We're using translational bioinformatics to integrate and analyze multi-omics data sets to not only fight aging and age-related disease, but also to find the causes of rare and hard-to-diagnose diseases. Our Integrative Omics positions will form the core infrastructure of ICR's efforts to advance individualized medicine and improve human healthspan.
Our genomics research aims to identify the strong and weak points in the human genome as they relate to health and disease risk. We're diving deep into human genomes to improve personalized medicine through personalized genomics.
We build and analyze databases of health biomarker data to better predict and prevent disease. We're looking for talented bioinformatics scientists to join our team!
We're applying advanced machine learning tools to improve and accelerate our research in areas like early cancer detection and health and disease biomarker analysis. If you have deep experience using Bayesian methods for predictive statistics and modeling of biological datasets, then consider a position with us!
"An ounce of prevention is worth a pound of cure." With this adage in mind, we're developing truly preventive cancer vaccines and hiring scientists with deep backgrounds in peptide-based vaccine development, cancer immunology and immuno-oncology.
We are seeking an exceptionally talented scientist to serve as Associate Director for Scientific Programs. This is a unique opportunity to tackle some of the most challenging problems in human health and disease: how to repair aging people, fast.
Preventing age-related cognitive decline by preserving the integrity of existing CNS neurons and repairing/regenerative damaged ones is at the heart of our Neuroregeneration Group. We're using cutting-edge neuroregenerative medical technologies to push the envelope of practicality and possibility.
Researching how to safely and effectively manufacture cells and cell-derived products like exosomes for translational purposes is critical to current regenerative medicine efforts.
The need to repair the aging extracellular matrix (ECM) is an underappreciated aspect of modern regenerative medicine research. ICR is recruiting for a scientist with experience in human ECM biology and the motivation to create interventions that can repair aging ECM.
Connective tissues and the extracellular matrices of cells like fibroblasts hold our bodies together, contribute to systemic and organ failure with age, yet remain underappreciated in the field of aging biology. We take multiple approaches to understand why connective tissues fail with age and how to repair and regenerate them.
Ischemic heart disease kills more people worldwide every year than anything else and the risk of dying from it increases with age. Preventing heart disease and regenerative aged, damaged vasculature are at the core of our Regenerative Vasculature Medicine research program.
Regenerative medicine is the heart of what we do at ICR, with many parts centered on induced pluripotent stem (iPS) cells, iPS cell-derived stem cells, and their products (e.g. exosomes). We research and develop the most practical, high-impact products to regenerate aging human tissues and prevent age-related disease.
Optimizing nutrition and metabolism to counter age-related disease is a critical component to healthy aging. Our research focuses on the practical study of optimizing these parameters for increased daily energy (decreasing fatigue), weight management and dietary caloric reduction.
We are dedicated to solving some of the most difficult problems in aging and age-related disease, in an effort to extend human healthspan. Our thriving In Vitro Diagnostics and Biomarkers team is central to that mission.
Creative thinking and innovative engineering are needed to accelerate the development of regenerative medicine strategies and interventions to slow biological aging and repair age-related damage. At ICR, our Gene Therapy Scientists and Genetic Engineers will tackle some of the hardest challenges in aging and regenerative medicine.
Researching ways to formulate and deliver novel interventions is fundamental to our highly practical approach to fighting aging.
ICR is researching ways to regenerate the aged immune system. Immune senescence and decline underlie many of the most devastating age-related diseases. Our Regenerative Immunology program involves several approaches, including developing bone marrow-engraftable iPSC-derived hematopoietic stem cells (iHSCs) and implantable thymic organoids.
The rapid pace of scientific advancement requires sophisticated and innovative knowledge management skills. At ICR, our team of Knowledge and Information Management Scientists are essential collaborators with our bench researchers.
A position in Functional Genomics with us involves scientific detective work. You'll try to determine what roles SNPs that are "of unknown significance", "possibly damaging" and "likely deleterious" play in human health and disease, going from gene to protein to cell to system.
We're hiring Functional Genomics Scientists with expertise in Connective Tissue Disorders like Ehlers-Danlos Syndrome to join our efforts to reimagine the possibilities of personalized medicine. Your job will include taking deep dives on suspected pathogenic SNPs and VUSs (variants of unknown significance) to determine if they are indeed deleterious to protein/cellular function in the context of connective tissue diseases. We want you to go from gene(s) to protein(s) to phenotype(s).
Are you interested in fighting human aging and age-related disease but you are not quite sure which of our jobs best fits you? Then just apply to this one! ICR offers scientific careers doing impactful, highly translational, preventive and regenerative medicine research to slow biological aging and prevent age-related disease.
ICR is dedicated to solving some of the most difficult problems in aging and age-related disease, including cancer early detection and prevention.
Our Principal Data Scientist will manage a team of data scientists and machine learning engineers to use multi-omics datasets to find diagnostic patterns of rare and hard-to-diagnose diseases and to generate actionable targets for drug development.
ICR is hiring Senior Data Scientists with expertise in integrating and analyzing multi-omic datasets to identify diagnostic disease signatures and find actionable targets for drug development. These scientists would work in ICR's Translational Bioinformatics Group, focusing on rare and hard-to-diagnose diseases.
We have open positions in a variety of research areas. Click below to visit our Careers page on LinkedIn and apply!