Potential Target Identified for Treating Skin Fibrosis
Bengaluru scientists have now discovered a new player involved in the development of scleroderma or skin fibrosis: a molecule called Fibulin-5.
Bengaluru scientists have now discovered a new player involved in the development of scleroderma or skin fibrosis: a molecule called Fibulin-5.
‘The study results open new therapeutic perspectives for the topical treatment of skin fibrosis characterized by excessive collagen deposition.’
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When an electric field is applied around a tumour, it “permeabilizes” the cells locally and temporarily. This permeabilization ensures, for example, the massive entry of anticancer molecules into cells and tissues, which reduces the amount of doses injected into patients and limits side effects: this is the hospital-based approach of electrochemotherapy that has been used to treat skin tumours since the 1980s. Interestingly, physicians using this method, and for that matter the patients themselves, have observed an aesthetic and functional healing of the sites treated in this way. However, the mechanisms behind this observation had never been elucidated.
A research team, involving researchers from the CNRS, the Université Toulouse III – Paul Sabatier and Toulouse INP, used a highly sophisticated synthetic skin model, especially used to treat large burns. This artificial skin model has the advantage of being rich in extracellular matrix, comparable to human skin in terms of composition and organization. This matrix is mainly composed of collagen, well known in cosmetics for its role in the skin’s mechanical properties. Collagen, like the whole extracellular matrix, is finely regulated, in particular by its degradation by specialized enzymes which prevent it from being in excess. If this balance is disturbed, the matrix reaches a pathological or disease state, as is the case with fibrotic or hypertrophic scars, characterized by excessive collagen deposition.
Novel Way to Slow Skin Fibrosis in Scleroderma
A possible mechanism behind the fibrosis that occurs in scleroderma has been identified by researchers.
A possible mechanism behind the fibrosis that occurs in scleroderma has been identified by researchers.
The application of an electric field to the skin therefore presents a great potential for future therapeutic use in the treatment of skin fibrosis.
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Quiz on Skin Infections
Skin infections are caused by bacteria, viruses, fungi or parasites. Factors such as injuries, poor hygiene, humidity, and weak immune system increase risk of skin infection.
Skin infections are caused by bacteria, viruses, fungi or parasites. Factors such as injuries, poor hygiene, humidity, and weak immune system increase risk of skin infection.
Artificial Intelligence can Now Diagnose 134 Skin Diseases
Artificial Intelligence (AI) can now diagnose 134 skin disorders. The newly developed AI can support medical professionals in diagnosing and predicting treatment options accurately.
Artificial Intelligence (AI) can now diagnose 134 skin disorders. The newly developed AI can support medical professionals in diagnosing and predicting treatment options accurately.
