Assess hydration status (tears, saliva, capillary refill, wet diapers in 24 hours)
Check the ears (occasionally have coinfections)
Always do an abdominal examination to assess for hepatosplenomegaly
Management:
Suction! Suction! Suction!
CXR unnecessary unless concern for superinfection or clinical picture not consistent with typical bronchiolitis (prolonged symptoms, high fevers, persistent hypoxia) à atelectasis and peribronchial cuffing on CXR if obtained
Viral testing is not always necessary (exception: influenza, COVID-19, RSV <1 month causes apnea)
Respiratory support
Dexamethasone in patients <1yo with no history of wheezing did not demonstrate benefit
Albuterol has not been shown to benefit patients
Bronchiolitis Score is helpful with risk stratification
Discharge Criteria
O2 saturation >90% while awake
Adequate PO intake
Mild/moderate work of breathing
Reliable caretaker
Timely pediatrician follow-up in 1-2 days
Admission Criteria
Hypoxemia
Severe respiratory distress
Apnea
High-risk patients
Poor oral intake
Parents uncomfortable with discharge
Consider intubation if…
Recurrent apnea
Declining mental status
Not improving with respiratory support
Asthma Exacerbation
Antibody binds antigen à release of histamine/leukotrienes à inflammation à bronchospasm
Pediatric Respiratory Assessment Measure (PRAM) is helpful for risk stratification
Timing of medications is key!
CXR is not required unless concern for complicating factors
Management:
Beta-2 agonists
Albuterol à MDI vs. nebulizer
Always use a spacer!
Short vs. 1-hour long vs. continuous albuterol nebulizer
Discharge à take 4 puffs every 4 hours for the next 48 hours, then as needed after that
Remember to write for MDI with spacer if discharging with albuterol prescription
Terbutaline à IV vs. SQ
Corticosteroids à mainstay of treatment considering the pathophysiology
Dexamethasone
Prednisone/prednisolone
Methylprednisolone
Ipratropium nebulizer
Anticholinergic
Often used in conjunction with albuterol nebulizer
Magnesium sulfate
Smooth-muscle relaxer
Can cause smooth-muscle relaxation in the vasculature à hypotension (consider IVF bolus)
Epinephrine à anaphylaxis dosing
Admission Criteria
Requiring >1 1-hour long albuterol
Respiratory distress
Hypoxemia (O2 <92%)
Dehydration
Croup (laryngotracheobronchitis à upper airway)
Acute subglottic inflammation
Morbidity is greatest in 1st year of life due to narrower subglottic airway
Affects children aged 6-36 months
Classically caused by parainfluenza virus, but also caused by many other viruses
Clinical presentation:
Barky cough
Inspiratory stridor (more concerning if occurring at rest)
Tachypnea
Suprasternal retractions (hypoxia, intercostal retractions, abnormal breath sounds, subcostal retractions are uncommon à croup is a disease of the upper airway, if hypoxia is present and lungs are clear to auscultation there should be high concern for impending upper airway compromise)
Low-grade fever
Management
Dexamethasone
Racemic epinephrine for resting stridor or respiratory distress (can repeat every 15-20 minutes)
Monitor for 3-4 hours prior to discharge if administering racemic epinephrine à admit for refractory stridor or if repeat dosing of racemic epinephrine is required
Consider Heliox for severe respiratory distress as it decreases turbulent flow
Documentation Lecture (Ashley Chesman)
Critical Care Documentation
7.2% of all ED visits reported to Medicare in 2019 were reported as critical care
Time at bedside, but also time spent engaged in work directly related to the patient’s care:
Reviewing test results and imaging studies
Consulting services
Placing orders
Procedures billed separately
Billings starts at 30 minutes à critical care time requests <30 minutes may not be compensated
E/M and Critical Care Same Date of Service
Can now bill for E/M and Critical Care on the same date/visit
Documentation must support decompensation to a state requiring critical care
Remember to document critical care time beginning in residency!
Subclavian Central Venous Lines (Drs. Nichols and Leavitt)
Contraindications
Overlying infection
Anatomic obstruction
Fracture of ipsilateral clavicle
Relative à coagulopathy (harder to compress and apply pressure to the subclavian site)
Complications
Arterial injury
Pneumothorax
Air embolism
Cardiac dysrhythmia
Infection
Bleeding
Supra- vs. Infraclavicular Subclavian Access
Infraclavicular
Utilizes short-axis ultrasound
Index finger on the sternal notch and thumb at the midpoint of the clavicle at the angle
Make contact with the clavicle and “walk-down” and pass under the clavicle vs. insert needle further laterally to avoid having to “walk-down” the clavicle
Ultrasound assisted technique utilizes short-axis
Supraclavicular
Well-defined landmarks (claviculo-SCM angle)
1 cm superior and 1 cm lateral to the claviculo-SCM angle
5-15 degrees above the coronal plane
Don’t advance past 3 cm
Ultrasound assisted technique utilizes long-axis as opposed to the short-axes
Shorter distance from skin to vein
Larger target area
Straighter path to the SVC
Less proximity to the lung
Fewer complications compared to infraclavicular
Found to be non-inferior to the infraclavicular approach
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