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Joint Prosthesis

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Title: Joint Prosthesis


1
Joint Prosthesis
  • Lec 06 - 08

2
outline
  • Anatomy
  • Total Joint Replacement
  • Knee joint
  • Anatomy
  • Causes
  • Types of implants
  • Components
  • Knee implant fixations

3
Anatomy
  • A joint is where the ends of two or more bones
    meet.
  • There are different types of joints within the
    body.
  • For example, the knee is considered a "hinge"
    joint, because of its ability to bend and
    straighten like a hinged door.
  • The hip and shoulder are "ball-and-socket"
    joints, in which the rounded end of one bone fits
    into a cup-shaped area of another bone.

4
When Is Total Joint Replacement Recommended?
  • Several conditions can cause joint pain and
    disability and lead patients to consider joint
    replacement surgery.
  • In many cases, joint pain is caused by damage to
    the cartilage that lines the ends of the bones
    (articular cartilage)either from arthritis, a
    fracture, or another condition.
  • If nonsurgical treatments like medications,
    physical therapy, and changes to your everyday
    activities do not relieve your pain and
    disability, your doctor may recommend total joint
    replacement.

5
Total Joint Replacement
  • Total joint replacement is a surgical procedure
    in which parts of an arthritic or damaged joint
    are removed and replaced with a metal, plastic or
    ceramic device called a prosthesis. The
    prosthesis is designed to replicate the movement
    of a normal, healthy joint.
  • In 2011, almost 1 million total joint
    replacements were performed in the United States.
    Hip and knee replacements are the most commonly
    performed joint replacements, but replacement
    surgery can be performed on other joints, as
    well, including the ankle, wrist, shoulder, and
    elbow.

6
Knee joint
  • Lec 06

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anatomy
  • The knee is the largest joint in the body and
    having healthy knees is required to perform most
    everyday activities.
  • The knee is made up of the lower end of the
    thighbone (femur), the upper end of the shinbone
    (tibia), and the kneecap (patella). The ends of
    these three bones where they touch are covered
    with articular cartilage, a smooth substance that
    protects the bones and enables them to move
    easily.
  • The menisci are located between the femur and
    tibia. These C-shaped wedges act as "shock
    absorbers" that cushion the joint.
  • Large ligaments hold the femur and tibia together
    and provide stability.
  • All remaining surfaces of the knee are covered by
    a thin lining called the synovial membrane. This
    membrane releases a fluid that lubricates the
    cartilage, reducing friction to nearly zero in a
    healthy knee.
  • Normally, all of these components work in
    harmony. But disease or injury can disrupt this
    harmony, resulting in pain, muscle weakness, and
    reduced function.

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Causes
  • The most common cause of chronic knee pain and
    disability is arthritis. Although there are many
    types of arthritis, most knee pain is caused by
    just three types osteoarthritis, rheumatoid
    arthritis, and post-traumatic arthritis.
  • Osteoarthritis. This is an age-related "wear and
    tear" type of arthritis. It usually occurs in
    people 50 years of age and older, but may occur
    in younger people, too. The cartilage that
    cushions the bones of the knee softens and wears
    away. The bones then rub against one another,
    causing knee pain and stiffness.
  • Rheumatoid arthritis. This is a disease in which
    the synovial membrane that surrounds the joint
    becomes inflamed and thickened. This chronic
    inflammation can damage the cartilage and
    eventually cause cartilage loss, pain, and
    stiffness.
  • Post-traumatic arthritis. This can follow a
    serious knee injury. Fractures of the bones
    surrounding the knee or tears of the knee
    ligaments may damage the articular cartilage over
    time, causing knee pain and limiting knee
    function.

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Types of Knee implants
  • 1. Fixed Bearing Implants
  • The most common knee replacement implant is
    referred to as a fixed-bearing implant. It is
    referred to as fixed because the polyethylene
    cushion of the tibial component is fixed firmly
    to the metal platform base. The femoral component
    then rolls over this cushion.

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  • The fixed-bearing prostheses provide a good range
    of motion and just as long lasting as other
    implants for most patients.
  • In some cases, excessive activity and/or extra
    weight can cause a fixed-bearing prosthesis to
    wear down more quickly. This wear can cause
    loosening of the implant, causing pain and joint
    failure .

13
  • 2. Mobile Bearing Implants
  • If you are younger, more active, and/or
    overweight, your doctor may recommend a rotating
    platform/mobile-bearing knee replacement. These
    implants are designed for potentially longer
    performance.
  • The difference between a fixed-bearing implant
    and a mobile bearing implant is in the bearing
    surface. Fixed-bearing implants and
    mobile-bearing implants use the same three
    components. 
  • In a mobile-bearing knee, a similar metal implant
    is inserted into the tibia, but the polyethylene
    tray is placed on a circular stem that allows
    slight rotation of the tray on the metal tibial
    platform during knee motion.
  • This rotation allows patients a few degrees of
  • greater rotation to the medial and lateral
    sides
  • of their knee.

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  • Because of this mobility, mobile-bearing knee
    implants do require more support from the
    ligaments surrounding the knee. If the soft
    tissues are not strong enough, though, the knee
    is more likely to dislocate.
  • Mobile-bearing implants may also cost a bit more
    than fixed-bearing implants.

15
Knee implant components
  • Typical total knee replacement implants have
    three basic components femoral, tibial and
    patellar.
  • The femoral component is generally made of metal
    and curves around the end of the femur (your
    thighbone). There is a groove down the center of
    this part of the implant which allows the patella
    (kneecap) to move up and down as the knee bends
    and straightens.
  • The tibial component is a flat metal platform
    with a polyethylene (plastic) insert or spacer.
    This component varies in structure, depending on
    which type of surgery is performed.
  • The patellar implant is a dome-shaped piece of
    polyethylene that mimics the kneecap. This
    implant is used in some knee replacements not in
    others.

16
Types of Knee Implant Fixation
  • The other big difference between types of knee
    replacements is fixation. There are cemented,
    cementless, and hybrid (combination of cemented
    and cementless) designs.
  • Cemented prostheses utilize a special kind of
    bone cement that helps hold the components of the
    artificial joint in place. The majority of knee
    replacements are generally cemented. Cemented
    knee replacements have been used successfully in
    all types of knee replacement patients.
  • Historically, some younger, more active
    patients had problems with loosening cement but
    the material is now much improved.

17
  • 2. Cement less implant designs become fixed by
    bone growth into the surface of the implant. Most
    implant surfaces are textured or coated with a
    porous material so that the new bone actually
    grows into the surface of the implant. Screws or
    pegs may also be used to stabilize the implant
    until bone ingrowth occurs. Recovery does
    generally take a bit longer as the bone grows
    into the prosthesis. Cement less implants are not
    usually a viable for patients with osteoporosis,
    as the existing bone must be in good shape in
    order to grow into the implant.
  • 3. Some surgeons also use a hybrid of the two
    methods of fixation, though this is more common
    in hip replacement surgery.

18
Hip joint
  • Lec 07

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anatomy
  • The hip is one of the body's largest joints. It
    is a ball-and-socket joint. The socket is formed
    by the acetabulum, which is part of the large
    pelvis bone. The ball is the femoral head, which
    is the upper end of the femur (thighbone).
  • The bone surfaces of the ball and socket are
    covered with articular cartilage, a smooth tissue
    that cushions the ends of the bones and enables
    them to move easily.
  • A thin tissue called synovial membrane surrounds
    the hip joint. In a healthy hip, this membrane
    makes a small amount of fluid that lubricates the
    cartilage and eliminates almost all friction
    during hip movement.
  • Bands of tissue called ligaments (the hip
    capsule) connect the ball to the socket and
    provide stability to the joint.

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Common Causes
  • The most common cause of disability is arthritis.
    Osteoarthritis, rheumatoid arthritis, and
    traumatic arthritis are the most common forms of
    this disease.
  • Osteoarthritis. The cartilage cushioning the
    bones of the hip wears away. The bones then rub
    against each other, causing hip pain and
    stiffness. Osteoarthritis may also be caused or
    accelerated by subtle irregularities in how the
    hip developed in childhood.

22
  • Rheumatoid arthritis. This is an autoimmune
    disease in which the synovial membrane becomes
    inflamed and thickened. This chronic inflammation
    can damage the cartilage, leading to pain and
    stiffness.
  • Post-traumatic arthritis. This can follow a
    serious hip injury or fracture. The cartilage may
    become damaged and lead to hip pain and stiffness
    over time.

23
  • Avascular necrosis. An injury to the hip, such as
    a dislocation or fracture, may limit the blood
    supply to the femoral head. This is called
    avascular necrosis. The lack of blood may cause
    the surface of the bone to collapse, and
    arthritis will result.
  • Childhood hip disease. Some infants and children
    have hip problems. Even though the problems are
    successfully treated during childhood, they may
    still cause arthritis later on in life. This
    happens because the hip may not grow normally,
    and the joint surfaces are affected.

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Types of Hip implants
  • Hip implants are medical devices intended to
    restore mobility and relieve pain usually
    associated with arthritis and other hip diseases
    or injuries. Factors that influence the longevity
    of the device include the patients age, sex,
    weight, diagnosis, activity level, conditions of
    the surgery, and the type of implant chosen.
  • There are currently five types of total hip
    replacement devices available with different
    bearing surfaces. These are
  • Metal-on-Polyethylene The ball is made of metal
    and the socket is made of plastic (polyethylene)
    or has a plastic lining.
  • Ceramic-on-Polyethylene The ball is made of
    ceramic and the socket is made of plastic
    (polyethylene) or has a plastic lining.
  • Metal-on-Metal The ball and socket are both made
    of metal.
  • Ceramic-on-Ceramic The ball is made of ceramic
    and the socket has a ceramic lining.
  • Ceramic-on-Metal The ball is made of ceramic and
    the socket has a metal lining.

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Implant Components
  • Many different types of designs and materials are
    currently used in artificial hip joints. All of
    them consist of two basic components
  • A cup A cup (made of stainless steel or
    titanium) that is placed in the patients
    acetabulum.  In the cup, a liner (made of
    polyethylene or ceramic) is impacted and serves
    as an interface between the cup and the
    replacement femoral head.

28
  • A femoral implant comprised of
  •  A round head (made of stainless steel or
    titanium) that is placed on the neck of the stem
    and articulates with the liner.
  •  A neck (cone-shaped) that can be fixed on the
    stem or a modular neck. When the femoral stem can
    accommodate a modular neck, the surgeon can
    choose between different necks that can be
    adapted to the shape of the femur.
  •  A femoral stem (made of stainless steel or
    titanium) inserted in the femur.

29
  • The prosthetic components may be "press fit" into
    the bone to allow your bone to grow onto the
    components or they may be cemented into place.
  • The decision to press fit or to cement the
    components is based on a number of factors, such
    as the quality and strength of your bone.

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Shoulder joint
32
  • Although shoulder joint replacement is less
    common than knee or hip replacement, it is just
    as successful in relieving joint pain.
  • Shoulder replacement surgery was first performed
    in the United States in the 1950s to treat severe
    shoulder fractures. Over the years, shoulder
    joint replacement has come to be used for many
    other painful conditions of the shoulder, such as
    different forms of arthritis.

33
Anatomy
  • Your shoulder is made up of three bones
  • your upper arm bone (humerus),
  • your shoulder blade (scapula), and
  • your collarbone (clavicle).
  • The shoulder is a ball-and-socket joint The
    ball, or head, of your upper arm bone fits into a
    shallow socket in your shoulder blade. This
    socket is called the glenoid.
  • The surfaces of the bones where they touch are
    covered with articular cartilage, a smooth
    substance that protects the bones and enables
    them to move easily.
  • A thin, smooth tissue called synovial membrane
    covers all remaining surfaces inside the shoulder
    joint. In a healthy shoulder, this membrane makes
    a small amount of fluid that lubricates the
    cartilage and eliminates almost any friction in
    your shoulder.
  • The muscles and tendons that surround the
    shoulder provide stability and support.

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Causes
  • One of the most common cause of shoulder joint
    pain is arthritis. The most common types of
    arthritis are
  • Osteoarthritis (OA)
  • Post-traumatic arthritis
  • Rheumatoid arthritis (RA)

36
Components
  • The artificial shoulder joint can have either two
    or three parts, depending on the type of surgery
    required.
  • The humeral component (metal) is implanted in the
    humerus.
  • The humeral head component (metal) replaces the
    humeral head at the top of the humerus.
  • The glenoid component (plastic) replaces the
    surface of the glenoid socket.

37
  • Total Shoulder Replacement
  • The typical total shoulder replacement involves
    replacing the arthritic joint surfaces with a
    highly polished metal ball attached to a stem,
    and a plastic socket.
  • These components come in various sizes. They may
    be either cemented or "press fit" into the bone.
    If the bone is of good quality, your surgeon may
    choose to use a non-cemented (press-fit) humeral
    component.
  • If the bone is soft, the humeral component may be
    implanted with bone cement.
  • In most cases, an all-plastic glenoid (socket)
    component is implanted with bone cement.

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Elbow joint
40
Anatomy
  • The elbow is a hinge joint which is made up of
    three bones
  • The humerus (upper arm bone)
  • The ulna (forearm bone on the pinky finger side)
  • The radius (forearm bone on the thumb side)
  • The surfaces of the bones where they meet to form
    the elbow joint are covered with articular
    cartilage, a smooth substance that protects the
    bones and enables them to move easily.
  • A thin, smooth tissue called synovial membrane
    covers all remaining surfaces inside the elbow
    joint. In a healthy elbow, this membrane makes a
    small amount of fluid that lubricates the
    cartilage and eliminates almost any friction as
    you bend and rotate your arm.
  • Muscles, ligaments, and tendons hold the elbow
    joint together.

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components
  • In total elbow replacement surgery, the damaged
    parts of the humerus and ulna are replaced with
    artificial components.
  • The artificial elbow joint is made up of a metal
    and plastic hinge with two metal stems. The stems
    fit inside the hollow part of the bone called the
    canal.
  • Hinge allows the two pieces of the new joint to
    glide easily against each other as you move your
    elbow. The hinge allows the elbow to bend and
    straighten smoothly.

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  • The metal replacement parts are made of
    chrome-cobalt alloy or titanium and there is a
    liner made of polyethylene (plastic).
  • The bone cement is made of polymethylmethacrylate
    (acrylic, a type of plastic).

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fixations
  • There are two different ways to hold the
    artificial elbow in place.
  • A cemented prosthesis uses a special type of
    epoxy cement to glue it to the bone.
  • An uncemented prosthesis has a fine mesh of holes
    on the surface. Over time, the bone grows into
    the mesh, anchoring the prosthesis to the bone.

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