BACKGROUND: Hyperthermic chemotherapy applies thermal energy to both abdominal wall as well as the intra-abdominal viscera. The combination of the hyperthemia, chemotherapy and cytoreductive surgery (CRS) is associated with a defined risk of abdominal wall and intestinal morbidity reported to be as high as 15%, respectively to date, no studies have evaluated the use of biomaterial mesh as adjuvant to abdominal wall closure in this group of patients. In the present report, we hypothesized that post HIPEC closure with a biomaterial can reduce abdominal wall morbidity after CRS and hyperthermic intraperitoneal chemotherapy. MATERIALS AND METHODS: All patients treated with HIPEC in a tertiary care center over 12 months (2008-2009) period were included. Eight patients received cytoreductive surgery followed by HIPEC for 90 minutes using Mitomycin C (15 mg q 45 minutes x 2). Abdominal wall closure was performed using Surgisis (Cook Biotech.) mesh in an underlay position with 3 cm fascial overlap-closure. Operative time, hospital length of stay (LOS) as well as postoperative outcome with special attention to abdominal wall and bowel morbidity were assessed. RESULTS: Eight patients, mean age 59.7 ys (36-80) were treated according to the above protocol. The primary pathology was appendiceal mucinous adenocarcinoma (n = 3) colorectal cancer (n = 3), and ovarian cancer (n = 2). Four patients (50%) presented initially with abdominal wall morbidity including incisional ventral hernia (n = 3) and excessive abdominal wall metastatic implants (n = 1). The mean peritoneal cancer index (PCI) was 8.75. Twenty eight CRS were performed (3.5 CRS/patient). The mean operating time was 6 hours. Seven patients had no abdominal wall or bowel morbidity, the mean LOS for these patients was 8 days. During the follow up period (mean 6.3 months), one patient required exploratory laparotomy 2 weeks after surgery and subsequently developed an incisional hernia and enterocutaneous fistula. CONCLUSION: The use of biomaterial mesh in concert with HIPEC enables the repair of concomitant abdominal wall hernia and facilitates abdominal wall closure following the liberal resection of abdominal wall tumors. Biomaterial mesh prevents evisceration on repeat laparotomy and resists infection in immunocompromised patients even when associated with bowel resection.
BACKGROUND: Hyperthermic chemotherapy applies thermal energy to both abdominal wall as well as the intra-abdominal viscera. The combination of the hyperthemia, chemotherapy and cytoreductive surgery (CRS) is associated with a defined risk of abdominal wall and intestinal morbidity reported to be as high as 15%, respectively to date, no studies have evaluated the use of biomaterial mesh as adjuvant to abdominal wall closure in this group of patients. In the present report, we hypothesized that post HIPEC closure with a biomaterial can reduce abdominal wall morbidity after CRS and hyperthermic intraperitoneal chemotherapy. MATERIALS AND METHODS: All patients treated with HIPEC in a tertiary care center over 12 months (2008-2009) period were included. Eight patients received cytoreductive surgery followed by HIPEC for 90 minutes using Mitomycin C (15 mg q 45 minutes x 2). Abdominal wall closure was performed using Surgisis (Cook Biotech.) mesh in an underlay position with 3 cm fascial overlap-closure. Operative time, hospital length of stay (LOS) as well as postoperative outcome with special attention to abdominal wall and bowel morbidity were assessed. RESULTS: Eight patients, mean age 59.7 ys (36-80) were treated according to the above protocol. The primary pathology was appendiceal mucinous adenocarcinoma (n = 3) colorectal cancer (n = 3), and ovarian cancer (n = 2). Four patients (50%) presented initially with abdominal wall morbidity including incisional ventral hernia (n = 3) and excessive abdominal wall metastatic implants (n = 1). The mean peritoneal cancer index (PCI) was 8.75. Twenty eight CRS were performed (3.5 CRS/patient). The mean operating time was 6 hours. Seven patients had no abdominal wall or bowel morbidity, the mean LOS for these patients was 8 days. During the follow up period (mean 6.3 months), one patient required exploratory laparotomy 2 weeks after surgery and subsequently developed an incisional hernia and enterocutaneous fistula. CONCLUSION: The use of biomaterial mesh in concert with HIPEC enables the repair of concomitant abdominal wall hernia and facilitates abdominal wall closure following the liberal resection of abdominal wall tumors. Biomaterial mesh prevents evisceration on repeat laparotomy and resists infection in immunocompromised patients even when associated with bowel resection.
Authors: A J Witkamp; E de Bree; M M Kaag; H Boot; J H Beijnen; G W van Slooten; F van Coevorden; F A Zoetmulder Journal: Eur J Cancer Date: 2001-05 Impact factor: 9.162
Authors: John H Stewart; Perry Shen; Gregory B Russell; Robert F Bradley; Jonathan C Hundley; Brian L Loggie; Kim R Geisinger; Edward A Levine Journal: Ann Surg Oncol Date: 2006-03-14 Impact factor: 5.344
Authors: Daniel A De Ugarte; Devin Puapong; Jason Roostaeian; Nicole Gillis; Eric W Fonkalsrud; James B Atkinson; James C Y Dunn Journal: J Surg Res Date: 2003-06-01 Impact factor: 2.192
Authors: Vinicius de Lima Vazquez; O Anthony Stuart; Faheez Mohamed; Paul H Sugarbaker Journal: Cancer Chemother Pharmacol Date: 2003-05-21 Impact factor: 3.333
Authors: Paul H Sugarbaker; Robert Alderman; Gary Edwards; Christina Ellen Marquardt; Vadim Gushchin; Jesus Esquivel; David Chang Journal: Ann Surg Oncol Date: 2006-03-10 Impact factor: 5.344
Authors: Filip E Muysoms; An Jairam; Manuel López-Cano; Maciej Śmietański; Guido Woeste; Iris Kyle-Leinhase; Stavros A Antoniou; Ferdinand Köckerling Journal: Front Surg Date: 2016-09-26
Authors: Maciej Nowacki; Margarita Peterson; Tomasz Kloskowski; Eleanor McCabe; Delia Cortes Guiral; Karol Polom; Katarzyna Pietkun; Barbara Zegarska; Marta Pokrywczynska; Tomasz Drewa; Franco Roviello; Edward A Medina; Samy L Habib; Wojciech Zegarski Journal: Oncotarget Date: 2017-08-31