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Ultrathin 'diagnostic skin' allows continuous patient monitoring

Date:
December 4, 2013
Source:
National Institute of Biomedical Imaging and Bioengineering
Summary:
A multidisciplinary research team has developed an ultrathin membrane that can stick to skin and carry arrays of diagnostic sensors and stimulatory components. The "electronic skin" allows remote patient monitoring and may someday be used to deliver treatments.

The array laminates without adhesives onto the surface of the skin by soft contact much like a temporary transfer tattoo. Contact is maintained despite normal stretching or pinching of the skin.
Credit: John Rogers, University of Illinois at Urbana-Champaign

It is likely that at your next visit to the doctor, a medical practitioner will start by taking your temperature. This has been part of medical practice for so long that we may see it as antiquated, with little value. However, the routine nature of the ritual belies the critical importance of obtaining accurate body temperature to assess the health of a patient. In fact, subtle variations in temperature can indicate potentially harmful underlying conditions such as constriction or dilation of blood vessels, or dehydration. Even changes in mental activity, such as increased concentration while solving a mathematical equation, are accompanied by measurable changes in body temperature.

Accordingly, a number of technologies have been developed to detect skin temperature changes that can serve as early indicators of disease development and progression. For example, sophisticated infrared digital cameras can detect, in high resolution, temperature changes across large areas of the body. At the other end of the technology spectrum, paste-on temperature sensors provide simple, single-point measurements. Although both technologies are accurate, infrared cameras are expensive and require the patient to remain completely still, and while paste-on sensors allow free movement, they provide limited information. Now, an international multidisciplinary team including researchers at the University of Illinois at Urbana/Champaign and the National Institute of Biomedical Imaging and Bioengineering (NIBIB) has developed an entirely new approach: a sophisticated "electronic skin" that adheres non-invasively to human skin, conforms well to contours, and provides a detailed temperature map of any surface of the body.

How it works

The temperature sensor array is a variation of a novel technology, originally developed in the lab of Professor John Rogers at the University of Illinois at Urbana/Champaign, called "epidermal electronics," consisting of ultrathin, flexible skin-like arrays, which resemble a tattoo of a micro-circuit board. The arrays developed with NIBIB contain sensors and heating elements. The technology offers the potential for a wide range of diagnostic and therapeutic capabilities with little patient discomfort. For example, sensors can be incorporated that detect different metabolites of interest. Similarly, the heaters can be used to deliver heat therapy to specific body regions; actuators can be added that deliver an electrical stimulus or even a specific drug. Future versions will have a wireless power coil and an antenna for remote data transfer. The development of this new thermal technology was reported in the October 23 issue of Nature Materials.

Testing the new device

In this study, the array contained heat sensors so that it could be tested for its ability to accurately detect variations in localized skin temperature when compared to the "gold standard," the infrared camera. A number of separate physical and mental stimulus tests were performed to compare the two. The subject wore a heat sensing array on the palm and also had heat measurements obtained with an infrared camera placed 16 inches above the same region. The profiles of temperature changes were virtually identical with the two methods.

The investigators also performed a test that is used as a cardiovascular screening procedure. Blood flow changes are detected by changes in skin temperature as blood moves through the forearm while a blood pressure cuff on the upper arm is inflated and deflated. Once again, the infrared camera and the array technology showed virtually identical temperature change profiles. Temperature was reduced when blood flow was blocked and it increased as blood was released. Slow return of blood to the forearm can indicate potential cardiovascular abnormalities.

Beyond serving as a test to validate the accuracy of the skin array, this experiment demonstrated that the device could potentially be used as a rapid screening tool to determine whether an individual should be further tested for disorders, such as diabetes or cardiovascular disease, that cause abnormal peripheral blood flow. It could also be a signal to doctors and patients about effects of certain medications.

The final experiment addressed a feature unique to the skin array technology: delivery of a stimulus, such as heat. The researchers sent precise pulses of heat to the skin to measure skin perspiration, which indicates a person's overall hydration. Taken together, the test results demonstrated the ability of the array technology to obtain a range of accurate, clinically useful measurements, and deliver specific stimuli, with a single, convenient, and relatively inexpensive device.

Potential applications

The researchers say the current version of the array that senses and delivers heat only hints at the vast possibilities for this technology. For example, in theory, any type of sensors can be included, such as sensors that reveal glucose levels, blood oxygen content, blood cell counts, or levels of a circulating medication. Also, instead of delivering heat, an element could be included in the circuit that delivers a medication, an essential micro-nutrient, or various stimuli to promote rapid wound healing. This ability to sense and deliver a wide range of stimuli makes the system useful for diagnostic, therapeutic and experimental purposes.

The technology has the potential to carry out such therapeutic and diagnostic functions while patients go about their daily business, with the data being delivered remotely via a cell phone to a physician -- saving the expense of obtaining the same diagnostic measurements, or performing the same therapeutic stimulus, in the clinic.

Alexander Gorbach, Ph.D., one of the co-investigators from NIBIB, and head of the Infrared Imaging and Thermometry Unit, says, "We are very excited about the unique potential of this technology to vastly improve healthcare at multiple levels. Continuous monitoring outside of a hospital setting will be more convenient and cost-effective for patients. Additionally, access to data collected over extended periods, while a patient is going about a normal routine, should improve the practice of medicine by enabling physicians to adjust a treatment regimen '24/7' as needed."

The investigators are already receiving requests from other clinical research labs to use this technology, and plan to expand collaboration with academia and industry. The hope is that the research community's interest in epidermal electronics will accelerate the development and validation of this technology and hasten its incorporation into clinical care.


Story Source:

The above story is based on materials provided by National Institute of Biomedical Imaging and Bioengineering. Note: Materials may be edited for content and length.


Journal Reference:

  1. R. Chad Webb, Andrew P. Bonifas, Alex Behnaz, Yihui Zhang, Ki Jun Yu, Huanyu Cheng, Mingxing Shi, Zuguang Bian, Zhuangjian Liu, Yun-Soung Kim, Woon-Hong Yeo, Jae Suk Park, Jizhou Song, Yuhang Li, Yonggang Huang, Alexander M. Gorbach, John A. Rogers. Ultrathin conformal devices for precise and continuous thermal characterization of human skin. Nature Materials, 2013; 12 (11): 1078 DOI: 10.1038/nmat3779

Cite This Page:

National Institute of Biomedical Imaging and Bioengineering. "Ultrathin 'diagnostic skin' allows continuous patient monitoring." ScienceDaily. ScienceDaily, 4 December 2013. <www.sciencedaily.com/releases/2013/12/131204103645.htm>.
National Institute of Biomedical Imaging and Bioengineering. (2013, December 4). Ultrathin 'diagnostic skin' allows continuous patient monitoring. ScienceDaily. Retrieved September 2, 2014 from www.sciencedaily.com/releases/2013/12/131204103645.htm
National Institute of Biomedical Imaging and Bioengineering. "Ultrathin 'diagnostic skin' allows continuous patient monitoring." ScienceDaily. www.sciencedaily.com/releases/2013/12/131204103645.htm (accessed September 2, 2014).

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