Breath holding statistically significantly improves three-dimensional gadolinium-enhanced MR angiography of the renal, celiac, and superior mesenteric arteries.
Three patients developed supraumbilical skin rashes during hepatic artery infusion chemotherapy by a surgically placed perfusion catheter and drug-infusion pump. In one patient, hepatic arterial scintigraphy with technetium-99m macroaggregated serum albumin showed increased uptake corresponding to the rash, and a hepatic arteriogram showed a dilated falciform branch of the left hepatic artery. Surgical ligation of the falciform artery permitted further treatment without recurrent rash. Based on a review of 100 celiac arteriograms, the incidence of the falciform artery on angiographic studies is approximately 2%. The angiographic appearance of this artery is presented, and its potential clinical significance in hepatic artery perfusion chemotherapy is discussed.
Thirty-five patients with scintigrams showing unsatisfactory hepatic artery perfusion after surgical placement of an implanted pump and catheter system were examined with selective angiography (33 cases) or digital subtraction angiography (DSA) during which the contrast material was injected through the side port of the pump (six cases). In 34 of 35 cases, the cause of the unsatisfactory (either extrahepatic or incomplete) hepatic perfusion was defined. DSA was definitive in only two cases, in which extrahepatic flow through collateral vessels was demonstrated. The cause of the perfusion defect was hepatic artery thrombosis in 14 cases, extrahepatic flow through collateral vessels in 14 cases, a misplaced catheter in four cases, and a short proper hepatic artery without adequate length for mixing in two cases. Although hepatic artery perfusion scintigraphy is the primary tool for evaluation of hepatic perfusion after catheter placement, angiography plays an important role in treating the subset of patients with unsatisfactory hepatic perfusion.
Sodium tetradecyl sulfate (Sotradecol), which has been employed for sclerotherapy of varicose veins, was evaluated in dogs and humans as an agent for selective arterial embolization. In dogs, intraarterial injection of Sotradecol 3% into the proximally occluded renal, hepatic, splenic, and deep femoral arteries produced arterial occlusion and tissue destruction. Transcatheter embolization with Sotradecol was performed in 11 patients and was successful in 10; in the remaining patient, failure was attributed to rapid dilution by unobstructed blood flow in arteriovenous malformations of the neck. The authors conclude that Sotradecol is a safe and efficient agent for selective arterial embolization.
Hepatic arterial infusion chemotherapy increases the hepatic concentration of chemotherapeutic agents without increasing systemic toxicity. Both percutaneous (most commonly left transbrachial) and surgical approaches are currently used for infusion catheter placement. Surgical catheter and pump placement has proved to be a reliable means of delivering drugs to the liver and has been commonly used for hepatic arterial chemotherapy for metastatic colorectal carcinoma. Meticulous angiographic evaluation of the hepatic vascular anatomy, its variations, and hemodynamics is necessary for correct catheter placement to achieve total liver perfusion without significant extrahepatic perfusion. Satisfactory hepatic perfusion should be documented before drug infusion. Hepatic arterial radionuclide flow imaging with technetium-99m-labeled macroaggregated serum albumin remains the most reliable means of assessing hepatic perfusion following catheter placement. Transcatheter techniques have been used to facilitate catheter placement, to prevent gastrointestinal drug toxicity, and to correct unsatisfactory perfusion following surgical catheter placement.
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