Medication first has taken the start in 1995 and was called lollipops distribution. It was first used as a treatment for a cancer. Distribution often has been associated such as cancer drug since 1960 but today it's called medication. Nowadays there are various types in medication such as drug delivery systems, biochip 's, tissue engineering, artificial skin for burn patients, tissue engineered trachea and blood vessels, etc. This essay will describe tissue engineering in medicinal technology.
With the development of advanced technologies especially in the field of micro- and nanotechnology, tissue engineering now more and more overlapping with medication, as they share the most commonly used applications. General description of the method for tissue engineering include implantation of isolated cells, tissues including biologic and cell products into the body, with or without the use of synthetic AD structures generally referred to as the matrix. Nanotechnology is used to create the informers, Anna patterns to simulate the native tissue as bimetallism.
There are many methods and techniques that are used in engineering such as Electroplating, Soft lithography, Photomicrography, Macroeconomic printing. The most interesting technique is to create a synthetic single body. Swedish surgeons carried out first in the world transplant of a synthetic body. London scientists have deduced a unique technique to create a completely synthetic trachea created on the matrix and in consequence coated with stem cells from the patient. It is very important that this technique does not require the donor and there is no risk of rejected.
Also, surgeons underline that the windpipe can be done in a few days. This is confirmed by the fact that Underarm Tessellates Been 36 year old cancer patient feels well one month after the operation. Professor Paolo Machine from Italy said it now hopes to use the technique for the treatment of the nine m old child in Korea who was born with a malformed windpipe or trachea. Also, this operation can save the lives of over 10 patients who expect this operation. The m point of this technique is modeling through the AD scans an exact copy of his owe trachea of the patient which eliminates the need for a donor organ.
This carcass then delivered in Sweden laboratory and soaked in a solution of stem cells derive from bone marrow of the patient. After two days, millions of holes in porous tract were seeded with the patient's own tissue. During the 12-hour operation Profess Machining removed all of the tumor and diseased trachea and replaced it. And t is important, Mr. Benzene's body will accept it as their own, that is, he will not need take strong anti-rejection drugs that other transplant patients have to.
Professor Machining said it was a real breakthrough in regenerative medicine. To sum up, medicinal technology such as tissue technology has become more popular for modern regenerative medicine. Today every patient in diseases such as cancer windpipe may have a chance of recovery without any consequences such as lifelong rugs. At the same time there should be support from the government to develop nanotechnology in medicine such as financial support, exchange of experiences among scientists and conducting more shared research in this area.