September 14th, 2023
Researchers at the Harvard Wyss Institute have developed a technique that lets clinicians to characterize and monitor melanoma. The system involves using a microneedle patch that can draw deep interstitial fluid into itself through a series of penetrating hyaluronic acid needles. The needles can later be dissolved to release the...
August 7th, 2023
Researchers at the Harvard Wyss Institute have developed an anti-cancer biomaterial treatment that combines adoptive T cell therapy and cancer vaccine technology to treat solid tumors. The researchers have called their technique SIVET, which is short for “synergistic in situ vaccination enhanced T cell”. The approach combines...
May 2nd, 2023
Researchers at the Harvard Wyss Institute have developed a new type of cell therapy for multiple sclerosis patients. The technique involves taking a blood sample from the patient being treated, isolating a sample of myeloid white blood cells, and then modifying them with ‘backpacks’ that contain anti-inflammatory molecules. The...
February 28th, 2023
Researchers at the Harvard Wyss Institute are collaborating with a biotechnology company called Gameto to develop human ovarian organoids that will allow the study of reproductive and other health issues using tissues that closely mimic those in human patients. Another application may lie in allowing people with fertility issues to...
February 17th, 2023
Researchers at the Harvard Wyss Institute and the Dana-Farber Cancer Institute have developed a new method to prepare chimeric antigen receptor-T cells (CAR-T cells) for leukemia patients that could result in more effective treatment. CAR-T cells start life as T cells that are isolated from cancer patients, are stimulated and primed...
November 16th, 2022
Scientists at the Wyss Institute for Biologically Inspired Engineering at Harvard have developed a mechanically active gel-elastomer-nitinol tissue adhesive, otherwise known as MAGENTA. The implantable device functions as a soft robot, and it can be adhered to the outside of a muscle. When an electrical charge is applied to the...
July 5th, 2022
Researchers at Harvard's Wyss Institute have modeled Environmental Enteric Dysfunction (EED), a childhood inflammatory intestinal disease, on a microfluidic chip and gained new insights into the genetic changes underlying the condition. This is the first in vitro model of the disease, and highlights the power of organ on a chip...
January 18th, 2021
Applying an energy source, such as a laser, to cut through or cauterize tissue is already widely used in external surgeries, such as laser eye surgery, but using this technology safely and accurately during minimally invasive internal procedures is difficult. Current endoscopic technology does not permit lasers to be steered and...