Patent ID: 11899086
Assignee: CANON MEDICAL SYSTEMS CORPORATION
Field: Measurement (Instruments)
Classification: CPC G | IPC G

Claim 0:
1. A magnetic resonance imaging apparatus, comprising:
sequence controlling circuitry configured to execute (i) a first pulse sequence in which a spatially selective inversion recovery (IR) pulse and a spatially non-selective IR pulse are applied, and subsequently a Cartesian acquisition is performed when a first Inversion Time (TI) period has elapsed, and a radial acquisition is performed after the Cartesian acquisition, and (ii) a second pulse sequence in which the spatially non-selective IR pulse is applied without applying the spatially selective IR pulse, and subsequently a Cartesian acquisition is performed when the first TI period has elapsed, and a radial acquisition is performed after the Cartesian acquisition, while varying the first TI period, with respect to a plurality of first TI periods; and
processing circuitry configured to calculate a second TI period to be used in a third pulse sequence and a fourth pulse sequence, based on data obtained from the first pulse sequence and the second pulse sequence executed by the sequence controlling circuitry, wherein
the sequence controlling circuitry is further configured to execute (iii) the third pulse sequence in which the spatially selective IR pulse and the spatially non-selective IR pulse are applied, and subsequently a Cartesian acquisition is performed when the second TI period has elapsed, and a radial acquisition is performed after the Cartesian acquisition, and (iv) the fourth pulse sequence in which the spatially non-selective IR pulse is applied without applying the spatially selective IR pulse, and subsequently a Cartesian acquisition is performed when the second TI period has elapsed, and a radial acquisition is performed after the Cartesian acquisition,
the processing circuitry is further configured to generate a magnetic resonance image of an imaged region based on data obtained from the third pulse sequence and the fourth pulse sequence,
wherein, as an index, the processing circuitry is further configured to calculate, with respect to the imaged region, at least one selected from among: a peak signal value, a peak flow time, an arterial transit time, and a blood flow volume, based on the data obtained from the third pulse sequence and the fourth pulse sequence,
the imaged region is a region in a brain, and
the processing circuitry is further configured to predict an abnormality in a perforator branch based on the index.