Paclitaxel Detection in NSCLC Treated With TC Regimen

Non-small Cell Lung Cancer Clinical Trial

Official title: A Clinical Experience Trial to Detect the Plasma Paclitaxel Drug Concentration in Chinese Non -Small Cell Lung Cancer (NSCLC) Patients Treated With a Paclitaxel Plus Carboplatin (TC) Regimens, and Explore Individualized Treatment Using Pharmacokinetically-guided Dosing Strategy

Status Terminated

Clinical Trial Summary

By detecting the blood concentration of paclitaxel (PTX), Investigator assume this research can identify the individual differences of PTX pharmacokinetics (PK) parameters (TC>0.05 refers to the duration of paclitaxel plasma concentration above 0.05 µmol/L) in Chinese non-small cell lung cancer (NSCLC) patients, and find the correlation between PK results and PTX toxicities and Effectiveness, acquire the optimization method of PTX, and finally try to explore the individualized PTX pharmacokinetically-guided dosing strategy. Orally administer rosiglitazone, which is a substrate of CYP2C8 the same as paclitaxel, before chemotherapy injection. Detect the blood concentration of rosiglitazone, analyze the correlation of rosiglitazone pharmacokinetic parameter and paclitaxel exposure, and explore the effect of rosiglitazone as an in vivo probe of paclitaxel exposure.

1. The variability of paclitaxel concentrations in the patient population dosed by body surface area (BSA), and the limitation of BSA-based dosing of paclitaxel.

2. Verify that paclitaxel TC>0.05 is the most relevant predictor of haematological toxicity and clinical outcomes.

3. Define a dosing algorithm based on paclitaxel TC>0.05 of paclitaxel and quantify its effect on both reducing toxicity and improving Effectiveness.

4. The effect of using dose modification and administration of G-CSF based on toxicity determined by paclitaxel TC>0.05 measurement.

5. Construct a trial outline with the aim of reducing grade 4 neutropenia toxicity and ensuring the clinical outcome by using individual dose adjustments based on the dosing algorithm.

6. Detect the blood concentration of rosiglitazone after orally administration, explore the effect of rosiglitazone as an in vivo probe of paclitaxel exposure based on CYP2C8 activity. Attempt to establish a model to predict the paclitaxel exposure of patients base on rosiglitazone blood concentration before chemotherapy.

Clinical Trial Description

Rosiglitazone probe:

Rosiglitazone: time point - at least 20 hours before the initiation of chemotherapy, orally administrate 2mg rosiglitazone.

Only before the first cycle chemotherapy.

Chemotherapy regimen:

Paclitaxel: 175mg/m2, d1; Intravenous drip injection with 500ml N.S Carboplatin: AUC=5, d1; Intravenous drip injection with 500ml G.S Paclitaxel injection at first, followed with Carboplatin injection. 21 days per cycle; 6 cycles in total.

Blood samples collection design:

1. Rosiglitazone blood sample:

Only one blood sample before 1st cycle:

• Sample collected 3 hours after orally administration of rosiglitazone, with EDTA blood tube, at least 4ml;

2. Paclitaxel blood samples:

Two blood samples per cycle:

• Sample collected before PTX, with EDTA blood tube, at least 2ml;

• Sample collected 24 hours after the initiation of PTX, with EDTA blood tube, at least 2ml;

Primary Objective:

Object response rate (ORR): assess the ORR of paclitaxel/carboplatin chemotherapy according to Response Evaluation Criteria In Solid Tumors (RECIST) v1.1, and analyze the relationship of paclitaxel TC>0.05 and ORR.

Secondary Objectives:

Pharmacokinetic parameters: detect the blood concentration of paclitaxel 24 hours after the initiation, and the blood concentration of rosiglitazone 3 hours after orally administration of rosiglitazone. Calculate paclitaxel TC>0.05 and analyze the correlation of rosiglitazone concentration and paclitaxel TC>0.05.

Toxicities rate: assess the toxicities rate and severity of paclitaxel/carboplatin chemotherapy according to Common Terminology Criteria For Adverse Events (CTCAE) v4.03, and analyze the relationship of paclitaxel TC>0.05 and toxicities.

Survival Effectiveness: assess the progression free survival (PFS) and overall survival (OS) of paclitaxel/carboplatin chemotherapy, analyze the relationship of paclitaxel TC>0.05 and survival Effectiveness.

A single arm, phase II, monocentric, clinical experience trial. The eligible patients sign a informed consent form, and receive a 4 - 6 cycles of paclitaxel/carboplatin chemotherapy. Objective response rate is evaluated by imaging examination (CT or MR scan) every 2 cycles. Toxicities are evaluated by patients' diary for toxicity reports and physician's evaluation at day 10 and day 21 at every cycle. Blood samples are collected every cycle. And survival information is collected by clinic and telephone follow-up.

Response follow-up: An imaging examination should be performed in 4weeks before treatment initiation, and patients are going to receive (CT or MR scan) every 2 cycles during the treatment, the methods should be identical with baseline.

Toxicities follow-up: record the toxicities incident and grades from the first cycle to last cycle until the toxicities relieve or stabilize.

Survival follow-up: after treatment discontinuation, PFS is recorded by imaging examination every 2 cycles (8 weeks) until tumor progression, other anti-cancer treatment start, trial ends or death. OS is recorded by clinic follow-up or telephone follow-up until death. ;

Related Conditions & MeSH terms

• Carcinoma, Non-Small-Cell Lung
• Lung Neoplasms
• Non-small Cell Lung Cancer

• NCT number: NCT02737709
• Study type: Interventional
• Source: Sun Yat-sen University
• Status: Terminated
• Phase: Phase 2
• Start date: March 2016
• Completion date: October 25, 2018