Training - Ergonet
Download
Report
Transcript Training - Ergonet
Diagnosing Low
Back Pain
Eden Wheeler, M.D.
Physical Medicine and Rehabilitation
Rockhill Orthopaedics, P.C.
1
I. History:
2
• Mechanism of injury
• Associated symptoms:
•
•
•
•
•
•
•
•
Bladder / bowel function
Fevers / chills
Sleep disturbance
Numbness / tingling
Prior injuries, treatment and outcomes
Medications
Family history
Social history:
•
•
•
•
Vocational
Education
Tobacco / ETOH / Illicit drugs
Function: ADLs & Mobility
• Litigation
3
Pain Specifics:
•
•
Quality: sharp, dull, shooting, burning, etc.
Location / Distribution:
• Radicular: Dermatomal distribution, dysesthesias
• Radiating: Nondermatomal
•
Onset:
• Gradual: DDD
• Acute: Disc abnormality, strain, compression fractures
•
•
•
•
•
Severity / Intensity
Frequency: Constant vs. Intermittent
Duration
Exacerbating and Alleviating Factors
Time of Day: If nocturnal, consider malignancy
4
Red Flags:
•
•
•
•
Significant trauma history, or minor in older adults
Nocturnal pain in supine position with history of cancer
Bladder or bowel incontinence or dysfunction
Constitutional symptoms:
• Fever / chills
• Weight loss
• Lymph node enlargement
• Risk factors for spinal infection
• Recent infection
• IV drug use
• Immunosuppression
• Major motor weakness
5
II. Examination:
6
A. Physical:
• Posture:
• Splinting
• Body language
• Gait:
• Antalgia
• Heel / Toe pattern
• Trendelenberg
• Musculoskeletal:
•
•
•
•
ROM
Leg length
Vascular
Atrophy
7
• Abdomen:
• Presence of masses
• Back:
•
•
•
•
Inspection
Palpation
ROM
Scoliosis
• Neurological:
• Sensation
• Motor
• DTRs
• Rectal if indicated:
• Evaluation of sphincter tone
8
B. Symptom Magnification
Examination:
• Waddell signs: Presence of nonorganic signs
suggesting symptom magnification and
psychological distress
–
–
–
–
–
Superficial or nonanatomic distribution of tenderness
Nonanatomic or regional disturbance of motor or sensory impairment
Inconsistency on positional SLR
Inappropriate/excessive verbalization of pain or gesturing
Pain with axial loading or rotation of spine
• Give-away weakness: Inconsistent effort on manual
motor testing with “ratcheting” rather than smooth
resistance
9
C. Pathological Examination:
• Spurling’s maneuver: Lateral rotation and extension of spine resulting
in neuroforaminal narrowing and nerve root encroachment, clinically
reproducing extremity pain, usually in dermatomal distribution
• Straight-leg raise (SLR): Elevation of lower extremity, seated or
standing, resulting in neural tension at S1 nerve root with extremity pain
• Patrick’s maneuver: Crossed leg with unilateral pain indicative of
sacro-iliac (SI) joint dysfunction
• Femoral stretch: Hip extension stretch with heel pushed to buttock in
lateral supine or prone position resulting in anterior thigh pain
10
III. Low Back Pain:
11
A. Epidemiology:
• Incidence of LBP:
• 60-90 % lifetime incidence
• 5 % annual incidence
• 90 % of cases of LBP resolve without treatment within 6-12
weeks
• 40-50 % LBP cases resolve without treatment in 1 week
• 75 % of cases with nerve root involvement can resolve in 6
months
• LBP and lumbar surgery are:
• 2nd and 3rd highest reasons for physician visits
• 5th leading cause for hospitalization
• 3rd leading cause for surgery
12
B. Disability:
• Age and LBP:
• Leading cause of disability of adults < 45 years old
• Third cause of disability in those > 45 years old
• Prevalence rate:
• Increased 140 % from 1970 to 1981 with only
125 % population growth
• Nearly 5 million people in the U.S. are on
disability for LBP
13
C. Lifetime Return to Work:
• Success of less than 50 % if off work greater
than 6 months
• 25 % success rate if off work greater than 1 year
• Nearly 0 % success if return to work has not
occurred in 2 years
14
D. Occupational Risk Factors:
•
•
•
•
•
•
Low job satisfaction
Monotonous or repetitious work
Educational level
Adverse employer-employee relations
Recent employment
Frequent lifting
• Especially exceeding 25 pounds
• Utilization of poor body mechanics in technique
15
E. Differential Diagnoses:
• Lumbar strain
• Disc bulge / protrusion / extrusion
producing radiculopathy
• Degenerative disc disease
• Spinal stenosis
• Spondyloarthropathy
• Spondylosis
• Spondylolisthesis
• Sacro-iliac dysfunction
16
F. Diagnostic Tools:
• 1. Laboratory:
•
Performed primarily to screen for other disease etiologies
• Infection
• Cancer
• Spondyloarthropathies
• No evidence to support value in first 7 weeks unless with red flags
• Specifics:
• WBC
• ESR or CRP
• HLA-B27
• Tumor markers:
Kidney
Breast
Lung
Thyroid
Prostate
17
• 2. Radiographs:
• Pre-existing DJD is most common diagnosis
• Usually 3 views adequate with obliques only if equivocal findings
• Indications:
• History of trauma with continued pain
• Less than 20 years or greater than 55 years with severe or
persistent pain
• Noted spinal deformity on exam
• Signs / symptoms suggestive of spondyloarthropathy
• Suspicion for infection or tumor
18
• 3. EMG / NCV ( Electrodiagnostics):
• Can demonstrate radiculopathy or peripheral nerve
entrapment, but may not be positive in the extremities
for the first 3-6 weeks and paraspinals for the first 2 weeks
• Would not be appropriate in clinically obvious radiculopathy
• 4. Bone scan:
• Very sensitive but nonspecific
• Useful for:
• Malignancy screening
• Detection for early infection
• Detection for early or occult fracture
19
• 5. Myelogram:
• Procedure of injecting contrast material into the spinal canal
with imaging via plain radiographs versus CT
• In past, considered the gold standard for evaluation of the spinal
canal and neurological compression
• With potential complications, as well as advent of MRI and CT,
is less utilized:
• More common: Headache, nausea / vomiting
• Less common: Seizure, pain, neurological change, anaphylaxis
• Myelogram alone is rarely indicated
• Hitselberger study 1968 Journal of Neurosurgery:
• 24 % of asymptomatic subjects with defects
20
• 6. CT with myelogram:
• Can demonstrate much better anatomical detail than
myelogram alone
• Utilized for:
• Demonstrating anatomical detail in multi-level disease in preoperative state
• Determining nerve root compression etiology of disc versus
osteophyte
• Surgical screening tool if equivocal MRI or CT
21
• 7. CT:
• Best for bony changes of spinal or foraminal stenosis
• Also best for bony detail to determine:
• Fracture
• DJD
• Malignancy
• SW Wiesel study 1984 Spine:
• 36 % of asymptomatic subjects had “HNP” at L4-L5
and L5-S1 levels
22
• 8. Discography (Diagnostic disc injection):
• Less utilized as initial diagnostic tool due to high incidence of
false positives as well as advent of MRI
• Utilizations:
• Diagnose internal disc derangement with normal MRI / myelo
• Determine symptomatic level in multi-level disease
• Criteria for response:
• Volume of contrast material accepted by the disc, with normals of 0.5 to
1.5 cc
• Resistance of disc to injection
• Production of pain---MOST SIGNIFICANT
• Usually followed by CT to evaluate internal architecture, but
also may utilize MRI
• As outcome predictor (Coulhoun study 1988 JBJS):
• 89 % of those with pain response received benefit from surgery
• 52 % of those with structural change received surgical benefit
23
• 9. MRI:
• Best diagnostic tool for:
• Soft tissue abnormalities:
• Infection
• Bone marrow changes
• Spinal canal and neural foraminal contents
• Emergent screening:
•
•
•
•
Cauda equina syndrome
Spinal cored injury
Vascular occlusion
Radiculopathy
• Benign vs. malignant compression fractures
• Osteomyelitis evaluation
• Evaluation with prior spinal surgery
24
• Has essentially replaced CT and myelograms for initial
evaluations
• Boden study 1990 JBJS:
• 20 % of asymptomatic population less than 60 years with “HNP”
• 36 % of asymptomatic population of 60 years
• Jensen study 1995 NEJM:
• 52 % of asymptomatic patients with disc bulge at
one or more levels
• 27 % of asymptomatic patients with disc protrusion
• 1 % of asymptomatic patients with disc extrusion
25
• MRI with Gadolinium contrast:
• Gadolinium is contrast material allowing enhancement of
intrathecal nerve roots
• Utilization:
• Assessment of post-operative spine---most frequent use
• Identifying tumors / infection within / surrounding spinal cord
• Diagnosis of radiculitis
• Post-operatively can take 2-6 months for reduction of mass
effect on posterior disc and anterior epidural soft
tissues which can resemble pre-operative studies
• Only indications in immediate post-operative period:
• Hemorrhage
• Disc infection
26
• 10. Psychological tools:
• Utilized in case scenarios where psychological or emotional
overlay of pain is suspected
• Symptom magnification
• Grossly abnormal pain drawing
• Non-responsive to conservative interventions but with essentially
normal diagnostic studies
• Includes:
• Pain Assessment Report, which combines:
• McGill Pain Questionnaire
• Mooney Pain Drawing Test
• MMPI
• Middlesex Hospital Questionnaire
• Cornell Medical Index
• Eysenck Personality Inventory
27
MRI Nomenclature:
• Anular fissure:
(PER NASS)
Focal disruption of anular fibers in concentric, radial or
transverse distribution
• Disc bulge:
Circumferential, diffuse, symmetric extension of anulus beyond
the adjacent vertebral end plates by 3 or more mm, usually due to weakened or lax
anular fibers
• Disc protrusion:
Focal, asymmetric extension of disc segment beyond
margin of vertebral end plates into the spinal canal with most of anular fibers intact
• Disc extrusion:
Focal, asymmetric extension of disc segment and / or nucleus
pulposis through the anular containment into the epidural space
• Disc sequestration: Extruded disc segment that is detached from original
with migration into the canal
• Disc degeneration:
Irreversible structural and histiological changes in
nucleus seen on MRI T2WI images (commonly associated with bulge)
28
Specificity / Sensitivity
Diagnosis
Test
Sensitivity
Specificity
Disc
“Herniation”
CT
0.90
0.70
MRI
0.90
0.70
CT Myelo
0.90
0.70
CT
0.90
0.80-0.95
MRI
0.90
0.75-0.95
Myelogram
0.77
0.70
Spinal
Stenosis
29
G. Treatment
• Medications
• NSAIDS
• Membrane stabilizers
• TCA / Neurontin
• re-establish sleep pain
• reduce radicular dysesthesias
• Muscle relaxers:
• re-establish sleep patterns
• more useful in myofascial/muscular pain
• Narcotics: rarely indicated
• Steroids: more useful for radiculitis
• Non-narcotic analgesics: Ultram
30
• Physical therapy
•
•
•
•
•
•
•
•
Modalities
electrical stimulation/TENS
Postural education / body mechanics
Massage / mobilization / myofascial release
Stretching / body work
Exercise / strengthening
Traction
Pre-conditioning / work-conditioning
• Injections
•
•
•
•
•
Epidural blocks
Facet blocks
Trigger point
SNRB
SI joint
31
• Surgery:
•
•
•
•
Laminectomy
Fusion
Discectomy
Percutaneous Lumbar Discectomy
– Success rate variable 50 -85 %
– Low rate of complications:
• Infection
• Peripheral nerve injury
– Benefits:
•
•
•
•
•
Outpatient procedure
Minimal to no epidural scarring
No general anesthesia
Spine stability preservation
Decreased cost
32
• Chemonucleolysis
• IDET: Intradiscal Electrotherapy or Spine CATH
• Alternative:
• Chiropractic:
• Clinical studies show benefit only in first 3 weeks of symptoms
• Acupuncture
• Biofeedback
33
IV. Specific Disorder
Considerations
34
A. Sacroiliitis:
• History:
•
•
•
•
Trauma is very common
Repetitive LS motion--lumbar rotation or axial loading
No specific correlation with exacerbating activities
Commonly have leg length discrepancy or condition contributing
• Biomechanics:
• Movement of the SIJ is involuntary, usually from muscle imbalances
• Can occur at multiple levels: lower extremities, hip, LS spine
• Motion is complex and not single-axis based
35
• Differential Diagnosis:
a. Fracture
• Traumatic
• Insufficiency stress fractures: elderly patient with osteoporosis
without history of trauma
• Fatigue stress fractures: usually athletes / soldiers
b. Infection
• Hematogenous spread with predisposing history
• Usually unilateral symptoms present
c. Degenerative joint disease
d. Metabolic disease
e. Referred pain
36
f. Seronegative spondyloarthropathies
• RA--usually not until late in course of disease
• Ankylosing spondylitis
• Psoriatic arthritis
g. Primary SI tumor
• Rare and usually synovial villoadenomas
h. Iatrogenic instability
• Via pelvic tumor resection or bone graft site
i. Osteitis condensans ilii
• Prevalence of 2.2 %, primarily in multiparous women
• Usually self-limiting and bilateral
j. Reactive disease as sequellae of PID
37
• Diagnostic Tools:
• X-rays: Up to 25 % of asymptomatic adults over 50 years
can have abnormalities
• MRI / CT: Only if looking for tumor
• Bone scan: Good for fractures but less favorable for inflammation
• Treatment:
• Medications: NSAIDS
• Physical therapy
• Correct limb discrepancy
• Injection: Fluoroscopy-guided vs. local
• Surgical fusion: Few figures for efficacy
38
B. Cauda Equina Syndrome:
• History:
• Sudden, partial or complete loss of voluntary bladder function
due to massive disc impingement on spinal nerves
• Can include loss of sensation as well as sphincter tone
• Treatment:
• Urgent decompression is mandatory for prevention of
irreparable / irreversible bladder damage
• 12 hours is the maximum time prior to irreversible changes
39
C. DDD and Spondylosis:
• Clinical:
• Up to 75 % of involvement of the spine occurs at 2 levels:
L5-S1 and L4-L5
• Possible factors that contribute to development:
– Changes with maturation in:
• Nutrition
• Disc chemistry
• Hormones
– Occupational forces
• Progression of disc narrowing leads to degenerative changes of
bony structures, especially posterior components, leading
to spondylosis
40
• Treatment:
• Medications
• Physical therapy
• Lifestyle changes:
• Smoking cessation
• Weight loss
• Vocational changes
• Injections:
• Less helpful if pain is limited to central low back only
• Surgery:
• Laminectomy
• Fusion
41
D. Spinal Stenosis:
• Clinical:
• Results from narrowing of spinal canal and / or neural foramina
(CONGENITAL OR DEGENERATIVE)
• Most common complaint is leg pain limiting walking
• Neurogenic / Pseudoclaudication = pain in lower extremities with gait
• Relief can occur with:
– stopping activity
– sitting, stooping or bending forward
• Common are complaints of weakness and numbness of extremities
• Usually becomes symptomatic in 6th decade
42
• Diagnosis:
• CT and MRI may yield false-positive results, therefore EMG /
NCV can be helpful to confirm diagnosis
• Myelography also can be confirmatory and pre-surgical
screening tool
• Treatment:
•
•
•
•
•
Medications
Physical therapy
TENS
Epidural injections
Surgical decompression laminectomy
43
E. “HNP”:
• Clinical:
• Low back pain wit associated leg symptoms
• Positions can induce radicular symptoms
• Posterolateral disc pathology most common:
• Area where anular fibers least protected by PLL
• Greatest shear forces occur with forward or lateral bend
• Central disc pathology:
• Usually with LBP only without radicular symptoms, unless
a large defect is present
44
• Treatment:
• Conservative treatment:
– Saul and Saul study 1989 Spine:
• > 90 % success rate of symptom resolution with
non-operative management
– Bozzao study 1992 Radiology:
• 69 patients with “HNP” studied longitudinally with MRI
• 63 % with >30 % reduction with 48 % > 70 % reduction
over time
•
•
•
•
Medications
Physical therapy
Injections
Surgery
45
F. Pars Interarticularis Defects:
• Spondylolysis:
•
•
•
•
Anatomic defect in the bony pars interarticularis within the lamina
May uni- or bilateral
Can be congenital or induced
Usually without clinical symptoms with incidental findings on
radiographs
46
• Spondylolisthesis
• Progression of spondylolysis with separation
• Grades assigned I-IV for level of translation
• Most common levels are L5-S1 (70 %) and L4-L5 (25 %)
• May be asymptomatic, but can result in
• Spondylosis
• DDD
• Radiculopathy
• Treatment:
•
•
•
•
Medication
Physical Therapy
Injections
Surgery
47
V. Chronic Pain Issues
48
A. Pain Reinforcing Factors:
• Secondary gain: Support system allows passive / inactive role for
patient via catering to needs and hence fostering dependency
• Environmental: Inadequate opportunity or skills to compete in the
professional community
• Physician knowledge deficit: In areas of diagnosis and appropriate
treatment, can prolong symptoms and validate pain behavior
• Worker’s compensation: Laws have become counterproductive-financial compensation or open claim may discourage desire for return
work and impede recovery
• Litigation: Anticipation of large financial settlement can reinforce pain
behavior and develop into learned pain behavior
49
B. Risk Factors for Delayed
Recovery:
Occupational
Job availability
Patient perception of
work load
Psychosocial
Anger with “system”
Disabled spouse
Job dissatisfaction
Time off of work
Medical
Poor English
proficiency
History of narcotic or
substance abuse
Poor fitness
History of prior
injury
50
C. Discouraging Chronic Pain:
• Requiring employer to accommodate restrictions to allow
continued working during treatment and recovery
• Rapid abjudication of disability and compensation claims
• Physician education re: appropriate treatments and limiting use of
potentially addictive medications
• Ergonomic work environments
• Patient education re: disease process and treatment options
51
D. Considerations of
PM & R Treatment:
• Physical therapy is initially usually one of modalities with progression
into more active exercise
• Pre-conditioning therapy is more functional with transition into Work
Conditioning (Work Hardening) program
• Always consider return to work, whether modified duty with restrictions
or limiting hours worked
• If patients poorly tolerate standard therapy, consider pool therapy
intervention which allows elimination of gravity effects
• Functional Capacity Evaluations utilized if patients are not progressing
through therapy or if have reached a plateau and abilities as
well as restrictions need to be assessed
• Job site evaluations appropriate if concerns re: ergonomics
52
E. Final Thoughts:
• It is the patient, not the diagnostic test,
that is treated
• 80 % of patients will recover from acute
low back pain within 3 days to 3 weeks,
with or without treatment, with up to 90 %
resolved in 6-12 weeks
53