Abstract: A bimodal three-dimensional mammary gland imaging quality detecting phantom and method, which includes: a three-dimensional breast appearance phantom structure made of agarose gel containing polyethylene, which is a radiation equivalent material of adipose tissues under X-rays, the relaxation time of hydrogen protons in the agarose gel under a 3T magnetic field is equivalent to that of human adipose tissues, and mammary gland tissue duct phantoms and phantoms of lobules of mammary gland are distributed in the breast appearance phantom structure. The phantom can be used for the image quality detection and analysis of mammary gland imaging by the systems of magnetic resonance and mammography, the material is elastic and can be compressed on a mammography platform for imaging, and the phantom can also be vertically placed in the magnetic resonance mammary gland coil for tomography, so two imaging modes of one phantom are achieved, and the application range is expanded.

Abstract: A bimodal three-dimensional mammary gland imaging quality detecting phantom and method, which includes: a three-dimensional breast appearance phantom structure made of agarose gel containing polyethylene, which is a radiation equivalent material of adipose tissues under X-rays, the relaxation time of hydrogen protons in the agarose gel under a 3T magnetic field is equivalent to that of human adipose tissues, and mammary gland tissue duct phantoms and phantoms of lobules of mammary gland are distributed in the breast appearance phantom structure. The phantom can be used for the image quality detection and analysis of mammary gland imaging by the systems of magnetic resonance and mammography, the material is elastic and can be compressed on a mammography platform for imaging, and the phantom can also be vertically placed in the magnetic resonance mammary gland coil for tomography, so two imaging modes of one phantom are achieved, and the application range is expanded.

Abstract: Disclosed is a functional magnetic resonance imaging quality detection phantom and method. The phantom includes two independent shells which are movably connected with each other, wherein a BOLD simulation signal module is arranged in the first shell, and a basic imaging detection module is arranged in the second shell; the BOLD simulation signal module includes a locating accuracy test component and a BOLD signal simulation component, the locating accuracy test component includes two locating blocks placed in a crossing manner, a wedge-shaped passage composed of isosceles right triangle blocks is arranged on the locating blocks, and the BOLD signal simulation component includes an artificial brain for functional magnetic resonance imaging; and the present invention can simulate human body BOLD signal changes and simulate a brain activation area in a magnetic resonance system, and is for the test analysis and researches on the accuracy, reliability and repeatability of brain function imaging.

Abstract: A magnetic resonance quality control method, server and system, wherein the method includes: receiving a quality control report set sent by a test terminal, which carries a detection identifier of a to-be-detected magnetic resonance imager and a target parameter; determining a reference parameter according to the detection identifier; obtaining a device quality report by comparing the reference parameter with the target parameter; and sending the device quality report to a corresponding test terminal according to corresponding relationship. The server provides an evaluation report of the imager to the client by analyzing the quality control reports of a large number of magnetic resonance imagers, the performance of the imager can be comprehensively and accurately evaluated, and it is beneficial for the client to understand the performance of the device more accurately and to quickly locate a fault of the imager and perform maintenance.

Abstract: Disclosed is a functional magnetic resonance imaging quality detection phantom and method. The phantom includes two independent shells which are movably connected with each other, wherein a BOLD simulation signal module is arranged in the first shell, and a basic imaging detection module is arranged in the second shell; the BOLD simulation signal module includes a locating accuracy test component and a BOLD signal simulation component, the locating accuracy test component includes two locating blocks placed in a crossing manner, a wedge-shaped passage composed of isosceles right triangle blocks is arranged on the locating blocks, and the BOLD signal simulation component includes an artificial brain for functional magnetic resonance imaging; and the present invention can simulate human body BOLD signal changes and simulate a brain activation area in a magnetic resonance system, and is for the test analysis and researches on the accuracy, reliability and repeatability of brain function imaging.