Editorial - (2021) Volume 9, Issue 1
Received: 07-Mar-2021 Published: 30-Mar-2021
Medical biotechnology may be a branch of drugs that uses living cells and cell materials to research, then produce pharmaceutical and diagnosing products. These products help treat and stop diseases. From the Ebola vaccine to mapping human DNA to agricultural impacts, medial biotechnology is making huge advancements and helping immeasurable people. Some of the foremost recent uses of biological tech is figure in genetic testing, drug treatments, and artificial tissue growth. With the numerous advancements in medical biotechnology, there are new concerns that arise. From funding to ethics, there are many things to work out and regulate when it involves this fast-paced industry. study the numerous technical biology advancements, and also the concerns surrounding them here. Major medical biotechnology advancements. From cancer research to agriculture advancements, medical biotechnology has many promising avenues of technological growth that has the potential to assist many of us.
Genetic and ancestry kits are popular nowadays, and that they are beneficial for over just helping people understand their genetics and heritage. New studies are showing that saliva kits are able to test for things like carcinoma by watching gene mutations. Certain races are more likely to inherit certain mutations or human diseases, and knowing what races compose your genetic material can facilitate your be prepared. While 23andMe test results shouldn’t be a reason to create decisions about treatments, understanding your heritage and the way that might impact your health is effective. 23andMe is additionally authorized to investigate for a range of diseases including Parkinson’s and Alzheimer's.
CRISPR technology or CRISPR-Cas9, utilizes a protein called Cas9, which acts sort of a pair of molecular scissors and might cut DNA. CRISPRs are specialized stretches of DNA and are utilized in medical biotechnology as a tool to edit genomes. It allows scientists to change DNA and modify gene functions, often called gene-splicing. There are many applications, like correcting genetic defects, treating diseases, preventing the spread of diseases, improving crops, and more. But the science of altering genomes has many ethical concerns surrounding it. From the flexibility to mutate genes, and therefore the unknowns surrounding point mutation, CRISPR may be a controversial area of bioscience. Some new studies even show that perhaps CRISPR technology can create tumors and cancer, with DNA deletions that aren’t controlled or precise. Of course, pharmaceutical companies and other scientific organizations that develop and utilize CRISPR technology are attempting to downplay the concerns and issues, that the reality of the advantages and damage of the technology is somewhat unknown.