HFOV Fails as a Routine Therapy for moderate-to-severe ARDS. Musings on the Use and Study of “Rescue Therapies”.

Ferguson et al report the results of the OSCILLATE randomized controlled trial of HFOV for moderate to severe ARDS in this week’s NEJM.  (A similar RCT of HFOV, the OSCAR trial, is reported in the same issue but I limit most of my commentary to OSCILLATE because I think it’s a better and more interesting trial and more data are presented in its report.)  A major question is answered by this trial, but an important question remains open:  is HFOV an acceptable and rational option as “rescue therapy” in certain patients with “refractory” ARDS?  I remain undecided about this question, and its implications are the subject of this post.

Before I segue to the issue of the study and efficacy of rescue therapies, let’s consider some nuances of this trial:

·         Patients in both groups received high doses of sedatives (average midazolam dose for the first week: 8.3 mg/hour in the HFOV group versus 5.9 mg/hour in the control group – a 41% increase in HFOV).  Was this “too much” sedation?  What if propofol had been used instead?

·         Patients in the HFOV group received significantly more paralytics.  If you believe the Papazian data (I don’t) paralytics should confer a mortality benefit in early ARDS and this should contribute to LOWER mortality in the HFOV group.  What if paralytics had been used less frequently?

·         Does HFOV confer a nocebo effect by virtue of its “unnatural” pattern of ventilation, its “requirement” for more sedation and paralysis, or the noise associated with its provision, or its influence on the perceptions of caregivers and patient’s families (recognizing that deaths after withdrawal of life support were similar in HFOV versus conventional ventilation (55 versus 49%, P=0.12)?

·         The respiratory frequency in the HFOV group (5.5 Hz) was at the low end of the usual range (3-15 Hz).  If a higher frequency (and a lower tidal volume) had been delivered, would the result have changed?  (Probably not.)

·         What about the high plateau pressure in the control group (32 cm H2O) despite the low tidal volume of 6.1 ml/kg PBW?  Why was not tidal volume reduced such that plateau pressure was lower than the commonly recommended target of 30 cm H2O?  Did this make a difference?  (Probably not.)

·         Why was mortality higher in the minority (12%) of control patients who were changed to HFOV (71% mortality)?  Is this related to confounding by indication or reflective of the general harmful effects of HFOV?

·         Why was there a difference between the OSCILLATE study and the OSCAR study, reported in the same issue, in terms of mortality?  Because OSCILLATE patients were sicker?  Because OSCAR control patients received higher tidal volumes, thereby curtailing the advantage of conventional ventilation?  I find this last explanation somewhat compelling.