Unity inova 300 system

Manufactured by Agilent Technologies

Sourced in United Kingdom

The Unity-INOVA-300 system is a nuclear magnetic resonance (NMR) spectrometer designed for analytical and research applications. It provides high-resolution NMR capabilities for the characterization and identification of chemical compounds. The system features a 300 MHz superconducting magnet and advanced electronics to enable precise signal acquisition and data processing.

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4 protocols using unity inova 300 system

High-Resolution 7T MRI Brain Imaging

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MRI experiments were performed on a 15 cm bore 7 T horizontal magnet (Magnex Scientific, Abingdon, UK) with a Varian Unity-INOVA-300 system (Varian Inc., Palo Alto, CA, USA) equipped with an actively shielded gradient. A custom made one turn surface coil, 20 mm of outer diameter, was used for RF transmission. Adiabatic double-spin echo-prepared rapid acquisition with refocused echoes (RARE) was utilized with the following parameter settings: single slice (2 mm thick), 128 × 128 matrix image of 20 × 20 mm field of view for every 8 seconds, TR of 2000 milliseconds, Echo Train of 32, TE for first echo of 8.8 milliseconds, echo spacing of 5 milliseconds, and effective TE of 84.8 milliseconds. Imaging slabs were set 6 mm caudal from the top of the cerebrum. A total of 525 phases (scan time 70 minutes) were obtained at 8-second intervals.

Igarashi H., Suzuki Y., Kwee I.L, & Nakada T. (2014). Water influx into cerebrospinal fluid is significantly reduced in senile plaque bearing transgenic mice, supporting beta-amyloid clearance hypothesis of Alzheimer’s disease. Neurological Research, 36(12), 1094-1098.

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High-Resolution 7T MRI Brain Imaging

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MRI experiments were performed on a 15-cm bore 7-T horizontal magnet (Magnex Scientific, Abingdon, UK) with a Varian Unity-INOVA-300 system (Varian Inc., Palo Alto, California, USA) equipped with an actively shielded gradient. A custom made one turn surface coil, 20 mm outer diameter, was used for RF transmission. Adiabatic double spin-echo prepared rapid acquisition with refocused echoes was utilized with the following parameter settings: single slice (2 mm thick), 128×128 matrix image of 20×20 mm field of view, TR 2000 ms, Echo Train 32, TE for first echo 8.8 ms, echo spacing 5 ms, effective TE 84.8 ms (Fig. 2). Imaging slabs were set 6 mm caudal from the top of the cerebrum (Fig. 3). A total of 525 phases (scan time 70 min) were obtained at 8-s intervals.

Igarashi H., Tsujita M., Kwee I.L, & Nakada T. (2014). Water influx into cerebrospinal fluid is primarily controlled by aquaporin-4, not by aquaporin-1: 17O JJVCPE MRI study in knockout mice. Neuroreport, 25(1), 39-43.

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7T MRI with 17O-PiB Perfusion

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MRI experiments were performed on a 15-cm bore 7 Tesla horizontal magnet (Magnex Scientific, Abingdon, U.K.) with a Varian Unity-INOVA-300 system (Varian Inc, Palo Alto, CA, USA) equipped with an actively shielded gradient. A custom made one turn surface coil with 20 mm of outer diameter was used for RF transmission. Fast Spin Echo was utilized with the following parameter settings: 1 mm thickness, 256 × 256 matrix image of 16 × 16 mm field, TR 2812 ms, Echo Train 16, Echo Spacing 11 ms, effective TE 88 ms. A total of six scans were obtained at 30 minutes intervals. 100 mg/kg of ¹⁷O-PiB was administrated via venous catheter over 30 minutes starting at the second scan.

Suzuki K., Igarashi H., Huber V.J., Kitaura H., Kwee I.L, & Nakada T. (2014). Ligand-Based Molecular MRI: O-17 JJVCPE Amyloid Imaging in Transgenic Mice. Journal of Neuroimaging, 24(6), 595-598.

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High-Resolution 7T MRI Cerebrum Imaging

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MRI experiments were conducted on a 15-cm bore 7 T horizontal magnet (Magnex Scientific, Abingdon, UK) using a Varian Unity-INOVA-300 system (Varian Inc., Palo Alto, California, USA) equipped with an actively shielded gradient. A custom-made one turn surface coil, 20 mm outer diameter, was used for RF transmission. Adiabatic double-spin echo-prepared rapid acquisition with refocused echoes was utilized at the following parameter settings: single slice (2 mm thick), 128×128 matrix image of 20×20 mm, field of view every 8 s, TR 2000 ms, echo train 32, TE for the first echo 8.8 ms, echo spacing 5 ms, and effective TE 84.8 ms. Imaging slabs were set 6 mm caudal from the top of the cerebrum. A total of 525 phases (scan time 70 min) were obtained at 8 s intervals.

Huber V.J., Igarashi H., Ueki S., Kwee I.L, & Nakada T. (2018). Aquaporin-4 facilitator TGN-073 promotes interstitial fluid circulation within the blood–brain barrier: [17O]H2O JJVCPE MRI study. Neuroreport, 29(9), 697-703.

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