Transplant Homostatic

Homostatic grafts (HTS) are biological materials that are used to restore damaged or missing tissues or organs. They are made up of cells and tissue taken from donors and are typically used to replace or repair tissue that cannot be repaired naturally.

One of the most common types of homostatic grafts is a bone graft, which is used to replace bone after injury or illness. Bone grafts can be obtained from a variety of sources, including the donor's own bone, bone from another organism, or synthetic materials.

Bone grafts have a number of advantages over other types of grafts. They provide strong support and stability to damaged bone and can also promote bone tissue repair. In addition, bone grafts have good compatibility with the body and can be easily integrated into the surrounding tissue.

However, like any other type of graft, bone grafts can also cause complications. The most common complication is infection, which can occur due to contamination of the graft with bacteria or viruses. In addition, there may be problems with graft survival and integration into the surrounding bone.

In general, homostatic grafts are an effective tool for restoring damaged tissues and organs. However, before using transplants, it is necessary to carefully evaluate the patient and evaluate the risks and benefits of this treatment method.



Homostatic grafts.

Transplantation is one of the most effective methods of treating various diseases associated with dysfunction of organs or tissues. It allows you to replace damaged or missing organs or tissues with new ones obtained from a donor. One of the most common types of transplantation is homostatic transplantation.

Homostatic transplantation refers to a group of transplantations in which donor tissue is connected to the recipient without removing the donor tissue. This type of transplant is especially effective in cases of tissue damage that cannot be repaired by other treatments, such as conservative procedures or surgery.

The process of homostabilization transplantation includes the following stages:

1. Removing the patient's organs and cleaning them. 2. Cleaning of donor organs and tissues. 3. Selection of compatible tissues and preparing them for transplantation. 4. Connection of donor tissues with recipient tissues. 5. Monitoring the healing process and restoring the functions of the transplanted organ. With transplant Homostasis, 2 main criteria for donor tissue compatibility are taken into account: HLA systems and tissue compatibility. This ensures an effective transplant response and reduces the risk of graft rejection. In the process of mastering medical care in Russia, he encountered situations when patients came to me wanting to undergo a “Homostatic” transplant.

After conducting a conversation with the person and a detailed explanation of the essence of this operation, which turns out to be technically not uncomplicated, but extremely responsible, I receive an answer that this is absolutely not suitable for them. After which they refuse transplantation and begin to look for other medical specialists. Thus, undermining trust in doctors and medical institutions.