spine evaluation john m lavelle, do. history onset of pain: acute or chronic? location of pain:...
TRANSCRIPT
Spine Evaluation
John M Lavelle, DO
History
Onset of Pain: acute or chronic? Location of Pain: midline,
lateralized? Radiation of Pain: down one leg or
both legs?
History
Strength: unilateral or bilateral loss of leg strength?
Loss of bowel or bladder control? Type of pain: ache, burning,
throbbing, Night Time? Parasthesia?
Observation Lordosis: cervical and lumbar Kyphosis: thoracic Scoliosis Pelvic Obliquity Pelvic tilt Hair tuft (faun’s beard) Lipoma Head Position Scapular Winging Muscle Atrophy
Observation
Step off deformity Gait
-trendelenburg -antalgic -foot drop/slap -circumducted
Range of Motion Cervical
Cervical Flexion: zero to 80-90 degrees Cervical Extension: zero to 70 degrees Cervical Sidebending: zero to 20-45 degrees Cervical Rotation: zero to 70-90 degrees
Thoracic Thoracic Flexion/Extension: 45 degrees Thoracic Rotation: 50 degrees
Lumbar Forward Flexion: 40 to 60 degrees Extension: 20 to 35 degrees Lateral Flexion: 15 to 20 degrees Rotation: 3 to 18 degrees
Dermatomes: Cervical and Thoracic C2: C3: C4: C5: C6: C7: C8: T1: T2: T4: T6:
Dermatomes: Cervical and Thoracic C2: Posterior head C3: Peri-auricular, pinna,
jaw, upper neck C4: Base of neck and
shoulder C5: Lateral arm, proximal
to antecubital crease C6: Lateral forearm,
thumb, index finger C7: Dorsal forearm,
dorsal and volar index/middle and ring finger
C8: Ring and little finger, medial forearm
T1: Medial Arm T2: Upper thorax T4: Nipple Area T6: Lower thorax
Dermatomes L1: L2: L3: L4: L5: S1: S2: S3:-S5:
Dermatomes L1: Groin and upper
thigh L2: Mid and anterior
thigh L3: Lower anterior thigh L4: Medial Malleolus L5: Great toe and instep S1: Lateral Foot S2: Posterior Knee S3:-S5: Concentric
Circles about the anus.
Myotomes C4-Scapular elevation (trapezius, levator
scapulae) C5-Shoulder abduction (deltoid, rotator cuff) C6-Elbow Flexion (Biceps) Wrist extension
(Extensor Carpi Radialis Longus and Brevis) C7-Elbow Extension (Triceps) Finger extension
(extensor digitorum communis) C8-Thumb Extension (extensor pollicis Longus)
ulnar deviation (flexor and extensor carpi ulnaris)
T1-Hand intrinsics: adduction and abduction (interossei and Lumbricals)
T1-T12-Thoracic extension, rotation and sidebending, rib elevation and depression
T6-T12-Thoracic flexion
Myotomes
L2: hip flexion ( psoas) L3: knee ext ( quad) L4: dorsilfexion ( tib ant) L5: great toe ext ( EHL) S1: plantarflex (gastroc/soleus)
Reflexes Biceps: C5,6 Brachioradialis: C6,
C5 Triceps: C7-8 Hoffmann: upper
motor lesion Babinski: upper motor
lesion Jaw Jerk: CN V Adductor sign
Patellar: L3-L4 Medial Hamstring:
L5-S1 Achilles S1-S2 Superficial
Abdominal: T7-L1- no mov’t to stim
Beevor’s Sign: positive if the umbilicus moves during active quarter sit up. – weak abs
Cremasteric Reflex: T12-L2
Anal Wink: S2-S4
Palpation
Subcutaneous tissue: hard, soft, puffy, warm, cold, boggy
Fascia: restriction of motion Muscles: atrophy, hyper/hypotonic Vertebral motion: single and multi
segmental - mov’t in rotation, flexion/extension, sidebending.
Palpation Landmarks:
T2 - Sternal notch T4 – sternal angle T9 – Xyphoid process
C7 - vertebra Prominens T3 – spine of scapula T7 – Inferior angle of scapula L4 – Iliac crests S2 - PSIS
Palpation - Muscles
Cervical: Posterior: Trap, Levator, Splenius,
semispinalis, multifidus, Rectus capitus Anterior: SCM, Scalenes, longus
capitus, Longus Coli Thoracic/Lumbar:
Superficial: Iliocostalis, Longissimus, Spinalis, Rhomboids, serratus sup/inf
Deep: Interspinalis, Rotatores, multifidus
Special Tests: Straight Leg Test
Goal: To identify neurological impingement in the lumbar spine.
Patient Position: supine, with the leg being tested medially rotated and the knee extended.
Examiner Position: The examiner then flexes the hip until the patient complains of pain in the back or leg occurs.
Positive Findings: If the pain is primarily in the back, disc is more likely herniated centrally. If the patient’s pain is more radicular, the herniated disc is more likely herniated laterally. Also, the range of hip flexion for this condition is found between 35 and 70 degrees of flexion. If the hip is flexed to greater than 70 degrees before pain, then hamstring etiology must be ruled out.
Special Test: Well Leg Raise Goal: To identify
neurological impingement in the lumbar spine.
Patient Position: supine, with the asymptomatic leg medially rotated and the knee extended.
Examiner Position: The examiner then flexes the hip until the patient complains of pain in the back or leg occurs.
Positive Findings: Pain recurring in the back or symptomatic leg. This test helps to reinforce a positive straight leg raising test.
Special Test: Bowstring Test Goal: To identify sciatic
nerve irritation. Patient Position: Supine,
with the affected leg internally rotated.
Examiner Position: The examiner flexes the leg until pain is reproduced and then the knee is flexed until the pain is diminished. The examiner then pushes into the popliteal fossa.
Positive Finding: pain reproduced with palpation of the sciatic nerve.
Special Test: Milgram Goal: to assess for
intrathecal pathology Patient Position: supine Examiner Position: The
examiner instructs the patient to raise both legs off the table approximately two inches. This position is held for 30 seconds.
Positive Findings: Inability to initiate or maintain position, or pain. Indicative of intrathecal or extrathecal pathology, or pressure on the spinal cord.
Special Tests: Prone Knee Bending (Ely Test) Goal: To identify an upper
lumbar nerve root lesion and/or femoral nerve root irritation.
Patient Position: Prone. Examiner Position: The
examiner passively flexes the knee to the buttock. If the patient cannot flex the knee, passive hip extension can be induced.
Positive Findings: Pain in the lumbar, buttock or posterior thigh for a upper lumbar lesion. Anterior thigh represents a possible irritation of the femoral nerve.
Special Tests: Ober’s test Asses ITB Patient lies on their side with the unaffected leg
on bottom and bent and the affected leg on top and straight.
Examiner places a stabilizing hand on the patient's upper iliac crest and then lifts the straight upper leg, extends it at the hip and slowly lowers it behind the bottom leg, allowing it to adduct to the examining table.
Positive if the patient can't adduct the leg to the examination table
Spurling Test Goal: To assess cervical
radiculopathy Patient Position: Seated. Examiner Position: The test is
peformed in stages. First axial compression is applied with the neck in neutral. Then the neck is extended and axial compression is applied. Finally, the neck is extended and rotated the affected side and axial compression is applied. The neck may also be sidebent to localize the symptoms.
Positive Findings: A positive result is indicated if the patient experiences pain down into the arm on the same side as the compression.
Shoulder Abduction Relief Sign (Bakody’s Sign) Goal: To identify radicular symptoms of
the lower cervical trunk Patient Position: supine or seated. Examiner Position: The examiner
abducts the affected shoulder. Positive Findings: Relief of radicular
symptoms is indicative of lower cervical nerve root impingement, most likely from a herniated disc.
Romberg Test Goal: to identify an upper
motor neuron lesion. Patient Position: Standing Examiner Position: The
examiner has the patient close the eyes and stand for 20 to 30 seconds. Additionally, the patient can be instructed to hold the arms outward and supinated.
Positive Findings: loss of balance. If the hands are raised, the side in which the hand begins to pronate is the side of the lesion.
Adson Test Goal: to test for thoracic
outlet syndrome Patient Position: The patient
is seated and rotates the head to the affected side.
Examiner Position: The examiner palpates the radial pulse and then instructs the patient to extend the head and take in a deep breath and hold it. The examiner then extends and externally rotates the arm.
Positive Findings: The examiner identifies the disappearance of the radial pulse.
Halstead Test Goal: to test for thoracic
outlet syndrome Patient Position: The patient
is seated and rotates the head to the opposite side.
Examiner Position: The examiner palpates the radial pulse and then instructs the patient to extend the head and take in a deep breath and hold it. The examiner then extends and externally rotates the arm.
Positive Findings: The examiner identifies the disappearance of the radial pulse.
Elevated Arm Stress Test Goal: To identify thoracic outlet syndrome. Patient Position: sitting, with arms
abducted to 90 degrees with elbows flexed to 90 degrees and hands pointing upward.
Examine Position: The examiner instructs the patient to open and close hands repeatedly for 3 minutes.
Positive Findings: inability to perform the maneuver for 3 minutes due to reproduction of symptoms is indicative of thoracic outlet syndrome.
Special Tests: Schober Test Goal: to identify loss of lumbar spine range of motion. Patient Position: Patient standing. Examiner Position: The examiner places a mark on the
sacrum midway between the PSIS’s. A mark is then placed 5cm below and 10 cm above the first mark (15cm). The distance between the three marks is measured. The patient is then asked to flex forward and the distance between the three marks is remeasured.
Positive Findings: A difference of less than 5cm increase (20cm) suggests a loss of lumbar spine flexion.
Special Tests: Stork Test (Gillet) Goal: to identify
spondylolisthesis and/or facet joint pathology.
Patient Position: The patient stands on one leg and then extends the spine. This position is repeated with the other leg.
Positive Findings: pain in the back. A unilateral fracture is indicated when pain is localized to one side with standing.
Special Tests: Stork Test (Gillet) Examiner's left thumb is placed on the PSIS and the
right thumb on the midline of the sacrum. Patient flexes the left hip and knee as much as possible
with a minimum of 90 degrees of the hip flexion (the key is that the hip has to flex beyond its maximal amount of motion so that the innominate bone can posteriorly tilt with hip flexion).
A negative test finds the left thumb on the PSIS moving caudal in relation to the right thumb on the sacrum.
A positive finding occurs when the thumb on the PSIS does not move at all or moves cranially in relation to the thumb on the sacrum.
Assess movement of the innominate bone posteriorly on the sacrum,
Determine if the left or right SI joints are restricted.
Lhermitte’s Sign Goal: to identify spinal
cord, upper motor neuron lesions, or dural tension.
Patient Position: Long sitting position.
Examiner Position: The examiner flexes the cervical spine while simultaneously flexing one hip.
Positive Findings: Pain shooting down the spine and into the upper or lower extremities.
Special Tests: Slump Test Goal: to assess for
neurodynamic tension. Patient Position: Seated
with the legs hanging over the edge of the table, the hips in neutral position, and the hands placed behind the back.. The patient is then put in a sequential series of positions.
1: The patient is asked to slump forward into thoracic and lumbar flexion, while the cervical spine is held in a neutral position.
Special Tests: Slump Test 2: The examiner pushes down on shoulders to maintain
flexion while the patient actively flexes the cervical spine.
3: The examiner then applies pressure on the head to maintain cervical flexion while the patient is instructed to actively extend the knee. With the examiners caudad hand, passive dorsiflexion is initiated.
The test is repeated with the other leg, and finally, with both legs.
Positive Findings: reproduction of pain when the knee is extended, and symptoms are decreased when the cervical spine is extended, or increased symptoms when the patient is positioned are indicative of tension in the neuromeningeal system.
Special Tests: Hoover Goal: To test for
malingering. Patient Position: Supine. Examiner Position: The
examiner places the hands under both heels. The patient is then instructed to lift ONE leg at a time.
Positive Findings: If the patient is attempting to lift one leg, downward pressure is unconsciously applied by the contralateral leg. If no downward pressure is felt, the patient may be malingering.
Waddell Signs Tenderness tests: superficial and diffuse tenderness
and/or nonanatomic tenderness Simulation tests: these are based on movements which
produce pain, without actually causing that movement, such as axial loading and pain on simulated rotation
Distraction tests: positive tests are rechecked when the patient's attention is distracted, such as a seated SLR
Regional disturbances: regional weakness or sensory changes which deviate from accepted neuroanatomy
Overreaction: subjective signs regarding the patient's demeanor and reaction to testing
Diagnostics: X-rays
Diagnostics: Discogram Test use: This test is used to
identify whether an intervertebral disc is the source of the patient’s low back pain.
Procedure: a radio-opaque dye is introduced into the center of the vertebral disc.
Results: If the patient’s pain is reproduced, then it is inferred that the intervertebral disc is the source of the pain. If the patient experiences pain that is different than the normal pain, then the disc is not responsible. This procedure is painful to the patient. A ct scan may also be performed to identify the integrity of the disc.
Diagnostics: Myelogram Test use: To identify
anatomical abnormalities within the spinal canal.
Procedure: A radio-opaque dye is placed into the dural sac and a CT scan of the area is then performed.
Results: The CT scan is then read to identify whether any filling defects are seen within the spinal cord and the nerve roots. Defects may represent, a herniated disc, bone spurs, infections, malignancies, etc.
MRI
CT scan
EMG/NCS
Bone Scan Nuclear scan in
which radionuclide tracers are infused and the then a the radioactive uptake is analyzed.
Areas which are metabolically active will pick up more tracer than normal tissue.
Osteoporosis
Spondylolysis
Pott’s Disease
- Extrapulmonary TB that affects the spine.
Paget’s Disease Condition in which the
breakdown of bone by osteoclasts is greater than the build up by osteoblasts.
This causes a weakening of the bony matrix and can lead to fractures.
Often found incidentally on x-ray.
Different from osteoporosis in that there is some bony remodelling. Paget’s Disease with “picture framing”
Compression Fracture
Osteomyelitis
Cancer of the Spine Most are metastatic
from other sites (breast, prostate, lung, colon), also, multiple myeloma can affect the spine.
Metastatic Breast Cancer and “Ivory Sign”
Thank you
Questions?