Applications of telemedicine and telecommunications to disaster medicine: historical and future perspectives.

Disaster management utilizes diverse technologies to accomplish a complex set of tasks. Despite a decade of experience, few published reports have reviewed application of telemedicine (clinical care at a distance enabled by telecommunication) in disaster situations. Appropriate new telemedicine applications can improve future disaster medicine outcomes, based on lessons learned from a decade of civilian and military disaster (wide-area) telemedicine deployments. This manuscript reviews the history of telemedicine activities in actual disasters and similar scenarios as well as ongoing telemedicine innovations that may be applicable to disaster situations. Emergency care providers must begin to plan effectively to utilize disaster-specific telemedicine applications to improve future outcomes.

[1]  Fred Goeringer,et al.  Evolution of teleradiology in the defense medical establishment. , 1993, Medical Imaging.

[2]  J.H. Lodge Mobile satellite communications systems: Toward global personal communications , 1991, IEEE Communications Magazine.

[3]  Ken Pimentel,et al.  Virtual reality - through the new looking glass , 1993 .

[4]  William M. Pugh,et al.  Mobile Medical Monitoring at Forward Areas of Care. , 1998 .

[5]  J.L. Grubb,et al.  The traveler's dream come true (satellite personal communication) , 1991, IEEE Communications Magazine.

[6]  V Garshnek Applications of space communications technology to critical human needs: rescue, disaster relief, and remote medical assistance. , 1991, Space communications.

[7]  Yoho Dr,et al.  Wireless communication technology applied to disaster response. , 1994 .

[8]  C. Richardson The United States Mission to the United Nations , 1953, International Organization.

[9]  P. Wood Mobile satellite services for travellers , 1991, IEEE Communications Magazine.

[10]  R E LaPorte,et al.  The need for a global health disaster network. , 1997, Prehospital and disaster medicine.

[11]  R D Billica,et al.  A field trial of the NASA Telemedicine Instrument Pack in a family practice. , 1996, Aviation, space, and environmental medicine.

[12]  M. P. D'Alessandro,et al.  The virtual hospital: the future of information distribution in medicine , 1993, SIGB.

[13]  R M Satava,et al.  Virtual reality and telepresence for military medicine. , 1995, Annals of the Academy of Medicine, Singapore.

[14]  Victoria Garshnek,et al.  The telemedicine frontier: going the extra mile☆ , 1997 .

[15]  Harry Newton,et al.  Newton's Telecom Dictionary , 1994 .

[16]  James Harry Green The Irwin Handbook of Telecommunications , 1992 .

[17]  Steve Mann,et al.  Wearable Computing: A First Step Toward Personal Imaging , 1997, Computer.

[18]  K E Willard,et al.  The deployment of a World Wide Web (W3) based medical information system. , 1995, Proceedings. Symposium on Computer Applications in Medical Care.

[19]  Douglas L. Crowson,et al.  Medical information retrieval and WWW browsers at Mayo. , 1995, Proceedings. Symposium on Computer Applications in Medical Care.

[20]  J J Cimino,et al.  The informatics superhighway: prototyping on the World Wide Web. , 1995, Proceedings. Symposium on Computer Applications in Medical Care.

[21]  I S Kohane,et al.  WHAM!: a forms constructor for medical record access via the World Wide Web. , 1995, Proceedings. Symposium on Computer Applications in Medical Care.

[22]  Victoria Garshnek,et al.  The AKAMAI evaluation initiative: evaluating the impact of telemedicine on healthcare delivery (Phase I) , 1999 .

[23]  R. Poropatich,et al.  Telemedicine in the U.S. Army: case reports from Somalia and Croatia. , 1995, Telemedicine journal : the official journal of the American Telemedicine Association.

[24]  M F Hansen,et al.  Preliminary Assessment of Computed Tomography and Satellite Teleradiology from Operation Desert Storm , 1991, Investigative radiology.

[25]  P J Basquill,et al.  Radiographic support in highly mobile operations. , 1990, Military medicine.