Nose2Brain: Better therapy for multiple sclerosis
- Date:
- April 27, 2017
- Source:
- Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB
- Summary:
- Medically active substances are normally distributed via the blood -- either directly by injection into the bloodstream or indirectly, for example through the digestive tract after oral administration. In many diseases, however, it is of decisive importance to transport the active substance as efficiently as possible to the required target site. An example of this is the treatment of multiple sclerosis, where the pharmaceutical agents have to produce their effect above all in the central nervous system. However, this is especially difficult to achieve in the usual way via the blood due to special protective mechanisms such as the blood-brain barrier.
- Share:
Medically active substances are normally distributed via the blood -- either directly by injection into the bloodstream or indirectly, for example through the digestive tract after oral administration. In many diseases, however -- for example of the central nervous system -- it is of decisive importance to transport the active substance as efficiently as possible to the required target site. An example of this is the treatment of multiple sclerosis, where the pharmaceutical agents have to produce their effect above all in the central nervous system. However, this is especially difficult to achieve in the usual way via the blood due to special protective mechanisms such as the blood-brain barrier.
Through the nose direct into the brain
Within the scope of the EU-funded "N2B patch" cooperative project, Fraunhofer IGB is therefore participating in the development of a medical form of therapy that delivers the drug via the Regio olfactoria. The aim of this alternative approach is to enable an active substance to circumvent the path through the bloodstream and to reach the brain directly. Here the brain, together with the surrounding liquid, is only separated from the nasal cavity by the ethmoid bone and some cell layers. The active agent can easily penetrate this barrier and reach the brain directly taking a short route. The therapeutic system will consist of the active agent itself, of a formulation containing the active agent, a hydrogel as carrier material for the formulation, and a suitable applicator for inserting the patch in the nose. The active agent is a biomolecule that stimulates the regeneration of nerve cells.
In the project the scientists at Fraunhofer IGB are concentrating on the formulation of the particles containing the active agent, and on inserting these particles into the gel. The project consortium is developing a special applicator to introduce the gel into the nose. The device is a combination of a standard endoscope and a special mixing system. This system is necessary as the target site is difficult to reach and an already solidified gel could not be deposited in the correct place. The liquid precursors of the gel therefore have to be transported separately to the olfactory epithelium inside the nose. There the various components combine to form a gel with the required consistency, so that the patch remains securely in place.
As the olfactory epithelium is difficult to reach, the gel patch should be applied by a doctor, not by the patients themselves. The active agent will then be released over an extended period of time, so there is then no need to remove the patch again. A new one is simply inserted in the case of long-term treatment.
EU funds Nose2Brain project for four years
The N2B patch project is supported financially by the EU within the scope of the tender procedure "Biomaterials for diagnosis and treatment of demyelination disorders of the central nervous system." A total of eleven partners from research and industry are participating in the project, which is scheduled to last four years and will be completed at the end of 2020. The special focus of the participating researchers is on the treatment of multiple sclerosis; however, they also hope to develop other fields of application for the N2B platform.
Story Source:
Materials provided by Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB. Note: Content may be edited for style and length.
Cite This Page: