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Exploring the mystery of aromatherapy through biotechnology

Aromatherapy was born in ancient Egypt. About a hundred years ago, a French pharmacist used an innovative method that resulted in a breakthrough in aromatherapy techniques. In recent years, under the powerful promotion of Sathelyne Group, Bel Air has been created for many consumers.

For centuries people have come to realize and recognize that essential oils have many benefits. Essential oils can help combat bacteria and other illnesses, suppressing mosquitoes, preventing caries, fighting oxidation, inflammation, and even boosting the immune system, calm nerves, and so on. Too.

But with so much essential oil, will it be beneficial? What are the safest ones? These are questions that researchers still can not answer exactly.

Since 2002, Bel & # 39; s air in France, our factory has been interested in testing the safety and effectiveness of essential oils. In connection with these concerns, Bel Air cooperated closely with Professor Tsai at Taiwan's National Yang Ming University to set up our own Bel Air & Bio-tech Research Center. Professor Tsai Ying Chieh, Head of National Yang Ming Biotechnology Department of Taiwan, and Head of Department of Medical Sciences at Yang Ming University of Taiwan. He emphasized that interest in aromatherapy research is reinforced by the fact that research and academic publications are scarce. The Bel Air Bio-tech Research Center hopes to reinforce the foundations of botanical essential oil research and further explore essential oils and their different properties, effects and benefits. Professor Tsai hopes to share knowledge with international institutions and publish academic papers. However, the aim is to educate the public about aromatherapy

The Effects of Essential Oils on Airborne Microorganisms

The Bel Air Bio-tech Research Center conducted a research program between August 2000 and September 2002 to determine whether green tea is an essential oil, ginseng essential oil, eucalyptus essential oil and lavender essential oil affect the amount of microorganism (mold, yeast, fungus, bacteria) in the air. Researchers have conducted Green Tea Essential Oil, Ginseng Essential Oil, Eucalyptus Essential Oil and Lavender Essential Oil. These 4 types of essential oils were burnt in a closed room and recorded at different time intervals. At the start of the experiment (0 minutes), during the experiment (30, 50, 70, 90 minutes) and after the experiment (30, 60, 90, 120, 150, 180, 210 minutes). The experiment was repeated several times on air samples of 500 liters. The results of the experiment have shown that:

Green tea has 90% efficiency in destroying bacteria; and 61% efficiency during fungus.

Ginseng has 90% efficiency in destroying bacteria; and 62% efficiency in killing mushrooms.

Eucalyptus has 52% and 48% efficacy for the above items.

Lavender has 66% and 71% efficiency as the above items.

Professor Tsai expressed excitement and interest in such results because the experiment proved that the Aromatherapy Products at Sathelyne Bel Air would indeed be able to attack the microorganisms in the air, thereby purifying the air. He also said that although the effectiveness indicators of mushrooms appear to be low, this is desirable, as this would mean that it would not be harmful to the body.

After obtaining such positive and encouraging results, Bel & # 39; Air is doing even more difficult work in Experiment 2. This program analyzed and recorded in detail the chemical composition of the five basic essential oils and carried out tests to determine their chemical and biological safety.

Professor Tsai carefully selected ginseng, green tea, green beans, lotus and eucalyptus as 5 essential oils for the experiment. The reason for such selection was that the first fourth essential oil plant in the East, which did not carry out enough research in the West. Selection of eucalyptus was to serve as a test reference for the second experiment

Chemical and Biological Safety Experiment

Experiment 2 went through the following steps:

GC-MS uses these chemical compositions as 5 essential oils.

Based on their unique chemical composition, the safety of the use of essential oils was analyzed.

Using GC_MS, the after effects of these essential oils are determined, regardless of whether any byproduct or toxin is generated in the combustion process.

Using Ames Test to Test These Before and After Changes of Essential Oils

Use of Skin Cells, Fat Cells, and HepG2cancer Cells to Determine the Effects of Essential Oils

Find out how these essential oils affect bacteria and kill microorganisms , such as mold, yeast and fungus (MIC).

The results of Experiment 2 have shown that these essential oils are of a composition that is mild, low toxins, does not irritate the skin and exhibits low light sensitivity. The Ames test has also proved that these essential oils do not undergo significant changes before and after the firing process. It is much more encouraging that prior to the test, these essential oils already contained preferred compositions, but after the test, these beneficial compositions have come into the air, and these organisms are exactly needed. In addition, the body is not easy to absorb these preparations in our daily activities.

Experiments conducted by Bel Air and Yang Ming University have achieved positive results and we hope that there will be more such attempts in the future

Biotechnology aims at using aromatherapy medicine

Plant essences and their scientific application, their methods of production and relevance to health care and health care

2. Definition of terms and operating models

3. Aromatherapy in the realm of medical treatments.

4th The use of modern methods of producing new medicines for the development of aromatic medicine

  • Published On : 4 years ago on March 19, 2018
  • Author By :
  • Last Updated : March 19, 2018 @ 8:18 pm
  • In The Categories Of : Uncategorized

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