Medicine has made tremendous strides since the 1960s, as evidenced by the increased survival rates of combat soldiers since Vietnam. Nevertheless, blood loss remains the most common cause of death of soldiers on the battlefield. Finding a way for medics or soldiers to stop bleeding can significantly cut down on these deaths, but current approaches are either very expensive or not easy to use in combat.
According to a new paper published in Acta Biomaterialia, a solution to this problem could come from seaweed — or more precisely, from kappa-carrageenan, a type of polymeric carbohydrate produced by certain types of edible seaweed. Akhilesh K. Gaharwar, PhD, Assistant Professor of Biomedical Engineering at Texas A&M, led a study team who developed and tested an injectable hydrogel nanoengineered from kappa-carrageenan.
The authors combined kappa-carrageenan with clay-based nanoparticles to yield a hydrogel that can be injected into wounds. When the gel solidifies, it both stanches the flow of blood and helps to generate new tissue. The gel performed well in in vitro experiments. The next step will be to test the gel in animal models of wounds.
A New Understanding of Anatomy
A group of scientists collaborating among Mount Sinai Medical Center, NYU, Weill Cornell Medical Center, and the University of Pennsylvania, including Penn Bioengineering secondary faculty member Rebecca Wells, MD, published a paper in Scientific Reports detailing the heretofore unknown extent of the human interstitium and providing a new understanding of these fluid-filled compartments beneath the skin surface. The study used confocal laser endomicroscopy, which can examine structures at depths of 60-70 µm, to look at human hepatobiliary tissue. They found a reticular pattern of fluid-filled sinuses not detected before, which is connected to the lymph nodes and similar to structures found in other organs and organ systems.
On the basis of their findings, the authors suggest that our current understanding of the anatomy might be revised. Much more research is necessary, but they also believe that the fluid-filled spaces might play important roles in cancer metastasis and a number of other disease processes.
Bringing Bioprinting to the Masses
Three-dimensional printing is one of the great innovations of the last decade, and it has transformed numerous fields inside and outside of science. In the health sciences, the ability to manufacture 3D biomaterials holds enormous promise. Unfortunately, the costs of 3D printing remain prohibitive; the available models range between $10,000 and $200,000 in cost, not including the raw materials, software, etc. However, engineers at Carnegie Mellon University (CMU) might have devised a solution. In a paper published in HardwareX, Adam Feinberg, PhD, Associate Professor of Biomedical Engineering at CMU, and his coauthors describe their development of a syringe-pump large volume extruder (LVE).
Syringe pump extruders, which inject raw material into 3D printers, are already used to print biomaterials. However, achieving cheap, fast, and precise printing of 3D materials is a major technical challenge. The LVE, which is based on open-source hardware and software, significantly increases the size of the extruder without compromising speed, and it can print at sizes as small as 100 µm. The authors estimate that the materials necessary to build their bioprinter would cost less than $500 — orders of magnitude less than current models that are slower and unable to print using large volumes. Their source materials are online here.
People and Places
Missouri dominates this week’s news, with a new program at one institution and a symposium at another. At the University of Missouri, the College of Engineering has announced that it will begin offering an undergraduate program in biomedical engineering in the fall. Ninety miles away at Missouri University of Science and Technology, a symposium will be held this week — the first to be convened on the topic of biomedical humanities. The event is a collaboration between Missouri S&T’s Center for Science, Technology, and Society and the Center for Biomedical Research.
Colorado State University’s Department of Biomedical Engineering is celebrating its 10th anniversary. In that time, the department has added more than 20 faculty members to its original cohort of 29.
Finally, we offer our congratulations to Jelena Kovačević, PhD, who has been named the new dean at NYU’s Tandon School of Engineering. A graduate of Columbia and the University of Belgrade, Dr. Kovačević, who is an electrical engineer with broad interest in biomedical applications, moves to NYU from CMU and is the first-ever female dean of Tandon. Congratulations Jelena!