Rosen & Barkin's 5-Minute Emergency Medicine Consult (778 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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PRE HOSPITAL

Not applicable

INITIAL STABILIZATION/THERAPY
  • Fluid resuscitation with 0.9% NS IV; caution if concern about increased intracranial pressure.
  • Determine bedside fingerstick glucose.
ED TREATMENT/PROCEDURES
  • Continue fluid resuscitation and correction of electrolyte imbalance if present.
  • Decompress stomach with nasogastric or orogastric tube if abdomen distended or vomiting persistent.
  • Continue evaluation for underlying cause.
  • Consider antiemetic medications.
  • Surgical consultation if acute abdomen; antibiotics if peritonitis or other systemic infection present
MEDICATION

Antiemetics may be helpful once the underlying cause of vomiting has been determined.

First Line

Ondansetron: 4–8 mg (peds: 0.1 mg/kg per dose) IV or PO q6h

Second Line
  • Metoclopramide: 10 mg (peds: 0.1 mg/kg per dose) PO q6h
  • Prochlorperazine: 2.5–5 mg (peds: 0.1 mg/kg per dose) IV, IM, or PR q6h
  • Promethazine: 12.5–25 mg (peds: 0.25 mg/kg per dose) PO, PR, or IM q6h
FOLLOW-UP
DISPOSITION
Admission Criteria
  • Unstable vital signs, including persistent tachycardia or other evidence of hypovolemia
  • Serious etiologic condition or inability to exclude serious etiologic conditions
  • Intractable vomiting or inability to take oral fluids
  • Inadequate social situation or follow-up
Discharge Criteria
  • Stable; able to tolerate oral fluids
  • Benign etiology considered most likely and serious or potentially important etiologies excluded
  • Parental understanding of instructions to advance clear liquids slowly and return for continued vomiting, abdominal distention, decreased urination, fever, lethargy, or unusual behavior
Issues for Referral
  • Chronic or recurrent episodes of vomiting or abdominal pain:
    • Pediatric gastroenterology
FOLLOW-UP RECOMMENDATIONS

PCP in 1–2 days

PEARLS AND PITFALLS
  • Determine presence or absence of bile or blood in emesis.
  • Bilious vomiting in the neonate is an important anatomic abnormality such as malrotation until proven otherwise.
  • Consider causes of vomiting other than just GI (see Differential Diagnosis).
ADDITIONAL READING
  • Chandran L, Chitkara M. Vomiting in children: Reassurance, red flag, or referral?
    Pediatr Rev.
    2008;29(6):183–192.
  • Claudius I, Kou M, Place R, et al. An evidence based review of neonatal emergencies.
    Pediatric Emergency Med Practice.
    2010;7(6):1–22.
  • Hostetler MA. Gastrointestinal disorders. In: Marx JA, Hockerberger RS, Walls RM, et al., eds.
    Emergency Medicine: Concepts and Clinical Practice.
    7th ed. St. Louis: Mosby; 2010:2168–2187.
  • Pepper VK, Stanfill AB, Pearl RH. Diagnosis and management of pediatric appendicitis, intussusception and Meckel diverticulum.
    Surg Clin North Am.
    2012;92(3):505–526.
CODES
ICD9
  • 530.81 Esophageal reflux
  • 787.03 Vomiting alone
  • 787.04 Bilious emesis
ICD10
  • K21.9 Gastro-esophageal reflux disease without esophagitis
  • R11.10 Vomiting, unspecified
  • R11.14 Bilious vomiting
VON WILLEBRAND DISEASE
Matthew A. Wheatley

Ryan A. Stroder
BASICS
DESCRIPTION
  • Coagulopathy caused by deficiency or dysfunction of von Willebrand factor (vWF)
  • vWF functions:
    • Mediates platelet–endothelial cell adhesion
    • Carrier protein for factor VIII
  • Prevalence as high as 1–2% in the general population
  • Genetics:
    • Most cases inherited—multiple genetic defects identified
    • Type 1—quantitative defect of vWF:
      • 70% of cases
      • Autosomal dominant
      • vWF deficiency results from decreased synthesis and increased clearance of protein.
      • Manifestation ranges from asymptomatic to moderate bleeding.
    • Type 2—qualitative defect of vWF:
      • 10–15% of cases
      • Divided into types 2A, 2B, 2M, 2N—all are autosomal dominant except 2N which is autosomal recessive.
      • Decrease in intermediate and high molecular-weight multimer
      • 2N—decreased binding to factor VIII
      • Leads to decreased levels of VIII and thus more serious coagulopathy
    • Type 3—absent or severe deficiency in amount of vWF:
      • Rare disease—1 per million cases
      • Autosomal recessive
      • Severe coagulopathy
    • vWD genetically associated with sickle cell disease, hemophilia A, factor XII deficiency, hereditary hemorrhagic telangiectasia, and thrombocytopenia
ETIOLOGY
  • In addition to genetic causes, acquired forms exist.
  • Multiple mechanisms:
    • vWF antibody production
    • Decreased synthesis
    • Proteolysis
    • Increased clearance from binding to tumor cells
  • Seen in association with the following:
    • Malignancy:
      • Wilms tumor
      • Multiple myeloma
      • Chronic lymphocytic leukemia
      • Non-Hodgkin lymphoma
      • Chronic myelogenous leukemia
      • Waldenstrom macroglobulinemia
      • Monoclonal gammopathy of uncertain significance
    • Immunologic:
      • Systematic lupus erythematosus
      • Rheumatoid arthritis
    • Medication induced:
      • Valproic acid
      • Ciprofloxacin
      • Hetastarch
      • Griseofulvin
    • Miscellaneous:
      • Hypothyroidism
      • Uremia
      • Hemoglobinopathies
      • Cirrhosis
      • Congenital heart disease
      • Disseminated intravascular coagulation
DIAGNOSIS
SIGNS AND SYMPTOMS
  • Symptoms vary depending on type of disease.
  • Many type 1 and some type 2 are asymptomatic, severe type 2 and type 3 are symptomatic:
    • Easy bruising
    • Menorrhagia
    • Recurrent epistaxis
    • Gum bleeding
    • GI bleeding
    • Soft-tissue bleeds and hemarthroses
    • Prolonged or excessive procedural bleeding
    • Postoperative hemorrhage
History
  • Most often diagnosed in pediatric and adolescent populations
  • Family history
  • Minor/moderate recurrent mucosal bleeding most common historical clue
  • Heavy menses
Physical-Exam
  • Most will have normal exam
  • Multiple large bruises
  • Deep-tissue hematomas, hemarthroses
Pregnancy Considerations
  • Pregnancy causes increased vWF levels in patients with types 1 and 2 disease
  • Pregnancy, labor, and delivery are usually uncomplicated
  • vWF levels fall quickly after delivery:
    • Patients may suffer postpartum bleeding 10–28 days after delivery
Pediatric Considerations

Always consider nonaccidental trauma in an infant or child presenting with bruising or bleeding of unknown cause

ESSENTIAL WORKUP
  • Screen and refer for testing if historical concerns or consistent physical findings
  • For type 1 diagnosis, patient must have significant mucocutaneous bleeding, lab confirmation, and family history of type 1 disease
DIAGNOSIS TESTS & NTERPRETATION
Lab
  • CBC: Normal platelet count and morphology
  • PT: Normal
  • PTT:
    • Mildly prolonged in 50%
    • Due to low factor VIII levels or coexistent factor deficiency
  • Measurement of vWF level and activity:
    • vWF ristocetin cofactor activity (vWF:RCo):
      • Uses platelet agglutination to determine vWF function
    • vWF antigen—tests for vWF level in serum using rabbit antibodies
  • Bleeding time:
    • May be normal in type 1 (50%); prolonged in types 2 and 3
    • Not specific and hard to reproduce; has fallen out of favor for diagnosis
DIFFERENTIAL DIAGNOSIS
  • Hemophilia A, B
  • Platelet defects
  • Use of antiplatelet drugs—NSAIDs
  • Platelet-type pseudo vWD
  • Bernard–Soulier syndrome
TREATMENT

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