Dose escalation of busulfan with pentoxifylline and ciprofloxacin in patients with breast cancer undergoing autologous transplants

OBJECTIVE: There is evidence that pentoxifylline (PTX) and ciprofloxacin (Cipro) may protect patients from the effects of chemotherapy and radiation, which could allow further drug dose escalation. This study was conducted to determine whether oral and intravenous (IV) PTX and Cipro permits increased dose levels of oral busulfan (BU) with a fixed dose of IV cyclophosphamide (CY) in patients with breast cancer receiving autologous or syngeneic hematopoetic cell transplantation. METHODS: Sixty-seven patients received PTX and Cipro with CY of 150 mg/kg and escalating doses of BU. The BU dosing began at 15 mg/kg, escalating in 1 mg/kg increments in groups of 4 patients. If no grade 3 or 4 regimen- related toxicities (RRT) were observed, the next 4 patients were treated at a higher dose. RESULTS: Excessive RRT was not observed until BU 21 mg/kg was reached. Two patients at this dose level had RRTs and their BU steady-state concentration (Css) were 1,414 and 1,545 ng/ml. At a BU dose of 20 mg/kg , average BU Css 1,280 ng/ml, 0/4 had RRT. Among 10 patients who had BU Css targeted to 1,350 ng/ml, RRTs occurred in 2 (20%). CONCLUSIONS: In this preliminary study with PTX and Cipro, the maximum tolerated dose of BU that can be given with CY (150 mg/kg) was 20 mg/kg, a BU Css of approximately 1,300 ng/ml. A randomized trial is necessary to determine whether PTX and Cipro reduce the toxicities of this regimen.     

Phase I study of busulfan and cyclophosphamide in preparation for allogeneic marrow transplant for patients with multiple myeloma.

PURPOSE: To study the toxicity and potential efficacy of busulfan (BU) and cyclophosphamide (CY) as a conditioning regimen before allogeneic bone marrow transplantation (ABMT) in patients with multiple myeloma (MM). PATIENTS AND METHODS: Twenty patients with MM underwent conditioning, which was followed by ABMT from 16 HLA-identical donors, three one-antigen-mismatched donors, and one HLA A, B, D-identical unrelated donor. Four levels of BU plus CY were evaluated. RESULTS: Severe regimen-related toxicity occurred in two of five patients who received BU 16 mg/kg and CY 120 mg/kg, in none of the four patients who received BU 14 mg/kg and CY 120 mg/kg, in one of eight patients who received BU 14 mg/kg and CY 147 mg/kg, and in two of three patients who received BU 14 mg/kg and CY 174 mg/kg. Twelve of 15 (80%) assessable patients achieved a complete remission with the disappearance of M-protein and the return of normal marrow morphology. Ten patients died of complications related to the ABMT, and two patients died of progressive or relapsed MM. Overall, eight of 20 patients were alive; seven (35%) were in complete remission 190 to 1,271 days after ABMT. CONCLUSIONS: The maximum-tolerable dose given in this setting was BU 14 mg/kg and CY 147 kg/mg. These results suggest that this regimen may have significant antimyeloma activity. Further phase II studies are warranted.     

Pharmacokinetic study of low- versus high-dose medroxyprogesterone acetate (MPA) in women

The present study was conducted to compare the pharmacokinetics (PK) of low-dose versus high-dose medroxyprogesterone (MPA) as a once-daily oral administration. Of 32 patients, all women, enrolled in this PK study, 18 received 600 mg MPA daily and 14 received 1200 mg daily. Detailed PK data were obtained on day 1 and after more than 4 weeks of MPA treatment. In addition, multiple data for the minimum steady-state concentration (Css min) were analyzed. The MPA serum concentrations were measured by high-performance liquid chromatography. Wide interpatient variability was found in the PK parameters obtained both on day 1 and after more than 4 weeks. There were no clear relationships between the oral dose and the MPA peak concentration (Cmax), area under the time versus concentration curve (AUC), or mean Css min. Weight gains of 10% or more were demonstrated more frequently in the high-dose group (P<0.01). Liver dysfunction (n=5) did not influence the PK of MPA. Five patients demonstrated extremely low AUC and Cmax (<10 ng/ml) values on day 1. Phenobarbital, dexamethasone and betamethasone were being taken concomitantly with the MPA each by one patient. The serum MPA concentrations were markedly increased after the discontinuation of phenobarbital in that patient, suggesting a drug interaction. At present we cannot recommend the high dose of MPA, except in clinical studies, from a PK or a pharmacodynamic points of view. Received: 2 May 1997 / Accepted: 13 October 1997     

Phase I/pharmacokinetic study of the topoisomerase I inhibitor GG211 administered as a 21-day continuous infusion

Background: Preclinical results support a prolonged schedule of administration for topoisomerase I inhibitors, and we have previously demonstrated the safety and activity of the novel water-soluble topoisomerase I inhibitor GG211 when given as a 72-hour continuous infusion to cancer patients.Patients and methods: In a three-center international phase I trial, 38 patients received GG211 doses from 0.3 to 0.5 mg/m2/day by continuous intravenous infusions for seven, 14, and 21 days. Patients' median performance status was 1; nearly half had colorectal cancer, and 35 patients had prior chemotherapy.Results: The first patient cohort received 0.3 mg/m2/day for seven days with no significant toxicities. Subsequent cohorts received continuous infusions for 14 and 21 days at this dose level with only mild myelosuppression noted. Dose-escalation on the 21-day schedule was then performed. No dose-limiting toxicity occurred at the 0.4 mg/m2/day dose level. Thrombocytopenia was dose-limiting with 0.5 mg/m2/day dosing but was not cumulative. Other grade 3–4 toxicities included neutropenia, nausea, vomiting, diarrhea, and fatigue. Partial responses occurred with 21-day infusion in two patients with breast and ovarian cancer at the 0.3 and 0.4 mg/m2/day dose levels, respectively. Mean GG211 lactone Css ranged from 0.17 to 0.64 ng/ml.Conclusion: The maximum tolerated dose of GG211 administered as a 21-day continuous infusion is 0.4 mg/m2/day with antitumor activity noted at tolerable doses.     

Disposition of irinotecan and SN-38 following oral and intravenous irinotecan dosing in mice

The present study was conducted to quantitate the disposition of irinotecan lactone and its active metabolite SN-38 lactone in mice following oral and intravenous administration, and to evaluate the systemic exposure of irinotecan lactone and SN-38 lactone associated with antitumor doses of irinotecan lactone in mice bearing human tumor xenografts. Nontumor-bearing mice were given a single oral or intravenous irinotecan dose (5, 10, 40, or 75 mg/kg), and serial plasma samples were subsequently obtained. Irinotecan and SN-38 lactone plasma concentrations were measured using an isocratic HPLC assay with fluorescence detection. The disposition of intravenous irinotecan lactone was modeled using a two-compartment pharmacokinetic model, and the disposition of oral irinotecan and SN-38 lactone was modeled with noncompartmental methods. Irinotecan lactone showed biphasic plasma disposition following intravenous dosing with a terminal half-life ranging between 1.1 to 3 h. Irinotecan lactone disposition was linear at lower doses (5 and 10 mg/kg), but at 40 mg/kg irinotecan lactone clearance decreased and a nonlinear increase in irinotecan lactone AUC was observed. The steady-state volume of distribution ranged from 19.1 to 48.1 l/m². After oral dosing, peak irinotecan and SN-38 lactone concentrations occurred within 1 h, and the irinotecan lactone bioavailability was 0.12 at 10 mg/kg and 0.21 at 40 mg/kg. The percent unbound SN-38 lactone in murine plasma at 1000 ng/ml was 3.4 ± 0.67%, whereas at 100 ng/ml the percent unbound was 1.18 ± 0.14%. Irinotecan and SN-38 lactone AUCs in micebearing human neuroblastoma xenografts were greater than in nontumor-bearing animals. Systemic exposure to unbound SN-38 lactone in nontumor-bearing animals after a single oral irinotecan dose of 40, 10, and 5 mg/kg was 28.3, 8.6, and 2.9 ng h/ml, respectively. Data from the present study provide important information for the design of phase I studies of oral irinotecan. Received: 30 August 1996 / Accepted: 27 November 1996     

A phase I and pharmacological study of protracted infusions of crisnatol mesylate in patients with solid malignancies.

This Phase I and pharmacological study was performed to assess the feasibility of administering the polycyclic aromatic hydrocarbon crisnatol in increasingly prolonged continuous i.v. infusions to patients with advanced solid malignancies. The study also sought to characterize the-principal toxicities of crisnatol on this schedule, to recommend doses for subsequent disease-directed studies, and to characterize possible associations between pharmacological parameters and toxicity. Sixteen patients were treated with 40 courses of crisnatol administered as a continuous i.v. infusion. The initial dose-schedule was 750 mg/m2/day for 6 days, and the duration of the infusion was to be progressively increased by 3-day increments to 9, 12, 15, 18, and 21. Courses were to be repeated every 4 weeks. Moderate to severe central nervous system (CNS) toxicity precluded the administration of crisnatol 750 mg/m2/day for longer than 6 days, and, therefore, the dose of crisnatol was reduced to 600 mg/m2/day. At this dose, three of five patients receiving a 12-day infusion experienced dose-limiting toxicity, which consisted of pulmonary thromboembolism (two patients) and grade 4 thrombocytopenia (one patient). None of the six patients completing a 9-day infusion at 600 mg/m2/day developed dose-limiting toxicity during the first or second course of crisnatol. At this dose level, the plasma concentrations at steady state (Css) averaged 1607.8+/-261.1 ng/ml, which exceeds minimal inhibitory concentrations for most tumors in vitro (1000 ng/ml). In fact, the administration of crisnatol at a dose of 600 mg/m2/day for 9 days resulted in the longest duration that biologically relevant plasma crisnatol concentrations have been sustained. Plasma Css values were significantly higher in patients who experienced severe CNS toxicity compared with those who did not (2465.3+/-1213.5 versus 1342+/-447.3 ng/ml; P = 0.04). There were no relationships evident between the clearance of crisnatol and indices reflecting renal and hepatic functions. One patient with a glioblastoma multiforme experienced a partial response lasting 14 months. The relative lack of intolerable CNS toxicity at the recommended dose for Phase II studies of crisnatol, 600 mg/m2/day for 9 days, as well as the magnitude of the Css values achieved and the antitumor activity observed at this dose, are encouraging. However, the mechanisms for the apparently increased thrombogenicity observed in this trial are unclear and require further elucidation.     

Dose-ranging antiemetic trial of high-dose oral metoclopramide

The present trial with high oral doses of metoclopramide was undertaken to (a) determine a well-tolerated dosage of oral metoclopramide; (b) measure the blood levels achieved with these oral doses; (c) determine the side effects of high doses; and (d) observe for antiemetic efficacy. Thirty-six patients receiving emesis-producing chemotherapy consisting primarily of high intravenous (i.v.) doses of cyclophosphamide plus adriamycin or cisplatin received 48 courses of oral metoclopramide. The metoclopramide dosage was escalated in six steps from 0.5 to 3.0 mg/kg and was given 1/2 h before chemotherapy, then 1 1/2, 3 1/2, 7 1/2, 11 1/2, and 15 1/2 after chemotherapy. Diphenhydramine (50 mg orally) was given with the first, third, and fifth dosages. Toxicity was generally mild, not dose related, and similar to that observed with the i.v. drug with the exception of an increased incidence of acute dystonic reactions. Antiemetic effects were observed at each dose level. In patients receiving oral metoclopramide doses of 2 or 3 mg/kg, all achieved serum levels greater than 1,000 ng/ml. High-dose oral metoclopramide was well tolerated and demonstrated antiemetic effects at the dose levels explored. We recommend 2-3 mg/kg oral metoclopramide doses with 50 mg diphenhydramine for use in future trials.     

Pharmacokinetic and pharmacodynamic analysis of fluorouracil during 72-hour continuous infusion with and without dipyridamole

During a phase I trial of 3-day simultaneous continuous intravenous infusions of varying doses of fluorouracil (5FUra) and 7.7 mg/kg/d of dipyridamole, we examined the relationships between 5FUra dose and steady-state plasma concentration (Css) and the percentage reduction in WBCs, as well as the percentage frequency of stomatitis. The 5FUra was administered at doses ranging from 185 mg/m2/d times three to 3,600 mg/m2/d times three. In 42 patients, 86 cycles of 5FUra plus dipyridamole and 28 cycles of 5FUra alone were analyzed. The Css of 5FUra varied even within the same dose level. When patients receiving the same 5FUra dose were considered, the interpatient coefficient of variation of 5FUra Css in cycles of 5FUra plus dipyridamole was 23% +/- 4.2%. For courses of 5FUra alone, the coefficient of variation of 5FUra was 15.6% +/- 6.5%. When the occurrence of any degree of stomatitis was related to the Css 5FUra, with patients grouped in cohorts of 2-mumol/L increments, the following equations accurately described the frequency of stomatitis: for 5FUra plus dipyridamole, percentage frequency of stomatitis = 100(1-e-0.114Css), r2 = 0.88; for 5FUra alone, percentage frequency stomatitis = 100(1-e0.122Css), r2 = 0.80. When 5FUra dose was substituted for Css, these relationships were as follows: percentage frequency of stomatitis = 100(1-e-0.00031 [dose]), r2 = 0.85; and percentage frequency of stomatitis = 100(1-e-0.00051 [dose]), r2 = 0.80. When the relationship between the percentage reduction in WBC and Css 5FUra was examined, statistically significant relationships were also apparent: for 5FUra plus dipyridamole, percentage reduction in WBC = 100(1-e-0.085Css), r2 = 0.46; for 5FUra alone, percentage reduction in WBC = 100(1-e-0.060Css), r2 = 0.61. When 5FUra dose was substituted for Css, these relatinships were as follows: percentage reduction in WBC = 100(1-e-0.00023 [dose]), r2 = 0.40; percentage reduction in WBC = 100(1-e-0.00024 [dose]), r2 = 0.65. The relationship between either Css 5FUra or dose 5FUra and either stomatitis or myelosuppression were also well described by the modified Hill equation (J Theor Biol 20:171-201, 1968). These analyses indicate that it should be possible to develop therapeutic regimens wherein 5FUra is administered to achieve a targeted Css determined by the risk and severity of toxicity deemed acceptable.     

A pharmacokinetic study on Z-(±)-2-(1-benzylindole-3-yl-methylene)azabicyclo[2.2.2]octane-3-ol; a novel radio-sensitization agent

Purpose The purpose of this research was to characterize the pharmacokinetic parameters and to evaluate the absolute bioavailability of the targeted compound: Z-(±)-2-(1-benzylindole-3-yl-methylene)azabicyclo[2.2.2]octane-3-ol (BMABO), a novel radio-sensitization agent, after oral delivery. Methods Sprague–Dawley rats received a single oral dose of 20 mg/kg and this was compared with intravenous administration of the compound (1 mg/kg). Blood samples were collected at different time points, and plasma BMABO concentrations were determined using a new sensitive and specific LC/MS analytical method, which utilized electrospray ionization. Results The bioavailability of orally administered BMABO was determined by comparing plasma concentrations after oral gavage delivery with intravenous delivery. Following delivery of the oral dose, the average C _max was 1,710 ± 503 ng/ml, and the AUC-value was found to be 3,561 ± 670 ng min kg/ml mg. Relative to the intravenous dose (100% bioavailability), the bioavailability was 6.2% after oral administration. Conclusion As the current studies demonstrate the novel radio-sensitization agent BMABO may have potential therapeutic valuable in cancer treatment. Further evaluation of the efficacy and toxicity of BMABO will determine the feasibility of the oral route for future clinical studies.     

5-fluorouracil steady state pharmacokinetics and outcome in patients receiving protracted venous infusion for advanced colorectal cancer

PVI 5FU gives increased response rates and reduced toxicity when compared to bolus 5FU (J Clin Oncol 1989, 425-432). PVI 5FU administration was reported to give highly variable (>1000-fold) plasma 5FU concentrations at steady state (FU Css) which correlated with toxicity (Ann Oncol 1996, 47-53); but only 19 patients were studied. Therefore, we performed a study of PVI 5FU in 61 patients with advanced colorectal cancer to assess the variability (inter- and intra-subject) in 5FU Css associated with PVI 5FU (300 mg m(-2)day(-1)) and to attempt to correlate pharmacodynamic end-points (anti-tumour activity, toxicity) with 5FU Css as a prelude to 'exposure-guided' 5FU administration. All 5FU sampling was performed between 10 am and noon. PVI 5FU administration continued to 26 weeks in patients with disease improvement or stabilization. The response rate was 26% (33% stable disease) and median survival was 11 months. Hand-foot syndrome was the most common dose limiting toxicity. Variability in 5FU(300)Css was considerably less than previously reported; 94 +/- 25 ng ml(-1)(CV = 27%). No relationships were demonstrated between subject mean 5FU(300)Css and PD end-points such as response, mucositis, diarrhoea and hand-foot syndrome. The lack of correlation suggests that measurement of 5FU concentrations should not be used to individualize dosing in patients receiving PVI 5FU for advanced colorectal cancer.     

Heated intra-operative intraperitoneal oxaliplatin plus irinotecan after complete resection of peritoneal carcinomatosis: pharmacokinetics, tissue distribution and tolerance.

BACKGROUND: The purpose of this study was to report the pharmacokinetics (PK) and tolerance profile of intraoperative intraperitoneal chemo-hyperthermia (IPCH) with oxaliplatin and irinotecan. PATIENTS AND METHODS: Thirty-nine patients with peritoneal carcinomatosis (PC) of either gastrointestinal or peritoneal origin underwent complete cytoreductive surgery followed by IPCH with a stable dose of oxaliplatin (460 mg/m(2)), plus one among seven escalating doses of irinotecan (from 300 to 700 mg/m(2)). IPCH was carried out with the abdomen open, for 30 min at 43 degrees C, with 2 l/m(2) of a 5% dextrose instillation in a closed continuous circuit. Patients received intravenous leucovorin (20 mg/m(2)) and 5-fluorouracil (400 mg/m(2)) just before IPCH to maximize the effect of oxaliplatin and irinotecan. RESULTS: Irinotecan concentration in tumoral tissue increased until 400 mg/m(2) and then remained stable despite dose escalations. It was 16-23 times higher than in non-bathed tissues. Increasing doses of intraperitoneal irinotecan did not modify the PK of intraperitoneal oxaliplatin, and the drug concentration ratio was 17.8 higher in tumoral tissue (bathed) than in non-bathed tissues. The hospital mortality rate was 2.5% and the non-hematological complication rate was 25%. However, grade 3-4 hematological toxicity rate was 58%. CONCLUSION: Intraperitoneal heated oxaliplatin (460 mg/m(2)) plus irinotecan (400 mg/m(2)) presented an advantageous PK profile and was tolerated by patients, despite a high hematological toxicity rate.     

奥沙利铂联合卡培他滨治疗转移性胃腺癌的临床研究

目的:观察奥沙利铂联合卡培他滨(XELOX)方案一线治疗转移性胃癌的疗效及安全性。方法:2004年1月-2007年6月西安交通大学医学院第一附属医院肿瘤外科收治的、经组织学证实的转移性胃腺癌患者54例,接受XELOX方案化疗,奥沙利铂130 mg/m2,静脉滴注4h,第1天;卡培他滨1000 mg/m2,口服2次/天,第1-14天,每3周重复一次,每2周期后进行疗效评估。结果:54例接受XELOX方案一线治疗的患者均可评价疗效,CR 4例,PR 24例,SD 18例,PD 8例,总有效率为51.8%,临床获益率为85.1%,中位肿瘤进展时间6.0月,中位生存时间12.1月,1年生存率35.1%;XELOX方案治疗发生Ⅲ-Ⅳ级不良反应,其中神经毒性、血液学毒性和消化系统毒性各4例,手足综合征5例。结论:XELOX方案作为一线治疗晚期转移性胃癌疗效肯定,安全性高,不良反应轻,患者耐受性好。     

Phase I study of topotecan administered as a 21-day continous infusion in children with recurrent solid tumors: a report from the Children's Cancer Group.

The purpose of this study was to determine the toxicity, maximum tolerated dose, and pharmacokinetics of a 21-day continuous infusion of topotecan in children with relapsed solid tumors. Fifteen patients received 40 courses of continuous ambulatory infusions of topotecan every 28 days or when there was resolution of hematological toxicity and any grade 2 or greater nonhematological toxicity. The starting dose was 0.4 mg/m2/day. Total topotecan levels were measured on days 1, 7, 14, and 21. Three of four patients who received a starting dose of 0.4 mg/m2/day experienced dose-limiting myelosuppression. At the reduced dose of 0.3 mg/ m2/day, only two of the seven patients experienced dose-limiting myelosuppression. Subsequently, four patients with more limited prior therapy were treated with 0.4 mg/m2/ day; three had dose-limiting myelosuppression. Two patients with a dose-limiting toxicity at 0.4 mg/m2/day tolerated additional courses at 0.3 mg/m2/day. An equal number of patients had grade 4 neutropenia or thrombocytopenia. Other adverse events were rare. Two patients with ependymoma, one with rhabdomyosarcoma, and one with retinoblastoma metastatic to the brain had objective responses. The steady state plasma concentration and clearance of topotecan (Css) was achieved by day 1. Css in six patients with complete data were 1.44 +/- 0.50 and 2.13 +/- 0.83 ng/ml at 0.3 and 0.4 mg/m2/day, respectively. Thus, a 21-day topotecan infusion was well-tolerated at 0.3 mg/m2/day. Myelo-suppression was the dose-limiting toxicity at 0.4 mg/m2/day. The steady state and clearance of topotecan in this study are similar to those reported in adult patients.     

Continuous infusion idarubicin and intravenous busulphan as conditioning regimen to autologous stem cell transplantation for patients with acute myeloid leukaemia

The current study aimed to evaluate the efficacy and toxicity of a combination of intravenous (iv) busulfan (Bu) and continuous infusion Idarubicin (IDA) as a conditioning regimen to autologous haematopoietic stem cell transplantation (ASCT) in patients with acute myeloid leukaemia (AML). The protocol included IDA at 20 mg/sqm daily as 3 days continuous infusion (from day ?13 to ?11) and intravenous BU at 3.2 mg/kg daily from day ?5 to ?2. Patients aged over 60 years received a reduced schedule (2 days IDA and 3 days BU at the same dose). Twenty‐five patients with a median age of 51 years (28–72) were enrolled. All patients received peripheral blood stem cells (PBSC). The median interval between diagnosis and ASCT was 4 months. The median number of CD34+ cells infused was 5.9 × 10E6/kg. The median number of days to PMN >500/cmm and platelets >20000/cmm was 10 and 13, respectively. In order to perform a comparison in terms of haematological and non haematological toxicity, a group of 30 patients, who were previously autografted after conditioning with IDA and oral Bu was considered. Selection of factors for a matched pair analysis included median age, percentage of subjects aged over 60 years, median CD34+ cell received, cytogenetic and molecular findings and per cent of secondary AML. As compared to previous series, the occurrence of severe mucositis was dramatically reduced (80% vs. 12%, p < 0.0001). In addition, need and duration of total parenteral nutrition (TPN), iv antibiotic therapy and hospitalization were also significantly reduced. We conclude that replacement of oral with intravenous BU results in a more favourable toxicity profile. A longer follow‐up is required to assess a potential advantage in terms of disease free survival (DFS). Copyright © 2009 John Wiley & Sons, Ltd.     

Clinical pharmacodynamics of continuous infusion teniposide: systemic exposure as a determinant of response in a phase I trial

Teniposide (VM-26) is an effective anticancer drug usually administered as a short infusion in doses of 150 to 165 mg/m2. The objectives of the trial reported here were to evaluate clinical responses and assess pharmacokinetic parameters as a determinant of outcome when VM-26 was administered as a 72-hour continuous infusion (CI) with doses escalated from 300 to 750 mg/m2 per course. Twenty-eight patients with recurrent leukemia, lymphoma, or neuroblastoma received 53 courses of CI VM-26 and 16 had measurable responses. There were two partial remissions and one stable disease among seven neuroblastoma patients and 13 of 21 leukemia/lymphoma patients had oncolytic responses (greater than or equal to 75% decrease in circulating blasts). Toxicity included moderate to severe mucositis and myelosuppression. Pharmacokinetic parameters determined during 35 courses administered to 23 patients were highly variable. Clearance (CI) ranged between 3.7 and 43.8 ml/min/m2, resulting in VM-26 plasma concentrations from 2.8 to 30.6 mg/L across all dose levels. The interpatient pharmacokinetic variability reflected in CI and VM-26 steady state concentrations (Css), obscured any dose-response relationship. However, when pharmacokinetic parameters for responding and nonresponding patients were compared, statistically significant relationships were observed. For responders, the mean Css was 15.2 mg/L and mean CI was 12.1 mL/min/m2; for nonresponders, mean Css was 6.2 mg/L (P less than .01) and mean CI was 21.3 mL/min/m2 (P less than .05). Thus, patients with higher CI and lower Css were less likely to respond. Clinical responses occurred in ten of ten patients with Css greater than 12 mg/L, and only five of 13 patients with Css less than 12 mg/L (P less than .01). In this study, interpatient pharmacokinetic variability yielded a four- to sixfold difference in intensity of systemic exposure (Css) within the same dose level, which was an important determinant of clinical response. These data indicate that achieving a VM-26 target concentration for individual patients could ensure an increased intensity of systemic exposure in patients with a high CI and improve the likelihood of effective therapy.     

A phase I study to determine the safety,pharmacokinetics and pharmacodynamics of a dual VEGFR and FGFR inhibitor,brivanib, in patients with advanced or metastatic solid tumors

BackgroundThis study was designed to determine the safety, pharmacokinetics (PK) and pharmacodynamics (PD) of brivanib in patients with advanced/metastatic solid tumors.Patients and methodsNinety patients enrolled in this two-part, phase I open-label study of oral brivanib alaninate. The primary objectives of this study were (in part A) dose-limiting toxicity, maximum tolerated dose (MTD) and the lowest biologically active dose level and (in part B) the optimal dose/dose range. The secondary objectives of this study were preliminary evidence of antitumor activity, PK and PD.ResultsAcross part A (open-label dose escalation and MTD) and part B (open-label dose optimization), 68 patients received brivanib alaninate. Brivanib demonstrated a manageable toxicity profile at doses of 180–800 mg. Most toxic effects were mild. Systemic exposure of the active moiety brivanib increased linearly ≤1000 mg/day. The MTD was 800 mg/day. Forty-four patients were treated at the MTD: 20 with 800 mg continuously, 11 with 800 mg intermittently and 13 with 400 mg b.i.d. doses. Partial responses were confirmed in two patients receiving brivanib ≥600 mg. Dynamic contrast-enhanced magnetic resonance imaging demonstrated statistically significant decreases in parameters reflecting tumor vascularity and permeability after multiple doses in the 800-mg continuous q.d. and 400-mg b.i.d. dose cohorts.ConclusionIn patients with advanced/metastatic cancer, brivanib demonstrates promising antiangiogenic and antitumor activity and manageable toxicity at doses ≤800 mg orally q.d., the recommended phase II study dose.     

Phase II study of daily oral perifosine in patients with advanced soft tissue sarcoma

BACKGROUND: A multicenter Phase II study was performed to evaluate the clinical activity of an initial loading (150 mg every 6 hours x 4 doses) dose followed by continuous daily oral dosing (100 mg/day) of perifosine in patients with advanced soft tissue sarcomas (STSs). METHODS: Patients with measurable metastatic STS received perifosine as first-, second-, or third-line treatment and underwent disease assessment every 8 weeks until disease progression, excessive toxicity, or patient refusal. RESULTS: Twenty-three patients received 66 cycles (1 cycle = 4 weeks) of perifosine. One partial response of 9 months duration was observed. The overall 3 and 6 month progression-free survival was 22% and 9%. NCI CTC (v2.0) Grade 1 to 2 gastrointestinal toxicity or fatigue were the most common (>50% of subjects) toxicities observed. The steady-state plasma perifosine levels (Css) were similar to prior experience (mean 6 microg/mL). Patients with Css levels >6 microg/mL appeared more likely to remain on study past 2 months than those with levels <6 microg/mL. CONCLUSIONS: Despite not achieving the primary objective of > or =40% 6-month progression-free survival rate, optimism remains for this agent in STS patients. Prolonged responses in heavily pretreated STS patients continue to be observed with perifosine treatment. Continued assessment of perifosine in STS appears warranted, with special attention to specific histologies or tumor characteristics that might identify a more sensitive population and achieving perifosine Css levels >6 microg/mL.     

Pharmacokinetics and tissue distribution of halofuginone (NSC 713205) in CD2F1 mice and Fischer 344 rats

PURPOSE: Halofuginone (HF) inhibits synthesis of collagen type I and matrix metalloproteinase-2 and is being considered for clinical evaluation as an antineoplastic agent. Pharmacokinetic studies were performed in rodents to define the plasma pharmacokinetics, tissue distribution, and urinary excretion of HF after i.v. delivery and the bioavailability of HF after i.p. and oral delivery. MATERIALS AND METHODS: Studies were performed in CD2F1 mice and Fischer 344 rats. In preliminary toxicity studies in mice single HF i.v. bolus doses between 1.0 and 5.0 mg/kg were used. Pharmacokinetic studies were conducted in mice after administration of 1.5 mg/kg HF. In preliminary toxicity studies in male rats HF i.v. bolus doses between 0.75 and 4.5 mg/kg were used. In pharmacokinetic studies in rats an HF dose of 3.0 mg/kg was used. Compartmental and non-compartmental analyses were applied to the plasma concentration versus time data. Plasma, red blood cells, various organs, and urine were collected for analysis. RESULTS: HF doses > or = 1.5 mg/kg proved excessively toxic to mice. In mice, i.v. bolus delivery of 1.5 mg/kg HF produced "peak" plasma HF concentrations between 313 and 386 ng/ml, and an AUC of 19,874 ng/ml min, which corresponded to a total body clearance (CLtb) of 75 ml/min per kg. Plasma HF concentration versus time data were best fit by a two-compartment open linear model. The bioavailability of HF after i.p. and oral delivery to mice was 100% and 0%, respectively. After i.v. bolus delivery to mice, HF distributed rapidly to all tissues, except brain. HF persisted in lung, liver, kidney, spleen, and skeletal muscle longer than in plasma. In the oral study, HF was undetectable in plasma and red blood cells, but was easily detectable in kidney, liver, and lung, and persisted in those tissues for 48 h. Urinary excretion of HF accounted for 7-11% of the administered dose within the first 72 h after i.v. dosing and 15-16% and 16% of the administered dose within 24 and 48 h, respectively, after oral dosing. There were no observed metabolites of HF in mouse plasma or tissues. In rats, i.v. bolus delivery of 3.0 mg/kg produced a "peak" plasma HF concentration of 348 ng/ml, and an AUC of 43,946 ng/ml min, which corresponded to a CLtb of 68 ml/min per kg. Plasma HF concentration versus time data were best fit by a two-compartment open linear model. After i.v. bolus delivery to rats, HF distributed rapidly to all tissues, with low concentrations detectable in brain and testes. HF was detectable in some tissues for up to 48 h. HF could be detected in rat plasma after a 3 mg/kg oral dose. Peak HF concentration (34 ng/ml) occurred at 90 min, but HF concentrations were less than the lower limit of quantitation (LLQ) by 420 min. Urinary excretion of HF accounted for 8-11% of the administered dose within the first 48 h after i.v. dosing. No HF metabolites were detected in plasma, tissue, or urine. CONCLUSIONS: HF was rapidly and widely distributed to rodent tissues and was not converted to detectable metabolites. In mice, HF was 100% bioavailable when given i.p. but could not be detected in plasma after oral administration, suggesting limited oral bioavailability. However, substantial concentrations were present in liver, kidney, and lungs. HF was present in rat plasma after an oral dose, but the time course and low concentrations achieved precluded reliable estimation of bioavailability. These data may assist in designing and interpreting additional preclinical and clinical studies of HF.     

Change in pharmacokinetic and pharmacodynamic behavior of gemcitabine in human tumor xenografts upon entrapment in vesicular phospholipid gels

PURPOSE: The in vivo pharmacokinetics (PK), biodistribution and antitumor activity of a new liposomal formulation of gemcitabine (GemLip) were compared to the conventional (clinical) formulation of gemcitabine (GemConv). METHODS: Gemcitabine was entrapped in a vesicular phospholipid gel (VPG) consisting of densely packed liposomes. Redispersed VPG containing GemLip consisted of 33% liposomally entrapped and 67% free gemcitabine. The in vivo efficacies of GemLip and GemConv were compared using the subcutaneously growing human soft tissue sarcoma SXF 1301 and the orthotopically growing human bladder cancer BXF 1299T. PK and biodistribution were evaluated using radiolabeled drug and lipid in SXF 1301 tumor-bearing nude mice. RESULTS: GemLip was highly active in SXF 1301 at a gemcitabine dose of 6-9 mg/kg (days 1, 8 and 15; dose near the MTD). In the 6-mg/kg groups, complete tumor remissions were observed in seven of eight mice. Equimolar doses of GemConv resulted in only moderate tumor growth inhibition. Even at equitoxic doses (360 mg/kg given on days 1, 8 and 15, or 120 mg/kg on days 1, 5 and 8) GemConv was less active than GemLip. Furthermore, GemLip was active in the orthotopically growing BXF 1299T bladder cancer model at 6 mg/kg and prevented distant organ metastasis. In the PK study, GemLip achieved a 35-fold higher plasma AUC (1680 mg x h/ml) than GemConv (47.6 mg x h/ml). The serum half-lives were 0.15 h for free gemcitabine and 13.3 h for liposomal gemcitabine (6 mg/kg each i.v.). Moreover, gemcitabine levels in tumors were fourfold higher following injection of GemLip than following injection of GemConv. CONCLUSIONS: GemLip is a highly effective gemcitabine delivery system which results in superior gemcitabine pharmacodynamics and PK than GemConv. The enhanced in vivo efficacy might be explained by sustained release and passive tumor targeting.     

Phase I dose-finding and pharmacokinetic study of the oral epidermal growth factor receptor tyrosine kinase inhibitor Ro50-8231 (erlotinib) in Japanese patients with solid tumors

Purpose The objectives of this phase I dose-finding study of erlotinib were to investigate the toxicity profile, to confirm the acceptable toxicity of doses up to 150 mg/day, and to assess the pharmacokinetic (PK) profile and antitumor activity in Japanese patients with solid tumors. Patients and methods Patients with solid tumors not amenable to standard forms of treatment were included. Treatment cycle 1 consisted of single-dose administration on day 1, withdrawal on day 2, continuous daily administration from days 3–23, and withdrawal from days 24–30. Subsequent cycles (28 days) used continuous daily administration. The dose of erlotinib was escalated from 50 mg/day to 150 mg/day in 50-mg increments. PK evaluation was performed in all patients during cycle 1. Results Fifteen patients, aged 38–70 (median; 57) years with non-small-cell lung (n = 11), colorectal (n = 3) or head and neck (n = 1) cancer were enrolled. The major toxicities were rash, diarrhea and liver dysfunctions, which were generally mild and easily manageable. The good tolerability of erlotinib up to the dose of 150 mg/day was confirmed. One patient developed grade 5 treatment-related interstitial pneumonitis. Four of 11 evaluable patients achieved partial responses; all four had non-small-cell lung cancer (NSCLC). The peak plasma concentration of erlotinib, and the area under the concentration-time curve increased proportionally to the dose, suggesting linear PK. Conclusion The recommended dose of erlotinib in Japanese patients is 150 mg/day. Further trials in Japanese NSCLC patients are warranted. Supported by Chugai Pharmaceutical Co. Ltd.