Please wait.'

Page is loading'


Home  > Raw materials & technologies  > Technologies  > Hot-glue gun to adhere injured human tissues

Wednesday, 15 July 2020
pdf
Raw materials & technologies, Technologies

Hot-glue gun to adhere injured human tissues

Monday, 20 April 2020

Researchers at the Technion – Israel Institute of Technology have developed a hot-glue gun to adhere human tissues that have been seriously injured.

Melting the glue and smearing it on the damaged tissue is performed with a hot-glue gun. Image source: Technion – Israel Institute of Technology.

Melting the glue and smearing it on the damaged tissue is performed with a hot-glue gun. Image source: Technion – Israel Institute of Technology.

Medical glue can produce improved medical and cosmetic results. Such tissue bioadhesives are widely used in dermatology, surgical theaters, and in the field. But even though they have advantages over sutures and staples, currently available tissue glues are limited by their mechanical properties and toxicity. Because they are very toxic, they can be utilised only on the surface of the skin. In addition, hardening of the glue may make the organ less flexible or the adhesion may not be sufficiently strong.

With these limitations in mind, researchers have long been trying to develop a glue that is suitable for different tissues, non-toxic, and flexible after hardening. Such a glue would also need to decompose in the body after the tissue is fused together.

In an article published recently in the journal Advanced Functional Materials, Biomaterials Laboratory head Prof. Boaz Mizrahi and doctoral student Alona Shagan introduce a very strong, non-toxic tissue adhesive that remains flexible even after solidification.

The glue quickly hardens and decomposes within a few weeks

Melting the glue and smearing it on the damaged tissue is performed with a hot-glue gun. Unlike the glue guns with which we are familiar, this gun warms the glue to a moderate temperature – just above that of the body – so as not to cause a burn. After the glue is applied, it quickly hardens and decomposes within a few weeks. The adhesive is also suitable for the adhesion of tissue inside the body, and it is four times as strong as existing adhesives used for this purpose. Tested on cells and laboratory animals, it was effective and nontoxic.

The new approach is based on a biocompatible, low-melting-point, four‐armed N‐hydroxy succinimide‐modified polycaprolactone (star‐PCL‐NHS). Star‐PCL‐NHS is inserted into a hot-melt glue gun and melts upon minimal pressure, the team wrote. It is squeezed directly onto the wound, where it solidifies, bonding strongly with both edges of the wound. Changes in molecular weight allow control of adhesive strength, melting point, and elasticity properties. In-vitro and in-vivo evaluations confirm the biocompatibility of this system. The straightforward synthetic scheme and the simple delivery method – combined with the desirable mechanical properties, tenability and tissue compatibility – are desirable traits in wound management.

More information can be found on the Website of the Technion – Israel Institute of Technology.

top of page
Comments (0)
Add Comment

Post comment

You are not logged in

register