Total Hip Replacement

INTRODUCTION: Hip replacement, also hip arthroplasty, is asurgical procedure in which the  hip joint is replaced by a prosthetic implant. Suchjoint replacement orthopaedic surgerygenerally is conducted to relievearthritis pain or fix severe physical joint damage as part of the hip fracture treatment. INDICATIONS: Total hip replacement can benefit individuals suffering from a variety of hip problems resulting from either wear and tear from a lifetime of activity or from disease and injury. Some of the common hip problems leading to total hip replacement are: Osteoarthritis Rheumatoid arthritis Traumatic arthritis Avascular necrosis Other reasons Benign or malignant tumor Paget’s disease CONTRAINDICATIONS: ABSOLUTE:

  • Sepsis(localized or generalized)
  • Osteomyelitis
  • Malignant tumours
  • Osteoporosis
  • Neuropathic joints

RELATIVE: Obesity Younger age group Absolute and relative insufficiency of abductor musculature. PROCEDURE: In a healthy hip joint, the surfaces of these bones where the ball and socket rub together are very smooth and covered with a tough protective tissue called cartilage. Arthritis causes damage to the bone surfaces and cartilage. These damaged surfaces eventually become painful as they wear. There are many ways to treat the pain caused by arthritis. One way is total hip replacement surgery. The decision to have total hip replacement surgery should be made very carefully after consulting your doctor and learning as much as you can about the hip joint, arthritis, and the surgery. In total hip replacement surgery, the ball and socket that have been damaged by arthritis are removed and replaced with artificial parts made of metal and a durable plastic material. We call these artificial parts “implants,” or “prostheses.” Two Types of Hip Fixation There are two main types of fixation philosophies-cemented and porous. Both can be effective in the replacement of hip joints. The doctor (and the patient) will choose the best solution that is specific to the patient’s needs. Cemented Hip Implants The cemented hip implant is designed to be implanted using bone cement (a grout that helps position the implant within the bone). Bone cement is injected into the prepared femoral canal. The surgeon then positions the implant within the canal and the grout helps to hold it in the desired position. Porous Hip Implants The porous hip implant is designed to be inserted into he prepared femoral canal without the use of bone cement. Initially, the femoral canal is prepared so that the implant fits tightly within it. The porous surfaces on the hip implant are designed to engage the bone within the canal and permit bone to grow into the porous surface. Eventually, this bone ingrowth can provide additional fixation to hold the implant in the desired position. During Surgery The patient is first taken into the operating room and given anesthesia. After the anesthesia has taken effect, the skin around the upper thigh is thoroughly scrubbed with an antiseptic liquid. An incision of appropriate size is then made over the hip joint. Replacing the Socket Portion of the Joint One type of implant that replaces the socket consists of a metal shell that is lined with a strong plastic liner. Removing the Surface of the Socket The leg is maneuvered until the femoral head is dislocated from the socket. A special reamer is then used to remove the damaged cartilage and bone surface from the acetabulum, and to shape the socket so it will match the shape of the implant that will be inserted. Inserting the Implant The shell portion of the socket implant may be attached either by using a special kind of epoxy cement for bones, or by pressing the implant into the socket so that it fits very tightly and is held in place by friction. Some implants may have special surfaces with pores that allow bone to grow into them to help hold the implant in place. Depending on the condition of the patient’s bone, the surgeon may also decide to use screws to help hold the implant in place. When the shell portion of the socket implant is in place, the plastic liner is locked into place inside the shell. Replacing the Ball Portion of the Joint The implant that replaces the ball consists of a long metal stem that fits down into the femur. The metal ball is mounted on top of this stem. Removing the Ball A special power saw is used to remove the damaged femoral head. Clearing and Shaping the Canal The upper leg bone has relatively soft, porous bone tissue around the center. This part of the bone is called cancellous bone. It surrounds the canal, which mainly contains blood vessels and fatty tissue. Special instruments are used to clear some of the cancellous bone from the canal, and then to mold the inside walls of the canal to fit the shape of the implant stem. Inserting the Implant The stem implant may be held in place by either using the special cement for bones, or by making it fit very tightly in the canal. If cement is used, it is injected into the canal first, and then the implant is inserted into the canal. If cement is not used, the implant is simply inserted into the canal. Like the socket implant, the stem implant may have a special surface with pores that allow bone to grow into them. On some implants, the stem and ball are one piece. On others, they may be two separate pieces. If the ball is a separate piece, it is usually secured to the top of the stem after the stem has been inserted. Closing the Wound When all the implants are in place, the surgeon places the new ball that is now part of the upper leg bone into the new socket that is secure within the pelvic bone. If necessary, the surgeon may adjust the ligaments that surround the hip to achieve the best possible hip function. When the ligaments are properly adjusted, the surgeon sews the layers of tissue back into their proper position. A plastic tube may be inserted into the wound to allow liquids to drain from the site during the first few hours after surgery. After the tube is inserted, the edges of the skin are sewn together, and a sterile bandage is applied to the hip. Finally, the patient is taken to the recovery room. COMPLICATIONS:

  • Deep vein thrombosis
  • Nerve palsy
  • Vascular injury
  • Dislocation of hip
  • Infection
  • Heterotropic bone ossification.

PHYSIOLINE’S SPECIALISED PHYSIOTHERAPY HAS VITAL ROLE TO PLAY At Physioline, all the members of the rehabilitation team work together so as to provide proper care and the therapy in order to:

  • Obtain  pain free range of motion
  • Strengthening of hip and knee muscle
  • Prevention of complications
  • Independent transfers
  • Gait training
  • Guard against dislocation

Visit Physioline for further rehabilitation