Treatment of liver malignancies, in particular hepatocellular carcinoma, remains a serious problem because of the difficulty of delivering adequate therapeutic agents to the lesions while sparing the surrounding normal tissue. In an attempt to overcome this obstacle, intratumoral injection of 90Y, a beta-emitter, was performed.
Methods: Twenty-seven hepatocellular carcinomas and six liver metastases were studied, most of which had failed other therapeutic modalities. Guided by ultrasound, 90Y-glass microspheres (GMS) were carefully injected into predetermined tumor sites. The procedure was repeated at 3--4-wk intervals where indicated. Echographic, clinical and laboratory follow-up was conducted at regular intervals.
Results: Twelve to 32 mo after treatment, 27 patients were still alive, with dramatic improvement of their clinical condition: 90.6% of the tumor foci became smaller, with echogenic or blood flow changes on liver sonograms. Serum titers of alpha-FP in 10 of 13 patients returned to normal levels. Repeat biopsy in nine patients showed complete tumor destruction in eight. Six patients died of either end-stage disease or wide dispersion of the tumor.
Conclusion: The intratumoral administration of 90Y-GMS under ultrasound guidance yielded a higher cure rate for liver malignancy with no severe side effects. The higher radiation dosage delivered by injected 90Y to the periphery of the lesions (up to 28,215-75,720 cGy) was thought to account for the successful outcome. These results show that intratumoral radionuclide injection is feasible for treatment of malignant lesions inside the body.