Fighting Snake Bites with Stem Cell Therapy | Dr. David Greene R3 Stem Cell

The human race has been boosted with the unbelievable speed of the technological revolution. Every day we wake up, there are many discoveries and inventions already done in just a single day, and that’s where we can say that we can win over almost everything now. But like everything else, this advancement brought some cons with it. For example, many diseases and viruses came into the picture 2-3 decades. Some are easily curable, and patients could be within a few months, but some are considered untreatable and destroy hundreds of thousands of lives every year. That’s when we understood the potential and future of stem cell therapies. Stem cells are at the forefront in alternative medicine, as they can regenerate tissue of any type while regenerating to health. With the advancement of stem cell research, scientists continue to demonstrate stem cells' capability to help treat many modern disorders, one of which is fibromyalgia.

This therapy is not just limited to stem cells. You can have stem cells or bone marrow transplants done for various reasons such as leukemia, certain blood disorders, certain cancers, and congenital immunodeficiencies. This treatment is also safe and effective. This is proven by the fact that stem cells and bone marrow transplants are the first line of therapy for specific disorders on the list and have a success rate of over 80% in the treatment. Dr. David Greene R3 Stem Cell is an orthopedic surgeon and researcher developing safer and effective stem cell therapies. Regenerative therapies such as stem cell therapies are the key to a better and robust future for humans. These therapies are believed to cure most incurable diseases, which are deadly and kill millions of people every year worldwide.

Stem cells are cells that are also able to transform into other specialized cell types. The cells can divide and develop into specialized cells and are in charge of repairing organs and tissues that have been damaged. However, these cells have the ability to heal several diseases. In fact, they can also be used to halt the cycling of depressive episodes and reverse age-related diseases. 

Despite accelerated technological advancements, stem cell research still relies on the old-fashioned technique of culturing stem cells in a lab before being turned into mini-organs and transplanted into patients. This technique is time-consuming and difficult to perfect. Therefore, it is important to get a snakebite treated as soon as possible. A recent study on humans has given new hope of treating snake bites with stem cells. They have been found to be helpful in both the immune system and the damage caused by snake bites. The research on this topic will be on the watch list for several years to come. Each year, there are over 2 million cases of snake bites worldwide, and just because of the absence of proper medication and treatments, over 100,000 patients die every year. Three times of that get permanent physical and mental disabilities. The organization of Dr. David Greene R3 Stem Cell has such people who are developing stem cell therapies with more-effective and less-costly methods.

For the first time, scientists have succeeded in deriving three-dimensional mini-organs, also known as, Organoids from stem cells. Then they realized that they could grow venom-producing mini-organs in the lab. They dismember glands of venom from about nine species of venomous snakes, and using stem cells found in salivary glands of snakes; they grew these organoids. Contrastingly, the organoids created in the lab contained such cells that can secrete active venom. Different species show different effects of poison on their muscles and neurons. Afterward, researchers had also observed that the venom they derived from the organoid was very similar to the original one milked from snakes. Researchers hope that biobanks of snake gland organoids will be the most efficient way of recapitulating the wild-type snake gland’s part in the life, death, and reproduction of snakes, enabling them to experiment, test, and learn by keeping snake biology alive without the need to go out into nature and handle live snakes.

The snake genome has been sequenced—meaning a complete map of the sequence of all the genes in the snake genome has been created. With this knowledge, scientists can manipulate the genome of the snake and produce more types of venom than the individual snakes can produce naturally. The challenge is that each snake is unique. Organoids, on the other hand, is made up of identical cells, which allows for more intervention in the recipe. A biobank of venom organoid cells amassed from a population of snakes could provide researchers a more significant opportunity to study snake venom’s role in diseases and potentially identify new treatment strategies. Organoids are smaller versions of the body comprised of a single cell and are mainly capable of reproducing somatically.