Rheolution Article | April 2021
Why is viscoelasticity so important in the human body?
by Dr. Dimitria Bonizol Camasao
Senior Application Specialist, Rheolution Inc.
How can this viscoelastic behaviour correlate with an organ?
What are the practical applications of this information?
The understanding of viscoelasticity in the human body is extremely important, mainly for the two reasons listed below:
1. Differences in the tissue viscoelasticity can be related to the presence of diseases
Human tissues such as skin, muscle, cardiac, and adipose tissues have their own specific viscoelasticity. Medical imaging known as elastography is used to non-invasively map the viscoelastic properties of soft tissues inside the body. This information is useful for detecting the presence and severity of diseases. For example, liver fibrosis is the formation of an abnormally large amount of scar tissue when the liver attempts to repair and replace damaged tissue. The presence of fibrosis should result in harder regions with higher values of stiffness. Therefore, the results of elastography can show the presence and extent of fibrosis which can help in the choice of the best treatment.
2. Treatments and therapies involving the use of any type of biomaterial should resemble the natural viscoelastic response of the site of implantation
Biomaterials are used for the fabrication of medical implants that are placed inside or on the surface of the body. A biomaterial in a very broad definition is a biological or synthetic substance that, when implanted in the body, will cause a controlled host response. An ideal biomaterial should mimic the properties of the implantation site. In our last publication, for example, we saw that researchers are trying to develop alternative vascular grafts to the current stiff synthetic grafts that are on the market. This stiffness mismatch prevents the use of available grafts to replace small-diameter vessels. Chemists, physicists, biologists, and engineers have been combining their expertise to develop biomaterials that reproduce biological and mechanical properties of different human tissues, so they can maintain a similar response under the action of external or internal forces.
To exemplify the importance of matching the properties of native tissues, we can use gears as an analogy for the organs and tissues of the human body, illustrated below:
As we can see, viscoelasticity is a physical property strictly related to the function of the tissue. Understanding this relationship and being able to measure this property is important for detecting the presence and severity of diseases, improving health care, and developing novel treatments and therapies for diseases with unmet medical needs.