Acute Respiratory Distress Syndrome Clinical Trial
Official title:
A Comparative, Randomised Controlled Trial for Evaluating the Efficacy of Dexamethasone in the Treatment of Patients With Acute Respiratory Distress Syndrome
BACKGROUND: Currently, there is no proven pharmacologic treatment for patients with the acute
respiratory distress syndrome (ARDS). Great interest remains in the use of corticosteroids
for the salvage of patients with severe acute lung injury in the early phase of their disease
process, a situation that that has not been evaluated in most published trials. Dexamethasone
has never been evaluated in ARDS in a randomized controlled fashion.
HYPOTHESIS AND OBJECTIVES: The investigators hypothesize that adjunctive treatment with
intravenous dexamethasone of patients with established ARDS might change the pulmonary and
systemic inflammatory response and thereby will increase the number of ventilator-free days
and will decrease the extremely high overall mortality. Our goal is to examine the effects of
dexamethasone on length of duration of mechanical ventilation (assessed by number of
ventilator-free days) and on mortality, in patients admitted into a network of Spanish
intensive care units (ICUs) who still meet ARDS criteria at 24 hours after ARDS onset.
The acute respiratory distress syndrome (ARDS) is an inflammatory disease process of the
lungs as a response to both direct and indirect insults, characterized clinically by severe
hypoxemia, reduced lung compliance, and bilateral radiographic infiltrates. ARDS is caused by
an insult to the alveolar-capillary membrane that results in increased permeability and
subsequent interstitial and alveolar edema. The mechanisms by which a wide variety of insults
can lead to this syndrome are not clear. It is useful to think of the pathogenesis of ARDS as
a result of two different pathways: a direct insult on lung cells and an indirect insult as a
result of an acute systemic inflammatory response.
Like any form of inflammation, acute lung injury during ARDS represents a complex process in
which multiple cellular signalling pathways can propagate or inhibit lung injury. Death has
traditionally been attributed to the underlying disease, the presence of sepsis and the
failure of vital organ systems other than the lung. The association of ARDS with multiple
system organ dysfunctions is not inevitable, but it certainly is common. It is postulated
that local injury to the lungs (pneumonia, trauma, aspiration, gas inhalation) could set up a
secondary diffuse inflammatory response resulting in damage to other organs.
Although much has evolved in our understanding of its pathogenesis and factors affecting
patient outcome, still there is no specific pharmacologic treatment for ARDS. Despite
advances in supportive measures and antibiotics, ARDS has a mortality rate of about 40-50% in
most series and it is associated with significant health care costs. Patients with ARDS
invariably require endotracheal intubation and mechanical ventilation (MV) to decrease the
work of breathing and to improve oxygen transport. To date the only proven, widely accepted
method of MV for ARDS is what is called "lung protective ventilation" using a low tidal
volume strategy plus positive end-expiratory pressure (PEEP).
Corticoids seemed to be an ideal therapy for the acute lung injury in ARDS, given their
potent anti-inflammatory and antifibrotic properties. They switch off genes that encode
pro-inflammatory cytokines and switch on genes that encode anti-inflammatory cytokines. It
has been reported that low doses of corticosteroids prevent an extended cytokine response and
might accelerate the resolution of pulmonary and systemic inflammation in pneumonia.
Dexamethasone has never been evaluated in ARDS in a randomized controlled fashion. However,
dexametasone has potent anti-inflammatory effects and weak mineralocorticoid effects compared
with other corticosteroids. Dexamethasone has a long-lasting effect, allowing for a
once-a-day regimen. Whether addition of dexamethasone to conventional supportive treatment
benefits ARDS patients is unknown, it has been used in patients with sepsis, septic shock,
pneumonia, trauma, and meningitis, all of them causes of ARDS.
The investigators justify the need of our study based on the positive results of two recent
clinical trials: (i) Meijvis et al (Lancet 2011) showed that dexamethasone (5 mg/day) for 4
days was able to reduce length of hospital stay in 304 patients with bacterial pneumonia when
added to the conventional treatment; (ii) Azoulay et al (Eur Respir J 2011) showed that
dexamethasone (10 mg/6h), when added to chemotherapy and conventional ICU management, caused
less respiratory deterioration and lower ICU mortality in 40 patients with acute lung injury
resulting from leukaemia.
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