Translational Medicine Communications (Apr 2023)

Oncolytic virus-based suicide gene therapy for cancer treatment: a perspective of the clinical trials conducted at Henry Ford Health

  • Shivani Thoidingjam,
  • Sushmitha Sriramulu,
  • Svend Freytag,
  • Stephen L. Brown,
  • Jae Ho Kim,
  • Indrin J. Chetty,
  • Farzan Siddiqui,
  • Benjamin Movsas,
  • Shyam Nyati

DOI
https://doi.org/10.1186/s41231-023-00144-w
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 21

Abstract

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Abstract Gene therapy manipulates or modifies a gene that provides a new cellular function to treat or correct a pathological condition, such as cancer. The approach of using gene manipulation to modify patient’s cells to improve cancer therapy and potentially find a cure is gaining popularity. Currently, there are 12 gene therapy products approved by US-FDA, EMA and CFDA for cancer management, these include Rexin-G, Gendicine, Oncorine, Provange among other. The Radiation Biology Research group at Henry Ford Health has been actively developing gene therapy approaches for improving clinical outcome in cancer patients. The team was the first to test a replication-competent oncolytic virus armed with a therapeutic gene in humans, to combine this approach with radiation in humans, and to image replication-competent adenoviral gene expression/activity in humans. The adenoviral gene therapy products developed at Henry Ford Health have been evaluated in more than 6 preclinical studies and evaluated in 9 investigator initiated clinical trials treating more than100 patients. Two phase I clinical trials are currently following patients long term and a phase I trial for recurrent glioma was initiated in November 2022. This systematic review provides an overview of gene therapy approaches and products employed for treating cancer patients including the products developed at Henry Ford Health.

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