FUE hair transplant surgery has become popular in the last decade. So it raises the question: Is FUE the best hair transplant? There are many approaches to hair regeneration in the market, follicular unit extraction (FUE) and follicular unit transplantation (FUT) leading as the most successful, irreversible methods. Both hair surgery techniques have their advantages and disadvantages in preparation and aftercare. FUT Hair transplant Toronto stands out in performance, protection, and patient satisfaction.
FUE vs. FUT Hair Transplant
FUT and FUE hair transplantation is the most widely used techniques when it comes to hair restoration. The stripping method is also called FUT. This is the first aspect of hair transplantation. FUE and FUT supply small individual follicle units for ready-to-use implantation. Both methods work well to restore hair density and to cover balding regions. The excising and preparation of follicles varies between these processes, and this is often the primary cause for the choice of follicular unit extraction. Here we will examine which one is the best for you.
FUT (Strip Method)
The hair transplant team uses the FUT process to extract the donor follicles from a strip of skin and hair is removed from the scalp. it may be located low on the back of the head or at the side If there is denser hair growth. The incision is then closed with little surgical staples. The tiny follicles of the strip are collected by a 2-stage stereo microscopic dissection device. They may comprise 2 to 4 naturally clustered hairs, or they may be single hair grafts. The entire hair root and a small amount of tissue are contained in each little graft. Vast numbers of these grafts will be applied to the receiving region by thin splits in the scalp.
FUE Hair Transplant
Comparatively, the difference between FUE and FUT hair transplants is that the follicles are extracted one by one using a precise rotary punch system. For this procedure, no lengthy incisions are made on the scalp. The individual grafts are removed from a wider donor region and scattered among developing hair, leaves behind micro incisions. Less than 1 mm wide is small extraction holes. The latest FUE hair transplantation systems with digital assistance use robotics components, intelligent technology, and an infrared method to align the punch instrument with greater accuracy and precision. The new FUE devices help mitigate harmful hair follicles, scalp injuries, and scalp trauma.