Safety of Batracylin in Patients With Solid Tumors & Lymphomas

Status Completed

Clinical Trial Summary

Background:

- Batracylin advanced through the National Cancer Institute (NCI) drug development pipeline until its evaluation at Stage 3 on July 1989, It was then proposed for a phase I investigation based on its activity against as TOPO II inhibitor in s.c. mouse colon 38, PANC03, COLO9, and cisplatin- and doxorubicin-resistant P388 tumors.

- IND-directed oral toxicology studies indicated interspecies variation in toxicity. Rats were found to be highly sensitive to batracylin. Ames et al showed that the interspecies variation in toxicity was consistent with the pattern of metabolism of the compound by N-acetyltransferase 2 (NAT2) to the acetylated form, N-Ac-batracylin, (a highly toxic molecule)

- We hypothesize that batracylin can be administered safely in slow acetylator NAT2 genotype patients and can be rapidly evaluated for its potential as a tumor-suppressing agent.

Objectives:

- Define the maximum tolerated dose, dose-limiting toxicities, and toxicity profile associated with the oral administration of batracylin daily x7 consecutive days, repeated every 28 days in patients with solid tumors and lymphomas.

- Define the pharmacokinetics of oral batracylin administered daily x7 consecutive days every 28 days.

- Obtain preliminary evidence of anti-tumor activity of batracylin in patients with solid tumors or lymphoma.

- Correlate polymorphisms in slow acetylators NAT2 genotypes (NAT2 5, NAT2 6, NAT2 7, and NAT2 14) with pharmacokinetics results.

- Evaluate the inter-subject variability and toxicity ratio, (N-Ac-Batra) / (batracylin).

- Evaluate the effect of batracylin treatment on gamma-H2AX levels in tumor biopsies.

Eligibility:

- Patients must have a slow acetylator NAT2 genotype defined as NAT2 5, NAT2 6, NAT2 7, or NAT2 14.

- Patients with advanced, histologically confirmed malignancies refractory to standard therapy, or those for whom no standard therapy exists.

- Patients should have adequate liver, renal, and bone marrow function.

Study Design:

- In accordance with the accelerated titration design 4B[3], dose levels will initially be increased at 100% increments, and one new patient per dose level will be treated according to a 4-week course.

- The accelerated phase ends when one patient experiences dose limiting toxicity (DLT) during the first course of treatment, or when two different patients experience grade 2, batracylin-related toxicity during the first course of treatment, or when the N-acetyl-batra AUC value reach 0.33 uM-Hour (i.e., the lower end of the range in the rat).

- When the first instance of grade 2 batracylin-related toxicity is observed, two additional patients must have been treated at that dose, or a higher dose (during any course), without experiencing moderate (grade 2) or worse (grade 3) toxicity, in order for the accelerated phase to continue.

- When the accelerated phase ends, the dose-escalation will revert to a more conservative, modified Fibonacci scheme with 40% dose-step increments, with at least 3 patients treated per dose level.

Clinical Trial Description

Background:

- Batracylin advanced through the National Cancer Institute (NCI) drug development pipeline until its evaluation at Stage 3 on July 1989, It was then proposed for a phase I investigation based on its activity against as TOPO II inhibitor in s.c. mouse colon 38, PANC03, COLO9, and cisplatin- and doxorubicin-resistant P388 tumors.

- IND-directed oral toxicology studies indicated interspecies variation in toxicity. Rats were found to be highly sensitive to batracylin. Ames et al showed that the interspecies variation in toxicity was consistent with the pattern of metabolism of the compound by N-acetyltransferase 2 (NAT2) to the acetylated form, N-Ac-batracylin, (a highly toxic molecule)

- We hypothesize that batracylin can be administered safely in slow acetylator NAT2 genotype patients and can be rapidly evaluated for its potential as a tumor-suppressing agent.

Objectives:

- Define the maximum tolerated dose, dose-limiting toxicities, and toxicity profile associated with the oral administration of batracylin daily for 7 consecutive days, repeated every 28 days in patients with solid tumors and lymphomas.

- Define the pharmacokinetics of oral batracylin administered daily for 7 consecutive days every 28 days.

- Obtain preliminary evidence of anti-tumor activity of batracylin in patients with solid tumors or lymphoma.

- Correlate polymorphisms in slow acetylators NAT2 genotypes (NAT2 5, NAT2 6, NAT2 7, and NAT2 14) with pharmacokinetics results.

- Evaluate the inter-subject variability and toxicity ratio, (N-Ac-Batra) / (batracylin).

- Evaluate the effect of batracylin treatment on gamma-H2AX levels in tumor biopsies.

Eligibility:

- Patients must have a slow acetylator NAT2 genotype defined as NAT2 5, NAT2 6, NAT2 7, or NAT2 14.

- Patients with advanced, histologically confirmed malignancies refractory to standard therapy, or those for whom no standard therapy exists.

- Patients should have adequate liver, renal, and bone marrow function.

Study Design:

- In accordance with the accelerated titration design 4B[3], dose levels will initially be increased at 100% increments, and one new patient per dose level will be treated according to a 4-week course.

- The accelerated phase ends when one patient experiences dose limiting toxicity (DLT) during the first course of treatment, or when two different patients experience grade 2, batracylin-related toxicity during the first course of treatment, or when the N-acetyl-batra AUC value reach 0.33 uM-Hour (i.e., the lower end of the range in the rat).

- When the first instance of grade 2 batracylin-related toxicity is observed, two additional patients must have been treated at that dose, or a higher dose (during any course), without experiencing moderate (grade 2) or worse (grade 3) toxicity, in order for the accelerated phase to continue.

- When the accelerated phase ends, the dose-escalation will revert to a more conservative, modified Fibonacci scheme with 40% dose-step increments, with at least 3 patients treated per dose level. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details

NCT number	NCT00450502
Study type	Interventional
Source	National Institutes of Health Clinical Center (CC)
Contact
Status	Completed
Phase	Phase 1
Start date	February 24, 2007
Completion date	April 24, 2011

View Details

See also
Status	Clinical Trial	Phase
Completed	`NCT03826043` - THrombo-Embolic Event in Onco-hematology	N/A
Terminated	`NCT03166631` - A Trial to Find the Safe Dose for BI 891065 Alone and in Combination With BI 754091 in Patients With Incurable Tumours or Tumours That Have Spread	Phase 1
Completed	`NCT01938846` - BI 860585 Dose Escalation Single Agent and in Combination With Exemestane or With Paclitaxel in Patients With Various Advanced and/or Metastatic Solid Tumors	Phase 1
Recruiting	`NCT06058312` - Individual Food Preferences for the Mediterranean Diet in Cancer Patients	N/A
Completed	`NCT03308942` - Effects of Single Agent Niraparib and Niraparib Plus Programmed Cell Death-1 (PD-1) Inhibitors in Non-Small Cell Lung Cancer Participants	Phase 2
Recruiting	`NCT06018311` - Exercising Together for Hispanic Prostate Cancer Survivor-Caregiver Dyads	N/A
Withdrawn	`NCT05431439` - Omics of Cancer: OncoGenomics
Completed	`NCT01343043` - A Pilot Study of Genetically Engineered NY-ESO-1 Specific NY-ESO-1ᶜ²⁵⁹T in HLA-A2+ Patients With Synovial Sarcoma	Phase 1
Completed	`NCT01938638` - Open Label Phase I Dose Escalation Study With BAY1143572 in Patients With Advanced Cancer	Phase 1
Recruiting	`NCT05514444` - Study of MK-4464 as Monotherapy and in Combination With Pembrolizumab in Participants With Advanced/Metastatic Solid Tumors (MK-4464-001)	Phase 1
Recruiting	`NCT02292641` - Beyond TME Origins	N/A
Terminated	`NCT00954512` - Study of Robatumumab (SCH 717454, MK-7454) in Combination With Different Treatment Regimens in Participants With Advanced Solid Tumors (P04722, MK-7454-004)	Phase 1/Phase 2
Recruiting	`NCT04958239` - A Study to Test Different Doses of BI 765179 Alone and in Combination With Ezabenlimab in Patients With Advanced Cancer (Solid Tumors)	Phase 1
Recruiting	`NCT04627376` - Multimodal Program for Cancer Related Cachexia Prevention	N/A
Completed	`NCT01222728` - Using Positron Emission Tomography to Predict Intracranial Tumor Growth in Neurofibromatosis Type II Patients
Recruiting	`NCT06004440` - Real World Registry for Use of the Ion Endoluminal System
Active, not recruiting	`NCT05636696` - COMPANION: A Couple Intervention Targeting Cancer-related Fatigue	N/A
Not yet recruiting	`NCT06035549` - Resilience in East Asian Immigrants for Advance Care Planning Discussions	N/A
Recruiting	`NCT06004466` - Noninvasive Internal Jugular Venous Oximetry
Not yet recruiting	`NCT02806557` - Profiling Neutrophil Counts in Patients on Chemotherapy	N/A

Safety of Batracylin in Patients With Solid Tumors and Lymphomas

Clinical Trial Summary

Clinical Trial Description

Study Design

Related Conditions & MeSH terms