Hip Replacement

By admin On Jan 30, 2024

Ovid: 5-Minute Orthopaedic Consult

Editors: Frassica, Frank J.; Sponseller, Paul D.; Wilckens, John H.

Title: 5-Minute Orthopaedic Consult, 2nd Edition

> Table of Contents > Hip Replacement

Hip Replacement

Kris J. Alden MD, PhD

Simon C. Mears MD, PhD

Basics

Description

Many forms of arthritis lead to destruction of the articular cartilage of the hip joint, resulting in pain and loss of function.
End-stage arthritis can be treated with surgical replacement of the joint.
Elderly patients may have a greater risk of cardiac complications and more associated medical problems than younger patients.
Patients <50 years old:
- Are likely to need revision surgery because their life expectancy may exceed the longevity of the prosthesis
- Other treatment options, such as medical
  management, hip fusion, and femoral osteotomy, should be strongly
  considered in the younger, high-demand patient.
Hip replacements may be anchored to the
bone with bone cement or with uncemented techniques that allow the bone
to grow into the implant.

General Prevention

Weight loss and limitation of activity may postpone the need for hip replacement.

Epidemiology

Most hip replacements are performed in patients >65
years old, but the procedure is being performed more commonly in
younger patients than in the past (1).

Incidence

>200,000 total hip replacements are performed in the United States each year (2).
The number of hip replacements continues to increase (3).

Risk Factors

Primary osteoarthritis may be more common in high-demand athletes and obese patients.
Osteonecrosis has been linked to prolonged steroid use, alcoholism, radiation, and trauma.
Osteoporosis often leads to femoral neck fractures in elderly patients.

Genetics

Possible familial predisposition to primary osteoarthritis
No Mendelian pattern of inheritance

Pathophysiology

Pathological Findings

The common denominators in all forms of arthritis are
breakdown of the articular cartilage, loss of the proteoglycan, and
gradual cartilage dissolution.

Etiology

Primary osteoarthritis is the most common cause of disabling hip arthritis.
Traumatic arthritis, osteonecrosis,
rheumatoid arthritis, sickle cell anemia, recurrent hemarthrosis, Paget
disease, and AS all may lead to degenerative destruction of the hip
joint.
Developmental conditions such as SCFE,
DDH, and Legg-Calvé-Perthes disease all may lead to degenerative joint
disease later in life.
Some acute hip fractures also may be treated with partial or total hip replacement.

Associated Conditions

Degenerative joint disease of the contralateral hip,
either knee, the lumbar spine, and the upper extremities often is seen
in patients requiring hip replacement.

Diagnosis

Primary osteoarthritis of the hip may result in pain in the groin, the lateral thigh, or radiating to the knee.
Pain is more common with activity but may eventually become present at rest and at night.
In advanced stages, pain may limit the patient to needing rest after walking <1 block.
Limitation of ROM, especially of flexion, extension, and internal rotation, may be present.
With ambulation, abductor lurch may be evident.

Signs and Symptoms

Incapacitating arthritis of the hip commensurate with physical and radiographic findings
Failure to walk more than a few blocks without stopping
Pain unrelieved by standard arthritis medication
Pain after activity
Difficulty with activities of daily living, including dressing, grooming, and climbing stairs

Physical Exam

Perform a neurovascular examination of the affected extremity.
Record the ROM of the hip.
Pay special attention to contractures, leg-length discrepancy, and gluteal muscle strength.
Assess the patient’s gait.
Pain at extremes of motion
Positive Trendelenburg test
Groin or anterior thigh pain with active straight-leg raises

Tests

Lab

For total hip replacement, order the following before surgery:
- Complete blood count
- Blood chemistry studies
- Coagulation times
Electrocardiogram, chest radiographs, and urinalysis should be obtained when appropriate.
Many patients are able to donate autologous units of blood 4–6 weeks before surgery.

Imaging

Radiography:
- AP pelvis and frog-leg lateral hip radiographs usually are adequate for assessing the hip joint.
- Long, standing films of the lower extremities and pelvis may be helpful.

Differential Diagnosis

Hip pain may be caused by spinal stenosis or a herniated lumbar disc.
Low back pain of any cause may radiate to the lateral thigh and hip.
Trochanteric bursitis may result in lateral hip pain.
Stress fracture
Occult neoplasms, such as metastatic bone disease, multiple myeloma, and primary mesenchymal tumors, also can cause hip pain.

Treatment

Special Therapy

Physical Therapy

Postoperative patients are instructed in strengthening exercises, especially hip flexion, extension, and abduction.
Transfer and gait training with a standup walker are emphasized.

Medication

First Line

Analgesics in the acute postoperative period
Postoperative patients require prolonged
treatment for prophylaxis of DVT with warfarin (Coumadin) or
low-molecular-weight heparin (4).

Surgery

Total hip replacement consists of a metal femoral component and a head that replaces the proximal femur.
- The acetabulum most commonly is replaced with a metal shell that has a high-density polyethylene plastic insert.
- The components may be fixed to the bone with or without cement.
  - Uncemented components have a rough surface to allow for bony ingrowth.

P.193

Surgical approaches (5):
- Anterior (Smith-Peterson)
  - Superficial interval: Sartorius and tensor fascia lata
  - Deep interval: Rectus femoris and gluteus medius
  - Lateral femoral cutaneous nerve is in danger because it penetrates the sartorial fascia.
- Anterolateral (Watson-Jones approach):
  - Interval between the gluteus medius muscle and the tensor fascia lata
- Lateral (Hardinge):
  - The anterior 1/3 of the gluteus medius and minimus are reflected off the greater trochanter.
  - The superior gluteal nerve and artery can be injured with anterior reflection of the gluteus medius.
  - Slower abductor rehabilitation
- Posterior (Langenbeck/Moore):
  - Splitting of the gluteus maximus with release of short external rotators
  - The sciatic nerve should be identified and protected.
  - Higher dislocation rate than with other approaches, especially without capsular repair (6)
Bearing surfaces: The acetabular liner and the femoral head ball can be made of different materials to prevent wear.
- Metal on polyethylene:
  - Standard option
  - Newer highly cross-linked polyethylenes are thought to decrease wear rates.
  - Polyethylene wear debris leads to osteolysis and component loosening.
- Metal on metal:
  - Very low wear rates
  - Metal ion debris can accumulate in the bloodstream and organs.
  - Very large head size may decrease dislocation rates and increase ROM.
- Ceramic on ceramic:
  - Very low wear rates
  - Very low rate of ceramic fracture
  - No liner options
Minimally invasive surgery:
- Some approaches may limit muscle damage.
- Multimodal approaches to anesthesia and therapy have hastened recovery (7).
- Some evidence suggests that smaller incisions are not responsible for faster recovery (8).

Follow-up

Prognosis

Hip arthroplasty has excellent long-term
results, with many patients ambulating without external support and
resuming previously impossible activities (9).
A long-term study has shown that 85% of cemented prostheses survive for 20 years (10).
Uncemented components also have an excellent long-term performance.

Complications

Postoperative medical complications:
- Myocardial infarction
- Pneumonia
- Urinary retention
- Ileus
- Death
Leg-length discrepancy
DVT and PE
Infection
Revision surgery
Polyethylene wear
Osteolysis
Dislocation
Periprosthetic fracture
Heterotopic ossification
Loosening
Nerve palsy (11)

Patient Monitoring

The importance of long-term radiographic monitoring must be stressed.
- Radiographs should be taken at 1–2-year intervals to look for polyethylene wear and osteolysis.
After hip replacement, patients should receive antibiotic prophylaxis before dental work.

References

1. Crowninshield RD, Rosenberg AG, Sporer SM. Changing demographics of patients with total joint replacement. Clin Orthop Relat Res 2006;443:266–272.

2. American
Academy of Orthopaedic Surgeons Department of Research and Scientific
Affairs. Information About Hip Replacements: 1999 to 2003. http://www.aaos.org/wordhtml/research/stats/hip_all.htm#source. Accessed on May 15, 2006.

3. Kurtz
S, Mowat F, Ong K, et al. Prevalence of primary and revision total hip
and knee arthroplasty in the United States from 1990 through 2002. J Bone Joint Surg 2005;87A: 1487–1497.

4. Lieberman JR, Hsu WK. Prevention of venous thromboembolic disease after total hip and knee arthroplasty. J Bone Joint Surg 2005;87A: 2097–2112.

5. McGann
WA. Surgical approaches. In: Callaghan JJ, Rosenberg AG, Rubash HE,
eds. The Adult Hip. Philadelphia: Lippincott-Raven, 1998: 663–718.

6. Morrey BF. Results of reoperation for hip dislocation: the big picture. Clin Orthop Relat Res 2004;429:94–101.

7. Inaba Y, Dorr LD, Wan Z, et al. Operative and patient care techniques for posterior mini-incision total hip arthroplasty. Clin Orthop Relat Res 2005;441:104–114.

8. Ogonda
L, Wilson R, Archbold P, et al. A minimal-incision technique in total
hip arthroplasty does not improve early postoperative outcomes. A
prospective, randomized, controlled trial. J Bone Joint Surg 2005;87A:701–710.

9. Ethgen
O, Bruyere O, Richy F, et al. Health-related quality of life in total
hip and total knee arthroplasty. A qualitative and systematic review of
the literature. J Bone Joint Surg 2004;86A:963–974.

10. Berry
DJ, Harmsen WS, Cabanela ME, et al. Twenty-five-year survivorship of
two thousand consecutive primary Charnley total hip replacements:
factors affecting survivorship of acetabular and femoral components. J Bone Joint Surg 2002;84A:171–177.

11. Farrell CM, Springer BD, Haidukewych GJ, et al. Motor nerve palsy following primary total hip arthroplasty. J Bone Joint Surg 2005;87A: 2619–2625.

Additional Reading

Clohisy JC, Calvert G, Tull F, et al. Reasons for revision hip surgery: a retrospective review. Clin Orthop Relat Res 2004;429:188–192.

Miscellaneous

Codes

ICD9-CM

715.95 Hip osteoarthritis

Patient Teaching

Patients must understand that hip
arthroplasty is a major surgical procedure that requires months of
substantial activity limitation and may require a full year to achieve
full benefit.
They must be prepared to adhere to the
hip precautions taught in physical therapy and to contribute to the
rehabilitation process.

Activity

Weightbearing after surgery depends on surgeon technique and preference, but as-tolerated is common.
Patients may be given motion restrictions
to prevent dislocation; most commonly, avoidance of hip flexion >90°
and crossing the legs.

FAQ

Q: When should I have a hip replacement?

A:
Hip replacement has an excellent chance of reducing pain and improving
function. However, it is major surgery with serious potential
complications, including death. A patient should have severe pain and
disability before considering surgery.