Conservative Management of Spinal Conditions PDF

Summary

This document is a set of notes on conservative management of spinal conditions. It covers low back pain, differential diagnoses, and imaging. The document also details neurologic red flags, radiographic red flags, and lumbar disc herniation.

Full Transcript

**WASHINGTON UNIVERSITY SCHOOL OF MEDICINE**

**PROGRAM IN PHYSICAL THERAPY**

**John Metzler, MD**

Conservative Management of Spinal Conditions

*Highlights are fyi*

I. Low back pain

A. Conservative Care

1. Vast majority of patients with LBP are not operative
candidates

2. Trial of conservative management for almost all of those who
are surgical candidates

3. Most prefer a non-surgical over a surgical option

4. Black box of conservative care

1. Specific diagnosis not often given

- Nonspecific diagnosis=nonspecific treatment

2. Multiple treatment options available

- Very little data behind any of the treatments

5. Importance of basics

a. H & P should guide management

- When and what to image

- Relevance of finding

- Diagnosis is a process

b. Patients' agenda, goals, concerns, beliefs

5. Imaging- varying sensitivity/specificity

c. Imaging results do not equal symptoms

d. Normal study may lead to lack of appropriate care

B. Differential diagnosis of low back and lower extremity pain

5. Spinal

3. Lumbar radiculopathy

4. Facet joint arthritis

5. Neurogenic claudication due to lumbar spinal stenosis

6. Fracture

7. Tumor

8. Infection

6. Non spinal

9. Intrarticular hip pain

10. Piriformis syndrome

11. Peripheral neuropathy

12. Vascular claudication

G. General red flags

1. Night pain

2. Relentless constant pain, not related to movement or
position

3. Constitutional symptoms: weight loss/appetite changes/fevers

4. H/O systemic disease or systemic symptoms

a. myocardial infarction

b. cancer

c. aneurysm

H. **Neurologic red flags**

5. **Bowel/bladder dysfunction (*retain urine so develop
overflow incontinence)***

d. **Cauda equina syndrome = true surgical emergency**

- **Sacral roots do not recover from injury as well as
other nerves, must be addressed immediately- pt
needs to go straight to ER**

6. **Progressive lower extremity weakness**

7. **Sexual dysfunction**

I. Radiographic red flags

8. Compression fractures

9. Change in pedicle appearance (look at AP xray)

10. New onset spinal malalignment

11. Change in disc height with vertebral body end plate erosions
(infection)

J. **Lumbar disc herniation**

12. Most commonly affects young adults

13. May or may not have leg pain

14. Herniation vs bulge vs degeneration

II. Selected Examples or Diagnoses

A. Discal Pathology

1. Often diagnosed with MRI

2. **Schmorl's nodes**

1. Vertical herniation -superior/inferior protrusion of
disc-- herniates through the endplate

2. Upper lumbar and lower thoracic segments most common

3. Often occur in adolescents after injury but occas older
pts assoc with injury

4. Potentially quite painful & takes months to calm down

5. Treatment is usually conservative: bracing for comfort,
activity restriction

3. **Disc Herniations**

6. Location/direction of herniation determines symptoms

- Parasagittal most common

7. Foraminal disc herniation-

- May have leg symptoms without back pain

- Can be missed by MRI- Need the appropriate cut

8. Degenerative changes in the lumbar spine

9. Disc

- Vertebrae

B. Myelogram

4. 5. 6. 7. 8.

C. *Discogram*

9. *Not used very frequently anymore*

10. *Contrast into disc- usually at least 3 levels*

11. *Unpleasant for the patient*

12. *Subjective -- comparison*

13. *May be recommended only if considering surgery*

D. Edema in the spinal cord- seen on MRI

14. With myelopathic signs -- *refer to surgeon immediately*

15. You will likely not be making interpretations on these
things so it is a nice to know.

E. Discitis

16. **In children can occur spontaneously, in adults usually
after procedure (anywhere in the body)**

17. **Severe pain limited ROM, may have fever**

18. Check WBC, inflammatory markers, blood cultures

19. Often unable to isolate an organism

20. Treatment rest, antibiotics if + culture, high WBC or high
fever.

III. Cervical Degenerative Disc Disease

A. Neck pain

B. Radicular dx's

1. Pain, Weakness, Numbness

C. Myelopathy

2. Clinical

3. Imaging

D. Natural Course of cervical degeneration

4. Noninflammatory disc degeneration

1. Starts with mild segmental instability

2. See in 10% by age 25 and 95% by age 65

3. *Cadaver study estimated cervical stenosis (\70 yrs* (Lee MJ, *JBJS* 2007)

5. Often asymptomatic until 40

E. Axial neck pain

6. Commonly related to disc

F. Cervical radiculopathy

7. Under age 55, related to disc

8. Over age 55 related to spinal canal or foraminal stenosis

G. **Cervical myelopathy**

9. **Usually\> 60 yo, long-track signs are the hallmark**

10. Large disc herniation could create bilateral UE symptoms,
but most common bilateral UE sx due to myelopathy

11. Presentation of cervical myelopathy

7. +/- Neck and/or arm pain

8. Gradual onset

9. Most pts have arm and leg symptoms- UE's may feel weak
or clumsy

10. 13% have cervical & lumbar involvement with combo upper
& lower motor neuron changes

11. Loss of balance, difficulty with gait, wide based gait

12. Urinary urgency

13. Long track signs: Hyperreflexia, Babinski, Hoffman's,
clonus

H. **Indications Surgical Referral From the Medically Managing
Perspective**

12. **Progressive neurological decline**

13. **Motor weakness**

14. **Progressive paresthesias**

I. **Failure of conservative treatment**

15. **Functional decline**

16. **Patient directed**

J. **Things that make me refer quickly**

17. **Myelopathic findings**

18. **Bowel and/or bowel incontinence**

19. **Spinal cord signal change on MRI**

K. **Indications for Conservative Management**

20. **None of the refer out criteria**

21. **The patient's choice**

14. **No great surgical option**

15. **Trying to get them as "good as it gets" in preparation
for surgery**

16. **The default choice**

L. **What Type of Conservative Care?**

22. **Trying to keep the patient away from surgery**

23. **Trying to get them as "good as it gets" in preparation for
surgery**

24. **Patient refuses, is medically unable, or has been turned
down by the surgeon**

25. **The default choice**

M. **Questions to Ask That Direct Care**

26. Functional decline

27. Balance/Gait

28. Bowel and bladder

29. Weakness

30. Sensory deficits

31. Sleep

32. Psychosocial well being:

N. **[Nonoperative Treatment for Patients with Spinal Pain
Problems]**

33. Education

34. PT

35. Activity modification

36. Bracing

37. Injections

38. Medications

III. **Medications**

O. General issues

P. Most patients need medication at some point

39. Part of an overall treatment plan

40. All medications have risks

41. Multiple risk factors to consider

17. Age

18. Medical, psychological problems

19. Concurrent medications

20. Severity, nature of pain

Q. NSAIDS

42. Usage is common in both acute and chronic conditions b/c not
sedative or addictive

43. Analgesic effect occurs at lower doses before any effect on
inflammatory cascade

44. Analgesic effect occurs in conditions not associated with
inflammation

45. Mechanism of action is essentially the same for all NSAIDS

21. Block cyclooxygenase (COX) enzyme

46. For any patient, variable response to any given agent

47. Usually try several different NSAIDS before giving up

48. Different dosing regimens depending on half life

22. Episodic pain -- shorter half-life

23. Chronic, constant pain -- longer half-life

49. Side effects

24. Hepatic-

25. Renal-

26. GI-

27. Cardiovascular

R. Opioids/narcotics

50. Bind to opoid receptors

51. Important role in cancer pain and severe acute pain

52. Ideally for short term only; the role in chronic
non-malignant pain is controversial (b/c dependence or
tolerance)

53. Decreased pain and improved function are clear sign of
efficacy

54. Short acting agents (hydrocodone, codeine)

28. Combined with acetaminophen

29. Most commonly used agents

55. Long acting agents (OxyContin, MS contin, Fentanyl patches)

30. Should be considered if long term usage is absolutely
necessary

31. No maximal dosage

32. Can lessen "next dose" anxiety

S. Muscle relaxants (Flexeril, Soma)

56. Do not selectively relax muscles

57. Generalized effect due to [CNS effect]

58. Can be helpful at bed time

59. [Short] term use with [acute pain]

60. Poor long term agent

T. Anticonvulsants

61. Drug of choice for chronic neuropathic pain

62. Finding correct dosage takes time/effort

63. Lyrica (pregabalin) or Neurontin (gabapentin) most commonly
used agents

33. No need to check blood levels

34. Few drug interactions

U. Antidepressants

64. Useful for chronic pain esp. neuropathic pain

65. Direct effect on neuromodulation (not simply treating masked
depression)

66. Must be titrated

67. Side effects can be used to patient's advantage

35. Sedation -- amitriptyline, doxepin

V. Glucocorticoids (prednisone, methylprednisone)

68. Short term usage

69. Control severe acute pain (or exacerbation)

70. Not a cure but may enable patient to begin therapy

71. Numerous severe side effects with long term usage

72. Minimal risk with short term (1-2 week) usage

IV. **Injections**

W. Types of Injections: trigger point, epidurals, facet joint,
medial branch blocks

X. Fluoroscopically Guided Diagnostic and/or Therapeutic Injections

73. re-evaluate after each injection

74. therapeutic injections should be **[adjunct]
[treatment]**

Y. Trigger point

75. **Injections -- often injection with anesthetic not steroid;
it is thought that main effect is due to needle**

76. **Dry needling**

Z. **Injections both [Diagnostic] &
[Therapeutic]**

77. Anesthetic induces a reversible conduction block

A. Corticosteroids

78. interfere with inflammatory mediators

79. act as membrane stabilizers

80. suppress ectopic neuronal discharges

B. **Physiology of Nerve Root Pain**

81. vibration/proprioception: large, myelinated A alpha fibers,
paresthesias

82. fast pain fibers & temperature: small, myelinated A-delta
fibers, sharp dermatomal pain

83. slow pain fibers: unmyelinated C fibers, deep aching
sclerotomal pain

C. Efficacy Of Epidural Steroid Injections

84. *ESI used for "lumbago" since the 1930s but the use of
fluoroscope guidance became popular in the late 1980s*

85. *Debates regarding efficacy continue: Most studies use
surgery as endpoint & few studies report functional
improvements with validated outcome tools*

86. Management

36. only one injection may be indicated

37. adjust site of injection based on results of prior
injection

38. 2 weeks required to assess therapeutic benefit

- **Really good FYI because patients will ask!**

87. Types of Epidurals

39. (know that there are different types; risk of spinal h/a
if dura is punctured)

D. [Indications:] epidurals done for radiculopathy
(nerve root), not isolated back pain

E. **This section is a good overview of the procedures. You will
not be directing people on the types of injections they will
receive.**

F. Transforaminal -- done under fluoroscope

88. Dura is not punctured so spinal h/a is not a side effect

89. Medication placed at specific level

90. Insures medication reaching anterior epidural space

G. Translaminar -- classic epidural; most often done under
fluoroscope

91. Usually obtain bilateral flow

92. May not flow completely anteriorly

93. Greater risk of puncturing the dura mater

94. effect can be obtained over more than 1 level but since it
is not specific to 1 nerve root it is not diagnostic

H. Caudal

95. little risk of puncturing the dura

96. high volume of contrast shown to advance to thoraco-lumbar
junction

97. commonly accepted to reach L4 level

98. *without fluoro, 30% not in epidural space*

99. this method used because of degenerative changes or hardware
blocks other entry points

I. **Facet Injections**

100. **Indicated for pain believed to be from facet joint: axial
pain, no radiation, worse with standing**

101. **Injections are both diagnostic and therapeutic;
therapeutic injections are adjunct therapy**

102. **90% performed at L4-L5-S1**

V. Anatomy review

J. True synovial joint: cartilage, synovial membrane, fibrous
capsule, nociceptive & autonomic nerve fibers

K. Innervation

103. Each joint innervated by the medial branches (MBs) of the
primary dorsal rami (DR) from that level and the level
above.

104. *L1-4 MB nerves run across the superior portion of the
subjacent TP, under the MAL, and on to the lamina.*

105. ***The diagnosis of Zygapophysial joint pain remains one of
exclusion.***

40. ***Confi*rmation of diagnosis requires analgesic
injection of the joint or its nerve supply**

L. Medial Branch Blocks

106. primarily diagnostic

107. extended pain relief rare because nerves regenerate

108. blocks afferent nerve supply to facet joint

109. can be used when intraarticular injection not technically
possible

110. prognosticate benefit of medial branch neurotomy

M. Medial Branch Radiofrequency Neurotomy

111. destroy afferent supply to facet joints

112. nerve regeneration occurs 9-12 months

VI. **[Compression fractures ]**

N. Sacral fractures- non-traumatic, stress fracture

113. Population:

41. Military or distance runners

42. Post-menopausal osteoporotic women

43. Pregnant or post-partum

O. Symptoms

114. Pain & tenderness over sacrum, pain may radiate to low
back, hip, groin

115. Pain may be severe

116. Activities are limited

117. Increased sx associated with loading the sacral area

44. Weightbearing

45. Rotation

P. Diagnosis with CT scan or bone scan

Q. Treatment

118. Treat osteoporosis

119. Limit weight bearing until pain decreased by use of
crutches/walker;

120. gradual increase in activity

121. Address imbalances contributing to abnormal stresses on
sacrum

R. Vertebrae: Etiology

122. OA wedging vs osteoporotic fracture

123. Osteoporotic fx in T-spine:

46. Exaggerated reduction of the mid-height to posterior
height ratio & reduction of the anterior to posterior
height

47. T-spine incidence of anterior wedge fxs increases with
severity of kyphosis

124. Types of Osteoporotic Fractures: Wedge, Concave
(biconcave), Crush

125. Differential diagnosis

48. Infection

49. Tumor

50. Spondyloarthropathy

51. Diffuse Idiopathic Skeletal Hyperostosis

S. Complications

126. Acute

52. Ilieus

53. Urinary retention

54. Cord compression

127. Long-term

55. Kyphosis

56. Insomnia

57. Depression

58. Generalized deconditioning

T. Management Acute Vertebral Compression Fractures

128. Education in positions of comfort

129. Medications

130. Ice/cool

131. Bracing

132. Rest

133. Core strengthening

134. Anxiety/depression

U. Choices when conservative management is failing

135. Hospitalization for pain control

136. Vertebroplasty

59. Percutaneous infusion of polymethylmetacrelate (PMMA)

60. Analgesic affect by reinforcing vertebral

137. Kyphoplasty

61. Percutaneous infusion of PMMA into balloon within the
compression fracture

62. Can restore some vertebral height

138. Surgical stabilization

V. Vertebroplasty/Kyphoplasty Complications

139. Contraindicated if bony fragments extend into canal

140. Bleeding

141. Infections

142. Fracture

143. Injury to nerve root or spinal cord

144. Leakage of material into epidural space or surrounding
tissues

145. Embolization into pulmonary vasculature

W. Outcomes Vertebroplasty/Kyphoplasty

146. Reduce pain

147. Improve stability

148. ? Improve function

149. ? Reduce morbidity

150. ? Reduce costs

151. Vertebroplasty effective treatment for intractable pain due
to osteoporotic vertebral compression fractures

152. Improvements in pain & function at 1 month were maintained
at 1 yr

X. Problem-solving with vertebral compression fractures

153. Radicular pain

154. Increased pain postprocedure

63. New compression fx

64. Collapse of untreated vertebrae

65. Rib fx

155. Is it the fracture or the deformity?

Y. Post-procedure management

156. Modalities

157. Taper medications

158. Bracing

159. Therapeutic exercise

160. Osteoporosis tx

Z. Return to exercise

VII. **[Sacroiliac Joint Dysfunction]**

A. **Sacroiliac Joint**

B. Sacral motion in relation to the ilium or Ilial motion in
relation to the sacrum

C. Pain with hip loading/rotation

161. (increased) Shear forces through the joint?

D. A better name ***lumbo-pelvic-hip*** problem

162. ***Q. Does it cause pain? A. Yes***

163. ***Innervation of SIJ***

66. ***Anterior joint/ligaments: branches off L2-S2 roots***

67. ***Posterior joint/ligaments: branches of dorsal primary
rami L4-S3***

68. ***Receptors for pain, temp, mechanoreceptors,
autonomic***

E. **Symptoms**

164. Often unilateral

165. Pain localization

166. Pain in the gluteal region

167. Posterior pelvis; can be through thigh, groin, occasionally
all the way down leg.

F. Provocative activities

168. Transitional activities

169. Increase in walking pace

170. Loading the limb

G. Popping or clicking in posterior pelvis

H. Diagnostic Testing

171. Xray

69. Changes do not indicate source of pain

70. Best view 30° angle to AP

172. CT

71. Can show early joint narrowing

72. Best to show bone abnormalities

173. Bone Scan

73. Identify fracture, tumor, infection

174. MRI

175. Fluoroscopic-guided SI Joint injection with local
anesthetic is **considered the gold standard!**

I. Physician's Treatment of SIJ Dysfunction

176. SI Injections- both diagnostic and therapeutic

177. Done under fluoroscope guidance

178. Surgical arthrodesis- last resort

179. *A*lternative treatments: acupuncture, biofeedback