therapeutic action: controlled drug release

Processes of Obtaining Nanostructured Materials with a Hierarchical Porous Structure on the Example of Alginate Aerogels

mycolabadmin

Scientists created lightweight, sponge-like materials called aerogels made from alginate (a substance derived from seaweed) with special internal structures. They tested three different techniques to create these structures: using soap-like surfactants, using a plant protein called zein, and using pressurized carbon dioxide. Each method produced materials with different pore sizes and characteristics, making them suitable for different medical applications like delivering medications slowly or growing cells for tissue repair.

Read More »

Graphene nanomaterials: A new frontier in preventing respiratory fungal infections

mycolabadmin

Fungal lung infections are a serious problem, especially for people with weak immune systems. Researchers are exploring graphene nanomaterials as a new treatment approach that can deliver antifungal drugs directly to infected areas in the lungs. These tiny particles work by creating toxic stress inside fungal cells and breaking down their protective biofilms, while using smaller drug doses and causing fewer side effects than traditional treatments.

Read More »

Graphene nanomaterials: A new frontier in preventing respiratory fungal infections

mycolabadmin

Scientists are exploring nano-graphene oxide, a microscopic material made from graphene, as a new treatment for serious lung fungal infections. These tiny particles can kill fungal cells through multiple mechanisms and deliver antifungal drugs directly to infection sites while reducing harmful side effects. Researchers found that graphene oxide can be combined with existing antifungal medications to make them work better and even help overcome drug-resistant fungal infections.

Read More »
Scroll to Top