paracrine secretion of prostaglandins vasodilator the afferent arteriole leading to increased RBF
• NSAIDs block this mechanism and lead to constriction of the afferent arteriole decreasing GFR which may result in Acute Renal Failure

Question 177

What effects does dopamine have on the kidneys?

Answer 177

• Secreted by PCT cells
• At low doses, it dilates interlobular arteries, afferent arterioles and efferent arterioles leading to increased RBF with almost no change on GFR
• At higher doses it vasoconstrictor

Question 178

What causes K+ to shift into cells (Hypokalemia)?

Answer 178

• Hypo-osmolarity
• Alkalosis
• Beta-adrenergic agonist (Increased Na+/K+ ATPase)
• Insulin (Increased Na+/K+ ATPase)
• Insulin shifts K+ into cells

Question 179

What causes K+ to shift out of cells (Hyperkalemia)?

Answer 179

DO LABSS

• Digitalis (blocks Na+/K+ ATPase)
• HyperOsmolarity
• Lysis of cells (crush injury, rhabdomyolysis, tumor lysis syndrome)
• Acidosis
• Beta-blockers
• High blood Sugar (Hyperglycemia)
• Succinylcholine (increased risk in burn/muscle trauma)

Question 180

What are the side effects of ACE inhibitors?

Answer 180

• They prevent the efferent arteriole from constricting more than the afferent arteriole which leads to decreased GFR
• Ok unless creatinine increases greater than 30% because of the long term benefits of ACE
• Hyperkalemia due to decreased aldosterone effects on K+ excretion
• Cough due to bradykinin accumulation
• Angioedema is a rare but life threatherning side effect

Question 181

What is a characteristic of clear cell renal carcinoma?

Answer 181

Renal biopsy shows rounded/polygonal cells with abundant clear cytoplasm

Question 182

Clear cell carcinoma arises from?

Answer 182

Proximal tubule cells and contains copious amounts of intracellular glycogen and lipids

Question 183

What is the most common site of metastasis from renal cell carcinoma?

Answer 183

• The lungs
• It invades the renal vein (may cause varicocele if left sided), then IVC and spreads hematogenously; then metastasizes to lungs and bone

Question 184

Vesicoureteral Reflux

Answer 184

• Caused by retrograde urine flow from bladder into ureter
• Hydrostatic pressure of refluxing urine and infections due to ascending bacteria cause inflammation
• Compound papillae in upper/lower poles are most susceptible to reflux induced damage
• Appears as dilated calyces with overlying renal cortical scarring

Question 185

Mechanism of action of Sirolimus and when is it used?

Answer 185

• Binds the immunophilin FK-506 binding protein (FKBP) in the cytoplasm, forming a complex that binds and inhibits mTOR.
• Inhibition of mTOR signaling blocks interleukin-2 signal transduction and prevents cell cycle G1 to S phase progression and lymphocyte proliferation.

Question 186

Bartter syndrome effects on:

• Blood pressure
• Plasma renin
• Aldosterone
• Serum Mg2+
• Urine Ca2+

Answer 186

• Blood pressure: no change
• Plasma renin: Increased
• Aldosterone: Increased
• Serum Mg2+: no change
• Urine Ca2+: increased (primary disturbance)

Question 187

Gitelman Syndrome effects on:

• Blood pressure
• Plasma renin
• Aldosterone
• Serum Mg2+
• Urine Ca2+

Answer 187

• Blood pressure: no change
• Plasma renin: Increased
• Aldosterone: Increased
• Serum Mg2+: Decreased
• Urine Ca2+: Decreased (Primary disturbance)

Question 188

Liddle Syndrome effects on:

• Blood pressure
• Plasma renin
• Aldosterone
• Serum Mg2+
• Urine Ca2+

Answer 188

• Blood pressure: Increased
• Plasma renin: Decreased
• Aldosterone: Decreased (Primary disturbance)
• Serum Mg2+: No change
• Urine Ca2+: No change

Question 189

SIADH effects on:

• Blood pressure
• Plasma renin
• Aldosterone
• Serum Mg2+
• Urine Ca2+

Answer 189

• Blood pressure: No change or increased
• Plasma renin: Decreased
• Aldosterone: Decreased
• Serum Mg2+: No change
• Urine Ca2+: No change

Question 190

Primary aldosteronism (Conn syndrome) effects on:

• Blood pressure
• Plasma renin
• Aldosterone
• Serum Mg2+
• Urine Ca2+

Answer 190

• Blood pressure: Increased
• Plasma renin: Decreased
• Aldosterone: Increased (Primary disturbance)
• Serum Mg2+
• Urine Ca2+

Question 191

Renin-secreting tumor effects on:

• Blood pressure
• Plasma renin
• Aldosterone
• Serum Mg2+
• Urine Ca2+

Answer 191

• Blood pressure: Increased
• Plasma renin: Increased (Primary disturbance)
• Aldosterone: Increased
• Serum Mg2+: No change
• Urine Ca2+ No change

Question 192

Distal Renal Tubular Acidosis (Type 1)

Answer 192

• Urine pH >5.5
• Alpha intercalated cells inability to secrete H+
• No new bicarb is generated
• Leads to metabolic alkalosis
• Associated with hypokalemia
• Increases risk of calcium phosphate stones
  due to

Question 193

What is the most common type of incontinence in diabetics?

How is it diagnosed?

Answer 193

• Diabetic autonomic neuropathy
• Leads to overflow incontinence due to inability to sense a full bladder and incomplete emptying
• Diagnosed via postvoid residual (PVR) testing with ultrasound or catheterization can confirm inadequate bladder emptying

Question 194

Which part of the kidney secretes erythropoietin?

Answer 194

• Peritubular interstitial cells

Question 195

What disease usually causes decreased production of erythropoietin?

Answer 195

• Chronic kidney disease

Question 196

When decreased renal perfusion and decreased GFR are sensed, which cells secrete renin in the kidney?

Answer 196

• Juxtaglomerular cells of the juxtaglomerular apparatus

Question 197

Painless, enlarged fluctuant hemi-scrotum that transilluminates brightly on physical exam is most likely?

Answer 197

Communicating hydrocele

Question 198

When does a communicating hydrocele result?

Answer 198

When serous fluid accumulates within the tunica vaginalis in the setting of patent processus vaginalis.

Question 199

The uteric bud gives rise to the?

Answer 199

Collecting system of the kidney

Question 200

What consists of the collecting system?

Answer 200

Collecting tubules, ducts, major and minor calyces, renal pelvis and ureters

Question 201

The metanephric mesoderm (blastema) gives rise to the?

Answer 201

Glomeruli, bowmans space, proximal tubules, loop of henle and distal convoluted tubule.