Intermittent Fasting to Cure Nerve Damage – Healing Practice

Improved recovery from nerve damage through nutrition

Through intermittent fasting and the resulting change in the activity of the intestinal bacteria might stimulate the so-called axonal regeneration, so that the Significantly improved recovery of damaged nerves.

In a recent study involving experts from Imperial College London (UCL) showed that intermittent fasting promotes axonal regeneration following a Sciatic nerve pinch promoted in mice. The mechanism responsible for this is due to a change in the composition of the intestinal bacteria.

The corresponding study results can be found in the English-language journal “Nature“ to be read.

Difficulty regenerating nerve damage

The potential for regeneration of neurons in the mammalian peripheral nervous system is increased following injury by their slow axonal regeneration rate severely restrictedexplain the researchers.

at axons it is regarding nerve cell processes, which are also often referred to as neuraxons. Axons transmit impulses from nerve cells to organs and transport molecules to what is known as the celloma.

Exercise can promote axonal regeneration

Factors affecting the ability to axonalen Regeneration include injury-dependent and injury-independent mechanisms. Non-injury mechanisms also include environmental factors such as movementwhich affect the signaling pathways that promote axonal regeneration, the team reports.

Intermittent fasting affects important signaling pathways

According to the experts, it is also possible several of these signaling pathwaysincluding changes in gene transcription and protein synthesis, mitochondrial metabolism and neurotrophin release, activated by intermittent fasting.

So far, however, it has remained unclear whether intermittent fasting die axonal regenerative capacity influenced.

Improved recovery following sciatic nerve crush

In their study, the researchers have now been able to prove that intermittent fasting favorably influences axonal regenerationat least in mice that had suffered sciatic nerve compression.

According to the team, the effect was due to a mechanism involving the gram-positive gut microbiome and an increase in serum levels of the gut bacteria-derived metabolite indole-3-propionic acid (IPA).

3-indolepropionic acid enhances axonal regeneration

The production of 3-indolepropionic acid by the Clostridium sporogenes bacterium is required for efficient axonal regeneration, the experts emphasize.

It has been shown that the administration of 3-indolepropionic acid following sciatica injury actually significantly improves axonal regeneration and accelerates the recovery of sensory function.

The metabolite 3-indolepropionic acid obtained from the microbiome can Regeneration and functional restoration of sensory axons through a facilitate immune-mediated mechanism.

This realization will hopefully one day help create new and efficient treatment options for people to develop by one nerve damage are affected, conclude the researchers. (as)