Single-Agent Paclitaxel in the Treatment of Advanced Non-Small Cell Lung Cancer

Abstract

Paclitaxel was the first identified member of a new class of anticancer drugs known as the taxanes. This compound has significant single-agent activity against a number of solid tumors including nonsmall cell lung cancer (NSCLC). In the first-line setting, single-agent paclitaxel has been studied on a number of different schedules and dose levels. Initial studies were done on the 24-h infusion schedule with doses of 200-250 mg/m². Response rates were 21%-24%. Median survival ranged from six to nine months with one-year survival rates of 38%-42%. The major toxicity of this infusion schedule was myelosuppression, mainly neutropenia. Subsequent single-agent studies employed shorter infusion durations (three hours), with doses ranging from 175-225 mg/m². The cumulative experience of the 3-h infusion schedule shows an overall response rate of 28.5% with median survival of 6-11 months and a one-year survival of 37.5%. Similar results were obtained in the one study examining the 1-h infusion schedule with doses ranging from 135-200 mg/m². The major toxicities of the shorter infusion schedule include neutropenia, neuropathy, and myalgia/arthralgia syndrome. Weekly administration of paclitaxel also showed significant activity in advanced, metastatic NSCLC. Overall response rates have ranged from 30%-56% in the phase I/II setting with one-year survival rates of 42%-53%. A recently completed phase III trial comparing single-agent paclitaxel at 200 mg/m² over three hours every three weeks to best supportive care (BSC) in advanced or metastatic NSCLC has shown a survival advantage for the single-agent paclitaxel arm (median survival 6.8 months for paclitaxel versus 4.8 months for BSC, p = 0.045). An ongoing phase III trial is comparing single-agent paclitaxel to the combination of carboplatin and paclitaxel (CALGB 9730) in advanced, metastatic NSCLC. Paclitaxel has also been studied in the second-line setting. Infusion schedules have ranged from 1 h, 24 h and 96 h on an every-three-week schedule. Weekly paclitaxel has also been evaluated in the second-line setting. Although the overall experience is limited, response rates have ranged from 0%-38%. The overall role of single-agent paclitaxel in prolonging survival and improving quality of life remains uncertain in this setting. The cumulative experience of single-agent paclitaxel in advanced, metastatic NSCLC suggests that it is a highly active cytotoxic agent in this setting. The consistent finding of a 35%-40% one-year survival rate is notable. The major toxicities include neutropenia, neuropathy, and myalgia/arthralgia syndrome. Given the overall activity and impact on survival along with an acceptable toxicity profile, single-agent paclitaxel warrants comparison to other active agents and combination regimens in advanced, metastatic NSCLC.