JPWO2020224998A5 - - Google Patents

Claims (15)

A CPR device for enhancing delivery of cardiopulmonary resuscitation (CPR) to a patient, comprising:
a patient side for engaging the patient's chest;
a user side for engaging a user's hand to administer CPR to the patient;
from forces applied to the CPR device by the user on one or more of the patient-facing surface and the user-facing surface, from forces transmitted through the CPR device to the patient; formed at least partially from a material having variable contact properties that are controlled to adjust a lateral force distribution profile on the one or more of the patient-side surface and the user-side surface; There is a CPR device. of the material to provide a target lateral force distribution profile at the one or more of the patient-side surface and the user-side surface from forces applied to the CPR device by the user; 11. The CPR device of Claim 1, comprising a controller that controls the variable contact characteristics. 3. The CPR device of claim 2 , wherein the variable contact properties are one or more of friction and adhesion. the CPR device comprises a force sensor that acquires force sensor data of a force applied to the CPR device;
4. The CPR device of claim 2 or 3, wherein the controller determines the target lateral force distribution profile according to the force sensor data. the CPR device is communicatively coupled to a patient sensor that collects patient sensor data related to the patient's condition;
the CPR device receives the patient sensor data from the patient sensor;
5. The CPR device of any one of claims 2-4, wherein the controller determines the target lateral force distribution profile according to the patient sensor data. the CPR device is communicatively coupled to a user sensor that collects user sensor data related to the user's condition;
the CPR device receives the user sensor data from the user sensor;
6. The CPR device of any one of claims 2-5, wherein the controller determines the target lateral force distribution profile according to the user sensor data. the CPR device is communicatively coupled with a memory;
the CPR device obtains information about the patient from the memory;
7. The CPR device of any one of claims 2-6, wherein the controller determines the target lateral force distribution profile according to the information about the patient. the CPR device is communicatively coupled with a memory;
the CPR device obtains information about the user from the memory;
8. The CPR device of any one of claims 2-7, wherein the controller determines the target lateral force distribution profile according to the information about the user. the one or more surfaces of the patient-side surface and the user-side surface formed from a material having the variable contact properties are separated into a plurality of material sections;
the controller controls the variable contact properties of the material of one material section of the plurality of material sections independently of one or more of the other material sections of the plurality of material sections; 9. A CPR device according to any one of claims 2-8. The controller is
electron adsorption,
10. The CPR device of any one of claims 2-9, wherein one or more of: ultrasound and surface design are used to control the variable contact properties of the material. the one or more surfaces of the patient-side surface and the user-side surface formed from a material having the variable contact properties are separated into a plurality of material sections;
11. A material according to any one of claims 2 to 10, wherein the material of one material section of the plurality of material sections is different from the material of one or more of the other material sections of said plurality of material sections. A CPR device as described. the CPR device is communicatively coupled with a camera that acquires image data of the CPR device positioned on the chest of the patient;
the CPR device receives the image data from the camera;
12. Any of claims 2-11, wherein the controller determines the position of the CPR device relative to the chest of the patient and determines the target lateral force distribution profile according to the position of the CPR device relative to the chest of the patient. A CPR device according to any one of the clauses. a plurality of pressure sensors positioned on the patient side of the CPR device, each pressure sensor acquiring pressure sensor data of pressure applied to the CPR device;
The controller determines a position of the CPR device relative to the patient's chest using the acquired pressure sensor data, and determines the target lateral force distribution profile according to the position of the CPR device relative to the patient's chest. 13. The CPR device of any one of claims 2-12, wherein the CPR device determines the 1. A method of controlling a CPR device for enhancing delivery of cardiopulmonary resuscitation (CPR) to a patient, said CPR device comprising a patient side for engaging said patient's chest and delivering CPR to said patient. and a user side for engaging a user's hand to hold the CPR device, wherein one or more of the patient side surface and the user side surface is a force applied to the CPR device by the user. , to adjust a lateral distribution profile at the one or more of the patient-side surface and the user-side surface from forces transmitted to the patient through the CPR device. at least partially formed from a material having variable contact properties, the control method comprising:
The following data types, i.e.
force data of force applied to the CPR device;
patient sensor data related to the patient's condition;
user sensor data related to the state of the user;
information about the patient;
information about said user;
acquiring one or more of image data of the CPR device positioned on the chest of the patient; and pressure sensor data of pressure applied to the CPR device;
The variable of the material to provide a target lateral force distribution profile at the one or more surfaces from forces applied to the CPR device by the user according to one or more of the data types being acquired. and controlling contact characteristics. A computer program for executing a method of controlling a CPR device for enhancing the delivery of cardiopulmonary resuscitation (CPR) to a patient when executed on a computing device, the CPR device comprising: one or more of the patient-side surface and the user-side surface, comprising a patient side for engaging a chest and a user side for engaging a hand of a user applying CPR to the patient. of the patient-side surface and the user-side surface from forces applied to the CPR device by the user and transmitted to the patient through the CPR device formed at least partially from a material having variable contact properties that are controlled to adjust the lateral distribution profile on one or more surfaces, said control method comprising:
The following data types, i.e.
force data of force applied to the CPR device;
patient sensor data related to the patient's condition;
user sensor data related to the state of the user;
information about the patient;
information about said user;
acquiring one or more of image data of the CPR device positioned on the chest of the patient; and pressure sensor data of pressure applied to the CPR device;
controlling the variable contact properties of the material to provide a target lateral force distribution profile at the surface from forces applied to the CPR device by the user according to one or more of the data types being acquired; A computer program, comprising the steps of: