SUGERY FOR
ARTHRITIS IN THE
HIP AND KNEE
吕晨 Chen Lv
Dept. of Orthopaedics of
1st
Affiliated Hospital of WMU
normal hip arthritic hip
femoral neck and head
acetabulum
1. formation of osteophyte
2. hyperplasia of acetabulum
3. narrowing of joint space
normal knee arthritic knee
1. formation of osteophyte
2. osteosclerosis
3. narrowing of joint space (medial
gap stenosis is most common)
4. rising of intercondylar eminence
femur
tibia
varus
deformity
Definition of Osteoarthritis
(OA)
 which is also known as
degenerative joint disease
(DJD), is a progressive
disorder of the joints
caused by gradual loss of
cartilage and resulting in
the development of bony
spurs and cysts at the
margins of the joints.
Arthritis
 Painful joint
 Limp
 Lower quality of life
Middle-aged and elderly patients
Joint degeneration
Trauma
Overwork, etc
The pathogeny (etiology) is unknown, and is
generally believed to be related to:
1. degeneration of cartilage
2. aging
3. trauma
4. inflammation
5. obesity
6. metabolism
7. genetic
Pathogeny of arthritis
The bone and joint decade
(joint motion 2000-2010)
Launched by WHO in 1998
Epidemiology of arthritis
 Osteoarthritis of hip and knee occur in 10-
25% of people with age over 65 years, and
more in the future.
 Over half a million total hip replacements
worldwide each year.
 Approximately 130,000 knee replacements
are performed every year in USA.
Anatomy & Biomechanics
 HIP
 KNEE
HIP
Articular space
HIP:
 A ball and socket
joint
 With a considerable
ROM (Range Of
Motion)
 Stabilized by
strong ligament,
joint capsule and
muscles
HIP---anteriorly
underlying muscle superficial muscle
HIP---posteriorly
Abduction (piriformis only), external
rotation of the hip joint.
HIP---lateral abductors
Load on the hip when standing on
one leg
 The hip joint is the
fulcrum of lever arm
 Force of M = 3 times
BW
 Load on hip J = M +
BW = 4 BW
J
M
BW
Actions of muscles on the hip
 To stabilize the hip
 The abductors to support the pelvis
when standing on one leg
These muscles act on the hip via the lever
arm of the femoral neck
The forces passing through the hip are far
greater than the body weight
KNEE:
 A complex hinge joint
 Some rotation and glide between the joint surfaces
 Collateral ligaments and ACL/PCL to stabilize the
knee
Stabilizing system of the knee
 The collateral
ligaments control
medialateral stability
 The cruciate ligaments
control anteroposterior
stability
 The menisci act as
load-spreading spacers
Problems in the hip by age group
baby adult elderly people the disabled
At birth - congenital hip dislocation
 Occurs at birth, but
usually be found for
delayed walking
 The head of the right
femur is displaced out
of the shallow right
acetabulum.
Newborn – septic arthritis
 Clinical presentation:
acute onset of pain in the
involved hip.
 X-ray shows there is
displacement of the head
of the left femur from the
acetabulum and the
articular space is
widened.
Child – Perthes’s disease
 There is sclerosis and
loss of height of the
fragmented capital
epiphysis of the right
femur. The width of the
epiphyseal plate is
unchanged.
Stephanie PA et al. Legg- Calve- Perthes
disease. Curr Opin Orthop 2007,18:544–
549.
Adolescent – slipped femoral epiphysis
 The left epiphysis
no longer
protrudes a little
beyond the outer
margin of the
femoral neck. The
epiphyseal plate
narrows.
Adult – secondary arthritis
 The secondary diseases include:
Avascular necrosis (AVN) of femoral
head
Rheumatoid arthritis
Traumatic arthritis
Ankylosing spondylitis
etc.
Elderly – osteoarthritis ( OA )
 Articular space narrows for the degeneration of
articular cartilage
 The most common cause for joint replacement
normal involved
Senile – fracture of femoral neck
 The fracture often
occurs at daily life
activity of senile
persons, and
indicates the severe
osteoporosis.
Artificial femoral head replacement
All of problems in the hip
Arthritis
Pain
Decrease of ROM
Deformity
Causes of arthritis of the hip
 CDH --- abnormal congruence
 Septic lesion --- articular cartilage demaged
 Perthes’ disease --- collapse of femoral head
 Slipped epiphysis --- abnormal growth plate
 Secondary arthritis --- articular cartilage destroyed
 Traumatic arthritis --- incongruent joint
 Primary OA --- cause unknown
Degeneration of articular cartilage
osteoarthritis
Problems in the knee
 Osteoarthritis
 Rheumatoid arthritis
 Traumatic arthritis
 Septic arthritis
 Synovitis
Degeneration of articular cartilage and malalignment
Pain and malfunction
Options for major joints arthritis
 Non-operative methods
 Operative methods
Non-operative measures
 Pain-killers
NSAIDs (Non-Steroid Anti-Inflammatory Drugs)
 Walking aids and splint
 Mondifications around the house
 Physiotherapy
Massage, thermotherapy
 Weight loss
Operative measures
 Arthroscopy
 Arthrodesis
 Osteotomy
 Joint replacement = arthroplasty
arthroscopy
 First choice for synovitis
 Outcome for OA is still
controversial
 To give long lasting relief of
arthritic symptoms
 To delay the requirement for
more extensive surgery
arthrodesis
 Indications: OA secondary to trauma in
the young adult.
 Contraindications:
secondary OA in the older patient
with back problems
arthritis in other joints of lower extremity
Only one joint involved and young
Hip arthrodesis Knee arthrodesis
Advantages of hip arthrodesis
 Produces a painless hip
 Does not wear out
 Can be replaced with a
THA later
 Ideal for a young, active
patient
 Successful case leaves
very little disability.
osteotomy
 Indications:
Young not suitable for joint replacement
With problems on other joints not suitable
for arthrodesis
Tibial osteotomy for varus deformity of knee
in the young patients
Femoral osteotomy for hip dysplasia
Joint replacement
--- the final measure for arthritis
Indications for joint replacement
 Pain – uncontrolled by non-operative
measures
 Interference with mobility and quality
of life – secondary indication
 Age is not considered in severe case
No pain, no arthroplasty
Diagnosis for Total Hip Replacement
Preoperative preparation
1. Elimination of contraindications
2. Preassessment
3. Prophylactic antibiotics
4. Thromboprophylaxis
5. Anaesthesia
6. Urinary catheterisation
7. Theatre requirement
1. Elimination of contraindications
Any potential lesions of infection
A history of myocardial infarction or
cerebrovascular accident within 6 months
Bed bound for any other systemic
diseases
Diabetes mellitus or hypertension before
well controlled
A past history of deep vein thrombosis
2. Preassessment
Basic investigations include:
 Weight-bearing radiographys of the involved joint
 Blood exam: blood routine, ESR, CRP, liver
function test, coagulation time, electrolytes, etc.
 Adjunct ex.: ECG, echocardiography, X-ray of
chest, etc.
 Drug history: aspirin, steroids
 Transfusion preparation
3. Prophylactic antibiotics
 At lease 3 doses of a broad-spectrum antibiotics
should be used to cover the operation.
 One dose of the antibiotics should be given within
½ hr before making incision.
 The other 2 doses to cover the next 24 hrs.
 Any longer antibiotics using does not confer any
added benefit, except increasing the cost.
4. Thromboprophylaxis – perioperative
Methods of thromboprophylaxis:
 Early active or passive motion of the limb
 Mechanical methods: elastic stocking or
foot pump
 Chemical methods: low molecular weight heparin,
warfarin
excluding aspirin
Venous thromboembolism (VTE)
DVT-
deep vein thrombosis
PE -
pulmonary embolism
fatal
40%
30%
3% 1.5%
 DVT is common (30-50%).
 PE is rare (0.1-0.4%) but always fatal.
 VTE occurs most frequently in major
orthopaedic operations.
 It is a consensus that joint
replacement is absolute indication for
thromboprophylaxis.
 Thromboprophylaxis has become the
standard of care for total joint
arthroplasty.
5. Anaesthesia
Epidural ( spinal ) anaesthesia is choice of
first, to reduce operative blood loss and DVT.
General anaesthesia is rarely used .
Peripheral nerve block ( femoral & sciatic n)
is increasingly used for knee replacement in
my patients.
General anaesthesia Spinal anaesthesia
1. epidural anesthesia
2. lumbar anesthesia
Peripheral nerve block anesthesia
Sciatic nerve block Femoral nerve block
6. Urinary catheterisation
It is necessary to catheterise the patient
prior to surgery, as postoperative urinary
retention is inevitable following spinal
anaesthesia.
Catheterisation can be avoided if peripheral
nerve block is used.
7. Theatre requirement
 Laminar-flow ventilation system
 To wear disposable gowns and double
gloves
 Minimum movement into and out of the
theatre
 Minimum visitor during operation
in order to prevent the
disastrous consequences
of infection postoperatively
HOW TO DO IT
 THA --- Total Hip Arthroplasty
 TKA --- Total Knee Arthroplasty
Total hip arthroplasty
 Approach
 Procedure
 Methods of fixing implants
 Bearing surface
Approach for THA
 Anterolateral approach
 Posterior approach
 Trochanteric approach
Anterolateral approach
Cutting abductor muscles (gluteus medius and gluteus minimus)
Posterior approach
Cutting external rotator muscles ( piriformis muscle, superior twin
muscle, inferior twin muscle, etc. )
Trochanteric approach
Cutting greater trochanter
of the femur, exposing the
capsule of the hip joint and
expose the femoral head.
Reattach the great trochanter
Common approaches to THA
approach advantages disadvantages
posterior Excellent view Risk of dislocation
postoperatively
trochanteric Simple approach,
Good view
Problems reattaching
trochanter
anterolateral Stable after surgery Access is not so good,
limited hip abduction
Procedure of THA
 Preparation of the acetabulum
 Implantation of acetabular component (cup)
 Preparation of the femoral canal
 Insertion of femoral component
 Reduction of artificial joint
Preparation of the acetabulum
Anteversion angle 10-15 degrees
Abduction angle 40-55 degrees
Implantation of acetabular component (cup)
Preparation of the femoral canal
Insertion of femoral component
Reduction of artificial joint
Methods of fixation of implants
 Cement
 Cementless
(biologic fixation)
Acetabular component
cementless cement
Femoral component
cementless cement
The biological type has better bone growth, and the cement type is used in
elderly patients due to osteoporosis.
Cementing techniques
A plug is inserted into the canal, cement is extruded into
the cavity and pressurised
cement cementless hybrid
Methods of fixing implants
methods advantages disadvantages indications
Cement Easy,
Well-proven
result
Cement reaction,
Difficult to remove
at revision
At all age group,
esp. for pt. with
osteoporosis
Cement-
less
More secure Difficult,
Perfect fit-press
Thigh pain,
Younger pt. with
good bone
quality
Bearing surface of joint
 Metal on polyethylene
 Ceramic on polyethylene
 Ceramic on ceramic
 Metal on metal
☆People keep on pursuing a bearing surface with
lower coefficient of friction and slower wear,
which can get a longer survival of the artificial joint.
---wearing interface between acetabular cup and femoral head
This is the most frequently
used THA system currently
Metal on polyethylene
Ceramic on polyethylene
C-on-C M-on-M
Pros and cons of bearing surfaces
Type advantages disadvatages
M-on-PE Well proven
Cheap
High friction
High wear rates
C-on-PE Lower friction Ceramic shatter
Expensive
C-on-C Lowest friction Ceramic shatter
Expensive
M-on-M Lower friction
Larger femoral head
Metal hypersensitivity
Effect of metal ions
Expensive
Total knee arthroplasty
 Alignment
 Balance of soft tissue
knee
Procedure of TKA
 Explosion of knee cavity
 Osteotomy for proper alignment
 Soft tissue releasing for balancing
 Implantation of components
operative incision Medial patellar approach
Exposed articular surface
The femoral bone osteotomy
The tibia bone osteotomy
Medial and lateral horizontal osteotomy
5 degrees retrograde osteotomy
Due to the different design concept, the
osteotomy angle is not the same in different
joint prostheses.
Patella bone osteotomy
Axis of Knee
alignment
varus normal
Balance of ligment
Releasing soft tissue Balancing at flexing and extending
Postoperative radiograph
Postoperative care
 Regular monitoring of vital signs immediately
 Adequate analgesia at the first 24 hrs
 Using antibiotic for less than 3d
 Anticoagulation for more than 10d
 Rehabilitation of the joint including ROM and
strength by physiotherapist
Postoperative rehabilitation
 Standing on the first
postoperative day and take a few
steps.
 Begin ambulation with a walker or
crutches; initiate progressive gait
training on the postop. 2-6 d.
 Active assisted exercise,
progress to active ROM motion
and strengthening exercises.
 For TKA, 90º of flexion should be
obtained at the first week.
Postoperative complications
 Infection: <1%, rare but catastrophic
 Dislocation: <5%, mostly within the first 3 month
 Deep Vein Thrombosis: 40-60%, but
asymptomatic, and high risk leading to fatal PE
 Myositis ossificans (heterotopic ossification) :
<1%, lead to a stiff hip
 Periprosthetic osteolysis: the final result of
artificial joint, lead to aseptic loosening of prosthesis,
the most common reason for revision surgery
dislocation
Myositis ossificans
Various degrees of heterotopic ossification
osteolysis 1983
1984
1995
2002
How successful are these operations?
 At 1 year, nearly 95% of patients can expect a
good to excellent clinical result.
 These results are generally maintained at 6 to
10 years after the procedure.
 There is about a 1% failure rate per year,
yielding about a 90% success rate at 10 years.
 Generally, this is one of most successful
surgeries.
revision
 If the durability of artificial joint is not
longer than the individual longevity
 Reasons for revision
Aseptic loosening
Deep infection
Recurrent dislocation
Periprosthetic fracture
Revision of acetabular component
Revision of femoral component
HIGHLIGHTS
 Problems affecting hip in each age group
 Options for treatment of arthritis
 Indications for arthroplasty and its options
 Perioperative management for arthroplasty
 All boxes in your textbook
Thank You for Your Attention
谢谢

Chapter 32 Sugery for arthritis in the hip and knee.2023.10.09.pptx

  • 1.
    SUGERY FOR ARTHRITIS INTHE HIP AND KNEE 吕晨 Chen Lv Dept. of Orthopaedics of 1st Affiliated Hospital of WMU
  • 2.
    normal hip arthritichip femoral neck and head acetabulum 1. formation of osteophyte 2. hyperplasia of acetabulum 3. narrowing of joint space
  • 3.
    normal knee arthriticknee 1. formation of osteophyte 2. osteosclerosis 3. narrowing of joint space (medial gap stenosis is most common) 4. rising of intercondylar eminence femur tibia varus deformity
  • 4.
    Definition of Osteoarthritis (OA) which is also known as degenerative joint disease (DJD), is a progressive disorder of the joints caused by gradual loss of cartilage and resulting in the development of bony spurs and cysts at the margins of the joints.
  • 5.
    Arthritis  Painful joint Limp  Lower quality of life Middle-aged and elderly patients Joint degeneration Trauma Overwork, etc
  • 6.
    The pathogeny (etiology)is unknown, and is generally believed to be related to: 1. degeneration of cartilage 2. aging 3. trauma 4. inflammation 5. obesity 6. metabolism 7. genetic Pathogeny of arthritis
  • 7.
    The bone andjoint decade (joint motion 2000-2010) Launched by WHO in 1998
  • 8.
    Epidemiology of arthritis Osteoarthritis of hip and knee occur in 10- 25% of people with age over 65 years, and more in the future.  Over half a million total hip replacements worldwide each year.  Approximately 130,000 knee replacements are performed every year in USA.
  • 9.
  • 10.
  • 11.
    HIP:  A balland socket joint  With a considerable ROM (Range Of Motion)  Stabilized by strong ligament, joint capsule and muscles
  • 12.
  • 13.
    HIP---posteriorly Abduction (piriformis only),external rotation of the hip joint.
  • 14.
  • 15.
    Load on thehip when standing on one leg  The hip joint is the fulcrum of lever arm  Force of M = 3 times BW  Load on hip J = M + BW = 4 BW J M BW
  • 16.
    Actions of muscleson the hip  To stabilize the hip  The abductors to support the pelvis when standing on one leg These muscles act on the hip via the lever arm of the femoral neck The forces passing through the hip are far greater than the body weight
  • 17.
    KNEE:  A complexhinge joint  Some rotation and glide between the joint surfaces  Collateral ligaments and ACL/PCL to stabilize the knee
  • 18.
    Stabilizing system ofthe knee  The collateral ligaments control medialateral stability  The cruciate ligaments control anteroposterior stability  The menisci act as load-spreading spacers
  • 19.
    Problems in thehip by age group baby adult elderly people the disabled
  • 20.
    At birth -congenital hip dislocation  Occurs at birth, but usually be found for delayed walking  The head of the right femur is displaced out of the shallow right acetabulum.
  • 21.
    Newborn – septicarthritis  Clinical presentation: acute onset of pain in the involved hip.  X-ray shows there is displacement of the head of the left femur from the acetabulum and the articular space is widened.
  • 22.
    Child – Perthes’sdisease  There is sclerosis and loss of height of the fragmented capital epiphysis of the right femur. The width of the epiphyseal plate is unchanged. Stephanie PA et al. Legg- Calve- Perthes disease. Curr Opin Orthop 2007,18:544– 549.
  • 23.
    Adolescent – slippedfemoral epiphysis  The left epiphysis no longer protrudes a little beyond the outer margin of the femoral neck. The epiphyseal plate narrows.
  • 24.
    Adult – secondaryarthritis  The secondary diseases include: Avascular necrosis (AVN) of femoral head Rheumatoid arthritis Traumatic arthritis Ankylosing spondylitis etc.
  • 25.
    Elderly – osteoarthritis( OA )  Articular space narrows for the degeneration of articular cartilage  The most common cause for joint replacement normal involved
  • 26.
    Senile – fractureof femoral neck  The fracture often occurs at daily life activity of senile persons, and indicates the severe osteoporosis. Artificial femoral head replacement
  • 27.
    All of problemsin the hip Arthritis Pain Decrease of ROM Deformity
  • 28.
    Causes of arthritisof the hip  CDH --- abnormal congruence  Septic lesion --- articular cartilage demaged  Perthes’ disease --- collapse of femoral head  Slipped epiphysis --- abnormal growth plate  Secondary arthritis --- articular cartilage destroyed  Traumatic arthritis --- incongruent joint  Primary OA --- cause unknown Degeneration of articular cartilage osteoarthritis
  • 29.
    Problems in theknee  Osteoarthritis  Rheumatoid arthritis  Traumatic arthritis  Septic arthritis  Synovitis Degeneration of articular cartilage and malalignment Pain and malfunction
  • 30.
    Options for majorjoints arthritis  Non-operative methods  Operative methods
  • 31.
    Non-operative measures  Pain-killers NSAIDs(Non-Steroid Anti-Inflammatory Drugs)  Walking aids and splint  Mondifications around the house  Physiotherapy Massage, thermotherapy  Weight loss
  • 32.
    Operative measures  Arthroscopy Arthrodesis  Osteotomy  Joint replacement = arthroplasty
  • 33.
    arthroscopy  First choicefor synovitis  Outcome for OA is still controversial  To give long lasting relief of arthritic symptoms  To delay the requirement for more extensive surgery
  • 34.
    arthrodesis  Indications: OAsecondary to trauma in the young adult.  Contraindications: secondary OA in the older patient with back problems arthritis in other joints of lower extremity Only one joint involved and young
  • 35.
  • 36.
    Advantages of hiparthrodesis  Produces a painless hip  Does not wear out  Can be replaced with a THA later  Ideal for a young, active patient  Successful case leaves very little disability.
  • 37.
    osteotomy  Indications: Young notsuitable for joint replacement With problems on other joints not suitable for arthrodesis
  • 38.
    Tibial osteotomy forvarus deformity of knee in the young patients
  • 39.
    Femoral osteotomy forhip dysplasia
  • 40.
    Joint replacement --- thefinal measure for arthritis
  • 41.
    Indications for jointreplacement  Pain – uncontrolled by non-operative measures  Interference with mobility and quality of life – secondary indication  Age is not considered in severe case No pain, no arthroplasty
  • 42.
    Diagnosis for TotalHip Replacement
  • 43.
    Preoperative preparation 1. Eliminationof contraindications 2. Preassessment 3. Prophylactic antibiotics 4. Thromboprophylaxis 5. Anaesthesia 6. Urinary catheterisation 7. Theatre requirement
  • 44.
    1. Elimination ofcontraindications Any potential lesions of infection A history of myocardial infarction or cerebrovascular accident within 6 months Bed bound for any other systemic diseases Diabetes mellitus or hypertension before well controlled A past history of deep vein thrombosis
  • 45.
    2. Preassessment Basic investigationsinclude:  Weight-bearing radiographys of the involved joint  Blood exam: blood routine, ESR, CRP, liver function test, coagulation time, electrolytes, etc.  Adjunct ex.: ECG, echocardiography, X-ray of chest, etc.  Drug history: aspirin, steroids  Transfusion preparation
  • 46.
    3. Prophylactic antibiotics At lease 3 doses of a broad-spectrum antibiotics should be used to cover the operation.  One dose of the antibiotics should be given within ½ hr before making incision.  The other 2 doses to cover the next 24 hrs.  Any longer antibiotics using does not confer any added benefit, except increasing the cost.
  • 47.
    4. Thromboprophylaxis –perioperative Methods of thromboprophylaxis:  Early active or passive motion of the limb  Mechanical methods: elastic stocking or foot pump  Chemical methods: low molecular weight heparin, warfarin excluding aspirin
  • 48.
    Venous thromboembolism (VTE) DVT- deepvein thrombosis PE - pulmonary embolism fatal
  • 49.
  • 50.
     DVT iscommon (30-50%).  PE is rare (0.1-0.4%) but always fatal.  VTE occurs most frequently in major orthopaedic operations.  It is a consensus that joint replacement is absolute indication for thromboprophylaxis.  Thromboprophylaxis has become the standard of care for total joint arthroplasty.
  • 51.
    5. Anaesthesia Epidural (spinal ) anaesthesia is choice of first, to reduce operative blood loss and DVT. General anaesthesia is rarely used . Peripheral nerve block ( femoral & sciatic n) is increasingly used for knee replacement in my patients.
  • 52.
    General anaesthesia Spinalanaesthesia 1. epidural anesthesia 2. lumbar anesthesia
  • 53.
    Peripheral nerve blockanesthesia Sciatic nerve block Femoral nerve block
  • 54.
    6. Urinary catheterisation Itis necessary to catheterise the patient prior to surgery, as postoperative urinary retention is inevitable following spinal anaesthesia. Catheterisation can be avoided if peripheral nerve block is used.
  • 56.
    7. Theatre requirement Laminar-flow ventilation system  To wear disposable gowns and double gloves  Minimum movement into and out of the theatre  Minimum visitor during operation in order to prevent the disastrous consequences of infection postoperatively
  • 57.
    HOW TO DOIT  THA --- Total Hip Arthroplasty  TKA --- Total Knee Arthroplasty
  • 58.
    Total hip arthroplasty Approach  Procedure  Methods of fixing implants  Bearing surface
  • 59.
    Approach for THA Anterolateral approach  Posterior approach  Trochanteric approach
  • 60.
    Anterolateral approach Cutting abductormuscles (gluteus medius and gluteus minimus)
  • 61.
    Posterior approach Cutting externalrotator muscles ( piriformis muscle, superior twin muscle, inferior twin muscle, etc. )
  • 62.
    Trochanteric approach Cutting greatertrochanter of the femur, exposing the capsule of the hip joint and expose the femoral head.
  • 63.
  • 64.
    Common approaches toTHA approach advantages disadvantages posterior Excellent view Risk of dislocation postoperatively trochanteric Simple approach, Good view Problems reattaching trochanter anterolateral Stable after surgery Access is not so good, limited hip abduction
  • 65.
    Procedure of THA Preparation of the acetabulum  Implantation of acetabular component (cup)  Preparation of the femoral canal  Insertion of femoral component  Reduction of artificial joint
  • 66.
    Preparation of theacetabulum Anteversion angle 10-15 degrees Abduction angle 40-55 degrees Implantation of acetabular component (cup)
  • 67.
    Preparation of thefemoral canal Insertion of femoral component
  • 68.
  • 69.
    Methods of fixationof implants  Cement  Cementless (biologic fixation)
  • 70.
  • 71.
    Femoral component cementless cement Thebiological type has better bone growth, and the cement type is used in elderly patients due to osteoporosis.
  • 72.
    Cementing techniques A plugis inserted into the canal, cement is extruded into the cavity and pressurised
  • 73.
  • 74.
    Methods of fixingimplants methods advantages disadvantages indications Cement Easy, Well-proven result Cement reaction, Difficult to remove at revision At all age group, esp. for pt. with osteoporosis Cement- less More secure Difficult, Perfect fit-press Thigh pain, Younger pt. with good bone quality
  • 75.
    Bearing surface ofjoint  Metal on polyethylene  Ceramic on polyethylene  Ceramic on ceramic  Metal on metal ☆People keep on pursuing a bearing surface with lower coefficient of friction and slower wear, which can get a longer survival of the artificial joint. ---wearing interface between acetabular cup and femoral head
  • 76.
    This is themost frequently used THA system currently Metal on polyethylene Ceramic on polyethylene
  • 77.
  • 79.
    Pros and consof bearing surfaces Type advantages disadvatages M-on-PE Well proven Cheap High friction High wear rates C-on-PE Lower friction Ceramic shatter Expensive C-on-C Lowest friction Ceramic shatter Expensive M-on-M Lower friction Larger femoral head Metal hypersensitivity Effect of metal ions Expensive
  • 80.
    Total knee arthroplasty Alignment  Balance of soft tissue knee
  • 81.
    Procedure of TKA Explosion of knee cavity  Osteotomy for proper alignment  Soft tissue releasing for balancing  Implantation of components
  • 82.
    operative incision Medialpatellar approach Exposed articular surface
  • 83.
  • 84.
    The tibia boneosteotomy Medial and lateral horizontal osteotomy 5 degrees retrograde osteotomy Due to the different design concept, the osteotomy angle is not the same in different joint prostheses.
  • 85.
  • 87.
  • 88.
  • 89.
    Balance of ligment Releasingsoft tissue Balancing at flexing and extending
  • 90.
  • 91.
    Postoperative care  Regularmonitoring of vital signs immediately  Adequate analgesia at the first 24 hrs  Using antibiotic for less than 3d  Anticoagulation for more than 10d  Rehabilitation of the joint including ROM and strength by physiotherapist
  • 92.
    Postoperative rehabilitation  Standingon the first postoperative day and take a few steps.  Begin ambulation with a walker or crutches; initiate progressive gait training on the postop. 2-6 d.  Active assisted exercise, progress to active ROM motion and strengthening exercises.  For TKA, 90º of flexion should be obtained at the first week.
  • 93.
    Postoperative complications  Infection:<1%, rare but catastrophic  Dislocation: <5%, mostly within the first 3 month  Deep Vein Thrombosis: 40-60%, but asymptomatic, and high risk leading to fatal PE  Myositis ossificans (heterotopic ossification) : <1%, lead to a stiff hip  Periprosthetic osteolysis: the final result of artificial joint, lead to aseptic loosening of prosthesis, the most common reason for revision surgery
  • 94.
  • 95.
    Myositis ossificans Various degreesof heterotopic ossification
  • 96.
  • 97.
    How successful arethese operations?  At 1 year, nearly 95% of patients can expect a good to excellent clinical result.  These results are generally maintained at 6 to 10 years after the procedure.  There is about a 1% failure rate per year, yielding about a 90% success rate at 10 years.  Generally, this is one of most successful surgeries.
  • 98.
    revision  If thedurability of artificial joint is not longer than the individual longevity  Reasons for revision Aseptic loosening Deep infection Recurrent dislocation Periprosthetic fracture
  • 99.
  • 100.
  • 101.
    HIGHLIGHTS  Problems affectinghip in each age group  Options for treatment of arthritis  Indications for arthroplasty and its options  Perioperative management for arthroplasty  All boxes in your textbook
  • 102.
    Thank You forYour Attention 谢谢

Editor's Notes

  • #2 formation of osteophyte, narrowing of joint space, transverse ligament calcification, and joint vacuum phenomenon.
  • #3 clinical feature & clinical manifestation 临床表现
  • #5 More common in middle-aged and elderly patients The occurrence of arthritis is generally caused by factors such as joint degeneration, trauma, overwork, etc.
  • #7 In 1998, the World Health Organization (WHO) established an organization called The Decade of Bones and Joints, because the symptoms of arthritis can seriously affect the quality of life of patients.
  • #12 iliopsoas [,iliəup‘səuəs] 髂腰肌 Psoas major 腰大肌 Iliacus 髂肌 Sartorius 缝匠肌 Adductor longus 内收肌
  • #13 Piriformis 梨状肌 Obturator internus 闭孔内肌 Superior gemellus 上孖肌 Inferior gemellus 下孖肌 Quadratus femoris 股方肌 Iliotibial band 髂胫束
  • #22  /skləˈroʊsɪs/ /ɪˈpɪfɪsɪs/
  • #23 股骨骺滑脱
  • #28 不管什么疾病,不管什么原因,最终结果都是导致关节软骨退变。No matter what the disease, no matter what the cause, the end result is degeneration of articular cartilage.
  • #29 各种疾病导致关节软骨退变、膝关节力线丢失。Various diseases lead to degeneration of articular cartilage and loss of knee joint force.
  • #49 pulmonary hypertension 肺动脉高压
  • #50 after
  • #54 Catheterisation 英 [kæθɪtəraɪ‘zeɪʃən] 美 [kæθɪraɪˈzeɪʃən]
  • #55 这是临床上最常用的双腔导尿管。双腔导尿管:有两个腔,一个为注水孔,另一个为出液口。可以固定,主要用于留置导尿术。This is the most commonly used double-lumen urinary catheter in clinical practice. Double-lumen urinary catheter: There are two lumens, one is the water injection hole and the other is the liquid outlet. It can be fixed, mainly used for indwelling catheterization.
  • #60 tensor fasciae latae muscle 阔筋膜张肌 Vastus lateralis muscle 股外侧肌 Gluteus medius muscle 臀中肌