CD BioSciences is a biotechnology company committed to providing high quality and convenient 3D bioprinting services, having a high resolution 3D printing technology platform based on microfluidic systems called 3Dmicroflu™. 3Dmicroflu™ can be applied to the study of basic physiological mechanisms such as growth and development mechanisms, metabolic mechanisms and response mechanisms. Our experienced team of experts are always on standby for your enquiries and orders.
In the study of biology, the study of the various basic physiological mechanisms is of great significance. Physiological mechanisms are the inner workings and connections of organic life forms, including the interrelationship of the structural components of living things and the interrelationship of the physical and chemical properties of various processes of change. The study of the mechanisms of these interactions has important implications for the study of some fundamental mechanisms and for the research of new drugs.
Fig. 1. Applications of 3Dmicroflu™ in the study of basic physiological mechanisms.
Organs, tissues and living models are often indispensable objects in the research process, but these models are often too far removed from the reality of the in vivo physiological state to be fully realised. Based on this, CD BioSciences is launching the high-resolution 3Dmicroflu™ technology platform that can provide you with high-quality 3D organ and tissue micro-model printing for experimental use which is more close to the real physiological environment. 3Dmicroflu™ is your best choice for the construction of various models in basic physiological mechanisms.
CD BioSciences can provide the high-resolution 3Dmicroflu™ 3D printing technology platform that can be applied to the following basic physiological mechanism research processes, including tissue cell growth mechanism research, organ metabolic mechanism research and tissue response mechanism research.
The study of cell growth and development has always been fundamental to the study of living organisms. The microfluidic-based 3Dmicroflu™ 3D bioprinting technology platform enables high-resolution single cell printing for the research of developmental mechanisms in the construction of different cell types during their growth and differentiation into specific tissues and organs.
Metabolic activity consists of the ordered series of chemical reactions that occur in the body to sustain life, and is the source of matter and energy for living organisms. CD BioSciences has the high-resolution 3Dmicroflu™ 3D printing technology platform that can be applied to the construction of a range of organ and tissue micro-models for the study of nutrient and toxicity metabolism mechanisms.
The processes by which organs and glands respond to in vivo and in vitro stimuli involve many basic physiological mechanisms. CD BioSciences has 3Dmicroflu™ technology platform that can provide high resolution 3D printing services to design and build micro-models of organs, tissues, glands and systems involved in various response processes.
The construction of micro-models of various types of organs, tissues, glands, systems and cells applied to basic physiological research can all be achieved with our technology platform. The advantage of our technology platform is the high-resolution, high-throughput single cell printing, which allows us to construct models that are more physiologically appropriate and of higher quality. In addition, CD BioSciences has a team of experts who have been involved in 3D bioprinting for many years and can offer you a variety of advice on your 3D printing project. Any questions you may have during our collaboration can be resolved through one-to-one communication.
If you are interested in our high-resolution 3Dmicroflu™ 3D bioprinting technology platform, please contact us now for professional services. All services are available on a 24/7/365 basis.