An innovative new nanomedicine has been developed that wraps up tumours in a micromesh net, conforming to the surface of tumor masses and efficiently delivering drugs.
The scientists at the IIT (Istituto Italiano di Tecnologia (Italian Institute of Technology) who developed the mesh described it in the journal Nature Nanotechnology.
Brain tumors are rare but they are some of the most aggressive and difficult to treat. In particular, glioblastoma multiforme (GBM), which is a grade 4 glioblastoma has the most severe prognosis: the average survival is just over 12 months and only 5% of the patients survive beyond 5 years.
GBM typically affects men and women between 45 and 75 years of age. Furthermore, unlike other malignancies, there has been no significant diagnostic and therapeutic improvements for this malignancy over the past 30 years. In fact, both the incidence of new cases and the number of deaths has remained practically unchanged. The only therapeutic strategy currently used is based on surgery, which consists of removing a part of the tumor mass and reducing intracranial pressure, followed by radiotherapy and/or chemotherapy.
The biomedical system developed by IIT and its collaborators can play a very important role in the fight against the disease, representing a possible effective alternative to the few pharmacological treatments used to date.
The microMESH is a micrometric-scale polymeric net, made from biodegradable materials and wraps around the tumour mass, enclosing it. In fact, the micrometric thick polymeric fibers are very flexible and are arranged to form regular openings, which are also on the same scale as cancer cells. This unique feature allows the microMESH to achieve a closer interaction with the tumor mass, increasing the therapeutic efficacy.
Its structure consists of two separate compartments in which different drugs can be loaded which are released towards the tumor mass in an independent, precise, and prolonged fashion. Combining different therapies: chemotherapy, nanomedicine, and immunotherapy enables the microMESH to ‘attack’ glioblastoma.
This work has been carried out by a team led by Prof Paolo Decuzzi, head of the IIT Laboratory of Nanotechnology for Precision Medicine, in collaboration with the Neural Stem Cell Biology Laboratory of Dr Rossella Galli at the San Raffaele Hospital in Milan and a team led by Prof Gerald Grant at the Lucile Packard Children’s Hospital of Stanford University.
The group will continue to develop the microMESH by integrating different types of drugs and therapies to tackle other types of tumors. In the short term, their major objective will be to validate the technology on glioblastoma patients.
Source: News-Medical.Net
Journal information: Mascolo, D. D., et al. (2021) Conformable hierarchically engineered polymeric micromeshes enabling combinatorial therapies in brain tumours. Nature Nanotechnology. doi.org/10.1038/s41565-021-00879-3.
