3D ex vivo myocardial tissue models occupy an important position in cardiovascular medical research because of their simulated realistic environment and ease of analysis. Creative Biolabs has developed rich experience in tissue culture and 3D ex vivo model construction and can provide customized services related to the 3D ex vivo human cardiac contractility model, forming a library of methods for the construction of various conventional and difficult 3D ex vivo models.
Cardiac contractility refers to the ability of the ventricular muscle to change the size and speed of the heart contraction by relying only on its own characteristics. The basic idea of myocardial contractility model construction is to build an engineered heart tissue based on human pluripotent stem cells and regulate the blood supply required for cardiac pulsation with venous return and tissue metabolism, supporting the application in various cardiovascular disease studies.
Fig 1. Cardiac contractility is represented by directionally similar changes in both force and velocity. (Muir, 2020)
Drugs, diet, surgery, and physical induction are commonly used in the construction of traditional cardiac contractility models.
With the trend of precision medicine, Creative Biolabs is a perfect partner to develop a precise 3D ex vivo human cardiac contractility model in line with the basic concept of integrating personalized pathological information.
Ex vivo human cardiovascular-related models are increasingly being used in precision medicine, Creative Biolabs offers a unique opportunity to support the construction of multiple 3D ex vivo human cardiovascular tissue models.
Creative Biolabs offers 3D ex vivo human cardiac contractility models that mimic real human cardiovascular pathology and omics landscape, providing a large-scale drug screening platform and essential resource for finding new targets and therapeutics for related diseases. Please contact us to discuss your project.
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