The subcutaneous urinary diversion using a silicone-PTFE prosthesis is an efficient and minimally invasive way to bypass malignant or complex benign obstructions of the ureters that otherwise would necessitate permanent nephrostomy drainage.
Nowadays percutaneous nephrolithotomy (PCNL) is the standard of care for renal staghorn calculus or large (>20 mm) pelvic or caliceal stones, as well as for the failure of other treatment options. This review aims to evaluate the contemporary use of ultrasound imaging in PCNL, by comparing it to conventional fluoroscopy, reviewing data regarding the complication and success rate of nephrostomy tract creation and stone free rate (SFR), as well as data concerning the learning curve for these procedures and cost indicators. The evidence acquired shows that the ultrasound guided access (USGA) is a comparable method with the classic fluoroscopic guided access (FGA), with a similar safety profile, with a significant reduction in radiation exposure, up to radiation free complete PCNL. USGA PCNL seems to lead to decreased bleeding and need for transfusion, especially when the Doppler mode is used, and also to a slightly higher SFR than conventional FGA PCNL. USGA PCNL reduces the overall costs of the procedure by about 30% and can be safely learnt and performed by urologists. For an experienced endourologist, familiar withFGA PCNL, the learning curve for shifting to USGA PCNL is of approximately 20 procedures.
MicroRNAs (miRNAs) are a group of non-coding RNA molecules that have an important role in modulating the expression of genes involved in regulating cellular functions. A growing number of studies suggest the abnormal expression of microRNAs in different types of cancer cells. MiRNA-124 is a microRNA that is down-regulated in many types of cancer cells, including bladder cancer. Our objective is to provide a review of the key publications that studied the effect of miR-124 on bladder cancer. This review focus on the targets and different pathways of miR-124 that were identified in various studies and differences between their expressions in normal urothelium and tumor tissues. We also include data regarding urinary methylations levels of miR-124 and their role in bladder cancer diagnosis and prognosis. Subsequently, we establish future perspectives of miR-124 research and its promising role in bladder cancer.
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