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PATHOGENESIS AND PATHOLOGY

PATHOGENESIS AND PATHOLOGY. A. LOWER TRACT. Hydrostatic pressure proximal to the obstruction causes dilation of the urethra. The wall of the urethra may become thin, and a diverticulum may form. The prostatic ducts may become widely dilated.

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PATHOGENESIS AND PATHOLOGY

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  1. PATHOGENESIS AND PATHOLOGY

  2. A. LOWER TRACT • Hydrostatic pressure proximal to the obstruction causes dilation of the urethra. • The wall of the urethra may become thin, and a diverticulum may form. • The prostatic ducts may become widely dilated.

  3. If the urine becomes infected, urinary extravasation may occur, and periurethral abscess can result.

  4. B. MIDTRACT • STAGE OF COMPENSATION - the bladder musculature hypertrophies.

  5. 1. TRABECULATION OF THE BLADDER WALL

  6. 2. CELLULES Pressures 2–4 times as great may be reached by the trabeculated (hypertrophied) bladder in its attempt to force urine past the obstruction. This pressure tends to push mucosa between the superficial muscle bundles, causing the formation of small pockets, or cellules.

  7. 3. DIVERTICULA If cellules force their way entirely through the musculature of the bladder wall, they become saccules, then actual diverticula, which may be embedded in perivesical fat or covered by peritoneum, depending on their location.

  8. 4. MUCOSA In the presence of acute infection, the mucosa may be reddened and edematous. This may lead to temporary vesicoureteral reflux in the presence of a “borderline” junction. The chronically inflamed membrane may be thinned and pale.

  9. B. STAGE OF DECOMPENSATION In the face of progressive outlet obstruction, possibly aggravated by prostatic infection with edema or by congestion from lack of intercourse, decompensation of the detrusormay occur, resulting in the presence of residual urine after voiding. The amount may range up to 500 mL or more.

  10. C. UPPER TRACT 1. URETER

  11. 2. KIDNEY The pressure increases due to obstruction or reflux, and the pelvis and calyces dilate. If the renal pelvis is entirely intrarenaland the obstruction is at the ureteropelvic junction, all the pressure will be exerted on the parenchyma. If the renal pelvis is extrarenal, only part of the pressure produced by a ureteropelvicstenosis is exerted on the parenchyma; this is because the extrarenal renal pelvis is embedded in fat and dilates more readily, thus “decompressing” the calyces.

  12. In the earlier stages, the pelvic musculature undergoes compensatory hypertrophy in its effort to force urine past the obstruction. Later, however, the muscle becomes stretched and atonic (and decompensated).

  13. MECHANISMS AND RESULTS OF OBSTRUCTION

  14. PROGRESSION OF HYDRONEPHROTIC ATROPHY

  15. BILATERAL HYDRONEPHROSIS

  16. UNILATERAL HYDRONEPHROSIS

  17. Hydronephrotic left renal pelvis. Low density mass (P) in left renal sinus had attenuation value similar to that of water, suggesting the correct diagnosis.

  18. Small right kidney - cortical thinning - dilated renal pelvis.

  19. The 4-hour delayed IVU film demonstrates a normal right kidney and giant hydronephrosis of the left kidney with no contrast seen in the left ureter, suggesting PUJO as the cause of obstruction. Lower right ureteral obstruction. Mild to moderate dilatation of the collecting system with rounded blunting of the calyces.

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