Nasal Intermittent Positive Pressure Ventilation in Premature Infants (NIPPV)

Phase 3

Completed

• Conditions: Respiratory Insufficiency of Prematurity
• Interventions: Device: nCPAP; Device: NIPPV

• Registration Number: NCT00433212
• Lead Sponsor: McMaster University

Brief Summary

The machines and oxygen used to help very premature babies breathe can have side-effects, such as bronchopulmonary dysplasia (BPD). Infants with BPD get more complications (a higher death rate, a longer time in intensive care and on assisted ventilation, more hospital readmissions in the first year of life, and more learning problems) than infants who do not develop BPD. Doctors try to remove the tube in the wind-pipe that links the baby to the breathing machine as soon as possible. However, small babies get tired, and still require help to breathe. One of the standard and common techniques to help them breathe without a tube in the wind-pipe is to use simple pressure support, nasal continuous positive airway pressure or nCPAP. This supports breathing a little, but it is often not enough to prevent the need to go back on the breathing machine.

Nasal intermittent positive pressure ventilation (NIPPV) is similar to nCPAP, but also gives some breaths, or extra support, to babies through a small tube in the nose. NIPPV is safe and effective, and already in use as an alternate "standard" therapy.

The main research question: After being weaned from the breathing machine, is NIPPV better than nCPAP in preventing BPD in premature babies weighing 999 grams or less at birth?

Detailed Description

The immature lung of extremely low birth weight (ELBW, \< 1000 g) infants is easily damaged by the placement of an endotracheal tube to deliver mechanical ventilation and oxygen. This and the total time of mechanical ventilation contributes to bronchopulmonary dysplasia (BPD). Infants with BPD have an increased risk of later death or neuro-impairment. With the increasing survival of ELBW infants in the NICU, there has been a proportionate increase in the number of infants surviving with BPD.

Following invasive ventilation via an endotracheal tube (ETT), extubation to nasal Continuous Positive Airway Pressure (nCPAP)ventilation is the standard approach. Currently, 40% of infants who are extubated and given nCPAP support fail, and require re-intubation. Previous work suggests that a less invasive respiratory support such as Nasal Intermittent Positive Pressure Ventilation (NIPPV), without an endotracheal tube is less injurious to the lung. NIPPV may thereby reduce the duration of invasive ventilator support, and aid successful early extubation. We hypothesize that the use of NIPPV leads to a higher rate of survival without BPD than standard therapy with nCPAP.

This randomized clinical trial is appropriately powered to compare NIPPV with nCPAP to detect effects on clinically relevant long-term outcomes, such as death and BPD at 36 weeks. This is a multi-national, randomized, open clinical trial of two different standard methods of providing non-invasive respiratory support to 1000 extremely preterm infants weighing less than 1000 grams at birth.

Study Timeline

• Study First Submitted: 2007-02-07
• Study First Submitted QC: 2007-02-08
• Study First Posted: 2007-02-09
• Study Start: 2007-04
• Primary Completion: 2011-08
• Study Completion: 2011-12
• Status Verified: 2014-12
• Last Update Submitted: 2014-12-03
• Last Update Posted: 2014-12-05

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 1011

Inclusion Criteria

• Birth weight <1000 gm

• Gestational age <30 completed weeks

• Intention to manage the infant with non-invasive respiratory support (i.e. no endotracheal tube), where either:

  • the infant is within the first 7 days of life and has never been intubated or has received less than 24 hours of total cumulative intubated respiratory support;
  • the infant is within the first 28 days of life, has been managed with intubated respiratory support for 24 hours or more and is a candidate for extubation followed by non-invasive respiratory support.

Read More

Exclusion Criteria

• Considered non-viable by clinician (decision not to administer effective therapies)
• Life-threatening congenital abnormalities including congenital heart disease (excluding patent ductus arteriosis)
• Infants known to require surgical treatment
• Abnormalities of the upper and lower airways
• Neuromuscular disorders
• Infants who are >28 days old and continue to require mechanical ventilation with an endotracheal tube

Read More

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
B	nCPAP	Non-invasive respiratory support via nasal Continuous Positive Airway Pressure
A	NIPPV	Non-invasive respiratory support via nasal intermittent positive pressure ventilation

Primary Outcome Measures

Name	Time	Method
Composite of survival to 36 weeks gestational age, free of moderate-severe bronchopulmonary dysplasia	36 weeks gestational age

Secondary Outcome Measures

Name	Time	Method
ultrasonographic evidence of brain injury	36 weeks gestional age
All cause mortality at 36 weeks gestational age	36 weeks gestational age
growth	discharge home
time to establish full feeds	discharge home
nosocomial infections	discharge home
All cause mortality before first discharge home	first discharge home
necrotizing enterocolitis	36 weeks gestational age
air leak syndromes	36 weeks gestational age
nasal trauma	discharge home
retinopathy of prematurity	discharge home
time on supplemental oxygen	discharge home
need for re-intubation	36 weeks gestational age
duration of positive pressure respiratory support	discharge home
comparison of synchronized and non-synchronized NIPPV	discharge home
bronchopulmonary dysplasia	36 weeks gestational age

Trial Locations

Locations (35)

University of Utah; 🇺🇸 Salt Lake City, Utah, United States

LKH Feldkirch; 🇦🇹 Feldkirch, Austria

CHC St. Vincent; 🇧🇪 Rocourt, Belgium

IWK Health Centre; 🇨🇦 Halifax, Nova Scotia, Canada

McMaster University; 🇨🇦 Hamilton, Ontario, Canada

Children's Hospital of Eastern Ontario; 🇨🇦 Ottawa, Ontario, Canada

The Ottawa Hospital General Campus; 🇨🇦 Ottawa, Ontario, Canada

Cork University Maternity Hospital; 🇮🇪 Wilton, Cork, Ireland

Royal University Hospital; 🇨🇦 Saskatoon, Saskatchewan, Canada

Coombe Women's Hospital; 🇮🇪 Dublin, Ireland

National Maternity Hospital; 🇮🇪 Dublin, Ireland

University Medical Center Groningen/Beatrix Children's Hosp; 🇳🇱 Groningen, Netherlands

Princess Amalia Dept of Pediatrics, Isala Clinics; 🇳🇱 Zwolle, Netherlands

Hamad Medical Corporation; 🇶🇦 Doha, Qatar

KK Women's and Children's Hospital; 🇸🇬 Singapore, Singapore

Royal Maternity Hospital; 🇬🇧 Belfast, Northern Ireland, United Kingdom

University of Leicester; 🇬🇧 Leicester, United Kingdom

St. Mary's Hospital; 🇬🇧 London, United Kingdom

Karolinska University Hospital/Astrid Lingrenn's Children's Hospital; 🇸🇪 Stockholm, Sweden

Beth Israel Deaconess Medical Center (BIDMC); 🇺🇸 Boston, Massachusetts, United States

Tufts University Medical Center; 🇺🇸 Boston, Massachusetts, United States

Stony Brook University Medical Center; 🇺🇸 Stony Brook, New York, United States

Virtua West Jersey Hospital; 🇺🇸 Voorhees, New Jersey, United States

Children's Hospital of Philadelphia; 🇺🇸 Philadelphia, Pennsylvania, United States

Hospital for Sick Children; 🇨🇦 Toronto, Ontario, Canada

Winnipeg Health Sciences Centre; 🇨🇦 Winnipeg, Manitoba, Canada

St. Boniface General Hospital/University of Manitoba; 🇨🇦 Winnipeg, Manitoba, Canada

Georgetown University Children's Medical Center; 🇺🇸 Washington, District of Columbia, United States

The George Washington University Hospital; 🇺🇸 Washington, District of Columbia, United States

SUNY Downstate Medical Center; 🇺🇸 Brooklyn, New York, United States

Kings County Hospital; 🇺🇸 Brooklyn, New York, United States

Pennsylvania Hospital/U. of Pennsylvania; 🇺🇸 Philadelphia, Pennsylvania, United States

Queens Hospital Center; 🇺🇸 Jamaica, New York, United States

Brookdale University Hospital & Medical Center; 🇺🇸 New York, New York, United States

New York Hospital Queens; 🇺🇸 Brooklyn, New York, United States