The Insulin medicinal plant can be planted anywhere on earth, in wet or dry climate in our country is produced successfully in the Amazon region, in the valleys and basins of the inter-Andean region and Sierra and further in the region of the coast or Costa and Insular Region or Galapagos. This plant produces leaves, stems, and adipose tissue to heal more than 200 diseases and through research has found that treatment with good results, bone pain (arthritis), the liver and kidneys, pancreas, also regulates cholesterol, triglycerides, relieve and cure diabetes, making blood circulation to normal. The leaves and the different organs of this plant has been used in medicine in India to improve diabetes, numerous clinical studies show that the leaves lower levels of blood sugar (glycerin) and increases free insulin. For more information see this site: Martin Scorsese. The production of 1 metric ton signals costs about $ 500 million in the case of humanized insulin, but in the case of insulin obtained from plants alone would be $ 100 million. Moreover, experts estimate that current costs can mean a patient can be about $ 60,000, while the price of insulin from plants as our project proposal vegetable insulin could be reduced to about $ 6,000. Insulin is obtained from the plant the following products:? Ground dried leaf tea in bags of insulin. Whole dried leaf and dry in bags or boxes.
Peel fresh vegetable insulin. Preparation of pancreatic juice injection? Preparation of purified extract of insulin. Production of vegetable protein synthesized insulin. Production of protein hormone insulin by growing bacteria. Humanized insulin production. Production of recombinant proteins for purification.
Production of many proteins with lengths ranging from 9-1000 amino acids. Production protein structurally simple or complex. Production of subunits with disulfide bridges (as in the case of insulin). Production of inhaled insulin. Production of insulin pills. Godfellas brings even more insight to the discussion. Production of proteins such as Apo A1. Edible vaccine production base of the corresponding immunogen. The project proposal planting 28,000 hectares of vegetable insulin, is to meet:? World demand is 14 MT per year. Produce 1 MT of vegetable insulin costs $ 100,000 000 USD. 4,000 kilos of insulin producing plant is equal to planting 8,000 hectares. Produce a TM (1000 kg) of insulin plant is equal to planting 2000 acres. Produce 14 MT (14,000 kg) of insulin plant is equal to planting 28,000 hectares. Scientists estimate that within 10 years will be able to meet one third of world demand for insulin, some 5,000 kg. By cultivating 8,000 hectares of safflower seed (GM). It is proposed that this project provides the field growing raw vegetable insulin CIAR hand without genetic engineering. GENERAL PROJECT OBJECTIVE: To produce material for the extraction of insulin, it will be marketed with the Indianapolis extraction plants in the United States with the British in physiological laboratories Lilly Co., as well as the University of Toronto who are “pioneer in the mass production of insulin thus making our country a leader in its cultivation and planting of vegetable insulin. SOCIAL IMPACT, ENVIRONMENTAL result is expected to avoid damage to the environment both during the deployment and operation, to perform ongoing evaluation of the activities undertaken during the above phases, a description of works and project activities are: Seed Project? Treatment and Recovery – soil conservation, using organic materials. Forest management and utilization of primary and secondary cultivation of insulin. Planting and mane of cultivation techniques agro ecological practices.