The Use of Master Caution Garment for Continuous Monitoring for Arrhythmia Detection

Part A - ECG in Rest

1. In the beginning of the study, the following parameters will be measured and documented in the CRF: blood pressure, body temperature, respiratory rate and oxygen saturation in the blood.

2. The patient will be dressed with the Master Caution Garment and connected to a 12 lead ECG device. The procedure takes 5 minutes including data printing.

3. A twelve lead ECG with gel electrodes will be done and data printed. The procedure takes 5 minutes. The patient will stay connected to the monitor for the following hour.

4. After an hour the data from the gel electrodes will be printed again.

5. The patient will be dressed again with the Master Caution Garment and connected to a 12 lead ECG device. The procedure takes 5 minutes including data printing.

6. The following parameters will be compared between the gel ECG and the Garment ECG:

   • Heart Rate (HR)
   • P wave width and amplitude
   • QRS complex width and amplitude
   • T wave width and amplitude
   • RR interval
   • PR interval
   • QT interval

Part B - ECG in motion

1. In the beginning of the study, the following parameters will be measured : blood pressure, body temperature, respiratory rate and oxygen saturation in the blood.

2. Four (4) gel electrodes will be placed on the patient on the following places - Left Arm (LA), Right Arm (RA), Left Leg (LL) and Right Leg (RL).

3. The patient will be dressed with the Master Caution Garment (MCG)on the 4 gel electrodes that were already placed.

4. The same 4 electrodes in the garment LA, RA, LL and RL will be connected to a standard of care ECG device.

5. The 4 gel electrodes will be connected to a standard of care ECG device.

6. The ECG devices will be recording the ECG signal from the two sets of electrodes for 24 hours.

   Every hour in the first 6 hours the data will be printed from both devices. In every event detected the data will be printed from both devices. the data will be evaluated for quality comparison between the gel and the textile electrodes using the hospital ECG device.

7. In first 6 hours for every hour and for each event detected by either the gel electrodes or the MCG textile electrodes the following parameters shell be evaluated at the end of the study from the hospital ECG printouts for the Master Caution Garment and for the gel electrodes:

   • Heart Rate (HR)
   • P wave width and amplitude
   • QRS complex width and amplitude
   • T wave width and amplitude
   • RR interval
   • PR interval
   • QT interval After first 6 hours for each event detected by either the gel electrodes or the MCG textile electrodes the above mentioned parameters shell be evaluated at the end of the study from the hospital ECG printouts for the Master Caution Garment and for the gel electrodes.

The goal of the current study is to evaluate the safety of the MCG and compare ECG signals from the Master Caution Garment with the ECG signals from gel electrodes.

This is a prospective, comparative study.

For each time interval and each event detected by the ECG devices, the analysis will determine its category as follows:

1. Blinded cardiologist's assessment whether at that time interval the patient suffered from a disorder. This assessment will be based on hospital's recorded data with the gel electrodes.

2. The Master Caution Garment result for that time interval will be categorized as follows:

   • True Positive (TP) = MCG Alert was right (based on GS)
   • False Positive (FP) = MCG Alert was wrong
   • True Negative (TN) = No MCG Alert when indeed alert was not necessary
   • False Negative (FN) = No MCG Alert but there was a disorder case