Premature, very-low-birth-weight (VLBW; d1500 g) and low-birth-weight (LBW; 1500-2499 g) infants are at increased risk for long-term encephalopathy. 25-50% of the 63,000 VLBW infants born annually in the U.S. have major long-term cognitive or neurobehavioral deficits. Postnatal cerebral ischemia appears to play an important role in long-term cognitive sequelae. Unfortunately, the ability of the cerebral vasculature of LBW and VLBW neonates to maintain adequate cerebral blood flow is poorly understood. Although important, provocative clinical studies have been performed with classical Kety-Schmidt methodology, Doppler ultrasound, positron emission tomography, perfusion computed tomography, magnetic resonance imaging and near-infrared spectroscopy, there is currently no technique for easily, repeatedly and noninvasively monitoring or measuring cerebral circulatory adequacy in LBW or VLBW infants. Our start-up company, Noninvasix, recently demonstrated in VLBW and LBW infants that optoacoustic technology permits easy, accurate, direct noninvasive measurement of cerebral venous blood oxygen saturation in the superior sagittal sinus (SSSSO2) through the open anterior fontanelle. SSSSO2 measures the ability of cerebral blood flow to meet cerebral oxygen demand; in adults with traumatic brain injury cerebral venous saturations less than 50%, suggesting that cerebral blood flow does not meet cerebral oxygen demand, have ominous prognostic implications. Having established the proof-of-concept for optoacoustic SSS monitoring of neonates, we now propose in this Phase I application to refine that technique as a major step toward commercialization of a device for intermittent measurements and continuous monitoring of neonatal cerebral perfusion. In this Phase I proposal, based on our laboratory prototype, Noninvasix will collaborate with The University of Texas Medical Branch, which co-owns Noninvasix with two faculty who are inventors and investigators in this proposal, and Cooper Consulting Services (CCS), an engineering design firm, to iteratively design and build a clinical prototype neonatal interface and a user interface and test it in post- delivery neonates. We will produce and test the clinical prototype (Fig. 1 in Innovation section) by progressing through the following specific aims: Specific Aim 1. To develop a clinical prototype patient interface for our noninvasive optoacoustic monitor that will accurately determine SSSSO2 in neonates. Specific Aim 2. To develop a clinical user interface for our noninvasive optoacoustic monitor that will facilitate rapid assessment of SSSSO2 in neonates intermittently or continuously in the Neonatal Intensive Care Unit. Specific Aim 3. Preliminarily establish in vivo in neonates the range of SSSSO2 to be expected in infants of varying body weight (10-12 LBW neonates and 10-12 VLBW neonates).
Public Health Relevance Statement: Public Health Relevance: Development of an accurate monitor of the adequacy of brain blood flow in very premature infants could permit prompt treatment when brain blood flow was inadequate and could improve long-term brain function. To address the urgent clinical need for an effective bedside monitor of cerebral circulatory adequacy in premature neonates, our start-up company, Noninvasix, recently demonstrated in premature infants that optoacoustic technology permits easy, accurate, direct noninvasive measurement of cerebral venous blood oxygen saturation in the superior sagittal sinus through the open anterior fontanelle. In this Phase I proposal, Noninvasix will collaborate with the University of Texas Medical Branch and Cooper Consulting Services, an engineering design firm, to iteratively design and build a clinical prototype neonatal interface and a user interface and test them in post-delivery neonates.
Project Terms: Acceleration; Address; Adult; Affect; Anterior; base; Biomedical Engineering; Blood; Blood flow; Blood specimen; Body Weight; bone; Brain; Businesses; Calibration; Cardiopulmonary Bypass; Cephalic; Cerebral Ischemia; Cerebrovascular Circulation; Cerebrum; Characteristics; Clinical; Clinical Nurse Specialists; Clinical Research; Cognitive; commercialization; Consult; Department of Defense; design; Development; Devices; disability; Doppler Ultrasound; Emerging Technologies; Encephalopathies; engineering design; Etiology; experience; Faculty; Free Radicals; Funding; Goals; Gold; Image; Impaired cognition; improved; in vivo; Infant; Infant Mortality; Inflammation; innovation; Intervention; Ischemia; Laboratories; Legal patent; Licensing; Low Birth Weight Infant; Magnetic Resonance; Magnetic Resonance Imaging; mature animal; Measurement; Measures; Medical; meetings; Methodology; Monitor; Motor; multidisciplinary; Near-Infrared Spectroscopy; Neonatal; Neonatal Intensive Care Units; neonate; neurobehavioral; Newborn Infant; Normal Range; Optics; Oxygen; Patients; Perfusion; Phase; Physiological; Play; Positron-Emission Tomography; postnatal; premature; Premature Infant; Probability; Process; prognostic; programs; prototype; public health relevance; Research Personnel; response; Risk; Role; Services; Severities; Structure of fontanel of skull; Superior sagittal sinus; System; Techniques; Technology; Testing; Texas; Thick; Traumatic Brain Injury; United States National Institutes of Health; Universities; Venous; Very Low Birth Weight Infant; X-Ray Computed Tomography