Emmanuel Polycarpe scite author profile

Intraperitoneal (i.p.) chemotherapy is a promising therapeutic method to improve the effectiveness of cisplatin in patients with ovarian cancer and peritoneum involvement. Intraperitoneal treatment can be intraoperatively performed just after a complete surgical resection of peritoneal tumor nodules. However, little is known regarding the pharmacokinetics of platinum during intraoperative i.p. chemotherapy (IIC). Serum and i.p. measurements of total and ultrafilterable platinum were performed to determined pharmacokinetic parameters in 11 consecutive patients who received a 2-h IIC with 50 mg/m cisplatin. Protein concentrations were determined in serum and peritoneal liquid at the same times. The cisplatin concentration required to kill OVCAR-3 human ovarian cancer cells and evaluation of cisplatin binding to proteins were determined in vitro. Platinum i.p. concentration decreased rapidly and quickly came under the cytotoxicity threshold (10 mg for 2 h). About 85% of i.p. and serum cisplatin was ultrafilterable during IIC. Platinum concentrations were closely related to protein concentrations. Due to the very low level of serum protein (almost 25 g/l), serum cisplatin binding during chemotherapy was very low (almost 25%), but increased with protein concentration recovery. These pharmacokinetic data show that a sufficient concentration to kill human ovarian cancer is not reached with a single i.p. bath containing 50 mg/m cisplatin for 2 h. A new protocol with a renewed bath and a higher cisplatin concentration is under investigation.

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Rationale supporting the use of vasoconstrictors for intraperitoneal chemotherapy with platinum derivatives

Chauffert

Favoulet

Polycarpe

et al. 2003

Surgical Oncology Clinics of North America

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Low urine osmolarity as a determinant of cisplatin‐induced nephrotoxicity

Polycarpe

Arnould́

Schmitt

et al. 2004

Intl Journal of Cancer

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Cisplatin is widely used in the treatment of human tumors, but it is a nephrotoxic drug. Early pragmatic clinical trials have shown that cisplatin-induced renal toxicity is greatly reduced through the use of high hydration, a large NaCl supply and mannitol infusion, but the precise mechanisms of these nephroprotective measures are not fully understood. We show here an increase in the cisplatin uptake and cytotoxicity on 56/10 A1 human glomerular and HK-2 human tubular cells when the drug incubation was performed in a hypotonic phosphate-buffered saline solution or in human urine ("drag in" transport hypothesis). When 4 mg/kg cisplatin was intraperitoneally injected in rats in 20 ml of a hypotonic 4 g/l NaCl solution, the platinum accumulation increased in both the cortex and papilla but not in the subcutaneously grafted colon tumors when compared to rats injected with cisplatin in normal or hyperosmotic solutions (9 and 14 g/l NaCl, respectively). The urea and creatinine blood levels were significantly increased, and more apoptotic cells were detected by the caspase-3 cleavage and TUNEL assays in the tubular cells of rats treated with cisplatin in a hypotonic solution compared to animals that received normal or hypertonic solutions. Osmolarity was sometimes low in urine from patients receiving an intravenous hydration for a cisplatin treatment or from healthy volunteers who were given an oral hydration with a 50 g/l glucose solution. Our results show that low urine osmolarity could be a major determinant in the increase of cisplatin-induced nephrotoxicity and justify the widely used concurrent infusion of osmotically active substances during intravenous hydration.

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Prevention of Peritoneal Carcinomatosis from Colon Cancer Cell Seeding Using a Pirarubicin Solution in Rats and Nude Mice

et al. 2004

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Free malignant cells, which are frequently detected in the washing liquid from the peritoneal cavity before and after resection of human colorectal cancer, are suspected to cause recurrent peritoneal cancer. We carried out an experimental study to compare the prophylactic efficacy of washing the peritoneum with several anticancer drugs and the antiseptic povidone-iodine against the development of peritoneal carcinomatosis from colonic origin in rats and nude mice. The in vitro anticancer activity of a short, 15-minute exposure of pirarubicin, doxorubicin, 5-fluorouracil, cisplatin, mitomycin C, and 1% povidone-iodine was first evaluated by an MTT assay on DHD/K12/PROb rat and LS174T human colon cancer cells. For the in vivo experiments, BDIX rats were inoculated intraperitoneally (i.p.) with 1 x 10(6) DHD/K12/PROb cells followed by peritoneal scarring and a colocolic anastomosis. A 15-minute peritoneal washing with the anticancer drugs or povidone-iodine was then performed. Nude mice were i.p.-inoculated with 1 x 10(7) LS174T human cells and treated 2 hours later with i.p. pirarubicin. Only pirarubicin, mitomycin C, and povidone-iodine were fully cytotoxic in vitro against DHD/K12/PROb rat colon cancer cells. In contrast to pirarubicin and povidone-iodine, mitomycin C was not completely active against LS174Tcells. In vivo, pirarubicin cured DHD/K12/PROb-inoculated rats, even at the site of the peritoneal scarring and intestinal anastomosis. i.p. pirarubicin prevented the development of peritoneal carcinomatosis and liver metastasis in LS174T-inoculated mice. i.p. washing with pirarubicin cured 2-day-old, but not 7-day-old, peritoneal carcinomatosis in rats. Short exposure to i.p. pirarubicin is nontoxic and more active than povidone-iodine and other anticancer drugs in preventing the development of peritoneal carcinomatosis from colonic origin in rats and mice. The prophylactic effect of preoperative peritoneal washing with pirarubicin on the development of recurrent peritoneal cancer should be evaluated in a randomized clinical trial.

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