The use of mesenchymal stem cells (MSCs) in clinical trials has witnessed a global surge, positioning MSCs as one of the most sought-after regenerative cell
Discover specialized mediums, cell factories, and GMP-compliant proteins crucial for large-scale production of therapeutic mesenchymal stem cells.
Discover how MSC spheroids boost therapy. Learn mechanisms, production techniques, and in vivo effects for enhanced treatment outcomes.
Uncover How Mesenchymal Stem Cells (MSCs) are Harvested for research and potential therapies. Explore various sources like bone marrow, umbilical cord, and adipose tissue. Learn about their applications and the importance of safety evaluation.
Humanised mice provide preclinical models to assess the immunomodulatory potential of Mesenchymal Stem Cells (MSCs) for regenerative medicine. Discover how these models help develop novel, safer cell therapies for various diseases.
Discover current clinical trials using Mesenchymal Stem Cells (MSCs) for cancer therapy. Learn how MSCs are being studied to treat cancer and alleviate side effects of traditional therapies.
Get an overview of the different types of T-cells and its significance in bioscience research for the development of disease therapies.
Optimize stem cell cancer therapy research with Mesenchymal Stem Cells (MSCs) quality control. Ensure purity, viability, and functionality for reliable, reproducible results.
Summary The field of cancer therapy is undergoing transformative changes, driven by the following trends: iPSC-derived MSCs, MSCs-derived EVs, and Cas9-mediated gene editing in MSCs.
Get essential knowledge to navigate through challenges of scale up in suspension or adherent culture and insights to optimizing your cell culture processes.
Yamanaka successfully produced embryonic stem cell-like cells in 2006 by introducing Oct3/4, Sox2, c-Myc, and KLF4 into somatic cells. He gave these cells the term
Mechanical forces and physical signals affect cancer cells, and studying cancer mechanobiology gives hope to new early detection, prognosis evaluation, and therapeutics.
Different tissues and organs in the body have varying levels of matrix stiffness. These differences in stiffness are critical for the proper functioning of cells within their respective tissues.
MSCs are new hope to treat neurodegenerative illnesses such as stroke, traumatic brain injury, Alzheimer’s disease, Parkinson’s disease, and more. Find out how.
Organ-on-a-chip technology allows the cultivation of human liver cells under relevant physiological stresses, allowing deep study of the pathophysiology of liver diseases.
MSCs have been shown to promote and improve wound recovery in medical applications by directly reducing the inflammatory response & recruiting tissue repair mediators.
Natural killer(NK) cell therapy is a cutting-edge treatment for cancer that is generating excitement in the medical world. This innovative immunotherapy harnesses the power of the body’s own immune system to fight cancer cells. In this article, we’ll explore how NK cell therapy works and what it could mean for patients with cancer.
Cancer immunotherapy has progressed tremendously in recent years, with the emergence of innovative approaches like chimeric antigen receptor (CAR) T-cell therapy and T-cell receptor (TCR)
Mesenchymal stem cells (MSCs) are adult multipotent cells that have been shown to have extraordinary anticancer properties, making them a unique option for cancer treatment.
MSC treatment has demonstrated their ability to develop into chondrocytes, healing tissue by producing collagen and matrix, lower inflammation, and provide pain relief for osteoarthritis.
Extracellular vesicles (EVs) are nanoscale lipid bilayer vesicles that are secreted by almost all cell types into the extracellular environment. EVs have a wide
In recent years, chimeric antigen receptor (CAR) T-cell therapy has emerged as one of the most promising immunotherapy for the treatment of cancer. This therapy
Adoptive Cell Therapy (ACT) represents a promising approach for the treatment of cancer. It is a process in which immune cells such as T-cells
Spheroids have emerged as powerful tools for advancing biomedical research, with applications ranging from drug screening and toxicity testing to disease modeling and tissue engineering.
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