Brief Summary: This study evaluates the intratumoral administration of escalating doses of a novel, experimental drug, INT230-6. The study is being conducted in patients with several types of refractory cancers including those at the surface of the skin (breast, squamous cell, head and neck) and tumors within the body such (pancreatic, colon, liver, lung, etc.). Sponsor also plans to test INT230-6 in combination with anti-PD-1 and anti-CTLA-4 antibodies.

Detailed Description: INT230-6 is comprised of a 3 agents in a fixed ratio - a cell permeation enhancer and two, potent anti-cancer payloads (cisplatin and vinblastine sulfate). The penetration enhancer facilitates dispersion of the two drugs throughout injected tumors and enables increased diffusion into cancer cells. (Nonclinical safety studies showed no findings following drug injection into healthy tissues.) Historically physicians administer the two active drugs comprising INT230-6 by intravenous (IV) infusion to achieve a systemic blood level at the limit of tolerability. The objective is destroy both visible tumors and unseen circulating cancer cells (micro-metastases). Unfortunately, dosing drugs IV delivers only a small amount with a low concentration at the tumor site. This approach especially for late stage cancers is not highly effective and often quite toxic to the patient. Attempts at direct intratumoral injection with chemotherapeutic agents have not shown the ability to treat the injected tumor, non-injected tumors or micro-metastases. This lack of efficacy for local administration is due possibly to poor dispersion and a lack of cell uptake of the agents. Due to the use of the novel cell penetration enhancing agent INT230-6 treatment demonstrates strong efficacy in animals having large tumors. The Sponsor's in vivo, non-clinical data shows that INT230-6 thoroughly saturates and kills injected tumors. In addition, the drug induces an adaptive (T-cell mediated) immune response that attacks not only the injected tumor, but non-injected tumors and unseen micro-metastases. Cured animals become permanently immunized against the type of cancer that INT230-6 eliminates. Clinical trial IT-01 seeks to determine the safety and potential efficacy of dosing INT230-6 directly into several different types of cancers. In addition animal studies showed a strong synergy of INT230-6 with immune modulation agents. Thus as part of study IT-01 the Sponsor seeks to understand the safety and efficacy of INT230-6 when administered in combination with immuno-therapeutic agents such as antibodies that target Programmed Cell Death (PD-1 or anti-PD-1) and Cytotoxic T-Lymphocyte Associated Protein 4 (CTLA-4 or anti-CTLA-4) receptors. This study seeks to understand whether tumor regression can be achieved and patient outcomes improved.

Eligibility

Minimum Age: 18 Years

Eligible Ages: ADULT, OLDER_ADULT

Sex: ALL

Healthy Volunteers: No

Locations

USC Norris, Los Angeles, California, United States

USC HOAG, Newport Beach, California, United States

Sidney Kimmel Comprehensive Cancer Center at Johns Hopkins, Baltimore, Maryland, United States

UMASS Memorial Medical Center, Worcester, Massachusetts, United States

Columbia University Medical Center, New York, New York, United States

Fox Chase Cancer Center, Philadelphia, Pennsylvania, United States

Center for Oncology and Blood Disorders, Houston, Texas, United States

Princess Margaret Cancer Center - University Health Network, Toronto, Ontario, Canada

Contact Details

Name: Ian B. Walters, M.D.

Affiliation: Intensity Therapeutics

Role: STUDY_DIRECTOR

Name: Lillian Siu, M.D., FRCP

Affiliation: Princess Margaret Hospital, Canada

Role: STUDY_CHAIR

Name: Anthony El-Khoueiry, M.D.

Affiliation: USC Norris and HOAG sites