Alzheimer’s Disease

Alzheimer’s disease is the most commonly observed neurodegenerative disorder associated with memory loss

and difficulty with cognitive functions of the body. It can be referred to as an adverse form of dementia that progressively worsens due to the degeneration or death of neurons. Age and genetics play the key role in disease manifestations, although risk factors include the growing age of the person and family history of the disease.

The diseased brain reveals proteins known as Plaques which interfere with the signaling mechanism and lead to damage of brain cells. Plaques observed in dying cells from the accumulation of Beta Amyloid proteins results in the deposition of tangles between the axonal regions of brain cells. These depositions can delay or halt the signaling process and due to the loss of function, the neurons become weak, and the disease progressively leads to loss of neurons and shrinkage of the brain.

Treatment of Alzheimer’s Disease at Cellebration Wellness

At Cellebration, we have mastered the technology for isolating the maximum number of viable stem cells from either the autologous sources of your own body or allogeneic with the matched donor to treat various patients with Alzheimer’s. 

We isolate and enrich the viable cell stems which will be infused into the patient. These cells are administered through one of two methods after a considerable analysis of the patient’s unique history.

Stem Cell treatment for Amyotrophic Lateral Sclerosis involves administration of concentrated cells in 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 thorough analysis of the patient’s unique history.

Intrathecal Administration

In this mode, cells are infused in the cerebrospinal fluid through the subarachnoid spaces of the spinal canal.

Intravenous Administration

In this mode, cells are infused through the veins to expand blood volumes in the system, to ensure that the maximum number of cells reach the targeted area.

Infused back into the body these cells can be repopulated at the damaged parts of the brain. Through their strong paracrine effects, they differentiate into neurons or other damaged supporting cells to improve motor functions in the brain. Thus, with our highly specialized approach, it is now possible to obtain noticeable improvements in patients with Alzheimer’s as well as improving functional abilities.

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