With the rapid development of technology, stem cell research has become one of the most popular and promising research directions in the field of biomedical science today. Stem cells are primitive cells with the potential for self replication, multi-directional differentiation, and homing. They are not only the origin cells of the body, but also the progenitor cells that form various tissues and organs of the human body. In recent years, breakthrough progress has been made in stem cell research, providing new ideas and methods for the treatment of many refractory diseases. This article will review the basic concepts, progress, applications, and prospects of stem cells, in order to provide readers with a comprehensive and in-depth perspective on stem cell research.
With the rapid development of biopharmaceutical technology, monoclonal antibodies (mAb), as a highly specific and affinity biomacromolecule, have shown enormous potential in fields such as disease diagnosis, treatment, and drug development. However, the development process of monoclonal antibodies is complex and time-consuming, involving cell screening, culture, antibody affinity determination, and other processes, which require extremely high accuracy and efficiency of this technology. The Beacon Optofluidic System, as an advanced cell manipulation and detection technology, has brought revolutionary changes to the field through its application in the development of monoclonal antibodies. This article will delve into the auxiliary role of Beacon Optofluidic Systems in the development and application of monoclonal antibodies.
Tumor immunotherapy, as a significant breakthrough in the field of tumor therapy in recent years, is gradually changing our traditional understanding of tumor therapy. It utilizes the patient's own immune system to recognize and attack tumor cells, with advantages such as strong targeting, minimal side effects, and long-lasting therapeutic effects. This article aims to comprehensively explore the basic principles, cutting-edge technologies, clinical applications, challenges, and prospects of tumor immunotherapy.
In the fields of medicine and bioscience, experimental models and testing platforms are crucial for disease research, drug development, and personalized healthcare. Traditional experimental methods, such as animal models and cell culture, although provide strong support for scientific research, still have limitations in simulating the real human environment and reactions. The emergence of Organ on a Chip technology has brought revolutionary changes to medical research due to its miniaturization, high simulation, and high efficiency.