Exciting Development In The Sector Of Biotechnology
Evolution of technological growth is at its peak and every day is coming you with new and more effective approach for the betterment of society. Biotechnological growth is one of the greatest examples of this transformational world and is continuously enhanced with the latest innovations, breakthroughs and developments. As per the studies conducted in the sector of biotechnology it is depicted that upcoming five years will come with approx. 400% advancements and improved solutions.
Few breakthroughs and achievements in the sector of biotechnology are listed below:
For delicate medical analysis a sophisticated technology was required which can detect certain health conditions immediately and can report the doctors and as a solution biotechnological advancements has offered biosensors. With the help of biosensors, monitoring of blood pressure, pulse rate, body temperature, breathing, etc. It is making medical sector more sensible and swift too.
3D bio printing is one of the biggest achievements in the sector of biotechnology. With this technology, medical sector is able to save a number of live and assist folks in regaining their day to day life. 3D bio printings are not less than a revolution in this sector and enable us to create various human body parts using living cells, such as skin, heart valves, etc.
Folks in present era are highly concerned about the material they are using in their day to day life. In past few year plastics is one of the most used materials. As per a study conducted recently, it is depicted that approx. 12.7 million tons of plastic is entering ocean every year and this material is very robust which takes several days to be decomposed and also it’s decaying add pollution in the environment. Bioplastics is one of the breakthroughs for these issues which are becoming greatest replacements for plastics. These bio plastics are developed using organic material and are also degradable.
Applications of Environmental Biotechnology
Technological growth has given a new world to live and every single folk is enjoying the rapid advancements and its applications but somewhere we are ignoring the after effects of such developments. Most the adverse effects of technological and other developments are noticed on environment. Each successive day, the amount of pollution in the atmosphere is getting doubled. Pollution is not only effecting pollution but also effecting human lives. As a solution, environment biotechnology is emerging as a boon to restore the quality of our environment.
Let’s understand what environmental biotechnology is?
There are certain procedures which are incorporated to retain the environmental quality. This is done by detecting the pollutants and finding best remedies for it. The major that causes pollutions are in three different states, solid liquid and gas. If these substances causing pollution can be resolved then a great difference can be brought in the environment. Environmental biotechnology offers best ways to purify pollutants and recycle it with harmless substances.
Biotechnology is one of the fastest growing sectors and it is having a great impact in environmental development and damage healing.
Application of environmental biotechnology:
To sustain the development of life and living being, environmental protection is mandatory. With the continuous growth of population, the consumption of various energy sources are depleting at a fast pace. Hence to secure our world and provide a new source of energy biotechnology has a great role.
Purification of pollutants is a basic need of our globe to survive a healthy life. But the methods used for the purification of pollutants present in the environmental aspects were having adverse effects and were disturbing life in several ways. Biotechnology has given a new and natural method to detoxify the pollutants, such as use of micro-organism for the purification methods, especially for the detoxification of soil, water, and other sediments. Distinct technologies developed for achieving these objectives are termed as bio reclamation, bio treatment, and bio restoration.
Importance of Cell biology
Falling ill in our day to day life is a commonly seen scenario. In a day approx. 30% of folks feel sickness due to some or other problem related different body parts. Few of those are well familiar, having proper vaccine and treatment but few are really novel to treat it with existing treatments. Do you know, most of the health disorders are related to body cells or molecules? In order to understand various diseases properly and to find the best treatment, cell biology is a crucial factor. Either you talk about malaria or diabetes, cystic fibrosis or types of cancer, almost are caused due to cell or molecule level disorder. By understanding the cell activities and mechanism, cell biologist can determine the issue and are able to find the most potent and effective treatment.
What’s new in the medical sector?
Sudden change in the health conditions are troubling human lives. It restricts daily life schedule too, but it can be sorted to a great extent by predicting health conditions. It is now possible with the help of cell biological advancements. It allows experts to determine the health condition of a folk by studying their genetic information. With this technology you can be preventive for your health by taking apt precautions.
Cell biology has got a rapid growth in the medical sector and it has proven one stop solution for even human fertility issues. Cell biology is also effective in plants that give the best alternatives to clone crops and modify it with latest techniques. With the help of biotechnology, quality of food can be enhanced and prices can be reduced.
For medicine use also biotechnology is playing a great role. With the help of growing technology more effective medicines are prepared. Now with the cell study medicines can be developed based on several health conditions.
Antibiotics & Vaccines: A gift of BioTech
World has gone digitized, super swift, high tech, and a lot more advancement has been witnessed by the folks of present era, but also we are in the lap of a number of health issues that are restricting folks to lead their healthy and happy life. Along with the growth in various general life aspects, health issues are also strengthen by some or other means. Earlier also our world was facing such medical issues but the intensity was comparatively lower than present scenario. Hence, the antibiotics and vaccines used in the earlier life are now worthless. Now the present medical scenario demands a better and stronger medical facilities and treatments. Biotechnology has got solution for all these issues, as it offers the most advanced technologies for developing the most effective and harmless medical solutions. As compared to traditional times, now the ways of antibiotics production has been changed a lot and hence have got a number of better medical solutions.
As the objective of antibiotics is to hinder the continuous growth of cells, hence cell immobilization is the key solution provided by microbiology to uncouple the growth of cells. For the production of antibiotics, secondary metabolism is one of the greatest methods offered by microbiology. For the antibodies production, various immobilization techniques have been tried. The biggest challenge infront of medical sector was a body part replacement. With the help of biotechnology, a new ray of hope has been discovered. Knee replacement, hip replacement, and hip revision surgery are the latest technologies which are responsible for bringing the medical sector to the peak of success.
Methods used for antibiotics development are natural fermentation, semi synthetic, and synthetic. In fermentation procedure, microorganisms are grown in large containers with a liquid growth medium with a precise amount of oxygen concentration, pH level, etc. In semi synthetic procedure the fermented metabolisms are then enhanced in the laboratory using various chemical reactions. Above mentioned both antibiotic production methods use bacteria but synthetic method is completely developed in lab using various chemical combinations.