cardiotextil – mobile textile-based multichannel ecg file2 textile-integrated 9-channel ecg for...
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www.iis.fraunhofer.de/cardiotextil
LZIn cooperation with
CardiotextilMobile textile-baSed MUltiCHaNNel eCG
Fraunhofer Institute for Integrated Circuits IIS
Management of the instituteProf. Dr.-Ing. Albert Heuberger (executive)Dr.-Ing. Bernhard Grill
Am Wolfsmantel 3391058 Erlangen, Germany
ContactChristian HofmannPhone: 09131 776-7340 Fax: 09131 [email protected]
www.iis.fraunhofer.de
F R A U N H O F E R I N S T I T U T E F O R
I N T E g R AT E d C I R C U I T S I I S
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Textile-integrated 9-channel ECg for your health
With its textile-based multichannel ECG, CardioTExTIl can easily
measure electrical cardiac activity on the go. It offers quick and
secure diagnostic support by transferring medical-grade data to a
smartphone via Bluetooth. It also helps to prevent heart disease by
detecting changes in the cardiovascular system at an early stage.
Multichannel ECg diagnostics
With its integrated textile electrodes and plug-in electronics,
CardioTExTIl can record an ECG featuring up to nine channels.
Signals are recorded according to standard medical leads. Raw
data is used to calculate and store heart rate (HR) and heart rate
variability (HRV) parameters. Signal interferences are compensated
by the redundancy of several channels leading to higher quality
of measurement results. Thus, the sensor shirt supports a timely
diagnosis of cardiac arrhythmia, coronary heart disease or heart
attack (STEMI).
All-in-one
CardioTExTIl addresses several use cases, such as rest, stress or
long-term ECG diagnostics. In addition, the electronics features
an activity profile via integrated inertial sensors. Due to wireless
data transfer, the shirt supports continuous monitoring of cardiac
functionality in telemedical application scenarios.
Your benefits
– Comfortable sensor solution for mobile, long-term measure-
ment without adhesive electrodes
– Washable shirt with primary sensors
– Simple to use
– Storage and wireless transfer of measurement data
– Medical grade signal acquisition
– Artifact compensation via redundancies
– Context evaluation of ECG and activity
Broad application field
– Patient monitoring
– Performance analysis
– Stress management
– Sleep analysis
– Platform for research studies in mobile application scenarios
Technical details
– Signal acquisition according to standard medical leads:
Einthoven (I, II, III), Goldberger (aVR, aVl, aVF), Wilson (V1, V3, V5)
– Inertial sensor measures acceleration in 3 axes
– Data transfer via generic Bluetooth technology or Bluetooth Smart
2 Plug-in electronics for evaluation, storage and transfer of
measurement values
3 Textile-integrated sensors of portable multichannel ECGs1 9-channel-ECG recorded by CardioTEXTIL under resting conditions
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