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- M Arru, L Aldrighetti, F Gremmo, M Ronzoni, E Angeli, R Caterini, and G Ferla.
- Department of Surgery, Scientific Institute San Raffaele Hospital, Milan - Italy.
- J Vasc Access. 2000 Jul 1;1(3):93-9.
AbstractIntroduction. Intra-Arterial Hepatic Chemotherapy (IAHC) based on floxuridine (FUdR) infusion is an effective treatment for hepatic metastases from colorectal cancer. A percutaneously implanted intra-arterial device may overcome the surgical stress of the laparotomic placement allowing an increase in the number of patients treated by IAHC. The aim of the present study is the comparative analysis of surgical and percutaneous transaxillary approaches to implant the catheter into the hepatic artery (HA) for IAHC. Materials and Methods. Between September 1993 and February 1999, 56 patients received an implantable infu-sion system [SynchroMed(R) (Medtronic, USA) or Port-a-cath(R) (Deltec, USA) connected to an external infusion pump (CADD(R) , Deltec, USA)] for IAHC. Twenty-eight patients (LPT group) underwent laparotomy to implant the catheter into the HA, the other 28 patients (PCT group) received a percutaneous catheter into the HA through a transaxillary percutaneous access. Indications for the laparotomic placement were: 1) synchronous metastases not suitable [technically unresectable or large (>40% of liver parenchyma) or multiple (> 3) metas-tases] for hepatic resection during colorectal surgery; 2) metachronous metastases treated by radical hepatic resection and subsequent adjuvant IAHC. Indications for percutaneous placement were: 1) metachronous metastases not suitable [see above] for hepatic resection; 2) metachronous metastases suitable for hepatic resection after neoadjuvant IAHC for tumor downstaging. All patients received IAHC based on continuous infusion of FU-dR (dose escalation 0.15-0.30 mg/kg/day for 14 days every 28 days) plus dexamethasone 28 mg. For the purpose of the study, the LPT group and the PCT group were comparatively analyzed in terms of age, gender, primary diagnosis, vascular anatomy of HA, ligation/embolization of aberrant HA, previous intestinal or hepatic surgery, contextual systemic chemotherapy, concomitant diseases. Safety and efficacy of surgical and percutaneous transaxillary approaches were then comparatively analyzed in terms of number of IAHC cycles adminis-tered, device-related complications causing temporary or definitive suppression of IAHC, biological costs of the procedures (procedure-related complications, postoperative pain and hospitalization). LPT cases without concomitant surgical procedure other than catheter placement (Cath-LPT group - 10 cases) were also compared with the PCT group for the same end points of the study. Results. LPT group and PCT group were comparable (p=n.s.) when evaluated for all the above listed variables. As for the end points of the study, mean postoperative hospitalization was 8.2+/-2.2 days in the LPT group and 1.8+/-0.7 days in the PCT group (p<0.0001), while mean analgesic requirements were 9.7+/-3.2 doses in the LPT group and 2+/-0.9 doses in the PCT group (p<0.0001). Mean number of IAHC cycles administered was 6.5+/-4.2 in the LPT group and 4.3+/-3.4 in the PCT group (p=0.038). Device-related complications causing temporary or de-finitive suppression of IAHC included catheter displacement in 10 cases (35.7%), HA thrombosis in 1 case (3.5%) and catheter occlusion in 1 case (3.5%) in the PCT group, while in the LPT group 1 case (3.5%) of catheter occlusion and 1 case (3.5%) of HA thrombosis occurred. The overall incidence of device-related complications causing temporary or definitive suppression of IAHC was 42.7% in the PCT group and 7.1% in the LPT group (p=0.005). Comparison of Cath-LPT group and the PCT group showed mean postoperative hospitalization of 5.5+/-0.7 days in the Cath-LPT group and 1.8+/-0.7 days in the PCT group (p<0.0001), and mean anal-gesic requirements of 8+/-3.1 doses in the Cath-LPT group and 2+/-0.9 in the PCT group (p<0.0001). Conclusions. Surgically implanted indwelling catheters for IAHC present lower incidence of device-related complications than percutaneous transaxillary implanted catheters. In spite of its irreversibility and significant biological costs, surgical implant is still advised when laparotomy has to be performed for other contextual procedures, such as colorectal or hepatic resection, while percutaneous transaxillary catheter placement is indicated for palliative or neoadjuvant IAHC.
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