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DeutschPercutaneous nephrolithotomy
| Percutaneous nephrolithotomy | |
|---|---|
| Specialty | Nephrology |
Percutaneous nephrolithotomy (PCNL or PCN) is a minimally-invasive procedure to remove stones from the kidney by a small puncture wound (up to about 1 cm) through the skin. It is most suitable to remove stones over 2 cm in size or which are present near the pelvic region. It is usually done under general anesthesia or spinal anesthesia.
Since 2000, PCNLs have become the standard treatment for complex and large kidney stones, and have largely obviated the need for open surgical procedures.[1]
Procedure
[edit]A retrograde pyelogram is first done to locate the stone in the kidney. Contrast is diluted to the ratio of 1:3. If the ureteric catheter is placed in the upper pole of the kidney, it should be pulled down so that the tip is inside the renal pelvis; this helps for proper filling of the renal calyces. The contrast is injected slowly to prevent extravasation. Fluoroscopy monitoring should be continuous so that the sequence of calyces filled can help to identify the position of posterior calyx.[2][3]
With a small (1 cm) incision in the loin, the PCN needle is passed into the pelvis of the kidney. The position of the needle is confirmed by fluoroscopy or ultrasound.[1] A guide wire is passed through the needle into the pelvis. The needle is then withdrawn with the guide wire still inside the pelvis. Over the guide wire, the dilators are passed and a working sheath is introduced. The most common standard types of dilation are Amplatz dilation, metal telescopic dilation, and balloon dilation.[1] A nephroscope is then passed inside and small stones taken out. In case the stone is big, it may first have to be crushed using ultrasound probes.[4]
The most difficult portion of the procedure is creating the tract between the kidney and the flank skin. Most of the time this is achieved by advancing a needle from the flank skin into the kidney, known as the antegrade technique. A retrograde technique has recently been updated wherein a thin wire is passed from inside the kidney to outside the flank with the aid of a flexible ureteroscope. This technique may reduce radiation exposure for both the patient and the surgeon.[5]
Complications
[edit]The following complications[4] may take place:
- Injury to the colon
- Injury to the lungs
- Injury to the renal blood vessels
- Urinary leak may persist for a few days
- Infection and sepsis
- Hydrothorax, if done through the 11th intercostal space
- Bleeding
- Death
Notes and references
[edit]- ^ a b c Ghani, Khurshid; et al. (August 2016). "Percutaneous Nephrolithotomy: Update, Trends, and Future Directions". European Urology. 70 (2): 382–396. doi:10.1016/j.eururo.2016.01.047. ISSN 0302-2838. PMID 26876328.
- ^ Sharma GR, Maheshwari PN, Sharma AG, Maheshwari RP, Heda RS, Maheshwari SP (March 2015). "Fluoroscopy guided percutaneous renal access in prone position". World Journal of Clinical Cases. 3 (3): 245–64. doi:10.12998/wjcc.v3.i3.245. PMC 4360496. PMID 25789297.
- ^ Patil, Ashish V. (May 2010). "A Novel 5-Part Percutaneous Access Needle With Glidewire Technique (5-PANG) for Percutaneous Nephrolithotomy: Our Initial Experience". Urology. 75 (5): 1206–1208. doi:10.1016/j.urology.2009.11.027. PMID 20138340.
- ^ a b Dr. Rajgopal Shenoy K (2006). Manipal Manual of Surgery (Second ed.). New Delhi: CBS Publishers & Distributors. ISBN 978-8123912370. OCLC 963208918. OL 13132970M.
- ^ Wynberg, Jason B.; Borin, James F.; Vicena, Joshua Z.; Hannosh, Vincent; Salmon, Scott A. (Oct 2012). "Flexible ureteroscopy-directed retrograde nephrostomy for percutaneous nephrolithotomy: description of a technique". Journal of Endourology. 26 (10): 1268–74. doi:10.1089/end.2012.0160. PMID 22563900.