Telemedicine
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Telemedicine is a rapidly developing application of clinical medicine where medical information is transferred via telephone, the Internet or other networks for the purpose of consulting, and sometimes remote medical procedures or examinations.
Telemedicine may be as simple as two health professionals discussing a case over the telephone, or as complex as using satellite technology and video-conferencing equipment to conduct a real-time consultation between medical specialists in two different countries. Telemedicine generally refers to the use of communications and information technologies for the delivery of clinical care.
(See photo from HELP telemedicine clinic) [1]
Care at a distance (also called in absentia care), is an old practice which was often conducted via post; there has been a long and successful history of in absentia health care, which - thanks to modern communication technology - has metamorphosed into what we know as modern telemedicine.
In its early manifestations, African villagers used smoke signals to warn people to stay away from the village in case of serious disease. In the early 1900s, people living in remote areas in Australia used two-way radios, powered by a dynamo driven by a set of bicycle pedals, to communicate with the Royal Flying Doctor Service of Australia.
The terms e-health and telehealth are at times wrongly interchanged with telemedicine. Like the terms "medicine" and "health care", telemedicine often refers only to the provision of clinical services while the term telehealth can refer to clinical and non-clinical services such as medical education, administration, and research. The term e-health is often, particularly in the UK and Europe, used as an umbrella term that includes telehealth, electronic medical records, and other components of health IT.
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[edit] Types of telemedicine
Telemedicine is practiced on the basis of two concepts: real time (synchronous) and store-and-forward and Home Health(asynchronous).
Real time telemedicine could be as simple as a telephone call or as complex as robotic surgery. It requires the presence of both parties at the same time and a communications link between them that allows a real-time interaction to take place. Video-conferencing equipment is one of the most common forms of technologies used in synchronous telemedicine. There are also peripheral devices which can be attached to computers or the video-conferencing equipment which can aid in an interactive examination. For instance, a tele-otoscope allows a remote physician to 'see' inside a patient's ear; a tele-stethoscope allows the consulting remote physician to hear the patient's heartbeat. Medical specialties conducive to this kind of consultation include psychiatry, family practice, internal medicine, rehabilitation, cardiology, pediatrics, obstetrics, gynecology, neurology, speech-language pathology and pharmacy.
Store-and-forward telemedicine involves acquiring medical data (like medical images, biosignals etc) and then transmitting this data to a doctor or medical specialist at a convenient time for assessment offline. It does not require the presence of both parties at the same time. Dermatology (cf: teledermatology), radiology, and pathology are common specialties that are conducive to asynchronous telemedicine. A properly structured Medical Record preferably in electronic form should be a component of this transfer.
Home Health Telemedicine When a patient is in the hospital and he is placed under general observation after a surgery or other medical procedure, the hospital is usually losing a valuable bed and the patient would rather not be there as well. Home health allows the remote observation and care of a patient. Home health equipment consists of vital signs capture, video conferencing capabilities, and patient stats can be reviewed and alarms can be set from the hospital nurse's station, depending on the specific home health device. Usually low bandwidth analog Plain Old Telephone System (POTS). Some newer systems do support higher bandwidth capabilities. Disease management, post-hospital care, assisted living, etc.
Telemedicine is most beneficial for populations living in isolated communities and remote regions and is currently being applied in virtually all medical domains. Specialties that use telemedicine often use a "tele-" prefix; for example, telemedicine as applied by radiologists is called Teleradiology. Similarly telemedicine as applied by cardiologists is termed as telecardiology, etc.
Telemedicine is also useful as a communication tool between a general practitioner and a specialist available at a remote location.
The first interactive Telemedicine system, operating over standard telephone lines, for remotely diagnosing and treating patients requiring cardiac resuscitation (defibrillation) was developed and marketed by MedPhone Corporation in 1989. A year latter the company introduced a mobile cellular version, the MDphone. Twelve hospitals in the U.S. served as receiving and treatment centers. (See: Telecommunications, Concepts, Development, and Management, Second Edition, pages 280-282, W. John Blyth, Glencoe/McCgraw-Hill Company,1990)
Monitoring a patient at home using known devices like blood pressure monitors and transferring the information to a caregiver is a fast growing emerging service. These remote monitoring solutions have a focus on current high morbidity chronic diseases and are mainly deployed for the First World. In developing countries a new way of practicing telemedicine is emerging better known as Primary Remote Diagnostic Visits whereby a doctor uses devices to remotely examine and treat a patient. This new technology and principle of practicing medicine holds big promises to solving major health care delivery problems in for instance Southern Africa because Primary Remote Diagnostic Consultations not only monitors an already diagnosed chronic disease, but has the promise to diagnosing and managing the diseases a patient will typically visit a general practitioner for.
[edit] Teleradiology
Teleradiology is the ability to send radiographic images (x-rays) from one location to another. For this process to be implemented, three essential components are required, an image sending station, a transmission network, and a receiving / image review station. The most typical implementation are two computers connected via Internet. The computer at the receiving end will need to have a high-quality display screen that has been tested and cleared for clinical purposes. Sometimes the receiving computer will have a printer so that images can be printed for convenience.
The teleradiology process begins at the image sending station. The radiographic image and a modem or other connection are required for this first step. The image is scanned and then sent via the network connection to the receiving computer.
An example of teleradiology is the EU-funded project R-Bay [2]. One of the major providers for teleradiology services in Europe is Telemedicine Clinic [3].
[edit] See also
- Ontario Telemedicine Network
- Telehealth
- eHealth
- National Rural Health Association
- Robotic surgery
- Teledentistry
- mHealth
- Professor Skevos Zervos
[edit] Further reading
- Teleneurology and requirements of the european Medical Devices Directive (MDD) - Telemedical Systems and regulatory affairs for europe, by Dipl. Ing. Armin Gärtner
[edit] External links
- Diagnostic Image Capture: Applications & Use Cases
- Telemedicine Consultation and Healthcare
- Ontario Telemedicine Network -- Making the Connection for Health
- Telemedicine Clinic - Distributing Specialist Competence
- Center for Telehealth and E-Health Law
- Great Plains Telehealth Resource and Assistance Center
- TMA Medical with the Mobile Care Unit examination system
- American Telemedicine Association
- Canadian Society of Telehealth
- TELESYNERGY - Telemedicine at the National Institutes of Health
- Telemedicine History
- Center for Connected-Health at Partners Healthcare, Massachusetts General Hospital
- National Rural Health Association
- World's most remote island gets advanced medical support from team led by IBM and Beacon Equity Partners Tristan Times, 14 November 2007
- World's Most Remote Island Gets Advanced Medical Support From Team Led by IBM and Beacon Equity Partners IBM press release, Armonk, NY - 14 November 2007
- UNESCO Chair in Telemedicine - CATAI - University of La Laguna (Spain)
- BELGIUM-HF - the largest belgian telemedicine clinical trial on congestive heart failure
- StrokeDoc Multimedia Telemedical Diagnostic System
- International Society for Telemedicine & eHealth (ISfTeH)
- Med-e-Tel - The International Educational and Networking Forum for eHealth, Telemedicine and Health ICT
- Teleradiology Providers- Indian perspective of Teleradiology
- THE TELEHEALTH INDUSTRY IN CANADA
- Georgian Telemedicine Union (Association)
- Doc at a Distance: Remote Guidance
- [4]
- TeleVital Real-Time Telemedicine Company