Simultaneous Retzius-sparing robot-assisted radical prostatectomy and partial nephrectomy

The incidence of second primary cancer detection in patients with prostate cancer (PCa) undergoing cross-sectional imaging for staging workup is 1.5% [1]. Subsequently, reports of concurrent PCa and renal masses are appearing in the literature. Since the introduction of robotic surgery, experienced surgeons have extended its use from simple to challenging cases. Robotic systems have given the surgeon the ability to surpass previous obstacles related to disease management. Recently, Patel et al. [2] reported the first combined robot-assisted partial nephrectomy (RAPN) and robot-assisted radical prostatectomy (RARP) in 59-year-old man with synchronous PCa and renal cell carcinoma (RCC), and they demonstrated the feasibility of performing concurrent upper and lower urinary tract robotic-assisted surgeries by reusing port incisions to decrease surgical morbidity.

To the best of our knowledge, this is the first reported case which utilized the Retzius-sparing RARP (RS-RARP) in the combined approach for the treatment of synchronous PCa and RCC.

A 61-year-old male patient with concurrent prostatic adenocarcinoma and an enhancing right-sided renal mass was referred to our robotic oncology center for evaluation and treatment. He had no comorbidity or previous surgery. Patient's sexual health inventory for men questionnaire score was 14, body mass index was 25.4 kg/m², and digital rectal examination was normal. Serum creatinine and prostate-specific antigen were 1.0 mg/dL and 6.7 ng/mL, respectively. The prostatic biopsy revealed adenocarcinoma Gleason score (GS) 6 (3+3), in one core with core percentage volume of 50%. On pelvic magnetic resonance imaging, the prostate volume was 29 mL, and there was no typical cancerous lesion in the prostate and no evidence of extracapsular extension, seminal vesicle invasion or pelvic lymph nodes enlargement. A contrast-enhanced computed tomography scan of the abdomen and pelvis showed 1.6-cm enhancing endophytic mass in the posteromedial portion of right kidney suggestive of RCC. Bone scan showed no metastasis. The patient underwent RS-RARP and selectiveclamp RAPN in the same setting. Based on Partin's table our patient has 80% probability of organ confined disease and 0% computed risk for lymph node metastasis [3]. Pelvic lymph node dissection may be omitted for patients when predicted probability of lymph node metastasis based on clinical information is less than 3% [4].

Total operative time was 240 minutes. The total console time for RS-RARP and RAPN was 61 and 71 minutes, respectively. RAPN warm ischemia time was 19 minutes. Estimated blood loss was 300 mL (RS-RARP, 50 mL and RAPN, 250 mL). There was no intraoperative complication and patient did not require any blood transfusion. Bowel function returned, and semisolid oral intake was resumed on postoperative day 1. The intraperitoneal drain, which was placed on the right paracolic gutter, was removed on postoperative day 2. The final pathology was prostatic adenocarcinoma GS 7 (3+4), and prostate weight was 30 gm, while for renal mass was clear RCC, Fuhrman grade 2 and pathologic tumor size was 1.6 cm×1.0 cm×0.9 cm. All surgical margins were negative. Length of hospital stay was 4 days.

Besides the well-known minimally invasive advantages of robotic-assisted surgery in the treatment of patients with urological malignancy compared to open and laparoscopic approaches, the combined procedure is advantageous to the patient precluding the need for readmission, and repeated induction of anesthesia, second procedure and associated higher cost. Moreover, it provides better cosmetic appearance by reducing the number of ports used compared to each procedure alone, and it minimizes risk of trocar injury.

Enhanced maneuverability of robotic platform has been one of its strength. This advantage has encouraged surgeons to venture into combined minimally invasive procedures. Jung et al. [6] pointed out in their report that though technically challenging robot-assisted laparoscopic single-site in the setting of simultaneous procedure, provided decreased overall hospital stay, avoidance of 2 separate procedures and minimized number of port placement. In the same manner, our recent study reusing ports from RS-RARP to perform RAPN was done.

Jung et al. [7] also reported the feasibility of combining bilateral partial nephrectomy and prostatectomy. They reported above-mentioned advantages and specifically warned readers towards the disadvantage of having prolonged anesthesia time and pneumoperitoneum. These disadvantages, however were avoided in our study having a short operative time, although direct comparison is not appropriate for previously reported case of Jung et al. [7].

Our recent approach using RS-RARP had a shorter operative time (240 minutes) in comparison to previous case reports (427 minutes) [8] and (442 minutes) [2] utilized the anterior conventional approach for radical prostatectomy. This shorter operative time decreases the risk of prolonged anesthesia exposure thus allowing us to perform combined approaches for synchronous tumor. In our previous report, we initially described our standard port placement technique for RS-RARP using 6 ports [5]. This port placement enabled us to use the same optical port for RS-RARP and RAPN which was different from what Patel et al. [2] reported. Moreover, application of RS-RARP technique added the benefits of shorter operative time and early continence recovery as previously reported [5].

To the best of our knowledge and vigorous literature search, there is no study done having direct comparison for combined procedure using Xi and Si system. We, therefore recommend that future comparison be done to portray advantages and disadvantages of both systems for combined cases. Further improvement of technique and enhancement of technology allow a well-experienced surgeon to achieve a better treatment option for patients with less morbidity.

Simultaneous RS-RARP and RAPN with appropriate port placement strategy, appears to be a safe and feasible surgical option in patients with synchronous PCa and RCC.

An accompanying video can be found in the 'urology in motion' section of the journal homepage (www.icurology.org) or, be available on YouTube (https://youtu.be/TJ3ZVPtRdCU).

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