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RecruitingNCT06883149

PIN in Combination With Anti-PD1 in Previously Treated Solid Tumor

Treatment of Pyroptosis-inducible Newcasstle Disease Oncolytic Virus (PIN) Plus Anti-PD1 in Late-stage Advanced Solid Tumors---An Open Label Single-arm Phase I Clinical Trial

Status
Recruiting
Phase
Phase 1
Study type
Interventional
Enrollment
25 (estimated)
Sponsor
Chinese PLA General Hospital · Academic / Other
Sex
All
Age
18 Years – 75 Years
Healthy volunteers
Not accepted

Summary

In this single-center,open-label, phase I study, the safety and efficacy of PIN in combination with programmed cell death protein antibody (anti-PD1) therapeutic regimen will be evaluated in patients with late-stage advanced solid tumors . A total of 20 to 30 patients are planned to be enrolled and receive PIN plus anti-PD1 combined treatment. It aims to: 1).assess the safety and antitumor effects of the above combined treatment regimen. 2).detect the dynamic changes and molecular characteristics of PIN-induced CD8+ T cells with special phenotype in peripheral blood (PB) and transformation of tumor microenvironment (TME) after the treatment with PIN. 3).evaluate the immunological or clinical predictive biomarkers for toxicity and efficacy.

Detailed description

Several clinical studies have found that oncolytic viruses can provide clinical benefits to patients with different types, stages, and even advanced metastatic tumors. Especially when used in combination with immunotherapy, oncolytic viruses can sensitize tumor types that were initially unresponsive to immune checkpoint inhibitors.To date, there are hundreds of projects in clinical trial stages, especially in recent years, new generations of oncolytic viruses developed or in clinical stages have shown better safety and stronger anti-tumor capabilities. Through genetic engineering, oncolytic viruses can express target genes that have anti-tumor effects, such as granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-12(IL-12),etc, further enhancing their anti-tumor effects. Despite these advances, how to obtain a more durable anti-tumor immune response and long-term benefits is still an urgent clinical issue. Previous studies have confirmed that the Newcastle disease oncolytic virus (NDV) can selectively infect tumor cells while sparing normal cells, demonstrating an acceptable safety profile. In this study, investigators have developed a nove PIN . Preclinical studies have shown that combining PIN with anti-PD1 therapy can reverse the immunosuppressive microenvironment and transform "cold" tumors into "hot" tumors, thereby triggering local and systemic anti-tumor immune responses and significantly improving the efficacy of the immune checkpoint inhibitor(ICI). Based on these preclinical findings, investigators are conducting this clinical trial to evaluate the safety and anti-tumor activity of the PIN and anti-PD1 combination therapy in vivo. In this study, 20 to 30 subjects will be enrolled. The initial dose for the first cycle will be determined as 4e9 or 8e9 viral particles based on the number of injectable lesions, their longest diameter, and the tumor volume capacity. Following the first cycle of treatment, the subsequent dose and injection sites of PIN will be adjusted based on the permissible volume of the injected tumor mass, according to the following principles: PIN injection frequency: day 0 and day 3, per 3 weeks for 8 cycles; unless unavailability of injection lesion, disease progression (PD) or serious intolerable adverse events (AEs). PIN injection dosage: 1. a.For patients with a single injectable lesion with a maximum diameter of \<8 cm, the initial cycle's PIN dose is 4e9 viral particles. Subsequent cycles will maintain this dose of 4e9 or increase it to 8e9 viral particles based on the lesion's capacity to accommodate the injection volume; b. For patients with a single injectable lesion with a maximum diameter of ≥8 cm, the initial cycle's PIN dose is 8e9 viral particles. Subsequent cycles will maintain this dose of 8e9 viral particles based on the lesion's capacity to accommodate the injection volume. 2. a.For patients with two injectable lesions, injections will alternate between the two lesions after two cycles. The initial cycle's PIN dose is 4e9 viral particles, and the second cycle will maintain this dose of 4e9 or increase it to 8e9 viral particles based on the tumor volume's capacity; b.For patients with injectable lesions with a maximum diameter of ≥8 cm, the initial cycle's PIN dose is 8e9 viral particles, and subsequent cycles will maintain this dose of 8e9 or decrease it to 4e9 viral particles based on the lesion's capacity. 3. a.For patients with multiple injectable lesions (≥ 3), after 1-2 cycles of injections in each injectable lesion, injections are alternated between lesions. The initial injection dose for each lesion is determined by the size of the lesion; b.For lesions \<3 cm, the initial cycle's dose is 4e9 viral particles, and the second cycle will maintain this dose of 4e9 or increase it to 8e9 viral particles based on the tumor volume's capacity; c.For lesions ≥3 cm, the initial cycle's injection dose is selected as 8e9 viral particles, and subsequent cycles will maintain this dose of 8e9 or decrease it to 4e9 viral particles based on the tumor volume's capacity. 4. After injections, if the tumor shrinks by 0.5-1 cm in diameter, the injection dose should be adjusted to 2e9 viral particles until the tumor disappears. Anti-PD1 infusion frequency: day -3, per 3 weeks for 8 cycles; until unacceptable toxicity occurred or PD. Objectives: The primary objective are to assess the safety and adverse event profile of the combination regimen. The coprimary objective is immue response, assessed by CD8+T cells with special phenotype by Fluorescence Activating Cell Sorter (FACS). The secondary objectives are to evaluate disease control rate (DCR), objective response rate (ORR), duration of response (DOR), progression-free survival (PFS), overall survival (OS), and quality of life.

Conditions

Interventions

TypeNameDescription
BIOLOGICALPIN +anti-PD11. Initial treatment phase: PIN injection frequency: day0 and day 3, per 3 weeks for 8 cycles; PIN injection dosage: Cycle1: 4e9 or 8e9 viral particles of PIN based on the number of injectable lesions, their longest diameter, and the tumor volume capacity . Cycle 2\~8: 4e9 or 8e9 viral particles of PIN based on the tumor volume's capacity. Anti-PD1: day -3, per 3 weeks for 8 cycles; 2. Maintenance treatment phase: No injection lesion: Anti-PD1: day 1, per 3 weeks till 2 years unless PD or serious intolerable AEs. Have injection lesion: PIN: 4e9 or 8e9 viral particles based on the tumor volume's capacity, per 6 weeks (within first 24 weeks), then per 8 weeks till 2 years unless unavailability of injection lesion, PD or serious intolerable AEs. Anti-PD1: day 1, per 3 weeks till 2 years unless PD or serious intolerable AEs. 3. Salvage treatment phase: Dosage and frequency of administration refer to the initial treatment phase and maintenance treatment phase.

Timeline

Start date
2025-03-19
Primary completion
2026-06-30
Completion
2030-12-01
First posted
2025-03-19
Last updated
2025-06-10

Locations

1 site across 1 country: China

Source: ClinicalTrials.gov record NCT06883149. Inclusion in this directory is not an endorsement.