New York, USA, Monday, October 28, 2019 – Actinium Pharmaceuticals Inc. announced key interim findings from the pivotal Phase 3 SIERRA trial of Iomab-B, an antibody-radionuclide conjugate, including feasibility and safety data. The Study of Iomab-B in Elderly Relapse/Refractory Acute Myeloid Leukemia, SIERRA, is a 150-patient, Phase 3 pivotal trial that is studying Iomab-B, Iodine-131 conjgated to apamistamab, compared to physician’s choice of salvage chemotherapy in patients age 55 and above with active, relapsed or refractory Acute Myeloid Leukemia. These interim data provide information on safety and feasibility of using Iomab-B to enable a Bone Marrow Transplant, the only curative treatment option in this patient population that is not typically considered eligible for the treatment.
Key findings are (a) all patients in the study receiving a therapeutic dose of Iomab-B were successfully transplanted, (b) a high failure rate of control arm with 18% complete remission rate despite incorporation of recently approved targeted therapies and (c) that Iomab-B data strongly tracking trends of high Bone Marrow Transplant engraftment shown at 25% interim results and historical data from several Iomab-B trials. More information here »
About CIS Pharma antibody-drug conjugates, ADCs, and antibody radionuclide conjugates, ARCs
ADCs, antibody-drug conjugates, are a class of highly potent drugs for the treatment of cancer. Conventional ADCs are composed of a chemotherapeutic drug that is conjugated directly to an antibody targeting cancer cells. CIS Pharma has developed a polymer-drug-carrier, PDC, that is loaded with anticancer moieties and consequently linked to the antibody. The PDC platform allows for customization and optimization of ADCs for a given target and indication.
ARCs, antibody-radionuclide conjugates, are a form of radiotherapy, where a radionuclide molecule is linked to an antibody. CIS Pharma has developed a radionuclide-specific PDC that is optimized to conjugate radionuclides to an antibody. Radionuclides, such as Lutetium-177 or Iodine-131 are radioactive isotopes that emit radiation that kill cancer cells. Other radionuclides such as Indium-111 or Zirconium-89 are used for imaging and localization of cancer cells and to monitor the progress of cancer treatment.
Theranostics is a concept that refers to the integration of imaging and therapy in a single system, allowing therapy and follow-up of the treatment. CIS Pharma PDC’s are designed to conjugate both imaging and therapeutic compounds in a single system to simultaneously treat and monitor cancer. Alternatively, the identical antibody-polymer-drug-carrier-system is loaded in a first step with imaging radio-isotopes to then load in a second run therapeutic radio-isotopes to treat cancer.
About CIS Pharma AG
CIS Pharma AG is an innovator in the life science industry. The company was founded in 1952 and is family owned. In our laboratories, we synthesize novel molecules, develop new biomaterials and create cutting-edge medical devices. Our mission is to improve the risk-benefit profile of therapeutics that are the standard of care, thereby improving patient’s experience and treatment outcome. Medical need, patient centricity and digital technology are key to our research and development programs. CIS Pharma is located in the region of Basel, Switzerland, one of the most successful life sciences locations in the world. For more information about the company, visit our website www.cis-pharma.com.