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Percutaneous Stone Removal. In whom?How to do it?BeforeDuringAfter. . Lingeman's Law for the Management of Renal Lithiasis. ?If the stone problem is simple, do SWL; if the problem isn't simple, do PNL.". . Simple. Stone burden <2 cmNormal renal anatomy. . Complex. Stone burden >2cmStaghorn sto
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2. Percutaneous Stone Removal In whom?
How to do it?
Before
During
After
3. Lingemans Law for the Management of Renal Lithiasis If the stone problem is simple, do SWL; if the problem isnt simple, do PNL.
4. Simple Stone burden <2 cm
Normal renal anatomy
5. Complex Stone burden >2cm
Staghorn stones
Abnormal renal anatomy
UPJ obstruction
Horseshoe kidney
Calyceal diverticulum
Lower pole >1cm
Cystine, brushite, COM Staghorn kidney stones (staghorn calculi) are commonly associated with struvite kidney stones. What staghorn really means is that the stone that is formed occupies parts of the kidney called the "renal pelvis" and two or more "calyces" and form an "antler-like" stone formation. Seventy-five percent of staghorn stones are of the struvite variety.
Ureteropelvic junction (UPJ) obstruction is a blockage in the area that connects the renal pelvis (part of the kidney) to one of the tubes (ureters) that move urine to the bladder.
Calyceal diverticulum is a urine-containing cavity within the renal parenchyma, communicating with the collecting system through a narrow channel.
Two types are identified:
One is related to a minor calyx and usually located in the upper pole
Other is connected with the pelvis or a major calyx in the central portion of the kidney.
The majority of calyceal diverticulum are small and asymptomatic, and do not require any treatment.
Calyceal diverticulua may rarely cause urinary tract infection, renal colic, pyuria, hematuria or hypertension.
Mobile calculi and milk of calcium are characteristic findings in calyceal diverticulum.
Staghorn kidney stones (staghorn calculi) are commonly associated with struvite kidney stones. What staghorn really means is that the stone that is formed occupies parts of the kidney called the "renal pelvis" and two or more "calyces" and form an "antler-like" stone formation. Seventy-five percent of staghorn stones are of the struvite variety.
Ureteropelvic junction (UPJ) obstruction is a blockage in the area that connects the renal pelvis (part of the kidney) to one of the tubes (ureters) that move urine to the bladder.
Calyceal diverticulum is a urine-containing cavity within the renal parenchyma, communicating with the collecting system through a narrow channel.
Two types are identified:
One is related to a minor calyx and usually located in the upper pole
Other is connected with the pelvis or a major calyx in the central portion of the kidney.
The majority of calyceal diverticulum are small and asymptomatic, and do not require any treatment.
Calyceal diverticulua may rarely cause urinary tract infection, renal colic, pyuria, hematuria or hypertension.
Mobile calculi and milk of calcium are characteristic findings in calyceal diverticulum.
6. Access by the urologist
Glide wires for access
Tract dilatation balloons
Improved intracorporeal lithotripsy (pneumatic devices, holmium laser)
Flexible nephroscopy
Small nephrostomy tubes Advances in PCNL Technique
7. Single stage procedure best done in OR
Placement of ureteral catheter
C-arm fluoroscopy
Precise calyceal puncture
Safety wire as far into the urinary tract as possible
Amplatz sheath - always Access: General Principles
8. Operating Room Set-up
9. Selection of Renal Access Site
10. Anesthesia Requirements
11. Patient placed in dorsal lithotomy position initially
Ureteral catheter placed cystoscopically on side of stone
5F open-ended catheter
7F ureteral occlusion balloon catheter Ureteral Catheter
12. Ureteral Catheter
13. Patient placed in prone position (flank inferior to center post)
Arm on stone side rested on arm board (flexed 90); opposite arm against patient
Pressure points padded Patient Positioning
14. Foam wedge placed under patient for 30 elevation
Brings posterior calyces into vertical orientation Patient Positioning
15. Accurate Calyceal Access
16. Accurate Calyceal Access
17. Imaging Modalities for Access in OR
18. Imaging Modalities: Triangulation Technique
19. Imaging Modalities: Triangulation Technique
20. Imaging Modalities: Triangulation Technique
21. Imaging Modalities: Triangulation Technique
22. Imaging Modalities: Triangulation Technique
23. Confirming Access
24. Guide Wires
25. Guide Wires
26. Guide Wires
27. Guide Wires
28. Tract Dilation
29. Tract Dilation
30. Tract Dilation
31. Tract Dilation
46. Rigid Power Lithotripsy
48. New instruments are longer and have improved optics
Maximize use of rigid scopes and ultrasonic lithotripter Rigid Nephroscopes
50. Same instrument as flexible cystoscope
Digital instruments now available
Use on every percutaneous procedure
best if Amplatz sheath used for access Flexible Nephroscopes
53. Amplatz sheath
Pressurize irrigant to 300 mmHg
Contrast plus fluoroscopy to assist in orientation, documentation Flexible Nephroscopes: Set Up
60. Improved efficiency and efficacy of PNL:
Refinements in percutaneous access techniques
Advances in equipment (guide wires, balloon dilation catheter, Nitinol basket)
Access by the urologist Conclusions
