Stem cells are the body’s integral healers, which can maneuver damaging conditions and cellular loss by producing a new cellular system. Studies have identified stem cells to be potent enough to differentiate into multiple lineages, in order to contribute to functional restoration of specified organs.
Traditional treatments can only target rehabilitation and not the underlying cause of concern. Stem cell therapy can offer tremendous hope in addressing the challenges in disease reversal and stop disease progression. Through our advanced technology it is now possible to isolate stem cells from two of the richest sources of our body, such as adipose tissue and bone marrow.
At Cellebration, we have mastered the technology for isolating the maximum number of viable stem cells from either the autologous sources from the patient’s own body or allogeneic with a matched donor to treat various patients with Neuropathy.
Stem Cell treatment for Neuropathy involves administration of concentrated cells into the targeted area to form colonies, adapt the properties of resident stem cells, and initiate some of the lost functions that have been compromised by the disease or injury.
These cells are administered through one of two methods after a considerably analysis of patient’s unique history.
In this mode, cells are infused in the cerebrospinal fluid through the subarachnoid spaces of the spinal canal.
In this delivery mode, cells are infused into the peripheral veins to expand blood volumes in the system, to ensure that the maximum number of cells are reaching the targeted area.
Once infused back in the body, these cells can be repopulated at the damaged parts of the neural system. Through strong paracrine effects, they differentiate into lost or damaged neurons and improve the supply of blood or help in production of supporting cells to improve the functioning of the neural system. With our standardized, broad based and holistic approach, it is now possible to obtain noticeable improvements in patients with Neuropathy for symptoms as well as their functional abilities.