T-shirt with wearable electrode monitors heart rate sans any electrolyte paste

Tshirt with wearable electrodes monitors heart rate

Fabricated biomedical electrodes that are capable of recording biomedical recordings have been developed by Nippon Telegraph and Telephone Corporation (NTT) which means that now you can monitor your heart rate just by wearing a t-shirt made from the conductive polymer. The material is coated with a conductive polymer PEDOT-PSS that in a way saves you from using other biomedical electrodes with electrolyte paste/gel which can irritate your skin surface, causing skin allergies. As opposed to these techniques for monitoring your heart rate, the revolutionary new clothing allows electrocardiography sans any electrolyte paste. Made from flexible, biocompatible and hydrophilic material allows this bioelectrode to record stable readings in any kind of environment.

Tests conducted on 10 human volunteers who wore these electrode shirts showed a very promising long-term recoding of heartbeat and electrocardiograms. In the tests it was evident that the conductive polymer material can measure ECG data just like any traditional medical electrode that is attached to patient’s body with electrolyte paste.

NTT has plans to improve this technology and after further experimentation on 100 human volunteers there will be even more stern results as to how this wearable bioelectrode can help people in keeping a check on their heart rate and detect any risks of heart disease at a very early stage.

Now, the applications of this new technology can be immense as it can be used in sports, medical diagnosis and health improvement campaigns as this textile electrode is very comfortable to wear and places no extra burden on the wearer’s body. So it would be no surprise to see these t-shirts laden with innovative technology in home or remote medical care centers and even in daily use just to stay astray of any heart problems by detecting them at the initial state itself.


Electrocardiography is achieved simply by wearing a piece of clothing that has textile electrodes combined with conductive polymer by coating fiber with conductive polymers, biomedical signals can be recorded without patient discomfort via a wearable electrode Nippon Telegraph and Telephone Corporation (NTT, CEO: Hiroo Unoura, Tokyo) has developed a conductive fiber by coating the surface of silk or synthetic fiber with conductive polymer (PEDOT-PSS*1) and has used it to fabricate wearable electrodes*2 with which to obtain biomedical recordings.

Conventional biomedical electrodes use an electrolyte paste or gel*3, which results in excessive wetting of the skin surface and occasionally causes skin irritation or contact dermatitis. The new bioelectrode made of conductive fiber without any electrolyte paste is flexible, biocompatible, and hydrophilic and so allows stable recording equivalent to that of a conventional electrode. Experiments on 10 able-bodied human volunteers wearing undershirts equipped with the electrode revealed successful long-term recording of the heartbeat and electrocardiograms*4. This result shows that the heartbeat and electrocardiograms can be monitored continuously simply by wearing the electrode shirts. We can expect the electrode to find various applications in sports, health enhancement, and the support of medical diagnosis, as well as scientific research.


In today’s aging society, the continuous monitoring of the heartbeat and electrocardiograms is expected to reduce the risk of a heart attack (sudden death) through the early detection and early treatment of any cardiac malfunction. Monitoring is also effective in preventing the physical overload caused by improper exercise and the accumulation of mental stress. However, the conventional biomedical electrode with electrolyte paste is unsuitable for continuous monitoring in daily life, because it is uncomfortable when stuck to the skin. Moreover, excessive wetting of the skin surface occasionally causes skin irritation or contact dermatitis. Recently, textile electrodes made of silver-coated fiber have been widely used for heartbeat monitoring especially in the sports field. However, for medical quality electrocardiogram monitoring, further improvement is required to reduce the noise level.

The conductive polymer PEDOT-PSS is a promising material for use as a biomedical electrode because of its hydrophilicity and biocompatibility. However, it is fragile when wet, and its water resistance and workability must be improved if its applications are to expand.

Scientists at NTT have used PEDOT-PSS to modify the surface of a microelectrode array (MEA)*5. The excellent biocompatibility and improved electrical property of this array was confirmed in 2004 by culturing nerve cells on it and embedding it in animals. Recently, NTT has been trying to fabricate a flexible biomedical electrode by combining PEDOT-PSS and silk fiber.


The flexible biomedical electrode is produced by coating silk fiber with PEDOT-PSS, and the resulting material can be used as both thread and textile (Fig. 1-1 , 1-2 ). The coating conditions have been devised in such a way that the tensile strength and workability have been improved without any detrimental effects on biocompatibility, hydrophilicity and flexibility. A surface electrode without any electrolyte paste was used to measure an electrocardiogram of a rat with stability equivalent to that of a conventional medical electrode (Fig. 2 ). A wearable electrode has been fabricated by mounting a conductive textile on a shirt, and simply wearing this shirt enables the heartbeat and electrocardiograms to be monitored (Fig. 3 ). Comfortable biomedical electrodes, which are both flexible and air permeable, make long-term monitoring possible without inconveniencing the patient.
The safety of the wearable electrodes has been evaluated with 10 able-bodied human volunteers. The successful long-term recording of the heartbeat and electrocardiograms was confirmed without any skin irritation or contact dermatitis.

3.Future plan

In addition, NTT will investigate the safety and effectiveness of the wearable electrode made of PEDOT-PSS combined with fibers as regards the long-term monitoring of the heartbeat and electrocardiograms by undertaking a substantive experiment on around 100 people. We will be considering applications in the medical field such as home medical care and remote medicine through collaboration with, for example, schools of medicine. We will also consider its application in various contexts; e.g. supporting medical examinations by reducing patient discomfort, and developing comfortable sportswear to promote health.

Via: DigInfo



Hailing from the northern region of India, Gaurav has a profound liking for everything upbeat in the cloud and vision to acquaint readers with the latest technology news. He likes to observe nature, write thought provoking quotes, travel places, drive cars and play video games when things get too boring. And his food for thought comes from ambient music scores he listens to.

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