An overview of the published scientific literature and active research areas being studied in connection with UC-MSC exosome products. All content on this page reflects investigational and research contexts only.
Research Notice: The following information summarizes areas being studied in published scientific literature. These are not medical claims. Products distributed by Purist Health are for investigational and research use only and are not intended to diagnose, treat, cure, or prevent any disease.
MSC-derived exosomes are being studied across a broad range of medical and research contexts. The following represents a summary of published research areas, not clinical outcomes or treatment recommendations.
Research has examined the role of MSC exosomes in tissue regeneration and wound healing, including acute injuries and chronic wound contexts, studying their influence on cell proliferation, migration, and angiogenesis.
Published literature has explored MSC exosomes in the context of orthopedic conditions including osteoarthritis, tendon injuries, and cartilage research, studying their influence on tissue repair and inflammatory response.
Exosomes have been the subject of research in neurological contexts, including studies examining their potential role in neuronal survival, neurogenesis, and the biological mechanisms involved in neurodegenerative disease models.
Scientific research has investigated MSC exosomes in cardiovascular contexts, studying their influence on cardiac tissue, angiogenesis, and cellular responses in cardiac injury models.
Research has explored exosome applications in dental contexts including dental pulp research, periodontal tissue studies, and bone regeneration, making this a growing area of interest for dental professionals engaged in research.
Exosomes are being investigated for their role in cellular aging processes, with research examining their influence on collagen expression, oxidative stress responses, and cellular repair mechanisms in skin and tissue research.
Published studies have examined the potential of exosomes in the context of hair follicle biology, including research on follicle proliferation, growth cycle, and conditions such as alopecia.
Research has examined MSC exosomes in the context of liver function studies, including investigations into fibrosis, inflammatory response, and cellular propagation in hepatic tissue models.
Scientific investigations have studied MSC exosomes in pulmonary contexts, including research examining their influence on lung tissue fibrosis, inflammatory pathways, and pulmonary vascular biology.
The following summarizes biological effects observed in published preclinical and clinical research. This is not a list of product claims or treatment outcomes.
Studied increases
Angiogenesis
Collagen I Expression
Extracellular Matrix Remodeling
Cellular Migration and Propagation
Studied decreases
Apoptosis
Inflammation
Collagen Deposition
Myofibroblast Accumulation
Studied increases
Angiogenesis
Neurogenesis
Axonal Density
Cell Propagation
Oligodendrogenesis
Neurological Function
Neurovascular Plasticity
Studied decreases
Apoptosis
Microgliosis
Inflammation
Reactive Astrogliosis
Neural Degeneration
Beta-amyloid Peptide
Studied increases
Angiogenesis
Cell Propagation
Cardiac Function
Studied decreases
Fibrosis
Apoptosis
Infarct Size
Inflammation
Oxidative Stress
Vascular Remodeling
Studied increases
Liver Function
Eosinophils
Cell Propagation
Collagen Maturation
Studied decreases
Fibrosis
Apoptosis
Inflammation
Oxidative Stress
Alanine Aminotransferase
The manufacturer Purist Health partners with is currently conducting 13 active clinical studies in partnership with a major US-based university school of medicine. This ongoing research supports the scientific understanding of MSC-derived exosome products.