An Introduction To Regenerative Medicine

Regenerative medicine holds the promise of becoming more regenerative than either palliative or symptomatic care. This makes for clinical effects that were already difficult to obtain. Moreover, regenerative medicine provides the possibility of less harmful adverse effects than current drugs and treatments, since it incorporates existing mechanisms of human biochemistry.Check out QC Kinetix (Austin) for more info.

Today our ability to regenerate compromised tissues and organs depends on three different categories of interventional approaches:

Medical devices / artificial organs in which the role of tissue is substituted by fully engineered structures and machines;

Tissue engineering and biomaterials, utilising temporary scaffolds to cover wide tissue gaps;

Cell therapies include stem cell transplantation and genetically engineered cells to restore weakened or diseased tissue.

Nowadays, where projected life goes hand and hand with quality of life, the approach is extremely significant. The number of patients needing a lifesaving transplant continually exceeds the amount of organs eligible for donations, and the possible promise of Regenerative Medicine to address this scarcity issue.

The matching of the cells of the organ with the patient also solves another bad problem which complicates many more transplant procedures: rejection of the organ.

Earlier in this post, I quickly touched on rejection.

Rejection is warded off by the reality that cord blood can be injected back securely without the individual’s immune system being damaged.

Studies are also ongoing to utilise cord blood stem cells in treating diseases like head injury or type 1 diabetes while some therapies remain under study while testing, such as strokes and hearing loss.

The situation of the Central Nervous System is especially fascinating. Studies carried out in animal models have shown that cord blood stem cells may move to the region where brain damage is concentrated, thus dramatically decreasing the harm. Injection of human cord blood stem cells into animals afflicted by extreme strokes has facilitated the development of new arteries and neurons inside the brain.

Even, as a parent for a few months, I’ve been interested with a modern preventive initiative lately, that I’d really name a kind of protection “keep your lifejacket in a secure spot,” assuming you’ll never use it in the future!

I am referring to the cryogenic store in specific holding banks of cord stem cells. So far a broad variety of medicinal applications can be protected, including self-care, heterologous or allogeneic care, HLA and family use.

Since science is making tremendous strides in this, I think it is fair to expect that in the near future more and more advanced therapies will be introduced as well as changes to current ones.

It’s close to getting auto insurance if you want, assuming nothing terrible would really happen and feeling happier or less sorry when anything negative really does.