Acute Respiratory Distress Syndrome (ARDS) Clinical Trial
— APRiCEOfficial title:
A Parallel-arm, Single Blind Randomised Controlled Trial Comparing 'AIRWAY PRESSURE RELEASE VENTILATION' and 'LOW-TIDAL VOLUME VENTILATION' in Children With Acute Respiratory Distress Syndrome
Verified date | May 2017 |
Source | Postgraduate Institute of Medical Education and Research |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
This study attempts to study a new ventilation mode in children with Acute respiratory
distress syndrome (ARDS). Despite decades of research, no intervention has brought about a
significant decrease in ARDS mortality. Moreover, most of the studies are adult-based and
have been extrapolated to children. Airway pressure release ventilation (APRV) mode is
hypothesized to be superior in terms of lower need for sedation, shorter duration of
mechanical ventilation, etc. It is unique and the first worldwide randomized controlled
trial on APRV mode in children.
We plan to recruit a minimum of 50 children aged (1 month-12 years) in each group. The study
is to be conducted at the Post-Graduate Institute of Medical Education and Research
(PGIMER), Chandigarh between March 2014 to March 2016. This trial would recruit children
with respiratory failure and early ARDS and, randomize them to receive either conventional
ventilation or the APRV mode. Rest of the supportive care has also been protocolized so that
both groups receive treatment as per the existing best practices in every aspect. The
primary outcome being studied is the number of ventilator-free days. The secondary outcomes
include length of PICU stay, hospital stay, organ-failure free days, 28 day & 3 month
survival, biomarkers of lung injury (IL-6, IL-8, Angiopoeitin-2, soluble-ICAM-1, etc),
functional status, Pulmonary function tests, etc. Funding request would be sent to the
Indian Council of Medical Research, New Delhi, India.
Assessing lung biomarkers like Interleukin-6 would assess the role of different modes of
ventilation in acting as triggers for multi-organ dysfunction as well as for worsening lung
injury. This pathbreaking research is likely to open up new avenues upon completion.
Status | Terminated |
Enrollment | 52 |
Est. completion date | December 2016 |
Est. primary completion date | June 2016 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 1 Month to 12 Years |
Eligibility |
Inclusion Criteria: - Children aged 1 month- 12 years, who are intubated and mechanically ventilated with the following criteria of Acute Respiratory Distress Syndrome: 1. Acute presentation within 1 week of a known clinical insult or new/ worsening respiratory symptoms 2. Bilateral opacities on chest imaging - not fully explained by effusions, lobar/lung collapse, or nodules 3. Respiratory failure is not fully explained by cardiac failure or fluid overload (Echocardiographic assessment to exclude hydrostatic edema) 4. Impaired oxygenation with PaO2/ FiO2 ratio less than 300 or Oxygenation Index greater than 5.3 Exclusion Criteria: - Greater than 24 hours since diagnosis of ARDS - Co-existing raised intra-cranial pressure/ any other condition necessitating use of high dose of sedation (likely to suppress spontaneous breathing) - Radiologically confirmed air leak prior to randomization - Pneumothorax/ Pulmonary interstitial Emphysema - Clinical evidence of significant airway obstruction/ severe bronchospasm / reactive airway disease - Have received mechanical ventilation for more than 72 hours (before meeting inclusion criteria) - Symptomatic or uncorrected congenital heart disease or a right to left intra-cardiac shunt - Any underlying condition that is likely to impair spontaneous respiratory drive/ efforts (Eg: Brainstem dysfunction, neuromuscular paralysis) - Underlying chronic diseases (Eg: Cystic fibrosis, Chronic lung disease, etc) |
Country | Name | City | State |
---|---|---|---|
India | Pediatric Intensive care unit, Division of Pediatric Critical Care, Advanced Pediatrics Center, Post-graduate Institute of Medical Education & Research | Chandigarh |
Lead Sponsor | Collaborator |
---|---|
Postgraduate Institute of Medical Education and Research |
India,
Andrews P, Habashi N. Airway pressure release ventilation. Curr Probl Surg. 2013 Oct;50(10):462-70. doi: 10.1067/j.cpsurg.2013.08.010. Review. — View Citation
Andrews PL, Shiber JR, Jaruga-Killeen E, Roy S, Sadowitz B, O'Toole RV, Gatto LA, Nieman GF, Scalea T, Habashi NM. Early application of airway pressure release ventilation may reduce mortality in high-risk trauma patients: a systematic review of observational trauma ARDS literature. J Trauma Acute Care Surg. 2013 Oct;75(4):635-41. doi: 10.1097/TA.0b013e31829d3504. Review. — View Citation
Emr B, Gatto LA, Roy S, Satalin J, Ghosh A, Snyder K, Andrews P, Habashi N, Marx W, Ge L, Wang G, Dean DA, Vodovotz Y, Nieman G. Airway pressure release ventilation prevents ventilator-induced lung injury in normal lungs. JAMA Surg. 2013 Nov;148(11):1005-12. doi: 10.1001/jamasurg.2013.3746. — View Citation
Roy S, Habashi N, Sadowitz B, Andrews P, Ge L, Wang G, Roy P, Ghosh A, Kuhn M, Satalin J, Gatto LA, Lin X, Dean DA, Vodovotz Y, Nieman G. Early airway pressure release ventilation prevents ARDS-a novel preventive approach to lung injury. Shock. 2013 Jan;39(1):28-38. doi: 10.1097/SHK.0b013e31827b47bb. — View Citation
Roy SK, Emr B, Sadowitz B, Gatto LA, Ghosh A, Satalin JM, Snyder KP, Ge L, Wang G, Marx W, Dean D, Andrews P, Singh A, Scalea T, Habashi N, Nieman GF. Preemptive application of airway pressure release ventilation prevents development of acute respiratory distress syndrome in a rat traumatic hemorrhagic shock model. Shock. 2013 Sep;40(3):210-6. doi: 10.1097/SHK.0b013e31829efb06. — View Citation
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Recruitment rate | Number of children recruited per month on an average | 3 years | |
Other | Rate of enrolment among eligible children | Feasibility outcome Number of children who get enrolled in the study after consent among all eligible children | 3 years | |
Other | Contamination rate | Proportion of recruited children who cross-over from one arm to another | 3 years | |
Other | Attrition rate | Proportion of children who are lost to follow-up at 3 months | 3 months | |
Other | Protocol adherence rate | Proportion of children where all supportive care protocols are adhered to. | 3 years | |
Primary | Twenty-eight-day ventilator-free days | 28 days | ||
Secondary | Twenty-eight-day survival | 28 days | ||
Secondary | Length of PICU stay | The children would be followed up for the duration of their PICU stay | Up to 3 months | |
Secondary | Organ-failure-free-days | 28 days | ||
Secondary | Time-to-recovery of lung injury | Number of days for recovery of lung injury (OI<5). | Up to 28 days | |
Secondary | Number of children with adverse events | Children would be observed for incidence of adverse events during the period of PICU stay/ ventilation | 3 years | |
Secondary | All-cause mortality | Three months | ||
Secondary | Spirometry | Forced Expiratory volume during 1st second/ Forced vital capacity | 3 months | |
Secondary | Pediatric Cerebral performance category | Functional outcomes | 6 Months | |
Secondary | Pediatric Overall performance category | 6 months | ||
Secondary | Spirometry | Forced Expiratory Volume during 1st second / Forced Vital Capacity | 6 months | |
Secondary | Pediatric overall performance category | Assessment of functional outcomes | 3 months | |
Secondary | Pediatric cerebral performance category | Assessment of functional outcomes | 3 months | |
Secondary | Interleukin-6 levels | 72 hours of enrolment | ||
Secondary | Arterial lactate levels | 72 hours | ||
Secondary | Percentage reduction in 'oxygenation Index' | Percentage improvement in oxygenation index at 6 hours of enrolment | 6 hours | |
Secondary | Radiological score | 48 hours | ||
Secondary | Duration of inotropic requirement | Average time frame | up to 7 days | |
Secondary | Vaso-active inotropic score | 72 hours | ||
Secondary | Cumulative dose of sedation | 7 days | ||
Secondary | Cumulative dose of analgesic | 7 days | ||
Secondary | Cumulative dose of neuromuscular blocking agent | 7 days | ||
Secondary | Requirement for renal replacement therapy | Need for renal replacement therapy in the first 28 days of PICu stay or discharge/ death whichever is earlier | 28 days | |
Secondary | Pediatric Logistic Organ Dysfunction (PELOD) score | 7 days |
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