Orthopedic & Neurological Evaluation
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Transcript Orthopedic & Neurological Evaluation
Dr. Michael Gillespie
Doctor of Chiropractic
It is necessary to understand normal anatomy and
healthy biomechanical relationships to accurately
evaluate orthopedic and neurological conditions.
Understand the relationship between structure and
function.
Anatomical and biomechanical variants can be present
with a particular patient.
Patient History
Orthopedic and
Inspection / observation
Neurologic Testing
Diagnostic Imaging
Functional Testing
Palpation
Range of Motion
Evaluate progress.
Share information with other practitioners.
Insurance records.
Malpractice.
Subjective – Patient History
Objective – Observation and Testing
Assessment – Based on compilation of findings
Plan – Further testing and / or treatment
A thorough patient history can often lead to a proper
diagnosis with no further testing.
Emphasize the aspect of the patient history with the
greatest clinical significance.
Acquire all of the patient’s history whether or not
something seems relevant at the time.
Keep the patient focused on the problem.
Listen carefully.
Do not lead the patient towards answers.
Question and Answer Format.
Written Forms
Dialogue between patient and examiner.
Identify other problems that are either directly or
indirectly related to the presenting complaint.
Address the patient’s fears and concerns.
Develop rapport.
Keep the patient focused on the presenting problem.
Onset of complaint
Provoking or Palliative concerns
Quality of pain
Radiation to particular areas
Site and Severity of complaint
Time frame complaint
Family History
Occupational History
Social History
General Appearance
Functional Status
Body Type
Postural deviations
Gait
Muscle guarding
Compensatory movements
Assistant devices
Skin
Subcutaneous tissue
Bony structure
Bruising
Scarring
Trauma or surgery
Changes in color
Vascular changes of inflammation
Vascular deficiency – pallor or cyanosis
Pigmented areas / Hairy areas
Change in texture
Open wounds – traumatic or insidious
Asymmetry
MM lack symmetry
Irregular Borders
MM have notched, indented, scalloped, or indistinct borders
Color Changes
MM have uneven coloration, may contain several colors
Diameter
MM are typically greater than 6mm (0.25 in)
Elevation
Evaluate for inflammation and swelling
Atrophy
Increase in size
Edema, articular effusion, muscle hypertrophy
Nodules, lymph nodes, or cysts
Compare b/l symmetry, utilize circumferential
measurements
Evaluate bony structure when gait or range of
motion is altered.
Evaluate the spine
Scoliosis
Kyphosis
Lordosis
Pelvic tilt
Shoulder height
Evaluate for congenital and traumatic bone
deformities
Palpate the patient in conjunction with inspection.
Begin with a light touch.
Dysesthesia.
Hypoesthesia.
Hyperesthesia.
Anesthesia.
Evaluate skin temperature
High – inflammation
Low – vascular insufficiency
Adhesions
Subcutaneous soft tissue – fat, fascia, tendons,
muscles, ligaments, joint capsules, nerves, blood
vessels.
Palpate with more pressure than with skin.
Palpate for tenderness and swelling or edema.
Grade I
- Patient complains of pain
Grade II
- Patient complains of pain and winces
Grade III - Patient winces and withdraws the joint
Grade IV – Patient will not allow palpation of the joint
Immediately after injury, hard and warm
Contains blood
8 to 24 hours after an injury, boggy or spongy
Contains synovial fluid
Tough and dry
Callus
Thickened and leathery
Chronic swelling
Soft and fluctuating
Acute
Hard
Bone
Thick and slow moving
Pitting edema
Palpate for pulse rate, rhythm, and amplitude
Normal healthy resting pulse rate for an adult is 60 –
100 bpm
Detection of alignment problems
Dislocations, luxations, subluxations, fractures
Identify ligaments and tendons that attach to the
bones
Detect bony enlargements
Passive
Active
Resisted
The examiner moves the body part without the
patient’s help.
Note normal, increased, or decreased movement.
Note pain.
Capsular or ligamentous lesion on side of movement
and / or muscular lesion on side opposite of movement.
1. Normal mobility with no pain.
No lesion – normal joint.
2. Normal mobility with pain.
Minor ligament sprain or capsular lesion.
3. Hypomobility with no pain.
Adhesion.
4. Hypomobility with pain.
Acute ligament sprain or capsular lesion. Guarding
from muscle spasm.
5. Hypermobility with no pain.
Complete tear with no fibers intact where pain can be
elcited.
6. Hypermobility with pain.
Partial tear with some fibers still intact.
Sprain - A sprain is an injury involving the stretching
or tearing of a ligament (tissue that connects bone to
bone) or a joint capsule, which help provide joint
stability.
Strain - Strains are injuries that involve the stretching
or tearing of a musculo-tendinous (muscle and
tendon) structure.
Evaluate for end feel after determining the degree of
passive range of motion.
Passively move the joint to the end of its range of
motion and then apply slight overpressure to the joint.
Table 1-1 Page 6
Yields information regarding the patient’s general
ability and willingness to use a body part.
Assessment value is limited.
Note the degree of motion as well as pain elicited.
Crepitus should be noted.
Inclinometers and goniometers are used to
measure range of motion.
Resisted range of motion assesses musculotendinous
and neurologic structures.
Musculotendinous injuries tend to be more painful
than they are weak.
Neurologic injuries tend to be more weak than they
are painful.
5 – Complete range of motion against gravity with
full resistance.
4 – Complete range of motion against gravity with
some resistance.
3 – Complete range of motion against gravity.
2 – Complete range of motion with gravity
eliminated.
1 – Evidence of slight contractility.
0 – no evidence of contractility.
Strong with no pain – Normal.
Strong with pain – lesion of muscle or tendon.
Weak and painless – neurological lesion or complete
rupture of a tendon or muscle.
Weak and painful – partial tear of muscle or tendon.
Fracture, neoplasm, and acute inflammation are
possibilities.