Intraperitoneal chemotherapy for ovarian cancer

Feasibility of laparoscopic peritonectomy followed by intra-peritoneal chemohyperthermia: an experimental study

OBJECTIVE

Hyperthermic intraperitoneal chemotherapy (HIPEC) is being evaluated for patients with minimal residual or no residual disease after primary surgery and chemotherapy for stage III ovarian carcinoma. The use of operative laparoscopy to perform peritonectomy and HIPEC is reported.

METHODS

Five adult pigs were used. The placement of trocars in the four quadrants was planned in order to complete a total peritonectomy and then to place the HIPEC drains. The umbilical trocar was then replaced manually by the surgeon through a Lapdisc to manipulate the bowel loops. The abdominal cavity was filled with heated saline (43 degrees C), and the pumps were activated for 30 min.

RESULTS

The procedure was successfully completed with an adequate intraabdominal temperature and distribution.

CONCLUSION

These preliminary data suggest the technical feasibility of the laparoscopic approach for HIPEC, in an animal model without carcinomatosis. Our ongoing research is designed to gather pharmacokinetic data in an experimental controlled randomized fashion to compare a laparoscopic to a laparotomy approach on the same model.

A human umbilical cord stem cell rescue therapy in a murine model of toxic liver injury

BACKGROUND

Several studies have demonstrated that bone marrow contains a subpopulation of stem cells capable of participating in the hepatic regenerative process, even if some reports indicate quite a low level of liver repopulation by human stem cells in the normal and transiently injured liver.

AIMS

In order to overcome the low engraftment levels seen in previous models, we tried the direct intraperitoneal administration of human cord blood stem cells, using a model of hepatic damage induced by allyl alcohol in NOD/SCID mice.

METHODS

We designed a protocol based on stem cell infusion following liver damage in the absence of irradiation. Flow cytometry, histology, immunohistochemistry and RT-PCR for human hepatic markers were performed to monitor human cell engraftment.

RESULTS

Human stem cells were able to transdifferentiate into hepatocytes, to improve liver regeneration after damage and to reduce the mortality rate both in both protocols, even if with qualitative and quantitative differences in the transdifferentiation process.

CONCLUSIONS

We demonstrated for the first time that the intraperitoneal administration of stem cells can guarantee a rapid liver engraftment. Moreover, the new protocol based on stem cell infusion following liver damage in the absence of irradiation may represent a step forward for the clinical application of stem cell transplantation.