Inpatient Bronchiolitis: So Much Time and So Little To Do

1. Inpatient Bronchiolitis: So Much Time and So Little To Do Alan Schroeder, MD Director, PICU Chief, Pediatric Inpatient Services Santa Clara Valley Medical Center

2. Case – urgent care • Otherwise healthy 6 month old with 3 days cough, runny nose, fussiness, decreased PO intake but normal wet diapers. • On PE, T=101, RR = 50, O2 Sat = 94%, HR = 160, fussy but consolable, adequately hydrated, lots o’ snot, expiratory wheezes, mild SC&IC rtxns

3. Results Mallory, Pediatrics, 2003

4. Management Dilemmas in Bronchiolitis • Nebs? • Albuterol vs racemic epinephrine? • Hypertonic saline? • Suctioning (+/- saline)? • Chest Physiotherapy? • If febrile, R/O SBI? • CXR? • Steroids? • Decongestants? • Abx? • When to admit? • O2 Sat criteria? • Risk of apnea? • Safe to eat? • When to discharge?

5. Bronchiolitis Overview • #1 cause of infant hospitalization • 1/3 of all children get bronchiolitis in first 2 years • 1/30 children get hospitalized • 150,000 hospitalizations per year • 1.5M annual outpatient visits for RSV alone • $500-700M/year

6. Bronchiolitis – Definition • “a seasonal viral illness characterized by fever, nasal discharge, and dry, wheezy cough. On examination there are fine inspiratory crackles and/or high-pitched expiratory wheeze” www.nottingham.ac.uk/paediatric-guideline/breathingguideline.pdf.

7. Why have hospitalization rates increased? • Increased survival of children with comorbidities • ? Virulence • Increase in daycare • Changes in hospitalization criteria

8. Bronchiolitis seasonality MMWR, 2009

9. Inflammed/ edematous bronchial walls WBC’s (mostly monos) infiltrate bronchiolar epithelium Mucus plugs block airway Pathophysiology http://www.health-healths.com/tag/prevention/page/5

10. Pathphysiology • Mucus plugging  one-way valve  hyperinflation  absorption atalectasis --> V:Q mismatch • Smooth-muscle constriction (bronchiolespasm) not a factor

11. Clinical presentation • URI symptoms first • Spreads to LRT – cough, tachypnea more present • Fever in ~ 50% • Poor po intake, decreased UOP

12. Exam

13. Concerning clinical findings • Lethargy/extreme irritability • Dehydration • Respiratory distress • Apnea

14. Outline • Overview • Burden of disease • Pathophysiology/clinical presentation • MARC-30 study • Treatment – what’s the evidence?

15. SCVMC and MARC-30 study • MARC = Multicenter Airway Research Collaboration • Part of Emergency Medicine Network (EMNet) • Prospective, multicenter. • 16 sites, 2200 patients over 3 winters (11/07 – 4/10) • NIH funded (NIAID) • PI: Carlos Camargo (Mass General), Jonathan Mansbach (Boston Children’s) • Aims: • Elucidate role of co-infections • Identify predictors of PPV • Establish evidence-based discharge criteria

17. Viral co-infections

18. Virology - Implications • Cohorting/isolation? • Comfort of diagnosis? • Utilization of resources? • Hospital charges: • Flu A, B, RSV   ($220) • Para 1,2,3         ($220) • Bordetella pertussis, B. parapertussis      ($95)

19. Virology - implications • My conclusion: run-of-the-mill bronchiolitis does not warrant viral testing • Possibly for influenza • only 19/2200 (~1% of patients in cohort) • Same goes for CXR, labs, even if febrile • UA/Urine Cx if < 90 days? [Ralston, Arch Pediatr Adol Med 2011]

20. Outline • Overview • Burden of disease • Pathophysiology/clinical presentation • MARC-30 study • Treatment – what’s the evidence?

21. Steroids? • 2003 Cochrane (Patel et al): • “Available evidence suggests that corticosteroid therapy is not of benefit in this patient group” • 13 trials • AAP recs (2005): • “Corticosteroids should not be used routinely in the management of bronchiolitis”

22. B-agonists • Cochrane 2010 (Gadomski and Brower): • 28 trials (1912 infants) • No reduction in admission or length of hospitalization • Transient reduction in clinical score • AAP (2005): • “bronchodilators should not be used routinely in the management of bronchiolitis…” • “…A carefully monitored trial of beta or alpha agonist is an option”

23. Epinephrine • Cochrane 2011 (Hartling et al) • 19 studies, 2256 patients • RR admissions on Day 1 in outpatients = .67 (.50-.89) vs placebo • Shorter LOS for epi vs salbutamol

24. Epi + dexamethasone? • Pediatric Emergency Research Canada RCT[Plint et al, NEJM 2009] • 800 kids • 4 arms: • Decadron • Racemic epi • Decadron + epi • Placebo • Marginal benefit in admission rate by 7 days in decadron + epi group (17% vs 26%)

25. Hypertonic saline • Zhang et al, Cochrane 2008 • 4 trials, 254 patients, with/without bronchodilators • ↓LOS by 1 day • Reduced clinical score in outpatients • 4 additional RCTs • 2 with some benefit (Al-Ansari et al, J Peds 2010; Luo et al, Clin Microb Inf, 2011) • 2 with no benefit (Kuzik et al, CJEM 2010; Grewal et al, Arch Pediatr Adol Med 2009)

26. Hypertonic saline • Bronchodilators necessary? [Ralston et al, Pediatrics, 2010] • 1 episode of bronchospasm in 377 doses of HS without bronchodilator • So why not? • (We’ve been down this path before…)

27. Increasing inpatient bronchiolitis volume  reduced steroids, xrays, laboratory tests Pediatrics, 2011

28. 6 RCTs, included 2 trials that did not exclude prior wheezers • Conclusion: “Published reports of the effect of systemic corticosteroids on the course of bronchiolitis suggest a statistically significant improvement in clinical symptoms, LOS, and DOS.” Pediatrics 2000

29. Nasal decongestants • Ralston et al, J Peds 2008 • 41 infants, phenylephrine vs placebo • No benefit

30. Chest PT • Gajdos et al, PLOS, 2010 • Multicenter RCT of CPT (forced expiratory techniques and assisted cough) vs nasal suction • 496 infants, no benefit • Roque, Cochrane 2012 • 9 trials (5 vibration/percussion, 4 passive expiratory) • No benefit

31. Heliox • Less turbulent airflow through resistant airways • When given in ED with racemic epi + via HFNC, small improvement in clinical scores but no reduction in admission or LOS [Kim et al, APAM 2011] • Mixed results in ICU setting [Martinon-Torres et al, Pediatrics 2002; Liet et al, J Peds 2005]

32. O2 Sat: why does it matter? • It can be easily fixed!! • May predict respiratory failure or ICU transfer in early phase of disease • May predict readmission • ?May be deleterious to the developing brain? • Commentary to 2005 AAP guidelines (Cutoff = “persistently below 90%”): “It is unfortunate that the recommendation fails to address another significant consideration, viz, the impact of chronic or intermittent hypoxia on later cognitive and behavioral outcomes.”[Bass, Pediatrics 2007] • Site articles suggesting some detriment at 90-94% (in pts with CHD or OSA!!!)

33. Oxygen • LOS prolonged by perceived need for O2 • 26% - 57% of hospitalized patients [Schroeder, Archives Ped Adol Med 2004; Unger, Pediatrics 2008] • AAP: • “As child’s course improves, continuous O2 monitoring is not routinely needed” • Ongoing RCT of continuous vs intermittent pulse oximetry

34. Summary • No frittering • Resist temptation to treat all wheezing • Racemic epinephrine instead of albuterol? • Limited utility of NP swabs • Search for the holy grail continues

35. More to come from MARC-30 • Predicting safe discharge • Predicting PPV • Better understanding of apnea and the associated viruses • Role of vitamin D levels • Development of asthma after bronchiolitis