Spinal cord injuries are lesions that occur at any spinal cord level. While the strong spinal column bones protect the spinal cord’s soft tissues, vertebrae may still be fractured or dislocated in a number of ways, causing serious injury to the spinal cord. stem cell treatment charlotte nc offers excellent info on this. Spinal cord injuries differ in nature, but almost certainly lead to different types of impaired functioning as the spinal cord is the main conduit for knowledge to pass across the human body, in turn. It is precisely the region of the spine that was injured and the degree to which the spine was affected that would depend on what body functions are compromised by the injury. Although severe impacts such as falls and collisions with motor vehicles account for many spinal cord injuries, tumors developing near the column can also affect sensitive nerve tissue and have the same effects.
What are Therapies for Red Cells and Stem Cell?
Stem cells are present in all multi-cellular species and are distinguished by their ability to differentiate by separating and renewing themselves into a wide variety of specialized cells. They are noteworthy for their ability to regenerate into virtually every other human cell. Their use is now becoming more widespread in the treatment of various diseases and disorders, from Leukemia to Multiple Sclerosis. Depending on the situation, stem cells can be transplanted into the patient to help rebuild and restore previously damaged cells, bringing fresh hope to patients where there was no effective care beforehand.
This theory is also applicable to the treatment of spinal cord injuries using stem cells, except in situations where the patient has not suffered a complete spinal cord injury, i.e. a complete spinal cord severance leading to a loss of function below the point of ‘neurology.’ Helping patients regain greater sensory and physiological capacity has been great success.
Spinal Cord Injury: How Treatment of Stem Cells Works
When trauma to the spinal cord has occurred myelopathy (damage to the fibers that carry signals to and from the brain). Such ‘myelinated fiber tracts’ are the target of stem cell therapy, and are the nerve cells that regenerate as a result of the procedure. The treatment typically follows three stages and generally involves the supervision of medical care for no more than a span of around five weeks:
Step 1, includes stem cell processing. The cells are produced from the umbilical cord of a fetus. They are then placed through a method by which they are isolated and distilled before eventually being cultivated to suit clinical use.
Step two is stem cell transplantation. This happens in one of three ways:
1) Lumbar puncture-a technique used for the injection of stem cells directly into the spinal column.
2) Intravenous injection-stem cells inserted into the vein of the patient.
(3) Injection of tissue-direct injection into target tissue.
Step three requires patient monitoring to ensure that no negative side effects can occur. The lumbar puncture caused the only side effects reported to date, and not the stem cell therapy itself, with just 15 percent of patients experiencing moderate headaches. Where appropriate, patients undergo various physiotherapy procedures and other therapies during the time under medical supervision.