EXERCISE SUPPORT APPARATUS, EXERCISE SUPPORT METHOD, EXERCISE SUPPORT SYSTEM, AND STORAGE MEDIUM

    公开(公告)号:US20240082637A1

    公开(公告)日:2024-03-14

    申请号:US18273767

    申请日:2021-12-13

    CPC classification number: A63B24/0006 A63B24/0062 A63B24/0075 A63B2024/0065

    Abstract: An exercise support apparatus includes an information processing unit that supports a setting of a next exercise menu for improvement to a targeted body, based on prior body motion information on a subject detected by a motion sensor. The information processing unit includes an image display processing unit that outputs distribution information on an amount of activity and a number of steps of at least one category obtained by classifying activity intensity that has been obtained from a target people group in advance, for each of the selected category, stored in a storage unit, and selected in advance, to a display unit, an activity amount processing unit that calculates the amount of activity and the number of steps for a same category as a selected category, based on body motion information on the subject, and that stores a calculation result in a measurement data storage unit, and an image display processing unit that outputs the amount of activity and the number of steps that have been calculated by the activity amount processing unit, to the display unit.

    WALL THICKNESS ESTIMATION METHOD, RECORDING MEDIUM, WALL THICKNESS ESTIMATION DEVICE, AND WALL THICKNESS ESTIMATION SYSTEM

    公开(公告)号:US20240081767A1

    公开(公告)日:2024-03-14

    申请号:US18271977

    申请日:2022-02-18

    Inventor: Yoshie SUGIYAMA

    CPC classification number: A61B6/5217 A61B6/504 A61B5/055

    Abstract: A wall thickness estimation method includes: obtaining behavioral information based on a video in which an organ wall or a blood vessel wall is captured using four-dimensional angiography, the behavioral information being numerical information about changes over time in a position of each of a plurality of predetermined points in the organ wall or the blood vessel wall; generating, based on the behavioral information obtained in the obtaining, estimation information that visualizes a strain of each of the plurality of predetermined points for estimating a thickness of the organ wall or a thickness of the blood vessel wall; and outputting the estimation information generated in the generating.

    METHOD FOR CHARACTERIZING MOLECULE DELIVERY PARTICLES

    公开(公告)号:US20240060878A1

    公开(公告)日:2024-02-22

    申请号:US18287336

    申请日:2022-03-24

    CPC classification number: G01N21/33 G16B40/10

    Abstract: An objection is to provide a method for characterizing a molecule delivery particle, the method comprising determining a molar concentration thereof.
    The method for characterizing a molecule delivery particle, the method comprising subjecting a molecule delivery particle comprising a first particle and a second particle to particle separation with optical measurement to determine an increment in refractive index of each of the first particle and the second particle; and determining a molar concentration of each of the first particle and the second particle based on the increment in refractive index, a molecular weight, and a specific refractive index increment of each of the first particle and the second particle.

    Pharmaceuticals That Promote Functional Regeneration of Damaged Tissues

    公开(公告)号:US20240050460A1

    公开(公告)日:2024-02-15

    申请号:US18152249

    申请日:2023-01-10

    Abstract: The present inventors revealed the following for the first time in the world:



    1) a large amount of bone marrow-derived cells are mobilized to grafted skin;
    2) the mobilized bone marrow-derived cells are differentiated into any of dermal fibroblasts, adipocytes, muscle cells, vascular endothelial cells, and epidermal keratinocytes in the grafted skin, and the mobilized bone marrow-derived cells include bone marrow-derived mesenchymal stem cells;
    3) the factors which mobilize bone marrow-derived mesenchymal stem cells from peripheral blood to the grafted skin are HMGB1, HMGB2, and HMGB3 released from the necrosed tissue of recipient skin;
    4) purified HMGB1, HMGB2, and HMGB3 promote the migration of mesenchymal stem cells isolated and cultured from bone marrow;
    5) activators containing HMGB1 which allows the migration of bone marrow mesenchymal stem cells can be conveniently purified from several organ extracts including skin, brain, and heart;
    6) activators which allow the migration of bone marrow mesenchymal stem cells can be conveniently extracted from cultured cells; and
    7) a heparin-column purified fraction of skin extract mobilizes a large amount of bone marrow-derived cells in case of brain injury.

    Vibration component measurement device, Kelvin probe force microscope, and vibration component measurement method

    公开(公告)号:US11835548B2

    公开(公告)日:2023-12-05

    申请号:US17911572

    申请日:2021-03-25

    CPC classification number: G01Q60/30 G01Q30/20 G01Q60/32

    Abstract: In order to increase the order of a frequency of an AC signal to be applied between a vibration section and a sample to an order at substantially the same level as the order of a vibration frequency of the vibration section in measuring a vibration component of the vibration control section, a vibration component measuring device (2) includes: a vibration section (4); a first AC signal generator (20) configured to generate a first AC signal; a second AC signal generator (44) configured to generate a second AC signal having a frequency which is (a) more than one time and less than two times or (b) more than two times and less than three times as high as a frequency of the first AC signal; a signal applying section (14, 56) configured to apply the second AC signal between the vibration section and a sample (X); a vibration control section (10) configured to cause the vibration section to vibrate; and a measuring section (16, 18, 20, 22, 42, 44, 50) configured to measure a varying component of vibration of the vibration section, the varying component being varied by an interaction between the vibration section and the sample.

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