Singapore Institutes Collaborate with Samsung Medical Center to Improve Treatment of Liver Cancer
PR-Inside.com: 2017-12-21 09:31:54
– This collaboration creates the world’s first clinically reliable and robust patient-specific diagnostic and predictive platform to improve treatment of liver cancer.
– The platform will provide high throughput genomics and drug screening data from a patient’s liver cancer sample, to inform timely clinical management.
– The high throughput data will significantly enhance and direct drug development for liver cancer.
– This multi-institutional effort brings together leading experts in translational research in liver cancer from Singapore and the Republic of Korea.
SINGAPORE, Dec 14, 2017 – (ACN Newswire) – Scientists and doctors from Singapore institutes are collaborating with Samsung Medical Center (SMC), a leading academic medical centre in Seoul, Republic of Korea, to develop the world’s first clinically reliable and robust platform that will significantly improve the treatment of hepatocellular carcinoma (HCC) or liver cancer.
In Singapore, this multi-institutional effort involves A*STAR’s Genome Institute of Singapore (GIS) and Institute of Molecular and Cell Biology (IMCB), National Cancer Centre Singapore (NCCS), and National University of Singapore (NUS).
HCC is the second most common cause of cancer-related deaths, with approximately 1 million new HCC cases diagnosed annually worldwide. In Singapore, it is the fourth most common cancer among men. If untreated, most patients do not survive beyond six months.
As HCC is highly heterogeneous, treatment has to be individualised and targeted to be effective. Current systemic treatment for HCC is limited and does not take into consideration genomic differences between different patients. As a result, treatment outcomes generally remain poor.
The new platform will provide reliable and robust patient-specific diagnostic and predictive data in a clinically relevant timeframe of three weeks versus the typical three to four months. Patient-derived HCC tumour samples will contribute to genomic integration, in vivo model studies and drug screening data. It will be validated to deliver precision analysis and revolutionise liver cancer treatment to improve patient outcomes.
Perspectives on the collaboration
“While Singapore has achieved much excellence in upstream and translational research in HCC, this initiative brings together the strengths of our institutions, combining the efforts of the existing flagship programme in Liver Cancer with other programmes,” said Professor Pierce Chow, who is the Lead Principal Investigator of this initiative. Professor Chow is also Surgical Director of the Comprehensive Liver Cancer Clinic at NCCS, a Professor and Course Director at the Duke-NUS Medical School, and an Associate Faculty Member at GIS.
“When three of the top cancer centres in Asia come together with A*STAR to deal with a cancer that primarily affects Asians, I am confident that we will change clinical practice, treat liver cancer better, and save many lives,” said Dr Benjamin Seet, Executive Director of A*STAR’s Biomedical Research Council.
“Our new innovative translational research platform, the AVATAR platform, based on AVATAR Mouse(R) and AVATASCAN(R) was developed with strong support from the Korean government’s Ministry of Health and Welfare to provide treatment solutions for refractory cancer patients. We are also keen to contribute such technologies and know-how to this collaboration which will create a synergistic effect for both sides,” said Professor Do-Hyun Nam who is the Lead Principal Investigator of SMC for this initiative. Professor Nam is also Director of Institute for Refractory Cancer Research and a Professor of Department of Neurosurgery at the SMC.
“SMC has made continuous investment in the establishment of infrastructure for precision medicine,” said Professor O Jung Kwon, President of SMC. “Through this partnership, we are expecting to build a firm global network for precision medicine and hope to be able to provide the world’s best genome based personalised treatment for liver cancer patients.”
The collaboration leverages the strengths of current programmes in both countries – mainly the Translational and Clinical Research (TCR) Flagship Programme for Liver Cancer in Singapore, and the Refractory Cancer Research Programme of SMC, called AVATAR platform, in the Republic of Korea.
The TCR Flagship Programme which has uncovered useful drug targets that provide critical data for drug development and precision medicine, will combine the expertise of other programmes at the Cancer Science Institute of Singapore (CSI Singapore), GIS and IMCB to re-position the AVATAR platform developed at SMC for disease areas ranging from brain cancer to HCC.
The team aims to set up a joint lab with SMC that is based in Singapore and commence research collaborations with industry for drug development within two years.
“Due to the heterogeneity of liver cancer, there are currently only few drugs with proven efficacy to target it. This new platform will allow researchers and pharmaceutical companies to work together to understand the disease better. We hope this will enable all of us to accelerate the drug development and expand treatment options for HCC patients,” said Associate Professor William Hwang, Medical Director of NCCS.
Notes to Editor:
AVATASCAN(R): Automated drug screening system of patient-derived cells for genome based drug treatment suggestion. AVATASCAN(R) is comprised of a robotic system for rapid screening of drug panel on refractory cancers including glioblastoma, metastatic brain cancer and recurrent cancer. AVATASCAN(R) integrates gene-drug response and genomic analysis to suggest the most optimal treatment option for the patients.
AVATAR Mouse(R): Patient Derived Xenograft model which immunodeficient mice are implanted with patient-derived tissue specimens that have been removed surgically. It can recapitulate the genome, histopathology and biology of patient-derived tumor in situ. SMC possesses a variety of AVATAR Mouse(R) for different cancers such as glioblastoma, gastric cancer, etc.