Week 4: Obstruction of the Urinary Tract

Question 1

Normal urinary function

Answer 1

• bladder filling and voiding both occurs under low pressure
• parasympathetic increases bladder contraction and sympathetic decreases (open sphincter)
• this is disturbed when there is obstruction

Question 2

Division of upper and lower urinary tract.

Answer 2

Bladder and below is Lower

Ureter to kidney is upper

Question 3

Most common causes of obstruction organized by sites.

Answer 3

1. Calyces
   - infection TB, trauma, stones, tumors
2. ureteropelvic junction
   - congenital, stones, trauma, extrinsic compression
3. Ureter
   - stones, strictures, trauma, tumor, extrinsic compression
4. Bladder neck/proximal urethra
   - prostatic enlargement!!!
   - trauma, bladder neck contractures, prior surgery
5. Urethra
   - most common: strictures
   - trauma, prior instrumentation, posterior urethral valves (children-due to embryonic remnant that never dissolves)

Question 4

Clinical presentation of upper urinary tract obstruction

Answer 4

ACUTE
-renal colic: waves of intense pain, from abdomen, flank, can be in groin
CHRONIC
-recurrent UTIs: stasis of urine–>growth of bacteria
-dull pain, ache, pressure

Question 5

Clinical presentation of lower urinary tract obstruction

Answer 5

CHRONIC bladder outlet obstruction
-bladder hypertrophy
-detrusor dysfunction-SM in wall of bladder
IRRITATIVE symptoms
-urgency
-frequency
-dysuria
-urge incontinence
-nocturia
OBSTRUCTIVE symptoms
-decreased force of stream
-dribbling
-hesitancy
-intermittency
-incomplete emptying
MAY see renal insufficient in acute or chronic obstruction

Question 6

Renal changes from obstruction

Answer 6

PHYSIOLOGIC
-altered renal blood flow, changes in GFR, loss of concentrating ability within collecting duct
PHYSICAL/MICRO
-dilation of renal tubules, initial CD then extending proximally
-fibrosis
-apoptosis
-macrophage infiltrate
-hemorrhage, necrosis
-glomeruli is last thing to be affected, only affected with long standing obstruction

Question 7

Changes that can be detected radiographically from obstruction.

Answer 7

• bladder trabeculation-obstruction below bladder causes hypertrophy that causes scalloped look
• diverticuli (outpouching)
• calculi -due to stasis
• J hooking of ureter: from enlarged prostate pushing upwards
• hydronephrosis
• thinned parenchyma

Question 8

Describe changes that take place with hydronephrosis

Answer 8

• dilation of renal pelvis and calyces due to outflow tract obstruction
• gross: enlargement of kidneys with blunting of apices of pyramids. Thinning of medulla and cortex
• micro: early dilation of tubules, then tubular compression and atrophy, interstitial fibrosis, glomeruli relatively spared initially

Question 9

Summarize effects of obstruction of urethra, grossly.

Answer 9

• bladder dilation and hypertrophy
• hydroureter -dilated ureter
• hydronephrosis -dilated renal pelvis and calyces
• bilateral since below bladder

Question 10

Diagnostic tools for upper urinary tract obstruction.

Answer 10

• based on symptoms and imaging
• renal ultrasound
• CT scan/MRI
• IVP: contrast given and series of x rays at various stages of excretion of the contrast
• diuretic renogram: radioactive isotope given, monitors radioactivity to see how long it takes to leave the urinary tract
• renal resistive index: doppler and blood flow, used mainly in transplants
• whitaker test: old school, using nephrostomy and bladder catheter, infuse saline and measure pressure difference

Question 11

Benign prostatic hyperplasia (BPH): definition and pathophysiology

Answer 11

• hyperplasia of stroma and epithelium. most common cause of urinary tract obstruction in men.
• beings in 5-6th decade
• little known of pathophysiology

Question 12

Pathology of BPH

Answer 12

• diffusely nodular surface
• tends to affect medial lobe
• leads to compression of urethra
• associated with tubuloalveolar glands that are either dilated or with infolding of epithelium (serrated edges)
• normally, the glands have 2 layers of cells

Question 13

Signs and symptoms of BPH

Answer 13

• symptoms: obstructive and irritative symptoms

- signs: bladder hypertrophy, trabeculation of smooth muscle

Question 14

Describe prostatitis.

Answer 14

ACUTE
-primary cause: infection 
-periglandular-intraglandular infiltrate
-predominantly PMNs
CHRONIC
-largely interstitial infiltrate
-mononuclear leukocytes
-most cases independent of chronic infection

Question 15

Complications of benign prostatic hyperplasia

Answer 15

• retention
• infection
• bladder decompensation (areflexic-can’t contract anymore)
• calculi
• hematuria
• hydronephrosis
• renal failure

Question 16

What is post obstructive diuresis?

Answer 16

• can happen after unilateral or bilateral obstruction has been relieved
• physiologic: is common and self limiting, will go away on its own
• pathologic: rare, impared concentrating ability or Na reabsorption

Question 17

What is the epidemiology of kidney stones?

Answer 17

• increasing in women, almost as same as men now
• relapse rate is 50-75% from 5-20 years
• relapse is associated with: young age of onset, family hx, infection stones, underlying predisposing conditions (hPTH)

Question 18

Types of stones

Answer 18

• calcium oxalate: 80%
• calcium phosphate
• struvite
• uric acid
• cysteine

Question 19

mechanism of stone formation

Answer 19

• supersaturation: spontanous nucleation and crystal growth (homogenous nucleation)
• heterogenous nucleation: small crystal of one type serves as nidus on which another compound precipitates (major mechanism)

Question 20

Factors in Stone formation

Answer 20

INHIBITORS
-citrate is most important
URINARY pH
-determines solubility
-uric acid and cysteine poorly soluble in acidic media
-calcium salts poorly soluble at alkaline pH
CONTRIBUTING factors
-predisposing factors
-dehydration
-hypercalcemic conditions
-bladder obstruction
-congenital disorders: e.g. PKD

Question 21

Formation in calcium oxalate stones

Answer 21

• dihydrate–>monohydrate (soft to hard)
• Randall’s plaques: stones form on these plaques. true pathogenesis unknown
• accumulation of crystal deposits around loop of Henle
• initially deposits in papillary tissue
• hypercalcuria: most common abnormality found in calcium stone formers. Can be idiopathic or secondary: hPTH, sarcoidosis, immobilization, hyperthyroidism, malignancy, excessive intake
• hyperoxaluria: excess ascorbic acid intake
• hyperuricosuria: uric acid crystals serve as nidus for heterogenous nucleation of calcium crystals

Question 22

Formation of struvite stones

Answer 22

• Mg ammonium phosphate
• caused by bacteria with urease enzyme
• may conform to shape of collecting system–>stag horn

Question 23

Uric acid stones

Answer 23

• product of purine metabolism
• hyperuricosuria: gout, hereditary conditions. myeloproliferative syndromes, durgs
• acidic urine
• dissolved by urine alkalization

Question 24

formation of cystine stones

Answer 24

• genetic defect: inability to reabsorb cysteine, ornithine, lysine, arginine in PT
• family hx
• stones are very hard, and difficult to treat
• crysinuria: crystine is poorly soluble in water. excreted 5-10x the normal rate in affected individuals

Question 25

Presentation of nephrolithiasis

Answer 25

Symptoms:
-pain
-hematuria
-UTI
-sepsis
Signs
-CVAT/abdominal tenderness
-UA: RBC, WBC, crystals

Question 26

Treatment principles for nephrolithiasis

Answer 26

Acute colic
-pain management with analgesia
-hydration
-hospitalization if systemic infection
Most stones pass on their own 80-90%
TREATMENT OPTIONS
-observation for small stones
-alpha blockers/Ca blockers to relax SM and expulse stone faster
-immediate attention: infection, solitary kidney, intractable pain, renal failure
-ESWL: extracorporeal shock wave lithotripsy, for small stones
-ureteroscopy: scope, if WSWL fails
-can combine with percutaneous nepehrolithotomy to break up stones (laser?)
MEDICAL Rx
-tx hyperoxaluria hypercalcinuria by taking in Ca2+(free oxalate is absorbed when Ca bound by bile salts or FA)

Question 27

Preventing recurrence of calcium stones

Answer 27

• dietary modification: more fluid intake,
• drink citrate: increases solubility of calcium salts
• less Na intake: leads to hypercalcuria
• don’t restrict Ca
• avoid carbs/sugar
• moderation of protein intake: can lead to hypocitraturia, hypercalciuria, hyperuricosuria