AVASCULAR NECROSIS OF THE HIP: A Clinico-Radiological Overview

                                                           

                                  

Introduction

Avascular necrosis (AVN) of the hip is a condition where the blood supply to the bone is interrupted, leading to the death of bone cells. In this article, we will discuss the causes, imaging techniques (X-ray, CT, MRI), staging systems, and management strategies for AVN. Understanding the pathogenesis and progression of this disease is essential for effective treatment, which includes both non-invasive and surgical options.

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Overview

This article focuses on:

• The normal vascular supply of the hip
• The pathogenesis of AVN
• Imaging techniques, including X-ray, CT, and MRI
• The three main staging systems used in AVN
• Invasive and non-invasive management strategies

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What is Avascular Necrosis of the Hip?

Avascular necrosis is a subtype of osteonecrosis that specifically affects the epiphysis (end) of bones. It is caused by a reduction in blood supply, which leads to ischemic cell death of both bone and marrow. Osteonecrosis itself is a broader term that also includes conditions like bone infarcts, which occur in the metaphysis or diaphysis of bones.

Causes of Avascular Necrosis

Common causes include:

• Trauma
• Long-term corticosteroid use
• Idiopathic (unknown) causes
• Sickle cell anemia
• Alcoholism
• Collagen vascular disorders

Less common causes are:

• Pancreatitis
• Immunosuppressant-induced AVN
• Pregnancy
• Radiation therapy
• Vasculitis
• Leukemia
• Thromboembolism or atherosclerosis

Normal Vascular Supply of the Hip

The femur head is primarily supplied by branches of the deep femoral artery. The lateral and medial circumflex arteries provide blood to the femoral neck, with ascending branches that nourish the head of the femur. The foveal ligament also contains the foveal artery, another source of blood supply.

Pathogenesis of Avascular Necrosis

When blood flow to the femoral head is interrupted, ischemic changes begin, particularly in the weight-bearing area of the femoral head. Bone cells die over varying time frames—hematopoietic cells within 6-12 hours, bone cells in 12-48 hours, and marrow cells within 2-5 days.

The lack of blood supply initiates several changes:

1. Neovascularization (hypervascularity): New blood vessels form as the body attempts to heal the area.

2. Creeping substitution: This process separates viable bone from nonviable bone, seen on MRI as the "double line sign."

3. Bone weakening and collapse: Over time, subchondral fractures occur, leading to collapse of the femoral head and eventual deformity and arthritis.

Imaging Techniques

X-ray: Initial imaging modality, used in early workup and staging. Findings include areas of sclerosis, lucencies, and subchondral fractures (Crescent sign).

CT scan: More sensitive than X-ray, it helps visualize the extent of bone damage and loose bodies. It’s particularly useful for surgical planning.

MRI: The gold standard for diagnosing AVN. It is the most sensitive method and shows detailed findings, such as bone edema and the characteristic "double line sign."

Bone scan: An alternative in cases where MRI findings are unclear.

Staging Systems

1. Ficat-Arlet Staging:

Stage 0: Preclinical, no radiographic signs, only hemodynamic changes.

Stage 1: Pre-radiographic, increased uptake on bone scans.

Stage 2A: Before collapse, showing sclerosis and cysts.

Stage 2B: Early collapse with flattening of the femoral head and Crescent sign.

Stage 3: Complete collapse of the femoral head.

Stage 4: Advanced osteoarthritis with acetabular involvement.

2. Steinberg Staging: Similar to Ficat-Arlet, it uses imaging findings. Each stage is subdivided into A, B, and C based on the area of involvement.

3. ARCO Staging: Focuses on both clinical and radiological findings. The third and fourth stages are divided into A, B, and C depending on how much of the femoral head is affected.

Prognostic Factors

Key prognostic factors include:

• Extent of head involvement: If more than two-thirds of the femoral head is involved, the risk of collapse is 74%.
• Age: Patients over 40 have a worse prognosis.
• BMI: A BMI greater than 24 kg/m² is associated with poorer outcomes.
• Joint effusion and bone marrow edema are additional prognostic indicators.

Management of Avascular Necrosis

Treatment depends on whether the condition is in the pre-collapse or post-collapse stage.

Non-invasive management (Pre-collapse stage):

• Restricted weight bearing
• Bisphosphonates
• Anticoagulants
• Vasodilators
• Statins
• Hyperbaric oxygen therapy
• Pulsed electromagnetic therapy

Invasive management (Post-collapse stage):

• Core decompression: Removal of necrotic bone to relieve pressure and promote healing.
• Rotational osteotomy: The femoral head is surgically rotated and fixed to redistribute weight-bearing forces.
• Bone grafting: Dead tissue is replaced with a vascularized graft to restore bone integrity.
• Joint replacement: In advanced cases, hemiarthroplasty or total hip replacement is performed.
• 

Conclusion

Avascular necrosis of the hip is a serious condition that can lead to debilitating arthritis if left untreated. Early diagnosis and appropriate management, guided by imaging and staging systems, are crucial for preventing long-term damage.

Thank you for reading!

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