About this Area

Cardiovascular disease is a leading cause of mortality in India. At inStem, we aim to understand the fundamental process of cardiovascular disease through developmental mechanisms with an integrated workflow that streamlines the dissection of the molecular basis and therapeutic targets of CVD in Indian populations. This includes (1) the Indian-specific gene discovery in CVD and generating patient-specific stem cell resources ;(2) pathophysiological and drug studies using stem cell lines and model organisms; (3) high-resolution structural biology and microscopy to study molecules and structures related to heart; (4) Cardiovascular developmental mechanisms; (5)Tools for matured cardiovascular cell-types derivations and single-molecule biophysical techniques to probe functions.

Our research brings together unique expertise in human genetics and cardiomyopathies (Perundurai), biophysical studies of the cytoskeleton (Sirajuddin), stem cells and cardiovascular development (Inamdar), Cardiovascular Development and Disease (Singh) further strengthened by our collaborations with clinical collaborators and visiting faculty (Shivaramakrishnan). Leveraging our combined expertise we aim to enhance existing disease modelling pipelines that will facilitate in-depth studies on cardiovascular development and disease, especially in locally relevant and accessible formats.

Our research brings together unique expertise in human genetics and cardiomyopathies (Perundurai), biophysical studies of the cytoskeleton (Sirajuddin), stem cells and cardiovascular development (Inamdar), further strengthened by our collaborations with clinical collaborators and visiting faculty (Shivaramakrishnan). Leveraging our combined expertise we aim to enhance existing disease modelling pipelines that will facilitate in-depth studies on cardiovascular development and disease, especially in locally relevant and accessible formats.

People

Prof. Maneesha S Inamdar

Director, inStem

About The Lab Stem cell models to study conserved mechanisms of hematopoiesis, cardiovascular development and disease. The clinical potential of stem cells is to treat both acquired and heritable conditions including degenerative diseases, aging and cancer. The major advantage of stem cells for regenerative medicine is their ability to propagate themselves and also perpetually give […]

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Dhandapany S P

Principal Investigator

About The Lab Cardiomyopathies are a group of life-threatening heart muscle diseases that represent a significant proportion of heart failure and are one of the leading causes of heart transplantation. Every year about 1,000-5,000 new cases are diagnosed with pediatric cardiomyopathy, with the majority of the patients being less than 12 months old. The cause […]

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Minhaj Sirajuddin

Dean (Asset & Facilities)

About Minhaj’s Lab Cytoskeletal assemblies such as actin and microtubules provide the framework for maintaining cell integrity and powers biological motions. Few examples of biological motions include; heart and muscle contraction, sperm motility and intracellular transport of cargos in a meter long neurons. Due to their important functions in eukaryotic cell physiology, mutations in cytoskeletal […]

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Dr. Reena Singh

Principal Investigator

About this Lab Human Pluripotent Stem Cell-derived 3D organoids provide an unprecedented avenue for disease modelling, drug discovery and potential cell replacement therapies for unmet clinical needs in human diseases. However, organ development is a complex morphogenetic process guided by core transcriptional machinery and microenvironment niche that play critical roles in progenitor specification, differentiation and […]

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