MSK final exam part 1.pdf

Transcript

Management
of joint
dislocations
Lec.2 MSL
Dr.Sarkawt S.Kakai

Understanding Joint Dislocations:
Definition:
• A joint dislocation refers to the complete separation of two or more bones at an
articulating joint, disrupting the normal alignment of the joint surfaces.

Causes:
• Dislocations commonly result from trauma, falls, sports injuries, or motor vehicle
accidents.

Commonly Dislocated Joints:
• Some frequently dislocated joints include the shoulder, elbow, finger, hip, knee,
and ankle.

Clinical Assessment:
History:

Gathering information about the mechanism of
injury, previous dislocations, and associated
symptoms.

Physical Examination:

Evaluating for deformity, swelling, bruising, loss of
motion, and neurovascular status.

Imaging:

X-rays, CT scans, or MRIs may be necessary to
confirm the diagnosis, assess associated fractures,
and determine the optimal reduction technique.

Reduction Techniques

Closed Reduction:
• A non-surgical technique involving
the manual manipulation of the
dislocated joint back into its normal
position. This is usually performed
under anesthesia or sedation.

Open Reduction:
• Surgical intervention may be necessary
when closed reduction fails, or there are
complicating factors such as fractures or
severe soft tissue injuries.

Post-Reduction Care
Immobilization:

• The joint is typically immobilized using splints, casts, or
braces to prevent re-dislocation and promote healing.

Physical
Therapy:

• Early mobilization and rehabilitation are essential for
restoring joint function, preventing stiffness, and
strengthening surrounding muscles.

Pain
Management:

• Analgesics and anti-inflammatory medications may be
prescribed to manage pain and reduce inflammation.

Complications and Considerations
• Recurrent Dislocations:
• Some joints, like the shoulder, are more prone to recurrent dislocations and may
require additional interventions.
• Neurovascular Compromise:
• Caution in monitoring neurovascular status is crucial to prevent complications such as
nerve or blood vessel damage.
• Compartment Syndrome:
• In cases of severe dislocations with associated soft tissue injuries, compartment
syndrome may develop and require immediate intervention.
• Chronic unreduced dislocation:
• Pain, deformity, shortening and decreased ROM

Rehabilitation and
Long-Term Followup
• Gradual Range of Motion:
• Physical therapy focuses on restoring joint
range of motion gradually and safely.
• Strength and Stability:
• Exercises that strengthen the muscles
around the joint are essential to prevent
future dislocations.
• Psychological Support:
• Patients may experience anxiety or fear of
re-injury, and counseling or support groups
can be beneficial.

Prevention
• Protective Gear:
• In sports and high-risk activities, appropriate protective gear can reduce the
risk of joint dislocations.
• Safety Measures:
• Educating individuals about safety measures and fall prevention, especially in
the elderly, is crucial.

Shoulder Dislocation
• Anterior (90%)
• Posterior (4-10%)
• Laxation erecta - true inferior

Shoulder reduction techniques
Relocation prevented by
• Static forces
• Joint capsule / lip of glenoid
• Dynamic forces
• Rotator cuff
• Biceps
• Trapezius / deltoid
• Pectoralis

• Hippocratic

NO single best
technique

• Kocher’s
• Milch
• Stimson’s

Hip dislocation

Posterior (90%)

Anterior (10%)

Axial load in flexed adducted hip

Load on abducted externally rotated hip

Position: Flexion / adduction / internal rotation

Position: Flexion / abduction / external rotation

Knee dislocation
Use position of tibia as
reference
Anterior (most common)
Posterior

Medial / lateral / rotational
Suspect

• Hyperextension

• Force to anterior tibia with knee flexed

• Valgus / varus / rotational forces

• High injury force
• Multiple ligamentous injury and Vascular injury

Elbow
dislocation
• 2nd most common large joint
dislocation
• Simple
• Complex
• Radial head # • Coronoid # •
Terrible triad

• https://padlet.com/sarkawts83/jointdislocation-classification-aw1hjlhs2cj02ser

Total Hip Replacement
A total hip replacement is a surgical procedure where a damaged hip joint is replaced with
an artificial joint. In this presentation, we'll explore the history, b enefits, risks, and
alternativ es for this common procedure.

Dr.Sarkawt S.Kakai

History of Total Hip R eplacement
Ancient Times

1800s

The concept of replacing joints dates back to
ancient Egypt where artificial fingers were
created frombronze and gold and attached with
linen.

Surgeons developed joint prostheses made of
ivory, silver, and platinum, but the materials were
not strong enough, and the surgeries often failed.

1940s to 1960s

Today

Sir John Charnley developed the modern design
for total hip replacement, using a prosthesis
made of metal and plastic.

The procedure has come a long way, with recent
advances including minimally invasive
techniques and robotic-assisted surgeries.

Types of hip
replacement surgery:

• With a total hip replacement,
a portion of the pelvis and
the head of the thighbone are
completely removed.
• When only the femoral head is
replaced with a prosthesis,
the surgery is called
a partial hip replacement
(hemiarthroplasty)

Indication
• Osteoarthritis of the hip,
which is the most common
indication

• Rheumatoid arthritis
• Injury/fracture
• Hip osteonecrosis, or when
blood flow to bone is
reduced and bone tissue
dies as a result

• Neglected hip dislocation
or DDH

Designs include
Femoral
component

• cemented
• press-fit (uncemented)

Acetabular
components

• cemented
• press-fit (uncemented)

Bearing
surfaces

• polyethylene
• metal
• ceramic

Various Surgery Techniques
• Posterior approach
• Lateral approach
• Direct anterior approach: This is sometimes
called muscle-sparing hip replacement

Procedure of Total Hip Replacement
1

Step 1: Incision
T he surgeon makes an incision over the hip joint to expose the damaged
bone and cartilage.

2

Step 2: Preparation of the Joint
T he damaged bone is removed, and the socket and femur are shaped to fit
the prosthesis.

3

Step 3: Implantation
T he prosthesis is inserted into the joint and secured with screws, cement, or both.

4

Step 4: Post-Operative Care
T he patient is monitored for pain, infection, and mob ility. Physical therapy
is started to encourage recovery and rehab ilitation.

Benefits and Outcomes of Total Hip
Replacement
Pain Relief

Mobility

Total hip replacement can offer

Patients often report increased

improved pain relief, especially

mobility and range of motion,

The modern prosthetic hip can

for patients with advanced

allowingthemto performdaily

last up to 20 years or more,

arthritis or other degenerative

activities with greater ease.

providinglong-term benefits

conditions.

Longevity of
Prosthetic Hip

and improved quality of life.

Risks and Complications of Total Hip
Replacement
1

Potential Risks

2

Complications Management

Risks of the procedure include infection, nerve

Complications such as implant looseningor wear

damage, blood clots, and dislocation of the

can require revision surgery and should be closely

prosthetic joint.

monitored by the patient and surgeon.

Alternatives to Total Hip Replacement

Non-Surgical Alternatives

Comparison of Outcomes

Future Advancements

Alternatives to total hip replacement

While these alternatives may be

Exciting advancements in total hip

include pain medications, physical

effective for some patients, they often

replacement technology include 3D

therapy, weight loss, and use of

cannot provide the same level of

printing, personalized implants, and

assistive devices such as canes or

long-term improvement as total hip

minimally invasive robotic-assisted

walkers.

replacement and may not be

surgeries.

appropriate for all patients.

Conclus ion
The Benefits

The R isks

Total hip replacement has provided many patients with

While the risks of the procedure are present, they can be

improved mobility and quality of life, and recent

managed with proper pre-operative care and post-

technological advancements continue to offer promising

operative monitoring, as well as regular follow-up visits

outcomes.

with the surgeon.

• https://www.orthobullets.com/recon/5036/tharehabilitation?hideLeftMenu=true

Total Knee
Replacement
Dr.Sarkawt S.Kakai
KHCMS Orthro. & Trauma

Introduction to Total Knee
Arthroplasty
Total Knee Arthroplasty, also known as knee
replacement surgery, is a surgical procedure to replace
a damaged or worn knee joint with an artificial joint.
It is usually performed to relieve pain and restore
function in patients with severe knee arthritis or joint
damage.
The artificial joint, made of metal and plastic
components, mimics the natural movement of the knee
joint.

Anatomy of the Knee
Anatomy of the Knee
●

The knee joint is composed of the femur, tibia, and patella.

●

The femur is the thigh bone, the tibia is the shin bone, and the
patella is the kneecap.

●

The knee joint is supported by ligaments, including the anterior
cruciate ligament (ACL), posterior cruciate ligament (PCL), medial
collateral ligament (MCL), and lateral collateral ligament (LCL).

●

The knee also contains menisci, which are C-shaped pieces of
cartilage that act as shock absorbers.

Why Total Knee Arthroplasty?

1

2

3

Relieves pain

Enhances quality of life

Improves function

Procedure steps of Total Knee Arthroplasty
Metal implants
are placed on the
ends of the thigh
bone and shin
bone, and a
spacer is inserted
between them.

An incision is
made in the front
of the knee to
access the knee
joint.

The damaged
cartilage and
bone are
removed from the
surfaces of the
knee joint.

The incision is
closed, and a
drain may be
placed to remove
fluid.

Types

Post-Operative Care
Early P.O

Mid-P.O

Late P.O

• Should focus on pain management, wound care, and preventing complications such as infection and
blood clots.
• Physiotherapy interventions may include gentle range of motion exercises and ambulation with the
assistance of a walker or crutches.

• Patients should continue with pain management and wound care.
• Physiotherapy interventions may include strengthening exercises, balance training, and functional
activities to promote independence in daily tasks.

• Patients should focus on achieving full range of motion, strength, and function.
• Physiotherapy interventions may include more advanced exercises, agility training, and gradual return
to normal activities.

Role of Physiotherapy in Rehabilitation
Benefits of Physiotherapy

Techniques Used in Physiotherapy

Improves range of motion

Manual therapy

Strengthens muscles

Therapeutic exercises

Reduces pain and inflammation

Electrotherapy

Enhances functional abilities

Joint mobilization

Common Challenges in Physiotherapy

1

2

3

Limited hands-on
experience during
training

Time management

Complex patient cases

How to Overcome Challenges
Challenges

Strategies

•

Limited range of motion

•

Regular physical therapy sessions

•

Muscle weakness

•

•

Pain and swelling

Gradual increase in range of motion
exercises

•

Fear of movement

•

Strengthening exercises for the muscles
around the knee

•

Pain management techniques

Future Trends in Knee Arthroplasty
Trends in Knee Arthroplasty

Advancements in technology and
surgical techniques are expected to
drive the future of knee arthroplasty.

Conclusion: The Importance of Physiotherapy in Total
Knee Arthroplasty
Key Takeaways
●

Physiotherapy plays a critical role in the rehabilitation process after total knee
arthroplasty.

●

Physiotherapy helps improve range of motion, strength, and function of the knee joint.

●

Active participation in physiotherapy sessions leads to better outcomes and faster
recovery.

●

Physiotherapy also helps reduce pain and swelling, and improves overall quality of life.