Therapy T Cell Articles & Analysis
113 articles found
In modern biopharmaceutical manufacturing, downstream processing development has become one of the most critical and resource-intensive stages. While upstream cell culture or fermentation focuses on producing the target biomolecule, downstream steps transform crude harvests into highly purified and stable therapeutic products. For biologics such as monoclonal antibodies, recombinant proteins, and ...
The BCL2 gene, short for B-cell lymphoma 2, is a critical regulator of apoptosis, or programmed cell death. ...
Examples include CCL2 (MCP-1) and CCL5 (RANTES), both involved in monocyte and T-cell recruitment. l C chemokines (γ-chemokines): These are less common and lack two of the four cysteine residues, such as XCL1 (lymphotactin). ...
Cancer treatment has witnessed transformative advancements over the past few decades, notably with the emergence of CAR-T (Chimeric Antigen Receptor T-cell) therapy. This revolutionary therapy harnesses the body's immune system by genetically engineering T-cells to target and ...
Podocytes are specialized epithelial cells located in the kidneys, playing a crucial role in the filtration barrier of the glomerulus. These unique cells have garnered significant attention in scientific research due to their pivotal function in maintaining kidney health and their involvement in various kidney diseases. The Structure and Function of Podocytes Podocytes possess a distinct ...
The advent of organoid technology has transformed biomedical research through the development of 3D models that precisely replicate human organ structures and functions in a physiological context. Creative Bioarray establishes itself as a world leader in life science innovation through its complete range of organoid services that enhance drug discovery, disease modeling, and personalized ...
These services encompass the design and optimization of molecules, antibody engineering techniques, and a variety of advanced antigen design strategies, all subjected to rigorous quality control to ensure compliance with the highest efficacy and safety standards. Furthermore, CAR T-cell therapy development services opened up new avenues for ...
In the ever-evolving landscape of cancer research, two intriguing concepts have emerged that are reshaping how scientists approach treatment: synthetic lethality and parthanatos. Both concepts encapsulate the complexity of cellular processes and open new avenues for targeted therapies. What is Synthetic Lethality? Synthetic lethality occurs when the simultaneous disruption of two genes ...
Immuno-oncology is an innovative field that utilizes the body’s immune system to combat cancer. By harnessing the natural capabilities of the immune system, immuno-oncology services are revolutionizing the way we approach cancer treatment, offering novel therapies that are changing the prognosis for many patients. Understanding Immuno-Oncology Immuno-oncology focuses on the interaction ...
The cell cycle is an essential biological process that enables cells to grow, duplicate their DNA, and divide into daughter cells. This cycle is carefully regulated by proteins to ensure accuracy in cell replication. Disruptions in these controls can lead to uncontrolled cell division, a hallmark of cancer and other diseases. Cell cycle progression is orchestrated by key proteins, including ...
Alfa Cytology unveils advanced cancer immunotherapy development services. Alfa Cytology, a renowned services supplier in oncology, has recently introduced its groundbreaking cancer immunotherapy development services. This initiative signifies a major leap forward in the development of more effective cancer therapies, aiming to boost both precision and versatility within treatment paradigms. ...
Among the various forms of immunotherapy, CAR T-cell therapy (Chimeric Antigen Receptor T-cell therapy) has shown promise, particularly in treating acute lymphoblastic leukemia (ALL), especially in children and young adults. This therapy involves genetically modifying a ...
The primary focus is on harnessing this technology for modifying primary T cells, a type of white blood cell crucial for the immune response. ...
They are synthesized and secreted by a range of immune cells, including monocytes, macrophages, T cells, B cells, and natural killer (NK) cells, as well as certain non-immune cells like endothelial cells, epidermal cells, and fibroblasts. ...
Human umbilical cord cells, particularly those found in Wharton’s jelly, have emerged as a focal point in regenerative medicine and cellular therapy. Wharton’s jelly is a gelatinous substance that surrounds the umbilical cord’s blood vessels, providing structural support and protection. It is rich in mesenchymal stem cells (MSCs), which are known for their unique regenerative ...
Human corneal epithelial cells play a vital role in maintaining the health and function of the cornea, the transparent front part of the eye. This layer of cells acts as a protective barrier against environmental insults, pathogens, and mechanical injury. Given their crucial functions, understanding these cells is essential for advancements in ophthalmology and regenerative medicine. The corneal ...
GMP growth factors and cytokines designed for therapeutic manufacturing are an essential component of defined media. To date, the cell therapy industry has accepted GMP terms for this reagent class, despite the fact that there is no direct oversight by regulators. These proteins are intended for use in further manufacturing processes and do not come into direct contact with patients. In fact, ...
Cancer is a worldwide disease and one of the leading causes of morbidity and mortality today. Traditionally, mouse models have been used for research as in vivo model organisms. However, the zebrafish (Danio rerio), also known as zebrafish, has emerged as an important new cancer model due to its small size, brood weight, and rapid maturation time, complements models that can traditionally be ...
Human brain has approximately 171 billion cells, of which slightly more than half (approximately 86 billion) are nerve cells. These 86 billion nerve cells are a diverse cell population with hundreds of specialized types and functions, but all originate from three neural cell lineages--neurons, oligodendrocytes and astrocytes. All three cell lineages originate from a pool of neural stem and ...
The scientific realm of biomedicine has witnessed extraordinary evolution in recent years, particularly in the spheres of cell and gene therapies. These therapies have radically revamped disease treatment modalities, transcending traditional approaches to become some of the most groundbreaking advancements in modern healthcare. This article aims to engage in an incisive analysis of cell and gene ...