NIRS Monitoring in Premature Infants
Status: | Recruiting |
---|---|
Conditions: | Women's Studies |
Therapuetic Areas: | Reproductive |
Healthy: | No |
Age Range: | Any |
Updated: | 4/29/2018 |
Start Date: | April 2015 |
End Date: | July 2022 |
Contact: | Pei-Yi Lin, PhD |
Email: | ivy.lin@childrens.harvard.edu |
Beside Monitor of Cerebral Metabolism in Premature Infants With Intraventricular Hemorrhage and Post-Hemorrhagic Hydrocephalus
This study uses frequency domain near-infrared spectroscopy coupled with diffuse correlation
spectroscopy (FDNIRS-DCS) technology for monitoring cerebral blood flow (CBF) and cerebral
oxygen metabolism (CMRO2) at the bedside for newborns with germinal matrix-intraventricular
hemorrhage (GM-IVH) and/or post-hemorrhagic hydrocephalus (PHH) in comparison to newborns
with hydrocephalus of a different etiology (VC) and healthy controls (HC). We hypothesize
that baseline cerebral metabolic dysfunction is a better biomarker for GM-IVH and PHH
severity and response to PHH treatment.
This is a Boston Children's Hospital (BCH)-institutional review board(IRB) approved,
multi-site study that includes collaboration with Brigham and Women's Hospital (BWH) and Beth
Israel Deaconess Medical Center (BIDMC). Pei-Yi Lin receives funding from The National
Institute of Health (NIH) to support the study and is the overall principal Investigator (PI)
overseeing the study.
spectroscopy (FDNIRS-DCS) technology for monitoring cerebral blood flow (CBF) and cerebral
oxygen metabolism (CMRO2) at the bedside for newborns with germinal matrix-intraventricular
hemorrhage (GM-IVH) and/or post-hemorrhagic hydrocephalus (PHH) in comparison to newborns
with hydrocephalus of a different etiology (VC) and healthy controls (HC). We hypothesize
that baseline cerebral metabolic dysfunction is a better biomarker for GM-IVH and PHH
severity and response to PHH treatment.
This is a Boston Children's Hospital (BCH)-institutional review board(IRB) approved,
multi-site study that includes collaboration with Brigham and Women's Hospital (BWH) and Beth
Israel Deaconess Medical Center (BIDMC). Pei-Yi Lin receives funding from The National
Institute of Health (NIH) to support the study and is the overall principal Investigator (PI)
overseeing the study.
Introduction and specific aims:
Germinal matrix-intraventricular hemorrhage (GM-IVH) occurs in 45% of extremely low birth
weight (ELBW) premature infants, often leading to long-term neurodevelopmental impairments
(NDI). Post-hemorrhagic hydrocephalus (PHH) is a common complication of GM-IVH and increases
the risk of major NDI to 75-90%. Currently, the only bedside tool to assess for hemorrhage
and monitor for secondary hydrocephalus is ultrasound. Although increasing ventricular size
is currently used to determine need for intervention, measures based on cerebral physiology
are needed to better determine the impact of the expanding ventricles on individual cerebral
metabolism.
Our group has developed advanced FDNIRS-DCS technology for monitoring cerebral oxygen
metabolism (CMRO2) in newborns at the bedside. We hypothesize that baseline and evoked
cerebral metabolic dysfunctions are better biomarkers for GM-IVH and PHH severity and
response to PHH treatment. To test our hypotheses, we will address the following specific
aims:
Aim 1: Determine post-natal cerebral hemodynamics and oxygen metabolism trajectories in
GM-IVH and PHH neonates with respect to normal controls and differences between PHH infants
and infants affected by hydrocephalus due to other pathologies.
We hypothesize that:
1. Infants with GM-IVH have lower CBF and CMRO2 than healthy controls and the decrease is
in proportion to the severity of GM-IVH. (GM-IVH vs HC)
2. Infants with PHH have lower CBF and CMRO2 than healthy controls. (PHH vs HC)
3. For infants who developed PHH, the decrease of CBF and CMRO2 is affected by both
hemorrhages and the severity of hydrocephalus. (PHH vs VC)
Aim 2: Test the efficacy of cerebral hemodynamics and metabolism in detecting hydrocephalus
treatment response in both PHH and VC groups.
We hypothesize that CBF and CMRO2 increase in response to treatment-associated improvements
in hydrocephalus but remain depressed when response to treatment is inadequate.
Aim 3: Test the sensitivity of FDNIRS-DCS measured cerebral hemodynamics and oxygen
metabolism in predicting developmental outcomes in infants with GM-IVH and PHH. We will
assess neurodevelopmental outcomes in all enrolled infants at 5-7, 10-12, and 22-24 months
corrected age and correlate with FDNIRS-DCS measurements of CBF and CMRO2, and related
quantities with neurodevelopmental outcomes at approximately 5-7, 10-12, and 22-24 months
corrected age.
Germinal matrix-intraventricular hemorrhage (GM-IVH) occurs in 45% of extremely low birth
weight (ELBW) premature infants, often leading to long-term neurodevelopmental impairments
(NDI). Post-hemorrhagic hydrocephalus (PHH) is a common complication of GM-IVH and increases
the risk of major NDI to 75-90%. Currently, the only bedside tool to assess for hemorrhage
and monitor for secondary hydrocephalus is ultrasound. Although increasing ventricular size
is currently used to determine need for intervention, measures based on cerebral physiology
are needed to better determine the impact of the expanding ventricles on individual cerebral
metabolism.
Our group has developed advanced FDNIRS-DCS technology for monitoring cerebral oxygen
metabolism (CMRO2) in newborns at the bedside. We hypothesize that baseline and evoked
cerebral metabolic dysfunctions are better biomarkers for GM-IVH and PHH severity and
response to PHH treatment. To test our hypotheses, we will address the following specific
aims:
Aim 1: Determine post-natal cerebral hemodynamics and oxygen metabolism trajectories in
GM-IVH and PHH neonates with respect to normal controls and differences between PHH infants
and infants affected by hydrocephalus due to other pathologies.
We hypothesize that:
1. Infants with GM-IVH have lower CBF and CMRO2 than healthy controls and the decrease is
in proportion to the severity of GM-IVH. (GM-IVH vs HC)
2. Infants with PHH have lower CBF and CMRO2 than healthy controls. (PHH vs HC)
3. For infants who developed PHH, the decrease of CBF and CMRO2 is affected by both
hemorrhages and the severity of hydrocephalus. (PHH vs VC)
Aim 2: Test the efficacy of cerebral hemodynamics and metabolism in detecting hydrocephalus
treatment response in both PHH and VC groups.
We hypothesize that CBF and CMRO2 increase in response to treatment-associated improvements
in hydrocephalus but remain depressed when response to treatment is inadequate.
Aim 3: Test the sensitivity of FDNIRS-DCS measured cerebral hemodynamics and oxygen
metabolism in predicting developmental outcomes in infants with GM-IVH and PHH. We will
assess neurodevelopmental outcomes in all enrolled infants at 5-7, 10-12, and 22-24 months
corrected age and correlate with FDNIRS-DCS measurements of CBF and CMRO2, and related
quantities with neurodevelopmental outcomes at approximately 5-7, 10-12, and 22-24 months
corrected age.
1. GM-IVH group:
Inclusion criteria for GM-IVH group: born at gestational age (GA) 24-32 weeks; < 3
months old corrected-GA (cGA) at first measure or eligible for measurement within 12
weeks after the infant reaches 40 weeks post-menstrual age (PMA). Grade I-III IVH
diagnosed by clinical cranial ultrasound or magnetic resonance imaging (MRI).
Exclusion criteria for GM-IVH group: chromosomal abnormalities known at the time of
enrollment; known or suspected metabolic disorder or neoplasm; critical congenital
heart disease; congenital hydrocephalus; brain lesions that affect cerebral brain
metabolism, other than GMH-IVH; central nervous system (CNS) infection.
2. PHH group:
Inclusion criteria for PHH group: born at gestational age (GA) 24-37 weeks < 3 months
old cGA at first measure or eligible for measurement within 12 weeks after the infant
reaches 40 weeks age (PMA). PHH diagnosed by clinical cranial ultrasound or MRI.
Exclusion criteria for PHH group: chromosomal abnormalities known at the time of
enrollment; known or suspected metabolic disorder or neoplasm; critical congenital
heart disease; congenital hydrocephalus; brain lesions that affect cerebral brain
metabolism, other than IVH-PHH; CNS infection. Implanted devices or other devices that
preclude the use of MRI.
3. HC group:
Inclusion criteria for HC group: born at gestational age (GA) 24-32 weeks; < 3 months
old cGA at first measure or eligible for measurement within 12 weeks after the infant
reaches 40 weeks age (PMA); Apgar >7 at 5 min.
Exclusion criteria for HC group: any clinical indication of brain injury or congenital
brain malformation; chromosomal abnormality known at the time of enrollment; known or
suspected metabolic disorder or neoplasm; critical congenital heart disease; CNS
infection.
4. VC group:
Inclusion criteria for VC group: < 12 months old cGA at first measure or eligible for
measurement within 1 year after the infant reaches 40 weeks age (PMA). Symptomatic
hydrocephalus of any etiology or at high risk of developing hydrocephalus of any etiology,
except post-hemorrhagic etiology; characterized by abnormal rate of head growth and full
anterior fontanelle. Ventricular enlargement diagnosed by ultrasonography or MRI; no signs
of IVH.
Exclusion criteria for VC group: known or suspected metabolic disorder or neoplasm;
critical congenital heart disease; CNS infection. Implanted devices or other devices that
preclude the use of MRI.
We found this trial at
3
sites
330 Brookline Ave
Boston, Massachusetts 02215
Boston, Massachusetts 02215
617-667-7000
Principal Investigator: Jonathan Litt, MD, MPH
Beth Israel Deaconess Medical Center Beth Israel Deaconess Medical Center (BIDMC) is one of the...
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75 Francis street
Boston, Massachusetts 02115
Boston, Massachusetts 02115
(617) 732-5500
Principal Investigator: Mohamed El-Dib, MD
Phone: 617-726-9332
Brigham and Women's Hosp Boston’s Brigham and Women’s Hospital (BWH) is an international leader in...
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300 Longwood Ave
Boston, Massachusetts 02115
Boston, Massachusetts 02115
(617) 355-6000
Principal Investigator: Pei-Yi Lin, PhD
Phone: 617-726-9332
Boston Children's Hospital Boston Children's Hospital is a 395-bed comprehensive center for pediatric health care....
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