Characterization of the Functional and Structural Development of the Human Neonatal Brain From 30 Wks to 45 Wks ga

102 normal infants with age of 30 gestational weeks to 45 gestational weeks will be recruited in partnership with Division of Perinatal-neonatal Medicine which consists of neonatologists and pediatricians providing services in Parkland Health and Hospital System (PHHS) and Children's Medical Center (CMC) at Dallas. among 102 normal infants, there are 17 subjects at each following subgroup, 30-31 gestational weeks, 32-33 gestational weeks, 34-35 gestational weeks, 36-38 gestational weeks, 39-42 gestational week and 43-45 gestational weeks. once these infants are identified, structural and functional MRi data will be acquired with Philips 3T located at Radiology of CMC. The sequence details are as follows: DTi: a single-shot echo-planar imaging (ePi) sequence with SenSe parallel imaging scheme (SenSitivity encoding, reduction factor [?]2.5) will be used. The imaging matrix will be 112x112 with a field of view of 168x168mm (nominal resolution of 1.5mm), which will be zero filled to 256x256. axial slices of 1.5mm thickness will be acquired parallel to the anterior-posterior commissure line (aC-PC). a total of 65 slices will cover the entire hemisphere and brainstem without gap. The diffusion weighting will be encoded along 30 independent orientations and b value will be 1000s/mm2. imaging time for each sequence will be 5 minutes and 30 seconds. To increase signal noise ratio (SnR), two repetitions will be performed, resulting in DTi imaging time 11 minutes.

T1/T2-weighted imaging: Co-registered T2 weighted image, using a spin echo sequence, will be acquired with the echo time 120ms. Repetition time (TR) will be 4,500ms. The imaging resolution will be same as that of DTi. Co-registered FLaiR (Fluid attenuated inversion Recovery) T1 weighted image will also be acquired with the same field of view as that in diffusion tensor imaging. The T1/T2 weighted imaging time will be 5 minutes.

Resting state fMRi: Time series of 240 volumes of BoLD (Blood-oxygenation-Level-Dependent) images will be acquired with a single-shot gradient-recalled T2* weighted ePi pulse sequence. The details of the sequence are as follows: TR [?] 1500 ms; flip angle [?] 90o; slice thickness[?]2.5mm; matrix [?] 68 x 68; FoV [?] 168 mm x 168 mm; voxel size[?]2.5x2.5x2.5mm.

aSL and TRuST: Pseudo-Continuous aSL (PCaSL) sequence combined with a phase-contrast sequence will be used to obtain voxel level CBF estimation in units of ml blood per 100 g of tissue per min (ml/100g/min). The PCaSL sequence will be: field of view [?] 168x168mm, matrix[?]84x84, slice thickness[?]2mm, 50 axial slices acquired with zero gap, voxel size[?]2x2x2mm, SenSe factor[?]2.5. The phase contrast MRi will be performed with the slice location perpendicular to the four major feeding arteries (left/right internal carotid and vertebral arteries) at the level of cervical spine 3 (C3). Baseline venous oxygenation (Yv) will be determined in the sagittal sinus using a recently developed T2-Relaxation-under-Spin-Tagging (TRuST) MRi technique. The imaging parameters will be: voxel size 3.44x3.44x5mm3, four different T2-weightings with Tes of 0ms, 40ms, 80ms and 160ms, duration 1 minutes and 12 seconds. The imaging slice will be positioned axially to intersect the superior sagittal sinus at the level of approximately 10mm above the sinus congruence.

Single voxel MRS: Single voxel proton MRS with short Te will be acquired. PReSS (Point ReSolved Spectroscopy) will be used.