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Surgical procedure in which tissue is transferred with intact blood supply From Wikipedia, the free encyclopedia
Flap surgery is a technique in plastic and reconstructive surgery where tissue with an intact blood supply is lifted from a donor site and moved to a recipient site. Flaps are distinct from grafts, which do not have an intact blood supply and relies on the growth of new blood vessels. Flaps are done to fill a defect such as a wound resulting from injury or surgery when the remaining tissue is unable to support a graft, or to rebuild more complex anatomic structures like breasts or jaws.[1][2]
Flap surgery | |
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ICD-9-CM | 86.7 |
Flap surgery is a technique essential to plastic and reconstructive surgery. A flap is defined as tissue that can be moved to another site and has its own blood supply. This is in comparison to a skin graft which does not have its own blood supply and relies on vascularization from the recipient site.[2] Flaps have many uses in wound healing and are used when wounds are large, complex, or need tissue and bulk for successful closure.[2]
Flaps can contain many different combination of layers of tissue, from skin to bone (see § Classification). The main goal of a flap is to maintain blood flow to tissue to maintain survival, and understanding the anatomy in flap design is key to a successful flap surgery.[2]
Flaps may include skin in their construction. Skin is important for many reasons, but namely its role in thermoregulation, immune function, and blood supply aid in flap survival.[2] The skin can be divided into three main layers: the epidermis, dermis, and subcutaneous tissue. Blood is mainly supplied to the skin by two networks of blood vessels. The deep network lies between the dermis and the subcutaneous tissue, while the shallow network lies within the papillary layer of the dermis.[3] The epidermis is supplied by diffusion from this shallow network and both networks are supplied by collaterals, and by perforating arteries that bring blood from deeper layers either between muscles (septocutaneous perforators) or through muscles (musculocutaneous perforators).[2]
This robust and redundant blood supply is important in flap surgery,[2] because flaps are cut off from other blood vessels when it is raised and removed from its surrounding native tissue.[2] The remaining blood supply must then keep the tissue alive until additional blood supply can be formed through angiogenesis.[4]
The angiosome is a concept first coined by Ian Taylor in 1987.[5] It is a three-dimensional region of tissue that is supplied by a single artery and can include skin, soft tissue, and bone.[5][6] Adjacent angiosomes are connected by narrower choke vessels, and multiple angiosomes can be supplied by a single artery. Knowledge of these supply arteries and their associated angiosomes is useful in planning the location, size, and shape of a flap.[4]
Flaps can be fundamentally classified by their mechanism of movement, the types of tissues present, or by their blood supply.[2] The surgeon generally chooses the least complex type that will achieve the desired effect via a concept known as the reconstructive ladder.[7][8]
Flaps can be classified by the content of the tissue within them.
Classification based on blood supply to the flap:
Anyone who is unstable for surgery should not undergo flap surgery. As with most surgeries, people who are sicker may have more difficulties with wound healing, which include individuals with comorbidities such as diabetes, smoking, immunosuppression, and vascular disease.[15][16]
The risks of flap surgery include infection, wound breakdown, fluid accumulation, bleeding, damage to nearby structures, and scarring.[10] The most notable risk in this procedure is flap death, where the flap loses blood supply. The loss of blood can be due to many reasons, but is commonly due to tension on the vascular supply and insufficient blood flow to the end segments of the flap.[10] This can sometimes be fixed with another surgery or using additional methods of healing in the reconstructive ladder.[17]
As with healing of any wound, healing of a flap maintains the same process of wound healing. There are four stages to wound healing: hemostasis, inflammation, proliferation, and remodeling, all of which can take up to a year to complete.[18][2]
Following flap surgery, the biggest risk in recovery is flap death. Flap failure is an uncommon occurrence but does happen. The reported flap failure rate in free flaps is less than 5%.[19] The most commonly cause is by venous insufficiency consisting of 54% of all causes.[19] Venous insufficiency is commonly caused by a venous thrombus within the first 2 days following surgery.[19][18] After the immediate postoperative risk, the flap will continue to heal adhering to the stages of normal wound healing and will take over 3 months for an incision to be at 80% tensile strength compared to normal tissue.[18]
Skin flaps are an essential part of a surgeon's toolbox in plastic surgery. It is part of the reconstructive ladder.[17] The first known reports of surgical flaps originated in 600 BC in India by Sushruta where the tilemakers' caste would reconstruct noses using regional flaps due to the practice of nose amputations as a form of legal punishment.[20][17] The next description of flap surgery comes from Celsus, an ancient Roman who described the advancement of skin flaps from 25 BC to 50 AD.[20][17] In the 15th century, Gaspare Tagliacozzi, an Italian surgeon, helped develop the "Italian method" for nasal reconstruction, a delayed pedicle skin graft, where the skin from the arm would be attached to the nose for many months to create the reconstruction, first printed in the 1597 book De Curtorum Chirurgia per Insitionem.[21] The Italian method was rediscovered in 1800 by German surgeon Carl Ferdinand von Graefe.[22] Major advancements in modern plastic surgery are mostly attributed to Harold Gillies, who pioneered facial reconstruction during World War I using pedicled tube flaps on patients like Walter Yeo, and the development of the walking-stalk skin flap by Gilles' cousin Archibald McIndoe in 1930.[20][23]
Advancements continued in flap surgery. With the introduction of the operating microscope, microvascular surgery advancements allowed for the anastomosis of blood vessels.[12] This led to the ability of free tissue transfers, and in 1958 Bernard Seidenberg transferred a part of the jejunum to the esophagus to remove a cancer.[12][24] Modern advancements in flap surgeries have continued since this time and are now commonly used in many procedures.[12]
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