The objective of the project is to identify clinical factors (nutritional and non-nutritional) which are associated with ultrasound measurements of muscle and adipose tissue and to determine whether these ultrasound measurements are predictive of later metabolic and neurodevelopmental outcomes in premature infants, a population at risk for developmental delay, obesity, and metabolic disease. The investigators expect that a better understanding of these relationships will lead to the incorporation of ultrasound into routine nutritional management of preterm infants and allow for future optimization of their overall health and development.
The specific aims are as follows: 1. To identify clinical factors that are associated with muscle and adipose tissue measurements. The investigators will examine the relationship between clinical factors such as calorie and protein intake during hospitalization, days on parenteral nutrition, C-Reactive Protein and other clinical surrogates for inflammation and both muscle and adipose tissue measured bi-weekly using bedside ultrasound. The investigators will collect anthropometric and ultrasound measurements bi-weekly and whole body composition (utilizing ADP) data at 35 weeks postmenstrual age (PMA)/discharge from the Neonatal Intensive Care Unit. All other clinical data will be collected throughout the hospital stay. 2. To determine whether muscle thickness and cross-sectional area are predictive of improved neurodevelopmental outcomes. The investigators will assess the relationship between ultrasound measurements of muscle with neurodevelopmental outcomes at 35 weeks PMA/discharge and 4 months corrected age. The investigators will utilize Event Related Potentials (ERP) to measure speed of processing and recognition memory as early markers of brain development. 3. To determine whether measurements of adipose tissue are predictive of later adverse metabolic outcomes. The investigators will assess the relationship between adipose tissue thickness and blood pressure and total body adiposity (using air-displacement plethysmography) at 35 weeks PMA/discharge and 4 months corrected age.
Study Type
OBSERVATIONAL
Enrollment
37
University of Minnesota
Minneapolis, Minnesota, United States
Blood pressure at 35 weeks
blood pressure (systolic and diastolic)
Time frame: 35 weeks corrected age
Blood pressure at 4 mo
blood pressure (systolic and diastolic)
Time frame: 4 months corrected age
Weight data inpatient
weight in kg
Time frame: 35 weeks corrected age
Length data inpatient
length in cm
Time frame: 35 weeks corrected age
Weight data outpatient
weight in kg
Time frame: 4 months corrected age
Length data outpatient
length in cm
Time frame: 4 months corrected age
Fat mass inpatient
fat mass (kg)
Time frame: 35 weeks corrected age
Fat-free mass inpatient
fat-free mass (kg)
Time frame: 35 weeks corrected age
Percent body fat inpatient
percent body fat (kg/kg)
Time frame: 4 months corrected age
Fat mass outpatient
fat mass (kg)
Time frame: 4 months corrected age
Fat-free mass outpatient
fat-free mass (kg)
Time frame: 4 months corrected age
Percent body fat outpatient
percent body fat (kg/kg)
Time frame: 4 months corrected age
Ultrasound adipose measures inpatient
adipose tissue (cm)
Time frame: 35 weeks corrected age
Ultrasound muscle measures inpatient
muscle thickness (cm)
Time frame: 35 weeks corrected age
Ultrasound adipose measures outpatient
adipose tissue (cm)
Time frame: 4 months corrected age
Ultrasound muscle measures outpatient
muscle measurements (cm)
Time frame: 4 months corrected age
ERP data inpatient
ERP paradigm
Time frame: 35 weeks corrected age
ERP data outpatient
ERP paradigms
Time frame: 4 months corrected age
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.