History & Development
For generations, surgeons have been faced with the problem of how to treat the painful hip. Replacement is only one of many different treatment options available. Alternatives do exist. Even though more than 500,000 hip replacements are performed worldwide every year, many of the alternatives are still used in special situations.
The problem with hip replacement is that it is irreversible. There is no going back once a damaged hip has been removed and an artificial one inserted. That is why surgeons frequently try and dissuade patients from having a hip replacement at all. However well a replacement is performed, however carefully it is looked after, and whatever design is used, it is difficult to make it last for ever. This is particularly true for the younger individual, say those aged under 50 years.
Alternatives to hip replacement were once performed instead of hip replacement, in the days when artificial hips could not be safely implanted. Now, such alternatives are often used as holding procedures - operations that can be curative in their own right, but more likely simply delay the day when hip replacement may be required.
Though hip replacement is now widely undertaken, and many still regard it as a relatively new operation, it is not new at all! The first was performed by a Dr Gluck in 1891. Since then, many different types of replacement have been developed. For example, Professor Hey Groves, in 1926, reported the use of an ivory femoral head replacement that involved replacing the femoral head with half of an ivory sphere. Ivory is no longer used but the design does show how inventive surgeons have been in their attempts to provide relief for the painful hip. In these early days a hip replacement was not as we know it today. Now, most patients will receive what is called a total hip replacement, involving replacement of both acetabulum and femoral head by separate, artificial components, or prostheses.
The early designs were often femoral head replacements only, the acetabulum being left alone. This operation was known as hemiarthroplasty and is still widely used today in the management of hip fractures, particularly in the elderly. A more modern form of hemiarthroplasty, the bipolar hemiarthroplasty, is still occasionally used in the management of the painful hip, particularly in the younger individual.
At about the same time as Hey Groves' ivory hip, attention was also being paid to the maintenance of sterile conditions during surgery, now known to be a vital part of any operation that involves the implantation of man made materials into patients. Much of orthopaedic surgery, be it joint replacement, fracture fixation, or other lesser known operations, involves the implantation of artificial materials. Strict sterility is thus essential.
Hip replacements continued to develop through the mid-1900s. The Judet brothers from France at one point proposed an acrylic design. Again, this did well in the short term, but failed relatively quickly by modern standards. It also had the reputation of squeaking whenever a patient walked! However, it was in the late 1950s that a major advance arrived with the use of bone cement. This was also an acrylic material, used by the dental profession at that time. It was John Charnley, an English surgeon, who suggested that acrylic bone cement (polymethylmethacrylate-PMMA) should be used to fix the artificial components to bone. Thus began the modern era of hip replacement surgery. Cement became widely used, certainly in the United Kingdom, and the results of replacement surgery improved enormously.
Not everyone agreed that hip replacements needed to be cemented to bone. In some parts of the world - the USA and Continental Europe are good examples - cementless fixation was used. Indeed, cementless designs are still widely available. Various techniques have been developed in order to encourage a patient's bone to grow into a cementless prosthesis, a process called osseointegration. In the early days it was a matter of drilling large holes through the stem of the femoral component (e.g. the Austin Moore prosthesis) in the hope that bone would grow through them. This did not always happen. Next it was decided to roughen artificial components during manufacture, to encourage bone to grow into the microscopic irregularities such a roughening process created. The result was not always satisfactory. Roughening was then more liberally applied, in the form of small beads on the surface of the component. This is known as porous coating, still widely used today. As an alternative to porous coating, some manufacturers have coated their components with a special chemical - hydroxyapatite. Put simply, hydroxyapatite tricks the bone that the artificial component is a natural material so that bone grows into it, locking the component tightly in position.
A common combination of prostheses is to use a cemented femoral component but a cementless acetabular one. This is based on the theory that cemented femoral components do better than cementless ones. However, cemented acetabular components are seen by many as being the weak point in any hip replacement, so a cementless socket is thought to be a safer alternative. The combination of cementless and cemented fixation is known as hybrid fixation. Hybrid hips are widely undertaken and results are good.
A vital aspect of a hip replacement is the type of material used. Traditionally a replacement comprises a metal ball (stainless steel or cobalt chrome) and a plastic (high density polyethylene - HDPE) socket. This arrangement does well, but over many years of use minute particles of plastic can be set free - so called wear debris - and these, in turn, can cause bone destruction (osteolysis). This destruction causes loosening of the hip replacement. Much effort has thus been expended in finding a bearing surface that does not release more plastic than is necessary. Higher grade plastic has been invented that resists wear, ceramics have been introduced, and even a metal-on-metal articulation created, using a metal ball and a precisely engineered metal socket to match the ball. Essentially, this latter design is a plastic-free hip.
Whenever a surgeon undertakes a hip replacement operation, in the back of his or her mind is the worry that, one day, the replacement may have to be redone. This is revision surgery, a subspecialty that brings enormous challenges for both patient and surgeon. The success of a revision operation depends in large part on how much bone remains to which a further hip replacement can be attached. The less bone that is removed at the original (or primary) replacement, the better the chance of a successful revision. For this reason some surgeons attempt to remove minute amounts of bone at the primary replacement by inserting a femoral component that has no stem to it at all. The component looks like a metal cap sitting directly on the ball of the femoral head. This is resurfacing arthroplasty. Results for resurfacing arthroplasty have not always been good. That is why many surgeons do not believe in the operation. However, there is no doubt that certain centres can produce satisfactory results and in recent years there has been a resurgence of interest in resurfacing procedures