Tactical Medicine News

Researchers at MIT have developed a metal-free electrode using conductive polymers. The electrode is flexible and strong enough for long-term implantation in the body. The device is intended as an advanced replacement for rigid metal electrodes that can cause tissue damage and...

Researchers at MIT have developed smart sutures with a hydrogel coating that contains sensing and drug delivery components, and could even be used to implant therapeutic cells. The sutures are made using pig tissues that have been decellularized with detergents to reduce the p...

Researchers at MIT have developed a method that allows them to analyze the three dimensional interactions of sections of the genome in unprecedented detail. The technique could let scientists investigate the origin and progression of genetic diseases, as well as identifying ne...

Researchers at MIT have developed an ‘electroceutical’ capsule that is designed to be swallowed and which will deliver a small electrical current to the stomach wall. The device contains an external electrode that wraps around its exterior and small grooves that draw liquid aw...

Researchers at MIT have developed a urine test that can distinguish between different types of cancer, and could even highlight if metastases are present. The test involves first administering nanoparticles to patients that can circulate around their blood before encountering ...

Researchers at MIT have developed a printer that can create large numbers of microneedle patch-style vaccines in places where they are needed quickly. Moreover, the printed patches can deliver thermostable mRNA vaccines, whereby the mRNA therapeutic is encapsulated in lipid na...

Researchers at MIT have developed a nanoparticle system that is designed to deliver immunostimulatory drugs to tumors. These drugs are intended to stimulate immune cells in the vicinity of tumors to begin destroying tumor cells, but when delivered systemically they cause unacc...

Researchers at MIT have developed lipid nanoparticles that are highly efficient at delivering mRNA therapies to lung cells. Getting therapeutic agents into the lungs can be challenging, but there are a variety of medical challenges that could be addressed by efficiently target...

Researchers at MIT have developed soft robotic heart replicas that closely match the anatomy of real people. The researchers used medical images of patient hearts to construct computer models that are suitable for 3D printing. Once printed with a soft material, the patient-spe...

Researchers at MIT have developed an ingestible sensor that can reveal gastrointestinal motility issues, such as gastroparesis and gastroesophageal reflux disease. The technology is intended for use as an easy at-home method to diagnose such issues, which typically require mor...