Application of gasless laparoendoscopic single port surgery, GasLESS, to partial nephrectomy for renal cell carcinoma: GasLESS-clampless partial nephrectomy as a multiply satisfactory method

Urinary l-type fatty acid-binding protein is a predictor of early renal function after partial nephrectomy

Purpose: Urinary biomarkers of renal injury urinary may identify loss of renal function following nephron-sparing surgery (NSS). This study was designed to evaluate whether urinary l-type fatty acid-binding protein (l-FABP) is an early biomarker of loss of renal function after NSS. Specifically, the kinetics of urinary l-FABP level after NSS and its correlation with factors related to ischemic renal injury were analyzed.

Methods: This study prospectively evaluated 18 patients who underwent NSS between July and December 2014, including 12 who underwent laparoscopic and six who underwent robot-assisted partial nephrectomy. Urinary l-FABP concentrations were measured preoperatively and 1, 2, 3, 6, 12, 24, 48, and 72 h after renal artery declamping. Loss of renal function loss was calculated by comparing the effective renal plasma flow, as determined by ^99mTc-mercaptoacetyltriglycine (MAG3) clearance, on the operated and normal sides. The decrease in estimated glomerular filtration rate from before surgery to six months after surgery was also measured.

Results: Urinary l-FABP concentration peaked within 2 h of declamping, which may quantify nephron damage caused by ischemia. The decrease in MAG3 reduction ratio correlated with both the ischemia time and peak urinary l-FABP concentration. Peak urinary l-FABP concentration showed a significant correlation with MAG3 reduction ratio.

Conclusions:l-FABP is a suitable urinary biomarker for predicting the extent of ischemic renal injury.

Integrated image monitoring system using head-mounted display for gasless single-port clampless partial nephrectomy

A novel head-mounted display (HMD) offers a higher quality of endoscopic imagery in front of the eyes regardless of head position. We present an application of the HMD system as a personal integrated multi-image monitoring system in gasless single-port clampless partial nephrectomy (PN). Our HMD system displayed multiple forms of information as integrated, sharp, high-contrast images both seamlessly and synchronously using a four-split screen. The surgeon wearing an HMD display could continuously and simultaneously monitor the endoscopic, three-dimensional (3D) video and intraoperative ultrasound images. In addition, the operator can rotate the 3D video image using fingertip movements on the finger tracking system. All two clampless partial nephrectomies were safely completed within the operative time, blood loss was within usual limits and there were no complications. The integrated image HMD system might facilitate maneuverability and safety in minimally invasive clampless PN.

Approach via a small retroperitoneal anterior subcostal incision in the supine position for gasless laparoendoscopic single-port radical nephrectomy: initial experience of 42 patients

BACKGROUND

Gasless laparoendoscopic single-port surgery (GasLESS) for radical nephrectomy (GasLESSRN) in the flank position is a minimally invasive treatment option for patients with T1-3 renal cell carcinoma (RCC). However, RCC patients considered suitable for supine positioning rather than flank positioning for radical nephrectomy are occasionally encountered. This study evaluated the safety and feasibility of approach via a small retroperitoneal anterior subcostal incision (RASI) in the supine position for GasLESSRN (RASI-GasLESSRN) on the basis of our initial experience.

METHODS

RASI-GasLESSRN was performed on 42 patients with RCC or suspected RCC from 2011-2013. The RASI, which was 6 cm long in principle, was made parallel to the tip of the rib from the lateral border of rectus abdominis muscle toward the flank in the supine position. The specimen was extracted via the RASI using a retrieval device. All procedures were performed retroperitoneally under flexible endoscopy with reusable instruments and without carbon dioxide insufflation or insertion of hands into the operative field.

RESULTS

RASI-GasLESSRN was successfully performed in all patients without complications. The mean incision length was 6.3 cm, mean operative time was 198 minutes, and mean blood loss was 284 mL. All 42 patients were classified as Clavien grade I. The mean times to oral feeding and walking were 1.1 and 2 days, respectively. The mean number of postoperative days required for patients to be dischargeable was 3.7 days.

CONCLUSIONS

The approach via a small RASI in the supine position for GasLESSRN is a safe and feasible technique. RASI-GasLESSRN in the supine position is an alternative minimally invasive treatment option, especially for RCC patients considered suitable for supine positioning.

A novel 3-dimensional image analysis system for case-specific kidney anatomy and surgical simulation to facilitate clampless partial nephrectomy

OBJECTIVE

To report our initial experience with the novel 3-dimensional (3D) image analysis system Synapse Vincent in clampless partial nephrectomy (PN), describing its advantages with regard to short-term surgical outcomes and its usefulness as an informed consent tool.

METHODS

Twenty-six patients with renal cell carcinoma underwent clampless PN navigated with the aid of case-specific 3D anatomic video images of the kidney, after surgical simulation using the same video system. Baseline characteristics were reviewed, and short-term surgical outcomes were recorded. Of the 26, 6 had imperative indications, and 22 were treated with a minimally invasive approach. Before tumor excision, the renal hilar vessels were meticulously dissected, and definite tumor feeders were selectively ligated. Before patients consented to PN, the surgical procedure and perioperative risks were explained to each patient using case-specific 3D video images; subsequently, surgeons asked patients whether the 3D images had helped them understand PN more clearly than 2D images would have.

RESULTS

All operations were successfully completed without clamping, with negative surgical margins. No patients required blood transfusions. During PN, the surgeons confirmed the accuracy of the reconstructed 3D images and surgical simulations in all cases. All patients answered that the 3D images had helped them understand their disease status and surgical risks.

CONCLUSION

This is the first report on the Synapse Vincent 3D image analysis system for kidney surgery. Its 3D images and surgical simulation helped not only surgeons in their performance of clampless PN but also patients in their understanding of the operation.

Single-port laparoscopic retroperitoneal surgery using a modified single-port device in urology

OBJECTIVES

To investigate the use of a flexible instrument platform in performing single-port laparoscopic retroperitoneal urologic surgeries and to verify the safety and feasibility of these surgeries.

METHODS

The homemade instrument platform consisted of two control loops and a powder-free surgical glove to form multichannels. 56 patients underwent this kind of single-port surgery for different urologic diseases, including radical nephrectomy in 31 patients, nephroureterectomy in 7 patients, partial nephrectomy in 8 patients, living donor nephrectomy in 4 patients, adrenalectomy in 3 patients, renal cyst surgery in 2 patients and ureterolithotomy in 1 patient.

RESULTS

All surgeries were completed successfully with no switch to conventional laparoscopic or open surgery. The mean hospital stay was 13.13 days (range 6-36). All patients were satisfied without major complications.

CONCLUSIONS

Retroperitoneal laparoendoscopic single-site surgery using our cost-effective homemade instrument platform appears to be a feasible and safe surgical strategy to perform retroperitoneal laparoscopic urologic surgery.