Synchronous abdominal tumors: is combined laparoscopic surgery in a single approach a safe option?

Cartapatti, Marcelo; Machado, Roberto Dias; Muller, Roberto Lodeiro; Magnabosco, Wesley J.; Santos, Alexandre César; Chapin, Brian Francis; Melani, Armando; Talvane, Antonio; Tobias-Machado, Marcos; Faria, Eliney Ferreira

doi:10.1590/S1677-5538.IBJU.2017.0429

ABSTRACT

Background and Purpose:

Recent advances in cancer treatment have resulted in bet- ter prognosis with impact on patient's survival, allowing an increase in incidence of a second primary neoplasm. The development of minimally invasive surgery has provided similar outcomes in comparison to open surgery with potentially less mor- bidity. Consequently, this technique has been used as a safe option to simultaneously treat synchronous abdominal malignancies during a single operating room visit. The objective of this study is to describe the experience of two tertiary cancer hospitals in Brazil, in the minimally invasive treatment of synchronous abdominal neoplasms and to evaluate its feasibility and peri-operative results.

Materials and Methods:

We retrospectively reviewed the data from patients who were submitted to combined laparoscopic procedures performed in two tertiary hospitals in Brazil from May 2009 to February 2015.

Results:

A total of 12 patients (9 males and 3 females) with a mean age of 58.83 years (range: 33 to 76 years) underwent combined laparoscopic surgeries for the treatment of at least one urological disease. The total average duration of surgery was 339.8 minutes (range: 210 to 480 min). The average amount of intraoperative bleeding was 276.6mL (range: 70 to 550mL) and length of hospitalization was 5.08 days (range: 3 to 10 days). Two patients suffered minor complications regarding Clavien system during the immediate postoperative period.

Conclusions:

Combined laparoscopic surgery for the treatment of synchronous tumors is feasible, viable and safe. In our study, there was a low risk of postoperative morbidity.

Keywords:
Laparoscopy; Neoplasms; Neoplasms, Multiple Primary

INTRODUCTION

Recent advances in cancer treatment have resulted in an improvement of prognosis with a profound impact in patient's survival (¹1. Müller SA, Pahernik S, Hinz U, Martin DJ, Wente MN, Hackert T, et al. Renal tumors and second primary pancreatic tumors: a relationship with clinical impact? Patient Saf Surg. 2012;6:18.). This fact, associated with the advances in technology and diagnostic methods, have led to an increase in the incidence of a second primary neoplasm. The published frequency of multiple malignancies is 1 to 3% according to international literature (¹1. Müller SA, Pahernik S, Hinz U, Martin DJ, Wente MN, Hackert T, et al. Renal tumors and second primary pancreatic tumors: a relationship with clinical impact? Patient Saf Surg. 2012;6:18., ²2. Watanabe S. Epidemiology of multiple primary cancer. Gan To Kagaku Ryoho. 1990;17:967-73.). While diagnosis of synchronous primary tumors is relatively uncommon, their management warrants consideration. Experts prioritize the treatment of the most aggressive malignancy with the worst prognosis (³3. Mydlo JH, Gerstein M. Patients with urologic cancer and other nonurologic malignancies: analysis of a sample and review of the literature. Urology. 2001;58:864-9.).

Surgical treatment of synchronous tumors of the same histologic origin has been routinely performed in many oncologic scenarios (¹1. Müller SA, Pahernik S, Hinz U, Martin DJ, Wente MN, Hackert T, et al. Renal tumors and second primary pancreatic tumors: a relationship with clinical impact? Patient Saf Surg. 2012;6:18.–⁴4. Hillingsø JG, Wille-Jørgensen P. Staged or simultaneous resection of synchronous liver metastases from colorectal cancer--a systematic review. Colorectal Dis. 2009;11:3-10.). Usually, it consists in extraction of a primary tumor and a solitary metastasis, as in colon cancer. A systematic review published in 2009 showed that, in selected cases, patients with a colon primary tumor and synchronous liver metastasis could be treated by open surgery in a single procedure, instead of two surgeries as a sequential treatment, with the same feasibility and complication rates (⁴4. Hillingsø JG, Wille-Jørgensen P. Staged or simultaneous resection of synchronous liver metastases from colorectal cancer--a systematic review. Colorectal Dis. 2009;11:3-10.).

The benefits of minimally invasive treatment in contemporary urologic practice are well established. Similar oncologic outcomes are achieved in comparison to open surgery, however with potentially more desirable cosmetic results, less post-operative pain, shorter hospital stay, lo-wer complication rates and earlier postoperative recovery (⁵5. Papalia R, Simone G, Guaglianone S, Forastiere E, Gallucci M. Single-setting laparoscopic approach to synchronous urologic tumors. J Endourol. 2010;24:1967-73.–⁷7. Barros R, Frota R, Stein RJ, Turna B, Gill IS, Desai MM. Simultaneous laparoscopic nephroureterectomy and cystectomy: a preliminary report. Int Braz J Urol. 2008;34:413-21; discussion 421.). Since the first laparoscopic ne-phrectomy published by Clayman et al. in 1991 (⁸8. Clayman RV, Kavoussi LR, Figenshau RS, Chandhoke PS, Albala DM. Laparoscopic nephroureterectomy: initial clinical case report. J Laparoendosc Surg. 1991;1:343-9.), there have been numerous technological de-velopments that have allowed a wide adoption of minimally invasive procedures for the treatment of both benign and malign urologic diseases.

Because of the well tolerated minimally invasive surgical approach, performing simultaneous treatment of synchronous abdominal malignancies in a single procedure has been accepted by the international urological society (⁹9. Maurya K, Sivanandam SE, Sukumar S, Bhat S, Kumar G, Nair B. Concomitant laparoscopic urological procedures: Does it contribute to morbidity? J Minim Access Surg. 2009;5:67-71.). Due to the lack of extensive data on combined laparoscopic surgeries, current literature fails to demonstrate the perceived benefits and efficacy of this approach. The objective of this study is to describe the experience of two tertiary cancer hospitals in Brazil, in the minimally invasive treatment of synchronous abdominal neoplasms and to evalua-te its feasibility and peri-operative results.

MATERIALS AND METHODS

We retrospectively reviewed the data from patients who underwent combined laparoscopic procedures performed in two tertiary hospitals in Brazil from May 2009 to February 2015. All In-formed consents were applied before each surgery and were not repeated for data collection.

The inclusion criteria for the study group were as follows: (A) both procedures were performed laparoscopically under a single application of anesthesia; (B) at least one of the procedures was performed for the treatment of a urologic disease and (C) the procedures were in different sites of the abdomen, meaning two separate procedures. Specialists in oncology and minimally invasive surgery, in an inter-disciplinary approach, performed all the surgeries. The initial procedure was elected according to physician's decision and in agreement with both surgeons. All procedures were performed under general anesthesia. Bowel preparation was performed only for colorectal surgeries and antimicrobial prophylaxis for all procedures was done with a first-generation cephalosporin. In case of colorectal surgery, it was added metronidazole. Postoperative complications were described and classified according to the Clavien-Dindo Classification of Surgery Complications (¹⁰10. Dindo D, Demartines N, Clavien PA. Classification of surgical complications: a new proposal with evaluation in a cohort of 6336 patients and results of a survey. Ann Surg. 2004;240:205-13.).

The data was obtained from patient records (emergency room data, visits and office) and patient demographics were recorded. Descriptive statistical analyses were made using the software IBM SPSS Statistics version 20. All ethical aspects of this manuscript were reviewed and approved by the Institution Review Board from both institutions.

RESULTS

A total of 12 patients: 9 males (75%) and 3 females (25%) with an average age of 58.83 years (range: 33 to 76 years) underwent combined laparoscopic surgery for the treatment of at least one urologic disease. The most common type of urologic surgery, which was performed on 10 patients, was to address a renal tumor (partial or radical nephrectomy and nephroure-terectomy). Additionally, one patient underwent an adrenalectomy and one had a radical prostatectomy. The combined laparoscopic procedures consisted of 10 non-urological procedures (6 colectomies, 3 rectosigmoidectomies and 1 total gastrectomy), while 2 had synchronous urologic procedures (left nephroureterectomy with right partial adrenalectomy and left radical nephrectomy with right adrenalectomy). All the procedures performed and their respective pathological findings are listed in Table-1.

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Table 1
Pathological findings regarding urologic and non-urologic diseases.

The mean duration of surgery was 339.8 minutes (range: 210 to 480 min.). The average amount of intraoperative bleeding was 276.6mL (range: 70 to 550mL). All procedures were performed using a trans-peritoneal approach with number of trocars varying from a minimum of 4 to a maximum of 6. The number of trocars utilized was minimized whenever possible and placement was coordinated between surgeons to accommodate their individual needs. The schematic figure provides the suggested port placement for all cases (Figure-1). The specimens were placed in a laparoscopic specimen bag and removed at the end of the procedure by Pfannenstiel, median infra umbilical or Gibson's incision, depending on patient position or surgeon's preferences. There were no intraoperative complications, no conversions to open surgery and no intraoperative mortalities in this group. The average length of hospitalization was 5.08 days (range: 3 to 10 days). Only two patients suffered complications during the 90 days postoperative period; one patient had a transitory hand paresthesia related to surgical positioning and the other one was diagnosed with nosocomial pneumonia and treated successfully with empirical antibiotics. Both complications were classified as Clavien II, and were considered minor. The remainder of patients experienced no complications during the 90 days postoperative period. Table-2 summarizes the demographic and intraoperative data.

Figure 1
Port Placement.

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Table 2
Demographic caractheristics, intraoperative data and complications.

DISCUSSION

The American Cancer Society has recently reported that 20% of Americans will develop cancer in their lifetime. Furthermore, for those patients who develop a tumor, the chance of developing a second tumor during their lifetime is around 30% (³3. Mydlo JH, Gerstein M. Patients with urologic cancer and other nonurologic malignancies: analysis of a sample and review of the literature. Urology. 2001;58:864-9.). Specific to urologic cancers, the finding of a second primary tumor has been reported in the literature with an incidence range of 3.3 to 6.6% (¹¹11. Sugiyama T, Park YC, Iguchi M, Kurita T. Double cancer in urology. Hinyokika Kiyo. 1984;30:1427-31.–¹⁴14. Mikata N, Kinoshita K. [Primary multiple cancers related to urological malignancies]. Gan No Rinsho. 1983;29:A-12, 183-6.). A subset of these patients will develop two primary tumors synchronously, leaving the oncologists with a difficult dilemma: which tumor should be treated first (¹1. Müller SA, Pahernik S, Hinz U, Martin DJ, Wente MN, Hackert T, et al. Renal tumors and second primary pancreatic tumors: a relationship with clinical impact? Patient Saf Surg. 2012;6:18.–³3. Mydlo JH, Gerstein M. Patients with urologic cancer and other nonurologic malignancies: analysis of a sample and review of the literature. Urology. 2001;58:864-9.)?

In the urology field, the finding of a second primary tumor has been reported in the literature. Sugiyama et al. (¹¹11. Sugiyama T, Park YC, Iguchi M, Kurita T. Double cancer in urology. Hinyokika Kiyo. 1984;30:1427-31.) found an incidence of multiple cancers in their patients with urologic cancer of 6.6%. In another study by Wegner et al. (¹²12. Wegner HE. Multiple primary cancers in urologic patients. Audit of 19-year experience in Berlin and review of the literature. Urology. 1992;39:231-6.), over a 19-year period at the University of Berlin Hospital, there was a secondary tumor incidence of 3.3%. Nogueras-Gimeno et al. (¹³13. Nogueras Gimeno MA, Espuela Orgaz R, Abad Menor F Martinez Pérez E, Pérez Arbej JA, Arnaiz Esteban F, et al. Incidence and characteristics of multiple neoplasms in urologic patients. Actas Urol Esp. 1992;16:316-20.) and Mikata et al. (¹⁴14. Mikata N, Kinoshita K. [Primary multiple cancers related to urological malignancies]. Gan No Rinsho. 1983;29:A-12, 183-6.), in two other studies, found an incidence of 6.1% and 6.4% of secondary tumors in their patients with urologic cancer, respectively.

Simultaneous open surgery has been described as a successful treatment option for other synchronous non-urological malignancies (⁴4. Hillingsø JG, Wille-Jørgensen P. Staged or simultaneous resection of synchronous liver metastases from colorectal cancer--a systematic review. Colorectal Dis. 2009;11:3-10., ¹⁵15. Inoue A, Uemura M, Yamamoto H, Hiraki M, Naito A, Ogino T, et al. Short-term outcomes of simultaneous laparoscopic colectomy and hepatectomy for primary colorectal cancer with synchronous liver metastases. Int Surg. 2014;99:338-43.). Hillings et al. (⁴4. Hillingsø JG, Wille-Jørgensen P. Staged or simultaneous resection of synchronous liver metastases from colorectal cancer--a systematic review. Colorectal Dis. 2009;11:3-10.) performed a meta-analysis of studies comparing combined versus staged resection of synchronous liver metastases from colorectal cancer, focusing on length of hospital stay, in-hospital morbidity, mortality and 5-year survival. The data analysis revealed that combined surgery may lead to a shorter length of hospitalization and less morbidity, but it does not seem to affect long-term survival, and in the early decade, at least, it had a larger 30-day mortality. Kim et al. (¹⁶16. Kim SH, Lim SB, Ha YH, Han SS, Park SJ, Choi HS, et al. Laparoscopic-assisted combined colon and liver resection for primary colorectal cancer with synchronous liver metastases: initial experience. World J Surg. 2008;32:2701-6.) were one of the pioneers to demonstrate that patients with synchronous abdominal tumors could undergo laparoscopic surgery in a single procedure. In a series of 10 laparoscopically managed cases of metastatic colon cancer with liver implants, the results regarding intra and post-operative com-plications and length of hospitalization were comparable to published series that describe these procedures carried out separately (¹⁷17. Lin Q, Ye Q, Zhu D, Wei Y, Ren L, Zheng P, et al. Comparison of minimally invasive and open colorectal resections for patients undergoing simultaneous R0 resection for liver metastases: a propensity score analysis. Int J Colorectal Dis. 2015;30:385-95.).

With the advance of new technologies, laparoscopy became a safe and effective treatment option for various urological diseases with many potential benefits. Patients may experience a shorter hospitalization period, early postoperative recovery and better cosmetic results (⁹9. Maurya K, Sivanandam SE, Sukumar S, Bhat S, Kumar G, Nair B. Concomitant laparoscopic urological procedures: Does it contribute to morbidity? J Minim Access Surg. 2009;5:67-71., ¹⁸18. Tsivian A, Konstantinovsky A, Tsivian M, Kyzer S, Ezri T, Stein A, et al. Concomitant laparoscopic renal surgery and cholecystectomy: outcomes and technical considerations. J Endourol. 2009;23:1839-42.). Therefore, specialists have sought to extend these benefits to combined laparoscopic procedures for the treatment of two or more diseases. This strategy has numerous advantages for patients such as: exposure to a single anesthesia; reduction of hospitalization; potential for decreased morbidity and postoperative pain due to smaller incisions; better cost-effectiveness. Smaller incisions may also contribute to the reduction of abdominal wall-related complications, such as evisceration and incisional hernias, which ultimately reduces costs due to the elimination of secondary procedures therefore minimizing psychological and surgery-related stress (⁷7. Barros R, Frota R, Stein RJ, Turna B, Gill IS, Desai MM. Simultaneous laparoscopic nephroureterectomy and cystectomy: a preliminary report. Int Braz J Urol. 2008;34:413-21; discussion 421.). Our study had a favorable complication rate of 16.6% (2 cases), both classified as grade 2 in Clavien-Dindo Classification of Surgery Complications, which is consistent with published literature (Table-3).

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Table 3
Complications described in literature.

Laparoscopic surgery may also have some disadvantages in comparison to open surgery when evaluating synchronous surgeries. Hemodynamic changes secondary to prolonged pneumoperitoneum and specific patient positioning (for example, Trendelemburg position) could become a limitation to this approach if surgery duration is prolonged. Meininger et al., in a prospective study, evaluated hemodynamic features with patients in the Trendelemburg position with the pneumoperitoneum set at 12mmHg during laparoscopic radical prostatectomy, demonstrating that the head-down position caused only a significant increase in central venous pressure, while the induction of pneumoperitoneum for a period of 4 hours significantly affected the mean arterial pressure. All other hemodynamic parameters remained nearly unaffected (¹⁹19. Meininger D, Westphal K, Bremerich DH, Runkel H, Probst M, Zwissler B, et al. Effects of posture and prolonged pneumoperitoneum on hemodynamic parameters during laparoscopy. World J Surg. 2008;32:1400-5.). Meininger et al. in another study published in 2006 compared overweight and non-obese patients regarding hemodynamics and gas exchange during laparoscopic radical prostatectomy and found severe impairment in oxygen exchange in the overweight group, with no impact in hemodynamics (²⁰20. Meininger D, Zwissler B, Byhahn C, Probst M, Westphal K, Bremerich DH. Impact of overweight and pneumoperitoneum on hemodynamics and oxygenation during prolonged laparoscopic surgery. World J Surg. 2006;30:520-6.). Prolonged pneumoperitoneum can also affect oxidative stress as it raises the intra-abdominal pressure, producing significant organ ischemia followed by reperfusion injury on deflation of the abdomen. This so-called ischemia-reperfusion injury would be present at the end of a prolonged induced pneumoperitoneum and may lead to organ injury and failure (²¹21. Urena R, Mendez F, Ruiz-Deya G, Baratta A, Thomas R, Sikka S. Does prolonged pneumoperitoneum affect oxidative stress compared with open surgical procedures? J Endourol. 2005;19:221-4., ²²22. Luo CF, Tsai YF, Chang CH, Wu CT, Yu HP. Increased oxidative stress and gut ischemia caused by prolonged pneumoperitoneum in patients undergoing robot-assisted laparoscopic radical prostatectomy. Acta Anaesthesiol Taiwan. 2011;49:46-9.). Nonetheless, all reported changes were transitory with no permanent impairment in patient's renal or cardio-respiratory functions. Based on these considerations, laparoscopy can negatively impact on patients' health and therefore prolonged surgeries should be avoided, especially in patients with cardio-pulmonary morbidities or obesity. Nevertheless, experienced surgeons can reach acceptable operative time even in combined procedures (⁹9. Maurya K, Sivanandam SE, Sukumar S, Bhat S, Kumar G, Nair B. Concomitant laparoscopic urological procedures: Does it contribute to morbidity? J Minim Access Surg. 2009;5:67-71.).

Tsivian et al. (¹⁸18. Tsivian A, Konstantinovsky A, Tsivian M, Kyzer S, Ezri T, Stein A, et al. Concomitant laparoscopic renal surgery and cholecystectomy: outcomes and technical considerations. J Endourol. 2009;23:1839-42.) described 19 patients who underwent concomitant laparoscopic kidney surgery and cholecystectomy and reported an acceptable duration of surgery and hospitalization, in addition to the efficacy and safety of the procedure. Papalia et al. (⁵5. Papalia R, Simone G, Guaglianone S, Forastiere E, Gallucci M. Single-setting laparoscopic approach to synchronous urologic tumors. J Endourol. 2010;24:1967-73.) described a series of 32 cases of patients who underwent combined laparoscopic surgery for the treatment of synchronous urological tumors and also found that the technique was feasible and safe, with an acceptable intraoperative duration and level of bleeding and no conversion to open surgery. Gill et al. (²³23. Gill IS, Kaouk JH, Hobart MG, Sung GT, Schweizer DK, Braun WE. Laparoscopic bilateral synchronous nephrectomy for autosomal dominant polycystic kidney disease: the initial experience. J Urol. 2001;165:1093-8.) also described the safety, efficacy and viability of combined surgery in a group of patients with autosomal dominant polycystic kidney disease subjected to bilateral synchronous nephrectomy. When combined laparoscopic surgery involves non-urological diseases, it is important to include other specialists on the surgical team to reduce the duration of the procedure. Moreover, another factor that contributes to achieve this objective is the presence of experienced surgeons (¹⁶16. Kim SH, Lim SB, Ha YH, Han SS, Park SJ, Choi HS, et al. Laparoscopic-assisted combined colon and liver resection for primary colorectal cancer with synchronous liver metastases: initial experience. World J Surg. 2008;32:2701-6., ¹⁸18. Tsivian A, Konstantinovsky A, Tsivian M, Kyzer S, Ezri T, Stein A, et al. Concomitant laparoscopic renal surgery and cholecystectomy: outcomes and technical considerations. J Endourol. 2009;23:1839-42.).

Some authors have also reported cases of robotic-assisted combined laparoscopic surgery, with the same benefits as the combined laparoscopic procedures previously described (²⁴24. Lavery HJ, Patel S, Palese M, Kasabian NG, Gainsburg DM, Samadi DB. Combined robotic radical prostatectomy and robotic radical nephrectomy. JSLS. 2010;14:603-7.–²⁹29. Finley DS, Melamud O, Ornstein DK. Combined robot-assisted laparoscopic nephroureterectomy and radical prostatectomy. J Endourol. 2007;21:411-4.). Another important aspect of combined laparoscopic surgery is that it is possible to use the same access sites for both procedures, adding at maximum another one or two entry sites (⁵5. Papalia R, Simone G, Guaglianone S, Forastiere E, Gallucci M. Single-setting laparoscopic approach to synchronous urologic tumors. J Endourol. 2010;24:1967-73., ³⁰30. Reisiger K, Tran V, Figenshau RS, Andriole GL, Landman J. Single-setting bilateral laparoscopic renal surgery: assessment of single-stage procedure. Urology. 2005;65:892-7; discussion 897.).

In tertiary services in countries such as Brazil, where the institution's financial problems sometimes may interfere in treatment election, a combined approach for synchronous pathologies might be a good solution. It seems only logical that one single surgery, minimizing disposable waste, minimizing the total anesthetic and pain medications used, while achieving similar hospitalization periods would be less expensive than the sequential approach. This hypothesis is not confirmed by this study, as analysis of cost-effectiveness was not part of our objectives. Further studies into the cost effectiveness and safety of simultaneous laparoscopic surgeries should be pursued.

CONCLUSIONS

Combined laparoscopic surgery for the treatment of at least one urological condition is a feasible, viable and safe choice. This approach provides acceptable intra- and postoperative morbidity, has the potential for shorter hospitalization, less anesthetic and pain medication usage, and may decrease recovery time. Because of these potential benefits, this approach can reduce costs and burden for patients. Due to the potential for prolonged operative time, we recommend that this approach should only be done in larger oncologic centers and by experienced surgeons to minimize the risks and optimize its benefits.

Published as Ahead of Print: November 24, 2017

REFERENCES

¹
Müller SA, Pahernik S, Hinz U, Martin DJ, Wente MN, Hackert T, et al. Renal tumors and second primary pancreatic tumors: a relationship with clinical impact? Patient Saf Surg. 2012;6:18.
²
Watanabe S. Epidemiology of multiple primary cancer. Gan To Kagaku Ryoho. 1990;17:967-73.
³
Mydlo JH, Gerstein M. Patients with urologic cancer and other nonurologic malignancies: analysis of a sample and review of the literature. Urology. 2001;58:864-9.
⁴
Hillingsø JG, Wille-Jørgensen P. Staged or simultaneous resection of synchronous liver metastases from colorectal cancer--a systematic review. Colorectal Dis. 2009;11:3-10.
⁵
Papalia R, Simone G, Guaglianone S, Forastiere E, Gallucci M. Single-setting laparoscopic approach to synchronous urologic tumors. J Endourol. 2010;24:1967-73.
⁶
Ljungberg B, Bensalah K, Canfield S, Dabestani S, Hofmann F, Hora M, Kuczyk MA, et al. EAU guidelines on renal cell carcinoma: 2014 update. Eur Urol. 2015;67:913-24.
⁷
Barros R, Frota R, Stein RJ, Turna B, Gill IS, Desai MM. Simultaneous laparoscopic nephroureterectomy and cystectomy: a preliminary report. Int Braz J Urol. 2008;34:413-21; discussion 421.
⁸
Clayman RV, Kavoussi LR, Figenshau RS, Chandhoke PS, Albala DM. Laparoscopic nephroureterectomy: initial clinical case report. J Laparoendosc Surg. 1991;1:343-9.
⁹
Maurya K, Sivanandam SE, Sukumar S, Bhat S, Kumar G, Nair B. Concomitant laparoscopic urological procedures: Does it contribute to morbidity? J Minim Access Surg. 2009;5:67-71.
¹⁰
Dindo D, Demartines N, Clavien PA. Classification of surgical complications: a new proposal with evaluation in a cohort of 6336 patients and results of a survey. Ann Surg. 2004;240:205-13.
¹¹
Sugiyama T, Park YC, Iguchi M, Kurita T. Double cancer in urology. Hinyokika Kiyo. 1984;30:1427-31.
¹²
Wegner HE. Multiple primary cancers in urologic patients. Audit of 19-year experience in Berlin and review of the literature. Urology. 1992;39:231-6.
¹³
Nogueras Gimeno MA, Espuela Orgaz R, Abad Menor F Martinez Pérez E, Pérez Arbej JA, Arnaiz Esteban F, et al. Incidence and characteristics of multiple neoplasms in urologic patients. Actas Urol Esp. 1992;16:316-20.
¹⁴
Mikata N, Kinoshita K. [Primary multiple cancers related to urological malignancies]. Gan No Rinsho. 1983;29:A-12, 183-6.
¹⁵
Inoue A, Uemura M, Yamamoto H, Hiraki M, Naito A, Ogino T, et al. Short-term outcomes of simultaneous laparoscopic colectomy and hepatectomy for primary colorectal cancer with synchronous liver metastases. Int Surg. 2014;99:338-43.
¹⁶
Kim SH, Lim SB, Ha YH, Han SS, Park SJ, Choi HS, et al. Laparoscopic-assisted combined colon and liver resection for primary colorectal cancer with synchronous liver metastases: initial experience. World J Surg. 2008;32:2701-6.
¹⁷
Lin Q, Ye Q, Zhu D, Wei Y, Ren L, Zheng P, et al. Comparison of minimally invasive and open colorectal resections for patients undergoing simultaneous R0 resection for liver metastases: a propensity score analysis. Int J Colorectal Dis. 2015;30:385-95.
¹⁸
Tsivian A, Konstantinovsky A, Tsivian M, Kyzer S, Ezri T, Stein A, et al. Concomitant laparoscopic renal surgery and cholecystectomy: outcomes and technical considerations. J Endourol. 2009;23:1839-42.
¹⁹
Meininger D, Westphal K, Bremerich DH, Runkel H, Probst M, Zwissler B, et al. Effects of posture and prolonged pneumoperitoneum on hemodynamic parameters during laparoscopy. World J Surg. 2008;32:1400-5.
²⁰
Meininger D, Zwissler B, Byhahn C, Probst M, Westphal K, Bremerich DH. Impact of overweight and pneumoperitoneum on hemodynamics and oxygenation during prolonged laparoscopic surgery. World J Surg. 2006;30:520-6.
²¹
Urena R, Mendez F, Ruiz-Deya G, Baratta A, Thomas R, Sikka S. Does prolonged pneumoperitoneum affect oxidative stress compared with open surgical procedures? J Endourol. 2005;19:221-4.
²²
Luo CF, Tsai YF, Chang CH, Wu CT, Yu HP. Increased oxidative stress and gut ischemia caused by prolonged pneumoperitoneum in patients undergoing robot-assisted laparoscopic radical prostatectomy. Acta Anaesthesiol Taiwan. 2011;49:46-9.
²³
Gill IS, Kaouk JH, Hobart MG, Sung GT, Schweizer DK, Braun WE. Laparoscopic bilateral synchronous nephrectomy for autosomal dominant polycystic kidney disease: the initial experience. J Urol. 2001;165:1093-8.
²⁴
Lavery HJ, Patel S, Palese M, Kasabian NG, Gainsburg DM, Samadi DB. Combined robotic radical prostatectomy and robotic radical nephrectomy. JSLS. 2010;14:603-7.
²⁵
Lavery HJ, Patel SA, Chin E, Samadi DB. Combined robotic-assisted laparoscopic prostatectomy and laparoscopic hemicolectomy. JSLS. 2011;15:550-4.
²⁶
Jung JH, Arkoncel FR, Lee JW, Oh CK, Yusoff NA, Kim KJ, et al. Initial clinical experience of simultaneous robot-assisted bilateral partial nephrectomy and radical prostatectomy. Yonsei Med J. 2012;53:236-9.
²⁷
Boncher N, Vricella G, Greene G, Madi R. Concurrent robotic renal and prostatic surgery: initial case series and safety data of a new surgical technique. J Endourol. 2010;24:1625-9.
²⁸
Patel MN, Eun D, Menon M, Rogers CG. Combined robotic-assisted laparoscopic partial nephrectomy and radical prostatectomy. JSLS. 2009;13:229-32.
²⁹
Finley DS, Melamud O, Ornstein DK. Combined robot-assisted laparoscopic nephroureterectomy and radical prostatectomy. J Endourol. 2007;21:411-4.
³⁰
Reisiger K, Tran V, Figenshau RS, Andriole GL, Landman J. Single-setting bilateral laparoscopic renal surgery: assessment of single-stage procedure. Urology. 2005;65:892-7; discussion 897.

Publication Dates

Publication in this collection
May-Jun 2018

History

Received
18 July 2017
Accepted
13 Oct 2017

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Published as Ahead of Print: November 24, 2017

Patient	Pathology test Urological pathology	Pathology test Non-urological pathology
1	Anaplastic plasmacytoma	Anaplastic plasmacytoma
2	High grade urothelial carcinoma	Colon adenocarcinoma
3	Renal cell carcinoma (clear cells)	Moderately differentiated colon adenocarcinoma
4	Adenocarcinoma arising from tubulovillous adenoma	Metastatic adenocarcinoma (adrenal)
5	Renal cell carcinoma (clear cell)	Tubular adenocarcinoma of the rectum
6	Renal cell carcinoma (clear cell)	Mucinous gastric adenocarcinoma / chronic cholecystitis
7	Adenocarcinoma metastasis / poorly differentiated adenocarcinoma	Poorly differentiated adenocarcinoma
8	Renal oncocytoma	Rectum tubulovillous adenocarcinoma
9	Renal cell carcinoma (clear cell)	Adrenal carcinoma
10	Renal cell carcinoma (clear cell)	Colon Adenocarcinoma
11	Urothelial carcinoma	Adrenal adenoma
12	Prostate adenocarcinoma, Gleason 4+4	Well -differentiated adenocarcinoma

Patient	Age (y)	Gender	Urologic Surgery performed	Non-urologic Surgery performed	Time (min.)	EBL (mL)	IOC	LOH days	POC
1	33	M	Left radical Nephrectomy	Total colectomy	350	150	No	6	No
2	75	F	Right radical nephrectomy	Left colectomy	470	400	No	7	No
3	55	M	Right radical nephrectomy	Right colectomy	210	200	No	3	No
4	74	F	Left adrenalectomy	Right colectomy	358	200	No	5	No
5	57	M	Right Partial Nephrectomy	Rectum amputation	360	550	No	4	No
6	76	M	Left radical nephrectomy	Subtotal gastrectomy + cholecystectomy	290	500	No	7	No
7	53	M	Right radical nephrectomy	Right hemicolectomy	300	70	No	3	No
8	53	M	Right Partial nephrectomy	Recto-sigmoidectomy	480	350	No	5	No
9	50	M	Left radical nephrectomy	Right adrenalectomy	250	150	No	2	No
10	60	F	Right Partial Nephrectomy	Right colectomy	370	200	No	5	No
11	65	M	Left Nephroureterectomy	Right partial adrenalectomy*	220	150	No	10	Yes
12	55	M	Radical Prostatectomy	Rectosigmoidectomy	420	400	No	4	Yes

Author	Year	Main Surgery	Open / Lap	N	Clavien I (%)	Clavien II (%)	Clavien IIIa/b	Clavien IV	Total (%)
Inoue (15)	2014	Colorectal	Lap	10	-	2	-	-	2 (20)
Hillings (4)	2008	Colorectal	Open	641	NR	NR	NR	NR	224 (35)
Maurya (9)	2009	Urology	Lap	32	1(3.1)	4(12.5)	-	-	5(15.6)
Reisiger (30)	2005	Urology	Lap	13	1(7.7)	2(15.4)	2(15.4)	-	5(38.4)
Lin (17)	2015	Colorectal	Open	36	-	8 (22)	3 (8.5)	-	11(30.5)
			Lap	36	-	7 (19.4)	2 (5.5)	-	9 (24.9)
Cartapatti (present study)	2015	Urology	Lap	12		2 (16.6)			2 (16.6)

Brasil

Brasil

Synchronous abdominal tumors: is combined laparoscopic surgery in a single approach a safe option?

ABSTRACT

Background and Purpose:

Materials and Methods:

Results:

Conclusions:

INTRODUCTION

MATERIALS AND METHODS

RESULTS

DISCUSSION

CONCLUSIONS

REFERENCES

Publication Dates

History