CPR training system and method

US 9,805,623 B1
Filed: 04/08/2016
Issued: 10/31/2017
Est. Priority Date: 04/08/2016
Status: Active Grant

First Claim

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1. A method for a CPR training, the method comprising:

providing a manikin comprising a frame and a removable skin fitted over the frame corresponding to a rib cage of a human body;

providing a compression pad comprising a housing, at least one force sensor, at least one acceleration sensor housed within the housing, the at least one force sensor configured to detect force applied thereto, the at least one acceleration sensor configured to detect acceleration applied thereto;

lifting or removing at least a portion of the removable skin to expose at least part of the frame;

subsequently placing the compression pad over the frame;

subsequently fitting the removable skin over the frame such that the compression pad is located in a chest region of the manikin and interposed between the frame and the removable skin;

performing initializing compressions onto the chest region, wherein each initializing compression applies an initializing force and an initializing acceleration to the compression pad, wherein the at least one force sensor detects initializing forces applied during the initializing compressions and generates initializing force signals in response to the initializing compressions, wherein the at least one acceleration sensor detects initializing accelerations applied during the initializing compressions and generates initializing acceleration signals in response to the initializing compressions;

processing the initializing acceleration signals to generate initializing displacement signals representing initializing displacements of the compression pad during the initializing compressions;

processing the initializing force signals and the initializing displacement signals to provide a displacement-force correlation between the initializing displacements and the initializing forces;

subsequently, performing a CPR training session that comprises training compressions onto the chest region, wherein the at least one force sensor detects a training force applied to the compression pad in response to each training compression and generates a training force signal corresponding to the training force; and

computing a training displacement using the training force signal and the displacement-force correlation between the initializing displacements and the initializing forces, wherein the training displacement is not computed based on a training acceleration applied to the compression pad during the training compressions.

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Abstract

A training system and training method for cardiopulmonary resuscitation (CPR) is disclosed. The training system includes a manikin, a chest compression module, a breathing module and a data processing module. The chest compression module and the breathing module are installed on the manikin and connected to the data processing module. During a training session, a student performs CPR on the manikin. The data processing module evaluates and provides feedback regarding the chest compressions and the rescue breathings performed by the student. The training method includes positioning the chest compression module and the breathing module on the manikin, initializing the chest compression module and the breathing module to identify compression and breathing characteristics of the manikin, performing CPR on the manikin, and evaluating the CPR based on the compression and breathing characteristics of the manikin.

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12 Claims

1. A method for a CPR training, the method comprising:
- providing a manikin comprising a frame and a removable skin fitted over the frame corresponding to a rib cage of a human body;
  
  providing a compression pad comprising a housing, at least one force sensor, at least one acceleration sensor housed within the housing, the at least one force sensor configured to detect force applied thereto, the at least one acceleration sensor configured to detect acceleration applied thereto;
  
  lifting or removing at least a portion of the removable skin to expose at least part of the frame;
  
  subsequently placing the compression pad over the frame;
  
  subsequently fitting the removable skin over the frame such that the compression pad is located in a chest region of the manikin and interposed between the frame and the removable skin;
  
  performing initializing compressions onto the chest region, wherein each initializing compression applies an initializing force and an initializing acceleration to the compression pad, wherein the at least one force sensor detects initializing forces applied during the initializing compressions and generates initializing force signals in response to the initializing compressions, wherein the at least one acceleration sensor detects initializing accelerations applied during the initializing compressions and generates initializing acceleration signals in response to the initializing compressions;
  
  processing the initializing acceleration signals to generate initializing displacement signals representing initializing displacements of the compression pad during the initializing compressions;
  
  processing the initializing force signals and the initializing displacement signals to provide a displacement-force correlation between the initializing displacements and the initializing forces;
  
  subsequently, performing a CPR training session that comprises training compressions onto the chest region, wherein the at least one force sensor detects a training force applied to the compression pad in response to each training compression and generates a training force signal corresponding to the training force; and
  
  computing a training displacement using the training force signal and the displacement-force correlation between the initializing displacements and the initializing forces, wherein the training displacement is not computed based on a training acceleration applied to the compression pad during the training compressions.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. The method of claim 1, wherein the at least one force sensor comprises a first force sensor and a second force sensor that are apart from each other within the housing, wherein the first and second force sensors are configured to generate their own force signals which are processed to provide the initializing force signals of the at least one force sensor and the training force signal of the at least one force sensor, wherein the compression pad comprises a first pressing plate and a first support plate between which the first force sensor is sandwiched, wherein the first pressing plate comprises a raised portion raised toward the first force sensor and configured to contact the first force sensor in response to an external pressure applied to the compression pad.
  - 3. The method of claim 1, wherein the compression pad further comprises:
    - a printed circuit board (PCB) enclosed within the housing;
      
      a plurality of contact patches provided on an inner surface of the housing, wherein the plurality of contact patches are made of an electrically conductive material and are not electrically connected to each other; and
      
      a contact pattern formed on the PCB, wherein the contact pattern comprises two or more electrically separate conductive lines in close proximity with each other and exposed toward at least part of the plurality of contact patches,wherein each contact patch faces two or more conductive lines of the contact pattern,wherein the compression pad is configured to generate a contact signal when one of the plurality of contact patches contacts the two or more conductive lines of the contact pattern in response to an external pressure applied onto the housing.
  - 4. The method of claim 1, further comprising:
    - presenting the computed training displacement to a user who is performing the CPR training session in real time.
  - 5. The method of claim 1, further comprising:
    - comparing the computed training displacement against a predetermined value to determine whether each compression of the CPR training session satisfies a compression depth requirement;
      
      presenting a result of the comparison in real time.
  - 6. The method of claim 1, further comprising:
    - providing a lung bag and an air pressure sensor connected to the lung bag and configured to detect air pressure within the lung bag;
      
      connecting the lung bag with a breathing cavity of the manikin such that the breathing cavity of the manikin and the lung bag are in fluid communication therebetween;
      
      placing the lung bag over the compression pad after placing the compression pad over the manikin'"'"'s frame;
      
      blowing a volume of air into the lung bag via the breathing cavity of the manikin, wherein the air pressure sensor detects air pressure within the lung bag during the blowing and generates an initializing air pressure signal in response to the blowing;
      
      processing the initializing air pressure signal and the volume to provide a volume-pressure correlation between the volume and the air pressure within the lung bag during the blowing;
      
      subsequently, performing the CPR training session that further comprises at least one training breathing via the breathing cavity, which blows air into the lung bag, wherein the air pressure sensor detects a training air pressure within the lung bag during the at least one training breathing and generates at least one training air pressure signal in response to the at least one training breathing; and
      
      computing a volume of air blown into the lung bag during the at least one training breathing using the at least one training air pressure signal and the volume-pressure correlation between volume and air pressure.
  - 7. The method of claim 6, wherein the CPR training session comprises the training compressions and the at least one training breathing, wherein the method further comprises:
    - when the training force detected by the at least one force sensor is greater than a predetermined compression threshold, confirming performance of a training compression; and
      
      when the training air pressure detected by the air pressure sensor is greater than a predetermined breathing threshold, confirming performance of a training breathing.
  - 8. The method of claim 7, wherein the CPR training session involves a first instance in which the air pressure sensor detects a first air pressure greater than the predetermined breathing threshold in response to performing the training compressions even if no breathing is performed during the training compressions.
  - 9. The method of claim 8, wherein the CPR training session involves a second instance in which the at least one force sensor detects a second force greater than the predetermined compression threshold in response to performing the at least one training breathing even if no compression is performed during the at least one training breathing.
  - 10. The method of claim 9, wherein upon confirming performance of a training compression, if the first instance follows, the method determines that a training compression has been performed regardless of the first air pressure greater than the predetermined breathing threshold.
  - 11. The method of claim 9, wherein upon confirming performance of a training breathing, if the second instance follows, the method determines that a training breathing has been performed regardless the second force greater than the predetermined compression threshold.
  - 12. The method of claim 6, wherein the lung bag is placed over the compression pad after placing the compression pad over the manikin'"'"'s frame and before fitting the removable skin over the frame, wherein the method does not detect the volume of air blown into the lung bag during the at least one training breathing.

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Current Assignee
I.M.LAB Inc. .
Original Assignee
I.M.LAB Inc. .
Inventors
Kwon, Ye Ram, Park, Shin Hoo, Lee, Sung Won, Lee, Hyeong Mook
Primary Examiner(s)
Thai, Xuan
Assistant Examiner(s)
Bullington, Robert P

Application Number

US15/094,921
Publication Number

US 20170294144A1
Time in Patent Office

571 Days
Field of Search

434265
US Class Current
CPC Class Codes

G01L 1/16   using properties of piezoel...

G01L 1/18   using properties of piezo-r...

G01L 5/00   Apparatus for, or methods o...

G01P 15/08   with conversion into electr...

G09B 23/288   for artificial respiration ...

G09B 23/32   with moving parts

G09B 5/00   Electrically-operated educa...

CPR training system and method

First Claim

1 Assignment

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Abstract

80 Citations

12 Claims

Specification

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CPR training system and method

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

80 Citations

12 Claims

Specification

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Solutions

Use Cases

Quick Links