Improvements in Survival and Clinical Benefit With Gemcitabine as First-Line Therapy for Patients With Advanced Pancreas Cancer: A Randomized Trial.

PURPOSE: Most patients with advanced pancreas cancer experience pain and must limit their daily activities because of tumor-related symptoms. To date, no treatment has had a significant impact on the disease. In early studies with gemcitabine, patients with pancreas cancer experienced an improvement in disease-related symptoms. Based on those findings, a definitive trial was performed to assess the effectiveness of gemcitabine in patients with newly diagnosed advanced pancreas cancer. PATIENTS AND METHODS: One hundred twenty-six patients with advanced symptomatic pancreas cancer completed a lead-in period to characterize and stabilize pain and were randomized to receive either gemcitabine 1,000 mg/m2 weekly x 7 followed by 1 week of rest, then weekly x 3 every 4 weeks thereafter (63 patients), or to fluorouracil (5-FU) 600 mg/m2 once weekly (63 patients). The primary efficacy measure was clinical benefit response, which was a composite of measurements of pain (analgesic consumption and pain intensity), Karnofsky performance status, and weight. Clinical benefit required a sustained (> or = 4 weeks) improvement in at least one parameter without worsening in any others. Other measures of efficacy included response rate, time to progressive disease, and survival. RESULTS: Clinical benefit response was experienced by 23.8% of gemcitabine-treated patients compared with 4.8% of 5-FU-treated patients (P = .0022). The median survival durations were 5.65 and 4.41 months for gemcitabine-treated and 5-FU-treated patients, respectively (P = .0025). The survival rate at 12 months was 18% for gemcitabine patients and 2% for 5-FU patients. Treatment was well tolerated. CONCLUSION: This study demonstrates that gemcitabine is more effective than 5-FU in alleviation of some disease-related symptoms in patients with advanced, symptomatic pancreas cancer. Gemcitabine also confers a modest survival advantage over treatment with 5-FU.

Improvements in survival and clinical benefit with gemcitabine as first-line therapy for patients with advanced pancreas cancer: a randomized trial.

PURPOSE: Most patients with advanced pancreas cancer experience pain and must limit their daily activities because of tumor-related symptoms. To date, no treatment has had a significant impact on the disease. In early studies with gemcitabine, patients with pancreas cancer experienced an improvement in disease-related symptoms. Based on those findings, a definitive trial was performed to assess the effectiveness of gemcitabine in patients with newly diagnosed advanced pancreas cancer. PATIENTS AND METHODS: One hundred twenty-six patients with advanced symptomatic pancreas cancer completed a lead-in period to characterize and stabilize pain and were randomized to receive either gemcitabine 1,000 mg/m2 weekly x 7 followed by 1 week of rest, then weekly x 3 every 4 weeks thereafter (63 patients), or to fluorouracil (5-FU) 600 mg/m2 once weekly (63 patients). The primary efficacy measure was clinical benefit response, which was a composite of measurements of pain (analgesic consumption and pain intensity), Karnofsky performance status, and weight. Clinical benefit required a sustained (> or = 4 weeks) improvement in at least one parameter without worsening in any others. Other measures of efficacy included response rate, time to progressive disease, and survival. RESULTS: Clinical benefit response was experienced by 23.8% of gemcitabine-treated patients compared with 4.8% of 5-FU-treated patients (P = .0022). The median survival durations were 5.65 and 4.41 months for gemcitabine-treated and 5-FU-treated patients, respectively (P = .0025). The survival rate at 12 months was 18% for gemcitabine patients and 2% for 5-FU patients. Treatment was well tolerated. CONCLUSION: This study demonstrates that gemcitabine is more effective than 5-FU in alleviation of some disease-related symptoms in patients with advanced, symptomatic pancreas cancer. Gemcitabine also confers a modest survival advantage over treatment with 5-FU.

Maximum-tolerated dose defined for single-agent gemcitabine: a phase I dose-escalation study in chemotherapy-naive patients with advanced non-small-cell lung cancer.

PURPOSE: We conducted a phase I trial of the novel nucleoside analog, gemcitabine, in chemotherapy-naive patients with advanced non-small-cell lung cancer (NSCLC) to determine the maximum-tolerated dose and efficacy in this population. PATIENT AND METHODS: Eligibility requirements included stage III or IV NSCLC, performance status < or = 1, and no prior chemotherapy. Gemcitabine was administered as a 30-minute intravenous infusion weekly for 3 weeks every 4 weeks. We enrolled patients at doses that ranged from 1,000 to 2,800 mg/m2/wk (three patients per cohort). Responses were assessed after every two courses (8 weeks). RESULTS: We treated 33 chemotherapy-naive patients with stage III (n = 5) or IV (n = 28) NSCLC. Most had performance status 1, and 67% had adenocarcinoma. Eight of 32 assessable patients (25%) achieved a partial response. The projected median survival duration (all patients) is 49 weeks. The maximum-tolerated dose was 2,200 mg/m2/wk for 3 weeks every 4 weeks; dose-limiting toxicity was myelosuppression and reversible transaminase elevation. Other side effects were consistently mild. The maximum dose-intensity achieved with the first two cycles was 2,362 mg/m2/wk for 3 weeks every 4 weeks, which is a feasible phase II starting dose. CONCLUSION: This study estimates a phase II starting dose of gemcitabine in chemotherapy-naive patients to be 2,400 mg/m2/wk for 3 consecutive weeks every 4 weeks; this is much higher than that previously reported in heavily pretreated patients. Twenty-five percent of patients with advanced NSCLC achieved a partial response to gemcitabine. This significant activity in conjunction with a very favorable toxicity profile supports the further evaluation of gemcitabine in combination with other active agents.

A phase II trial of gemcitabine in patients with 5-FU-refractory pancreas cancer.

PURPOSE: To assess the effect of gemcitabine in patients with metastatic pancreas cancer that had progressed despite prior treatment with 5-FU. PATIENTS AND METHODS: Seventy-four patients were enrolled in this multicenter trial. Alleviation of cancer-related symptoms was the primary endpoint. Sixty-three patients completed a pain stabilization period and were treated with gemcitabine. Clinical Benefit Response was defined as a > or = 50% reduction in pain intensity, > or = 50% reduction in daily analgesic consumption, or > or = 20 point improvement in KPS that was sustained for > or = 4 consecutive weeks. RESULTS: Seventeen of 63 pts (27.0%) attained a Clinical Benefit Response (95% CI: 16.0%-38.0%). The median duration of Clinical Benefit Response was 14 weeks (range: 4-69 weeks). Median survival for patients treated with gemcitabine was 3.85 months (range: 0.3-18.0+ months). Therapy was generally well-tolerated with a low incidence of grade 3 or 4 toxicities. CONCLUSION: Systematic assessment of subjective outcomes can be used to evaluate the clinical impact of new therapies for pancreas cancer, a highly symptomatic disease. Our findings suggest that gemcitabine is a useful palliative agent in patients with 5-FU-refractory pancreas cancer.

Phase II trial of gemcitabine in patients with advanced gastric cancer.

BACKGROUND: Approximately 22,000 new cases of gastric cancer are diagnosed each year in the United States, most of which are advanced disease and thus are not curable by surgery. Chemotherapy has had little impact on patient survival. Consequently, the evaluation of new agents is needed. Gemcitabine, a cytosine arabinoside analogue, was evaluated in a Phase II trial to assess its efficacy in previously untreated patients with advanced gastric cancer. METHODS: Patients were treated with weekly gemcitabine, 800 mg/m2, for 3 consecutive weeks, followed by a 1-week rest period. Eighteen patients were enrolled. Fifteen patients were evaluable for response; 2 patients refused therapy before the completion of one cycle of treatment, and one patient was found to have nonmeasurable disease. RESULTS: No major objective responses were seen. Two minor responses occurred. One patient with a minor response was removed from the study at his request after ten cycles of treatment. The other patient remains on the study with stable disease at more than 17 months. Toxicities on this study were mild. Median leukocyte count and platelet nadirs were 5.0 (range, 2.2-51.0) and 234,000/microliters (range, 59,000-554,000/microliters), respectively. CONCLUSION: Gemcitabine at this dose and schedule has no significant antitumor activity in gastric cancer.

Phase II trial of gemcitabine (2,2'-difluorodeoxycytidine) in patients with adenocarcinoma of the pancreas.

Gemcitabine is a novel nucleoside analog which demonstrated a broad spectrum of preclinical activity in solid tumor models, and responses in patients with pancreas cancer during phase I evaluation. Patients with measurable adenocarcinoma of the pancreas who had received no previous chemotherapy were eligible for this multicenter phase II clinical trial. Gemcitabine 800 mg/m2 was administered intravenously weekly for 3 consecutive weeks, followed by one week rest, every 4 weeks. Forty-four patients entered the trial; 35 had at least 2 cycles of therapy. Partial response was observed in 5 patients (11%, estimated 95% confidence interval 2-20%), with a median duration of 13 months. All responding patients had stabilization or improvement in performance status. Fourteen patients had stable disease of 4 or more months. The median WBC nadir was 3.8 x 10(3)/microliters (range 1.6-9.3) and the median absolute neutrophil (ANC) nadir was 2.0 x 10(3)/microliters (range 0.4-7.2). Thrombocytopenia - 100.0 x 10(3)/microliters was observed in 15 patients; the median platelet nadir was 123.0 (range 30.0-245.0). All patients experienced a mild to moderate flu-like syndrome. In addition, one patient had a mild hemolytic-uremic syndrome which appeared related to gemcitabine therapy. Gemicitabine demonstrated marginal activity in this resistant neoplasm, without excessive toxicity. Further evaluation, including the use of more intense dosing and/or combination therapy, is warranted.

Phase II study of gemcitabine in advanced colorectal adenocarcinoma.

A phase II trial of gemcitabine (difluorodeoxycytidine) was conducted in 14 patients with advanced colorectal adenocarcinoma. Gemcitabine was administered intravenously over 30 minutes at weekly intervals for 3 consecutive weeks each month. The starting dose was 800 mg/m2, with dose escalation as tolerated. No complete or partial response were observed. Ten patients experienced progressive disease while on therapy. Toxic effects were primarily hematologic in nature. Grade 3 toxicities included leukopenia (one patient at 1000 mg/m2), granulocytopenia (two patients at 800 mg/m2), anemia (two patients at 800 mg/m2), and myalgia (one patient at 800 mg/m2). No grade 4 toxic effects or treatment-associated deaths were observed. Gemcitabine, at the doses and schedule used in this study, did not demonstrate activity against advanced colorectal adenocarcinoma.

Gemcitabine in leukemia: a phase I clinical, plasma, and cellular pharmacology study.

PURPOSE: Phase I clinical and in vitro studies of gemcitabine (2',2'-difluorodeoxycytidine; dFdC) have demonstrated that the accumulation rate of dFdC 5'-triphosphate (dFdCTP) in mononuclear and leukemia cells is saturated when plasma or extracellular dFdC levels exceed 15 to 20 mumol/L. Thus, we designed a phase I study to maximize the accumulation of dFdCTP by leukemia cells by administering dFdC at 10 mg/m2/min, a dose rate calculated to produce steady-state plasma dFdC levels that exceed 15 to 20 mumol/L. PATIENTS AND METHODS: The treatment intensity was increased in patients (n = 22) with relapsed or refractory acute leukemia or chronic myelogenous leukemia (CML) in blast crisis by prolonging the infusion duration but maintaining the same rate. Doses of dFdC between 1,200 mg/m2 and 6,400 mg/m2 were administered weekly for 3 weeks. RESULTS: The maximum-tolerated dose was 4,800 mg/m2 infused over 480 minutes. The mean steady-state dFdC level in plasma of all infusions was 26.5 +/- 9 mumol/L (n = 19). The accumulation rates of dFdCTP in circulating leukemia cells varied greatly among patients but remained linear in eight patients infused for 120 to 240 minutes, and up to or beyond 360 minutes in five of eight additional patients. Elimination of dFdCTP was significantly related to its cellular concentration: blasts with greater than 450 mumol/L dFdCTP exhibited biphasic elimination, whereas blasts with lower dFdCTP concentrations exhibited linear kinetics. Biphasic elimination was associated with higher dFdCTP areas under the concentration-times-time curve (AUCs) and greater inhibition of DNA synthesis. CONCLUSION: Studies of the cellular pharmacology and pharmacodynamics of dFdC may be useful in optimizing protocol designs for leukemia.

A phase I clinical, plasma, and cellular pharmacology study of gemcitabine.

A novel deoxycytidine analog, gemcitabine (2',2'-difluorodeoxycytidine [dFdC]), has been studied in a phase I clinical and pharmacology trial. Doses ranging from 10 to 1,000 mg/m2 were administered over 30 minutes weekly times 3 weeks every 4 weeks. The maximum-tolerated dose (MTD) was 790 mg/m2. The dose-limiting toxicity was myelosuppression, with thrombocytopenia and anemia quantitatively more important than granulocytopenia. Nonhematologic toxicity was minimal. Two responses in patients with adenocarcinomas of the colon and lung were documented. The maximum dFdC plasma concentration, reached after 15 minutes of infusion, was proportional to the total dose administered. Elimination, due mainly to deamination, was rapid (terminal half-life [t1/2], 8.0 minutes) and dose independent. The deamination product 2',2'-difluorodeoxyuridine (dFdU) was eliminated with biphasic kinetics characterized by a long terminal phase (t1/2, 14 hours); it was the sole metabolite detected in urine. The concentration of dFdC 5'-triphosphate in circulating mononuclear cells increased in proportion to the dFdC dose at infusions between 35 and 250 mg/m2. No further increment in dFdC 5'-triphosphate (dFdCTP) was observed at higher doses, which resulted in plasma dFdC concentrations greater than 20 mumol/L (350 to 1,000 mg/m2), suggesting saturation of dFdC 5'-phosphate accumulation. The recommended dose for phase II clinical trials in solid tumors is 790 mg/m2/wk.

Saturation of 2',2'-difluorodeoxycytidine 5'-triphosphate accumulation by mononuclear cells during a phase I trial of gemcitabine.

The plasma and cellular pharmacology of 2',2'-difluorodeoxycytidine (dFdC, Gemcitabine) was studied during a phase I trial. The steady-state concentration of dFdC in plasma was directly proportional to the dFdC dose, which ranged between 53 and 1,000 mg/m2 per 30 min. The cellular pharmacokinetics of an active metabolite, dFdC 5'-triphosphate (dFdCTP), were determined in mononuclear cells of 22 patients by anion-exchange high-pressure liquid chromatography. The rate of dFdCTP accumulation and the peak cellular concentration were highest at a dose rate of 350 mg/m2 per 30 min, during which steady-state dFdC levels of 15-20 microM were achieved in plasma. A comparison of patients infused with 800 mg/m2 over 60 min with those receiving the same dose over 30 min demonstrated that the dFdC steady-state concentrations were proportional to the dose rate, but that cellular dFdCTP accumulation rates were similar at each dose rate. At the lower dose rate, the AUC for dFdCTP accumulation was 4-fold that observed at the higher dose rate. Consistent with these observations, the accumulation of dFdCTP by mononuclear cells incubated in vitro was maximal at 10-15 microM dFdC. These studies suggest that the ability of mononuclear cells to use dFdC for triphosphate formation is saturable. In the design of future protocols, a dose rate should be considered that produces maximal nucleotide analogue formation, with increased intensity being achieved by prolonging the duration of infusion.

Pharmacologically directed design of the dose rate and schedule of 2',2'-difluorodeoxycytidine (Gemcitabine) administration in leukemia.

The objective of this study was to determine the dose rate of 2',2'-difluorodeoxycytidine (dFdC) that maximizes the accumulation of the active 5'-triphosphate (dFdCTP) in circulating leukemia cells during therapy. The investigational approach was to evaluate the relationship between plasma dFdC and the accumulation of dFdCTP by circulating leukemia cells during infusion of different dFdC dose rates in the same individuals. Four patients with relapsed leukemia were treated weekly with two or three consecutive infusions of 800 mg/m2, the first administered over 1 h, the second over 2 h, and the third over 3 h. Two patients, one with acute myelogenous leukemia and one with acute lymphocytic leukemia, received all three infusions, but thrombocytopenia prohibited infusion of the third dose to two patients with chronic lymphocytic leukemia. The average steady-state plasma dFdC levels, achieved within 15 min after the infusion began, were 43.8 microM during infusion of 800 mg/m2/h, 9.4 microM during infusion of 400 mg/m2/h, and 5.6 microM at 267 mg/m2/h. The median area under the concentration times time curve of dFdCTP in leukemia cells during infusion was increased 2.3- and 5.1-fold for the 2- and 3-h infusions, respectively. In vitro incubations of leukemia cells from the four patients with 2.5-100 microM dFdC for 1 h showed that the maximum cellular accumulation of dFdCTP was produced by 15-20 microM dFdC. We conclude that a dose rate of greater than 400 mg/m2/h was required to achieve plasma dFdC levels that supported the maximum rate of dFdCTP accumulation in leukemia cells.

Successful renal transplantation for Epstein syndrome.

Successful cadaveric renal transplantation was accomplished in a patient with Epstein syndrome, a triad of macrothrombocytopenia, partial high-frequency hearing loss, and nephritis, which often progresses to complete renal failure. The success of the transplant demonstrates that the macrothrombocytopenia which occurs in this syndrome is not a contraindication to aggressive management of end-stage renal disease.

Pyridoxal phosphate as an antisickling agent in vitro.

Although pyridoxal phosphate is known to inhibit gelation of purified hemoglobin S, antisickling activity has never been demonstrated for intact erythrocytes. We incubated washed erythrocytes at 37 degrees C either in buffer alone, or with added pyridoxal phosphate or pyridoxal, washed these cells, suspended them in untreated buffer, and compared the percent modified hemoglobin, the oxygen affinity, and the extent of sickling under hypoxia. Pyridoxal phosphate modified intracellular hemoglobin more slowly than pyridoxal. Pyridoxal phosphate lowered the oxygen affinity of normal cells, but had no effect on oxygen binding by sickle cells. Pyridoxal increased the oxygen affinity of normal and sickle erythrocytes equally. Pyridoxal phosphate significantly inhibited sickling of sickle or sickle trait erythrocytes (P less than 0.001). Inhibition of sickling by pyridoxal phosphate was largely independent of oxygen binding; whereas inhibition of sickling by pyridoxal was almost entirely dependent on increased oxygen binding. Although pyridoxal phosphate and pyridoxal both inhibit sickling by modification of hemoglobin S, they differ in the kinetics of whole cell modification, the effect on oxygen affinity of intact cells, and the mechanism of action of the antisickling activity.

Modification of intracellular hemoglobin with pyridoxal and pyridoxal 5'-phosphate.

The aldehyde forms of vitamin B6, pyridoxal and pyridoxal 5'-phosphate (PLP) have aroused interest as antisickling agents because of their ability to modify hemoglobin (Hb) and their low toxicity. To study their rate of formation and stability inside red cells, pyridoxal-Hb and PLP-Hb were measured in lysates from treated normal and sickle erythrocytes using isocratic high pressure liquid chromatography on Bio-Rex 70. The validity of this assay was confirmed by isoelectric focussing, fluorescence scans of reduced globin, and treatment of cells with pyridoxal 14C. Optimal conditions were described for treatment of whole blood with pyridoxal and washed erythrocytes with PLP. Although there was competition between 2,3-DPG and PLP, but not pyridoxal, for binding to Hb, depletion of 2,3-DPG prior to treatment was unnecessary. No special requirements were noted for the anticoagulants or buffers used. Sickle erythrocytes formed PLP-Hb more rapidly than normal erythrocytes, but pyridoxal-Hb appeared at the same rate in both types of erythrocytes. During incubation of treated erythrocytes in untreated plasma, the stability of pyridoxal-Hb varied inversely with the hematocrit, but PLP-Hb was stable at all hematocrits tested. The absence of hemolysis during a 4 day incubation of treated normal red cells implies that treatment with pyridoxal or PLP did not severely impair red cell metabolism.

Inhibition of erythrocyte sickling in vitro by pyridoxal.

To test the antisickling activity of pyridoxal, we compared the oxygen affinity and the percent sickling at low PO2 of untreated erythrocytes with values for cells from the same blood sample incubated with pyridoxal, glyceraldehyde, or pyridoxine. Pyridoxal increased oxygen affinity much more than glyceraldehyde. 20 mM pyridoxal and glyceraldehyde had equivalent antisickling activity. At PO2 levels above 20 mm Hg, both agents reduced sickling to less than 2%. In samples examined by electron microscopy, pyridoxal reduced the percent sickled cells and the percent cells that contain hemoglobin S fibers by the same amount (from 74 to 3%). Pyridoxine had no effect on oxygen affinity or sockling. Pyridoxal reacts with intracellular hemoglobin to increase oxygen affinity, which inhibits hemoglobin S polymerization and sickling.