Rosen & Barkin's 5-Minute Emergency Medicine Consult (495 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

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ADDITIONAL READING
  • Bloom OJ, Mackler L, Barbee J. Clinical inquiries. What is the best treatment for Osgood-Schlatter disease?
    J Fam Pract
    . 2004;53(2):153–156.
  • Cassas KJ, Cassettari-Wayhs A. Childhood and adolescent sports-related overuse injuries.
    Am Fam Physician
    . 2006;73(6):1014–1022.
  • Gholve PA, Scher DM, Khakharia S, et al. Osgood-Schlatter syndrome.
    Curr Opin Pediatr
    . 2007;19(1):44–50.
  • Weiss JM, Jordan SS, Andersen JS, et al. Surgical treatment of unresolved Osgood-Schlatter disease: Ossicle resection with tibial tubercleplasty.
    J Pediatr Orthop
    . 2007;27(7):844–847.
CODES
ICD9

732.4 Juvenile osteochondrosis of lower extremity, excluding foot

ICD10
  • M92.50 Juvenile osteochondrosis of tibia and fibula, unsp leg
  • M92.51 Juvenile osteochondrosis of tibia and fibula, right leg
  • M92.52 Juvenile osteochondrosis of tibia and fibula, left leg
OSTEOGENESIS IMPERFECTA
Daniel Davis

Chad M. Valderrama
BASICS
DESCRIPTION
  • Inherited abnormality ofprocollagen amino acid sequence
  • Bone hypomineralization and incomplete ossification result in brittle bones.
  • Abnormal collagen affects all connective tissue to varying degrees.
  • Time course is variable:
    • Most cases involve fractures during childhood followed by quiescence during adolescence and early adulthood.
ETIOLOGY
  • Procollagen defects result in abnormalities of bone and connective tissue matrix.
  • Defects in different sites on procollagen protein chain result in more severe forms.
  • Defects are inherited, either autosomal recessive (generally milder) or autosomal dominant (more severe).
  • Lethal cases involve sporadic or new mutations.
  • Ehlers–Danlos syndrome involves mutations of the same procollagen protein in different locations.
Pediatric Considerations
  • Most cases involve pathologic fractures during childhood.
  • Multiple fractures often initiate evaluation for abuse, but the possibility of pathologic fractures also should be considered.
DIAGNOSIS
SIGNS AND SYMPTOMS
  • Multiple heritable defects that lead to brittle bones:
    • Often associated with other connective tissue abnormalities
  • A suspected fracture with a relatively minor mechanism or a history of multiple fractures in a child suggests the diagnosis.
  • Careful social history with consideration for the possibility of nonaccidental trauma
  • Bones:
    • Multiple recurrent fractures (especially in long bones) are the hallmark of this disease.
    • Fractures may be present at birth or may recur in the elderly.
    • Shortened or bowed limbs, pectus excavatum, curving of long bones, vertebral compression fractures, scoliosis, kyphosis, and abnormal skull shape
    • All bones are affected to some extent (see Imaging/Special Tests).
  • Eyes:
    • Blue sclerae
      are another hallmark of this disease.
    • No visual changes are reported.
  • Ears:
    • Hearing loss usually begins in adolescence; >90% of patients have some deficit by age 30 yr.
    • Hearing loss is generally sensorineural, although some middle ear abnormalities have been demonstrated.
    • Academic difficulties should raise suspicion of possible hearing deficits.
  • Other:
    • Discolored, fragile, and abnormal shape of teeth
    • Shares several features with Ehlers–Danlos syndrome:
      • Loose joints
      • Valve problems
      • Vascular abnormalities
  • Thyroid abnormalities may be seen.
  • Extreme cases may result in perinatal death.
ESSENTIAL WORKUP
  • Diagnosis is usually made as combination of clinical and radiographic findings.
  • History of repeated fractures or fractures with unimpressive mechanism
  • Thorough search for other tender areas and evaluation of eyes, teeth, and joints is important for diagnosis.
  • Careful exam of neurovascular status distal to fracture
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • Evaluate for metabolic derangements such as hyperparathyroidism, vitamin C or D deficiencies, and calcium/phosphate abnormalities.
  • DNA studies may be indicated for familial analysis, prenatal testing, and genetic counseling.
  • Tissue biopsy is controversial but may help differentiate from tumors.
Imaging
  • Radiographs of fracture sites:
    • May reveal osteopenia (usually mild)
    • Crumpled long bones (“accordion femora”)
    • Incomplete ossification at physes
  • Skeletal survey is mandatory, especially in children.
  • Skull films may show wormian appearance of irregular ossification.
  • Popcorn-like deposits on long-bone ends are poor prognostic finding.
  • Formal audiologic testing as outpatient is required in older patients.
DIFFERENTIAL DIAGNOSIS
  • Nonaccidental trauma in children
  • Ehlers–Danlos syndrome
  • Hypophosphatasia
  • Achondroplasia
  • Scurvy
  • Congenital syphilis
  • Celiac disease
TREATMENT
PRE HOSPITAL

Personnel should obtain information about mechanism or social factors that point toward pathologic fracture vs. nonaccidental trauma.

INITIAL STABILIZATION/THERAPY
  • Airway management and resuscitation as indicated
  • Fracture immobilization/splinting
ED TREATMENT/PROCEDURES
  • Specific fracture management dictated by type and location of injury
  • Orthopedic consultation regarding need for traction or operative fixation
  • No specific treatment for osteogenesis imperfecta exists at present.
MEDICATION
  • Pain medications as indicated
  • Elderly women may benefit from calcium (1–1.5 g/d) and estrogen replacement (0.625 mg/d).
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Admission is determined by multiple trauma or operative needs for fracture repair.
  • Pediatric patients may need admission to investigate possibility of nonaccidental trauma.
Discharge Criteria
  • Patients may be considered for outpatient management if isolated fracture is present and appropriate home resources are available.
  • Most patients should be discharged with orthopedic and primary physician follow-up.
Issues for Referral
  • Orthopedic referral is driven by the acute injury.
  • The presence of fractures in multiple locations or at different times also suggests nonaccidental trauma, which should prompt acute consultation and/or referral per local protocol.
FOLLOW-UP RECOMMENDATIONS
  • Follow-up is generally driven by the acute injuries.
  • Follow-up with the primary physician should be instituted to encourage treatment and monitoring of the disease.
PEARLS AND PITFALLS
  • The most challenging aspect of caring for these patients is differentiating between pathologic fractures associated with osteogenesis imperfecta and nonaccidental trauma. With any questions, acute consultation and/or referral should be initiated per local protocol.
  • It is a myth that children with osteogenesis imperfecta feel less pain than other patients.
  • Predisposition to respiratory infections
ADDITIONAL READING
  • Bishop N. Osteogenesis imperfecta.
    Medicine.
    2005;33(12):67–69.
  • Prockop DJ. Heritable disorders of connective tissue. In: Wilson JD, et al., eds.
    Harrison’s Principles of Internal Medicine
    . 12th ed. New York, NY: McGraw-Hill; 1991:1860.
  • Rauch F, Glorieux FH. Osteogenesis imperfecta.
    Lancet
    . 2004;363(9418):1377–1385.
  • Shapiro JR, Sponsellor PD. Osteogenesis imperfecta: Questions and answers.
    Curr Opin Pediatr
    . 2009;21(6):709–716.
    www.oif.org

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