UMEM Educational Pearls - By Jenny Guyther

A facial laceration on a child can present a unique challenge which is not limited to the initial visit.  The traditional teaching has been to use nonabsorbable sutures and have the patient return in 5 days for removal.  A recent study compared the cosmetic outcome of linear facial lacerations 1 to 5 cm that were closed with either Ethicon fast absorbing surgical gut or monocryl nonabsorbable sutures.  Patients were randomized and returned to the ED in 4-7 days and 3-4 months. Scars were assessed by caregivers and blinded physicians.  Results showed that caregivers preferred absorbable sutures.  Visual analog scores as given by caregivers were not statistically different between the 2 groups at the 3 month mark.  The blinded physicians did give better cosmetic outcome scores to the absorbable suture group which differs from previous studies that had shown equivocal results.  Of note, all absorbable sutures were no longer visible after 14 days.

Bottom line:  Try absorbable sutures the next time you are suturing a child and the parents may be happier and you will not have to try and take out your sutures from a squirming, screaming child.

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Lactate is commonly used in the adult ED when evaluating septic patients, but there is a lack of literature validating its use in the pediatric ED.  Pediatric studies have suggested that in the ICU population, elevated lactate is a predictor of mortality and may be the earliest marker of death.
 
A retrospective chart review over a 1 year period showed that one elevated serum lactate correlated with increased pulse, respiratory rate, white blood cell count and platelets.  Serum lactate had a negative correlation with BUN, serum bicarbinate and age.  Elevated lactate levels were higher for admitted patients. However, the mean serum lacate level was not statistically different between those diagnosed with sepsis and those that were not.
 
The study included 289 patients less then 18 years who had both blood cultures and lactate drawn.  This community hospital had a sepsis protocol in place that automatically ordered a lactate with blood cultures.  Only previously healthy children were included.
 
The study is limited by its small sample size and overall low lactate levels.  Despite having a protocol in place, only 39% of patients who had blood cultures drawn had lactate levels available for analysis.  The mean serum lacate in this study was 2.04 mM indicating that the study population may not have been sick enough to determine mortality implications.  There were no serial measurements.

 
Bottom line:  Consider measuring serum lacate in your pediatric patient with suspected sepsis.  Pediatric ICU literature does suggest that an serum lactate as low as 3mM is associated with an increased mortality in the ICU.

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Infant lumbar puncture is often difficut and may require repeated attempts.  The traditional body positioning is lateral decubitus.  Previous studies have examined the saftey of having the patient in a sitting position, and neonatal studies have suggested that the subarachnoid space increases in size as the patient is moved to the seated position.  A study by Lo et al published last month looked to see if the same held true in infants.
 
50 healthy infants less then 4 months old had the subarachnoid space measured by ultrasound between L3-L4 in 3 positions: lateral decubitus, 45 degree tilt and sitting upright.
 
This study found that the size of the subarachnoid space did not differ significantly between the 3 positions.  Authors postulated that a reason for increase sitting LP success rate that had been reported in anestesia literature with tilt position could be due to other factors such as increased CSF pressure, intraspinous space widening or improved landmark identification.

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Acute ischemic stroke occurs in 3.3/100,000 children per year.  Up to 30% of these are caused by varicella.  This can be diagnosed if the patient has had varicella infection within the past 12 months, has a unilateral stenosis of a great vessel, and has a positive PCR or IgG from the CSF.

Treatment includes anticoagulation, acyclovir for at least 7 days and steroids for 3-5 days.

Outcome is normally good and spontaneous improvement can be seen.

Inflammation of other arteries, including other areas of the brain, can also be seen.  Treatment options for this can include high dose glucocorticoids and possibly immunosuppresive agents.

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Children frequently present with "pink eye" to the ED.  When they do, parents often expect antibiotics.  How many of these kids actually need them?  Previous studies have shown approximately 54% of acute conjunctivitis was bacterial, but antibiotics were prescribed in 80-95% of cases.

A prospective study in a suburban children's hospital published in 2007, showed that 87% of the cases during the study period were bacterial.  The most common type of bacteria was nontypeable H. influenza followed by S. pneumoniae.

Topical antibiotic treatment has been shown to improve remission rates by 6-10 days.

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Epidemiology:

Trampoline injuries doubled between 1991 and 1996, increasing from 39,000 injuries per year to more then 83,000 injuries per year.  Injury rates and trampoline sales peaked in 2004 and have been decreasing since; however, hospitalization rates are still between 3% and 14%.

Risk Factors:

¾ of injuries occur when multiple people are on the trampoline at once

Smaller participants were 14x more likely to be injured then their heavier playmates

Falls account for 27-39% of all injuries

Springs and frames account for 20% of injuries

Up to ½ of injuries occur despite adult supervision

Injury types:

Lower extremity injuries are more common than upper extremity

Head and neck injuries accounted for 10-17% of trampoline injuries

Unique Injuries:

Proximal tibial fractures

Manubriosternal dislocations and sternal injuries

Vertebral artery dissection

Atlanto-axial subluxation

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Conventional pediatric nasal cannula can safely deliver up to 4 lpm but are limited by cooling and drying of the airway. This leads to decreased airway patency, nasal mucosal injury, bleeding and possibly increase in coagulase negative staph infections.

HFNC delivers flow up to 40 lpm with 95-100% relative humidity at a controlled temperature. In infants, the initial flow rate is set between 2-4 lpm and can be increased to 8 lpm. Older children and can be started at 10 lpm and increased as high as 40 lpm. Oxygen is also adjustable.

Studies have shown improved comfort, respiratory rate and oxygenation compared to nasal CPAP.

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We often ask our pediatric patients if there vaccines are up to date, but what does this mean?

Hepatitis B: birth, 2 and 6 months

Diphtheria/Tetanus and Acellular Pertussis: 2, 4 and 6 months

Pneumococcal vaccine: 2, 4 and 6 months

Haemophilus influenzae B : 2, 4 and 6 months

Polio: 2, 4 and 6 months

Rotavirus: 2 and 4 months or 2, 4 and 6 months depending on the brand. 

Influenza: 6 months and older

Children less than 8 years old should receive 2 doses of flu vaccine at least 4 weeks apart during the first flu season that they are immunized.  Children older than 2 years are eligible for the nasal vaccine if they do not have asthma, wheezing in the past 12 months or other medical conditions that predispose them to flu complications.

To see the full vaccine schedule including exact time frames between doses and catch up schedules, see: http://www.cdc.gov/vaccines/schedules/downloads/child/0-6yrs-schedule-pr.pdf

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