Rosen & Barkin's 5-Minute Emergency Medicine Consult (503 page)

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Authors: Jeffrey J. Schaider,Adam Z. Barkin,Roger M. Barkin,Philip Shayne,Richard E. Wolfe,Stephen R. Hayden,Peter Rosen

Tags: #Medical, #Emergency Medicine

BOOK: Rosen & Barkin's 5-Minute Emergency Medicine Consult
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ETIOLOGY
  • Unknown
  • Genetic component:
    • SQSTM1 mutation seen in many but not all cases
  • Environmental influences may also play a role
    • Presence of nucleocapsids from measles, canine distemper, paramyxovirus, or respiratory syncytial virus may implicate viral cause
    • Possible association with rural life and close contact with farm animals
  • May represent vascular hyperplasia with subsequent inflammation
  • Increased nucleoli and intranuclear inclusion bodies seen in osteoclasts on microscopy
Pediatric Considerations

Generally not seen in children

DIAGNOSIS
SIGNS AND SYMPTOMS
  • Many patients are asymptomatic, with disease discovered by incidental radiographs or elevated alkaline phosphatase levels
  • Deep, aching bone pain occurs late in the clinical course
  • Pain with weight bearing if femur or tibia involvement
  • Pain worse with rest in nonweight-bearing bones
  • Acute (resorptive/osteolytic) phase:
    • Pathologic fractures
    • Pain from acute lysis, fracture, or resultant arthritis
    • Hypercalcemia or renal stones
    • Hypervascularity may result in significant bleeding if affected bone is fractured
    • Widespread disease:
      • Increased vascularity and blood flow may result in high-output cardiac failure
  • Secondary (sclerotic/osteoplastic) phase:
    • Long-bone involvement may present with swelling or deformity and gait abnormality
    • Skull involvement may cause headaches or abnormal skull shape (change in hat size)
    • Severe skull or spine involvement may result in CNS compression
    • Hearing loss may result from nerve compression or ossicle involvement
ESSENTIAL WORKUP
  • Diagnosis usually suggested by radiographs
  • Thorough neurologic exam must be documented, especially with vertebral or pelvis involvement
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • Alkaline phosphatase is the most dramatic marker of disease activity
  • Calcium and phosphate levels should be checked as well, but are usually normal
  • Hypercalcemia seen in immobilization or presence of a fracture, but if elevated in an ambulatory patient, suspect hyperparathyroidism
  • EKG if suspect hypercalcemia and CXR with evidence of high-output cardiac failure
  • Increased bone formation may lead to elevations in urine hydroxyproline or serum osteocalcin or procollagen fragments
  • Alterations in parathyroid hormone (PTH) levels occur as secondary changes during resorptive/osteolytic phase (low PTH) and sclerotic/osteoplastic phase (high PTH)
Imaging
  • Plain x-rays:
    • During resorptive phase, lytic lesions are often not seen, except in skull, where lesions are well demarcated (osteoporosis circumscripta)
    • Bowing of long bones may occur with resorption and strength loss
    • New bone initially appears irregular and spotty, and later becomes homogeneous and dense (“ivory pattern”)
    • Excess bone may be deposited along stress lines, leading to cortical irregularities and thickening
  • CT or MRI defines margins and helps evaluate for neoplasm or hematoma:
    • Spiral CT to detect renal calculi
  • Radionuclide bone scans useful to evaluate extent and activity of disease
  • Plain films are usually all that is needed in acute setting to identify/manage fractures
DIFFERENTIAL DIAGNOSIS
  • Primary hyperparathyroidism
  • Multiple myeloma
  • Hodgkin variants
  • Acromegaly
  • Osteosarcoma
TREATMENT
PRE HOSPITAL
  • Pre-hospital personnel should obtain information about mechanism of injury or social factors that suggest pathologic fracture
  • Adequate immobilization can limit excessive bleeding around fracture site
INITIAL STABILIZATION/THERAPY
  • Airway management and resuscitation, as indicated
  • High-output cardiac failure should be treated as outlined in CHF chapter
  • Prompt immobilization of fractures will limit excessive bleeding around fracture site
ED TREATMENT/PROCEDURES
  • Analgesia for pain of lytic lesions, fractures, or arthritis includes acetaminophen and narcotics
  • Fracture treatment is often more conservative, owing to difficulties with bleeding during operative repair
  • Orthopedic consultation for severe arthritis and definitive fracture management
  • Hypercalcemia may be treated with IV fluids, calcitonin, and/or bisphosphonates
  • CNS compression requires emergent neurosurgical consultation and possible decompression
MEDICATION

Treatment indicated in patients with symptomatic disease or asymptomatic disease located in areas where complications can occur

First Line
  • Nitrogen-containing bisphosphonates:
    • Pamidronate: 30 mg IV daily × 3 consecutive days; infuse over 4 hr
    • Alendronate: 40 mg PO daily for 6 mo
    • Risedronate: 30 mg PO daily for 2 mo
    • Zoledronic acid: 5 mg IV × 1; infuse over at least 15 min
Second Line
  • Simple bisphosphonates and calcitonin:
    • Etidronate: 5 mg/kg PO daily for 6 mo
    • Tiludronate: 400 mg PO daily for 3 mo
    • Calcitonin: 50–100 U SC as tolerated; not for >6 mo
  • Chemotherapy and simple bisphosphonates no longer recommended
  • Use of calcitonin and simple bisphosphonates are limited to patients who cannot tolerate or who are allergic to the nitrogen-containing bisphosphonates
  • Side effects of bisphosphonates include influenza like syndrome and jaw osteonecrosis
  • Often need supplemental vitamin D and Ca to maintain normal Ca levels during treatment
FOLLOW-UP
Admission Criteria
  • Admission as indicated for major trauma or injury, or excessive bleeding
  • Orthopedic procedures
  • Hypercalcemia
  • CNS compressive symptoms, nerve entrapment requiring surgery
Discharge Criteria
  • No evidence of significant bleeding, neurologic compromise, or hypercalcemia, and adequate pain control
  • Appropriate fracture immobilization and orthopedic follow-up
Issues for Referral
  • Referral is based upon any acute injuries
  • May also consider referral to endocrinologist within 1–2 wk of discharge
FOLLOW-UP RECOMMENDATIONS
  • Follow-up is generally driven by the acute injury that led to the radiographs on which the diagnosis of Paget disease was made
  • Response to pharmacologic treatment aimed at correction of serum alkaline phosphatase levels
  • Consider repeat pharmacologic treatment if rise in serum alkaline phosphatase, return of symptoms, or disease progression seen radiographically
PEARLS AND PITFALLS
  • The diagnosis of Paget disease is usually made as an incidental finding on radiographic imaging
  • Prompt immobilization of fractures will limit excessive bleeding around fracture site
  • Consider Paget disease if elevation of alkaline phosphatase is present without any other explanation
ADDITIONAL READING
  • Cundy T, Reid IR. Paget’s disease of bone.
    Clin Biochem.
    2012;45:43–48.
  • Lojo Olivieria L, Torrijos Eslava A. Treatment of Paget’s disease of bone.
    Reumatol Clin.
    2012;8:220–224.
  • Ralston SH, Langston AL, Reid IR. Pathogenesis and management of Paget’s disease of bone.
    Lancet
    . 2008;372:155–163.
  • Whyte MP. Clinical practice. Paget’s disease of bone.
    N Engl J Med
    . 2006;355:593–600.
See Also (Topic, Algorithm, Electronic Media Element)

Specific Orthopedic Injuries

CODES
ICD9

731.0 Osteitis deformans without mention of bone tumor

ICD10
  • M88.9 Osteitis deformans of unspecified bone
  • M88.88 Osteitis deformans of other bones
  • M88.859 Osteitis deformans of unspecified thigh

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