The Newly Reported (0-90°) Versus (0-30°) Biplanar Fluoroscopic Puncture Technique in PCNL

Nephrolithiasis is one of the most common urological diseases, it is a widespread and challenging issue for both patients and healthcare systems. It is responsible for a significant financial and psychological burden, with an increased incidence of disease. The EAU (European Association of Urology) Guidelines recommend percutaneous nephrolithotomy in patients with kidney stones >2 cm.

The most crucial step of the procedure is the precise puncture of the caliceal system. This can be accomplished by the use of fluoroscopy, ultrasound, or the combination of both and new other imaging modalities techniques. Among them, Fluoroscopy is the most common method for conducting the percutaneous puncture by urologists worldwide using multiple mono-planar or bi-planar fluoroscopic techniques.

However, all fluoroscopic approaches face the same limitation, which is the difficult interpretation of the three-dimensional renal anatomy based on the two-dimensional X-ray information. Another disadvantage is the amount of fluoroscopic radiation used. Surgeons, assistants, nurses and patients, however, all have to accept various levels of radiation exposure. Numerous researches have revealed that it is still harmful to the human body who is exposed to radiation frequently, although under the aegis of protective aprons and thyroid shields, thus the application is affected to varying degrees.

Fluoroscopic bi-planar techniques provide better information about the depth and direction of the collecting system than mono-planar methods. The most popular bi-planar methods described in the literature are the triangulation (0-30º), the "bull´s eye" technique and the less known bi-planar technique (The 0-90º technique) described by Dr. Paul Escovar. A newly published (0-90º) technique by Braulio O Manzo et al to increase the accuracy of calculating the needle path to the exact calyx depth and decreases its radiation exposure.

In the current study, the investigator aimed to compare two different renal access techniques; fluoroscopic 0-30 and modified 0-90 technique regarding success rate, fluoroscopy time and intraoperative puncture complications.