Achieva 3.0 t tx qd mri system

Manufactured by Philips

The Philips Achieva 3.0 T TX QD MRI system is a high-field magnetic resonance imaging (MRI) scanner that operates at a field strength of 3.0 Tesla. It features a quadrature-driven (QD) radio frequency (RF) transmit and receive system.

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Achieva TX (151 citations) Achieva 3.0 TX (44 citations) Achieva MRI system (43 citations) Achieva 3.0-T system (19 citations) 3.0-T MRI (8 citations) Achieva TX system (8 citations) Philips 3.0 T Achieva (7 citations) Achieva 3.0-T TX MRI system (5 citations) Achieva 3.0 TX system (2 citations) Achieva 3.0 System (2 citations)

2 protocols using achieva 3.0 t tx qd mri system

MRI Tumor Grading Protocol

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An Achieva 3.0 T TX QD MRI system (Philips, Amsterdam, Netherlands) was used to obtain transaxial T1-weighted images (WI) (repetition time/inversion time/echo time [TR/TI/TE] = 2200 ms/950 ms/9.5 ms, field of view [FOV] = 230 × 230 mm, matrix = 512 × 512) and T2-WI (TR/TE = 4000 ms/90 ms, FOV = 230 × 230 mm, matrix = 512 × 512). The slice thickness was 5 mm with a 1-mm slice gap. A 0.2 mL/kg body weight gadolinium-based contrast agent (Gd; Gadoteridol, Eisai, Japan) was intravenously injected. Three neurosurgeons determined the presence or absence of a contrast-enhanced tumor effect for each tumor grade without the patient's clinical and pathological information.

Yano H., Miwa K., Nakayama N., Maruyama T., Ohe N., Ikuta S., Ikegame Y., Yamada T., Takei H., Owashi E., Ohmura K., Yokoyama K., Kumagai M., Muragaki Y., Iwama T, & Shinoda J. (2023). Differentiation of astrocytoma between grades II and III using a combination of methionine positron emission tomography and magnetic resonance spectroscopy. World Neurosurgery: X, 19, 100193.

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3T MRI T1-Weighted Imaging Protocol

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MRI was conducted using a 3-T system (Achieva 3.0T TX QD MRI System; Philips) to obtain transaxial T1-weighted inversion recovery images [repetition time (TR), 2200 ms; echo time (TE), 9.5 ms; number of excitations, 1; inversion recovery delay, 950 ms; field of view (FOV), 23 cm × 23 cm; matrix size, 512 × 510; slice thickness, 5 mm with a 1-mm slice gap].

Usami N., Asano Y., Ikegame Y., Takei H., Yamada Y., Yano H, & Shinoda J. (2023). Cerebral Glucose Metabolism in Patients with Chronic Disorders of Consciousness. The Canadian journal of neurological sciences. Le journal canadien des sciences neurologiques, 50(5).

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