Biomechanics is an important field to study the mechanical behavior in biological systems, involving the mechanical properties of cells, tissues, organs, and even the whole organism. In recent years, with the development of biotechnology and materials science, biomechanics research has made remarkable progress in many fields such as cancer, cardiovascular disease, tissue engineering, and regenerative medicine. Understanding and analyzing the mechanical behavior of biological systems not only helps reveal the mechanisms of disease occurrence and development but also provides a key basis for developing novel therapeutic methods and biomaterials.
CD BioSciences is committed to providing high-quality biomechanical research services to researchers and medical institutions worldwide based on our advanced biophysical technology platform. We have state-of-the-art experimental equipment, such as high-resolution atomic force microscopes (AFMs), which can accurately measure the mechanical properties of cells, tissues, and biomaterials. Through our biomechanical research services, researchers can deeply analyze the mechanical properties of biological systems, reveal the mechanical mechanisms of diseases, and accelerate the development of new drugs and novel biomaterials. Our services cover a wide range of applications, including cancer research, cardiovascular disease, tissue engineering, regenerative medicine, neuroscience, etc., contributing to the advancement of life science research and technological innovation.
At CD BioSciences, we are committed to providing state-of-the-art biophysical technology services for life sciences research and biomedical engineering to further deepen our understanding of the mechanical properties of biological systems, thereby advancing scientific discovery and innovative applications.
We use techniques such as atomic force microscopy (AFM), light microscopy, and nanoindentation to study the mechanical properties of cells. These techniques measure the elasticity, stiffness, and adhesion properties of cell membranes to understand how cells respond to external forces and mechanical stress.
We can offer the ability to observe the mechanical behavior of organisms in motion using techniques such as magnetic resonance imaging (MRI), ultrasound imaging, and high-speed photography. These techniques help clients understand the response of organisms under dynamic loading and reveal changes in mechanical properties during motion.
Our platform supports the study and optimization of mechanical properties for implants and other biomaterials. Our biophysical techniques evaluate the performance of these materials in a biological environment to ensure their safety and efficacy.
We offer a highly accurate and sensitive evaluation of vascular biophysical properties. Our technology platform encompasses pulse wave velocity measurements, hemodynamic analyses, microscopic imaging, and histological analyses to comprehensively evaluate the functional and structural changes of blood vessels under different conditions.
Our team provides advanced electrophysiological evaluation and imaging techniques combined with innovative molecular analysis methods to support a wide range of needs from basic research to applications.
Our experts can combine biophysical data and computational models for biomechanical simulations. Using finite element analysis (FEA) and other computational tools, we study the mechanical behavior of organisms under different loads and conditions to help optimize medical devices and treatments.
CD BioSciences strives to provide high-quality research services and comprehensive technical support. Whether it is the experimental design at the initial stage of the project or the problem-solving at the data analysis stage, we will offer technical support throughout the whole process. If you have any needs or questions, please feel free to contact us.
CD BioSciences is a biotechnology company focused on biophysical services. We are proficient in both chemistry and biophysics, and have a comprehensive biophysical platform containing a wide range of advanced technologies.