9 – Joint arthroplasty + hip osteoarthritis + bone substitution

• Osteoarthritis of the hip
• Clinical features
  • Morning stiffness
  • Inguinal pain or pain above greater trochanter
    • Can refer to the thigh and knee
  • Contractures (reduced ROM)
    • First movement affected: internal rotation
  • Limp
  • Muscle atrophy around hip and thigh
  • Limb length difference
• Diagnosis
  • By conventional x-ray
  • AP view and Lauenstein (frog-leg) view x-ray
    • Narrow joint line
    • Subchondral sclerosis
    • Subchondral cysts
    • Osteophytes
• Treatment
  • Conservative
    • Frequent exercise
      • Especially joint-friendly exercises, like swimming, cycling
    • Weight loss
    • Physical therapy
    • NSAIDs
    • Orthopaedic shoes
    • Crutch on affected side
  • Surgical
    • Only if conservative treatment isn’t sufficient (late stage)
    • Total hip replacement
    • Hip arthroplasty is one of the most successful orthopaedic operations
      • > 90% satisfaction rate
      • 1,5 million procedures every year
    • Can be used in any joint destruction
      • Mostly in osteoarthritis or osteonecrosis of hip joint
      • But contraindicated in case of ongoing local or systemic infection
        • The prosthesis has no blood supply and antibiotics therefore can’t reach it -> provides good base for infection
    • (Partial hip replacement)
      • NOT used in orthopaedics -> only used in treatment of hip fractures
      • Femoral head is replaced with prosthesis
      • Acetabulum is preserved
    • Total hip replacement (THR)
      • Used in orthopaedics
      • Femoral head is replaced with prosthesis
      • Acetabulum is replaced with prosthesis
    • Postoperative DVT prophylaxis

See topics on hip osteoarthritis and knee osteoarthritis

• Joint prosthesis
  • They are used to replace damaged joints
• Total hip replacement (THR)
  • Surgical technique
    • The acetabulum is opened and reamed (hollowed out)
      • This removes any residual cartilage and leaves only the bony surface
    • The neck of the femur is cut with a saw
    • The medullary cavity is reamed to make space for the femoral stem
    • If bone cement is used, bone cement is applied to the medullary cavity of the femur and the acetabulum to fix the femoral stem and the acetabular parts, respectively
    • If bone cement is not used the femoral stem and acetabular parts are banged in
  • Components
    • Acetabular component
      • Polyethylene insert or liner
        • A special kind of plastic
        • Provides the mobile part of the joint
      • Acetabular shell
        • Made of metal
    • Femoral head
    • Femoral stem – goes into medullary canal of femur
  • Types
    • Cemented THR
      • Both femoral component and acetabular component are fixed to the bone with bone cement
      • Bone cement dries after 15 minutes, meaning that the prosthesis can (in theory) be walked on and used immediately after the procedure
        • However, no patient can walk immediately after any major surgery
      • Bone cement is created by mixing a powder with a solution -> then applied with a cement gun
      • The bone cement will enter the lacunae of the bone, fixing the prosthesis to the bone
    • Uncemented THR
      • Does not use bone cement – instead, the prosthesis is fixed by force
        • This is called “press fit”
      • The acetabular part is banged into the acetabulum
      • The femoral stem is banged into the medullary cavity of the femur
      • The prosthesis has a porous coating and the bony part is rough, which creates a lot of friction between the prosthesis and the bone
        • This is called primary fixation
        • If the friction itself is not enough the prosthesis can be further fixed with screws
      • After some weeks the bone will grow into the porous surface of the prosthesis
        • This is called secondary or final fixation
        • This takes time, and the patient must not be weightbearing during this time
  • Indications
    • Cemented THR
      • For elderly
      • For less active patients
      • For those with poor bone quality
    • Uncemented THR
      • For young, active patients
      • For those with good bone quality

• Bone grafting/substitution/transplantation = replacing bone with something (called a bone graft)
• As the native bone grows it will generally replace the graft material with normal bone
• Needed in
  • Alignment correction
    • A wedge of bone graft may be inserted into a gap made by an osteotomy to correct alignment
  • Tumour surgery
    • Significant amounts of bone are removed and should be replaced
    • Tumour in diaphysis -> part of the diaphysis is removed and must be replaced
  • Revision joint replacement (replacing the previously implanted prosthesis with a new one)
  • Bone cyst removal
  • Congenital bone defects
  • Post-traumatic bone defects
• Properties of an ideal bone graft
  • Sterility
  • Good mechanical properties
    • Loadability
    • Fixation – must be fixable by plate or screw
  • Good healing properties
    • Osteoconduction – the grafts ability to connect the resected bone surfaces of host bone
    • Osteoinduction – the grafts ability to induce host osteogenesis
    • Osteogenesis – the grafts ability to produce bone by itself
      • Some grafts contain living osteoblasts, or a protein called BMP which stimulates host osteoblasts
  • Good availability
  • The choice of graft depends on the patient
  • A modern orthopaedic department should have all different types of bone graft available
  • There is no single “best” graft or material
• Types of grafts according to material
  • Bone grafts
    • Solid (tubular) bone grafts
      • To replace bone after tumour removal, etc.
    • Morselized bone (= bone chips)
      • To replace bone inside a bone cyst
  • Artificial grafts
    • Metal grafts
    • Bone cement grafts
• Types of grafts according to origin
  • Autologous (from the patient)
    • Best graft
    • Osteogenesis + osteoinduction + osteoconduction
    • Patient needs an extra surgery to acquire the bone graft
    • Limited amount
  • Allogenic
    • From a human donor
      • Cadaver
      • Brain dead
      • From another patient who had bone removed as part of joint replacement, etc.
    • Osteoinduction + osteoconduction
    • Contains BMP
    • May contain transmittable diseases (hepatitis, HIV)
    • Expensive
  • Xenogenic (from another species)
    • Only used after deprotonation, so only the inorganic bone remains
    • No BMP or transmittable diseases
    • No osteoinduction or osteogenesis, only osteoconduction
    • Grafts from sea corrals
      • Sea corrals are comprised of hydroxyapatite with similar properties as human bone