【 摘 要 】

Background

Still picture transmission was performed using a telemedicine system in an Emergency Medical Service (EMS) during a prospective, controlled trial. In this ancillary, retrospective study the quality and content of the transmitted pictures and the possible influences of this application on prehospital time requirements were investigated.

Methods

A digital camera was used with a telemedicine system enabling encrypted audio and data transmission between an ambulance and a remotely located physician. By default, images were compressed (jpeg, 640 x 480 pixels). On occasion, this compression was deactivated (3648 x 2736 pixels). Two independent investigators assessed all transmitted pictures according to predefined criteria. In cases of different ratings, a third investigator had final decision competence. Patient characteristics and time intervals were extracted from the EMS protocol sheets and dispatch centre reports.

Results

Overall 314 pictures (mean 2.77 ± 2.42 pictures/mission) were transmitted during 113 missions (group 1). Pictures were not taken for 151 missions (group 2). Regarding picture quality, the content of 240 (76.4%) pictures was clearly identifiable; 45 (14.3%) pictures were considered “limited quality” and 29 (9.2%) pictures were deemed “not useful” due to not/hardly identifiable content. For pictures with file compression (n = 84 missions) and without (n = 17 missions), the content was clearly identifiable in 74% and 97% of the pictures, respectively (p = 0.003). Medical reports (n = 98, 32.8%), medication lists (n = 49, 16.4%) and 12-lead ECGs (n = 28, 9.4%) were most frequently photographed. The patient characteristics of group 1 vs. 2 were as follows: median age – 72.5 vs. 56.5 years, p = 0.001; frequency of acute coronary syndrome – 24/113 vs. 15/151, p = 0.014. The NACA scores and gender distribution were comparable. Median on-scene times were longer with picture transmission (26 vs. 22 min, p = 0.011), but ambulance arrival to hospital arrival intervals did not differ significantly (35 vs. 33 min, p = 0.054).

Conclusions

Picture transmission was used frequently and resulted in an acceptable picture quality, even with compressed files. In most cases, previously existing “paper data” was transmitted electronically. This application may offer an alternative to other modes of ECG transmission. Due to different patient characteristics no conclusions for a prolonged on-scene time can be drawn. Mobile picture transmission holds important opportunities for clinical handover procedures and teleconsultation.

【 授权许可】

   
2013 Bergrath et al.; licensee BioMed Central Ltd.

【 预 览 】

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【 图 表 】

【 参考文献 】

• [1]Nanchahal J, Nayagam N, Khan U, Moran C, Barrett S, Sanderson F, Pallister I: Standards for the management of open fractures of the lower limb. British Association of Plastic Reconstructive and Aesthetic Surgeons, British Orthopedic Association. London: RSM Press; 2009.
• [2]Rescue Services and Hospital Standards Committeehttp://www.nark.din.de webcite
• [3]Morgan BW, Read JR, Solan MC: Photographic wound documentation of open fractures: an update for the digital generation. Emerg Med J 2007, 24:841-842.
• [4]Solan MC, Calder JD, Gibbons CE, Ricketts DM: Photographic wound documentation after open fracture. Injury 2001, 32:33-35.
• [5]Windsor JS, Rodway GW, Middleton PM, McCarthy S: Digital photography. Postgrad Med J 2006, 82:688-692.
• [6]Skorning M, Bergrath S, Rörtgen D, Brokmann JC, Beckers SK, Protogerakis M, Brodziak T, Rossaint R: E-health in emergency medicine - the Research project Med-on-@ix. Anaesthesist 2009, 58:285-292.
• [7]Bergrath S, Reich A, Rossaint R, Rörtgen D, Gerber J, Fischermann H, Beckers SK, Brokmann JC, Schulz JB, Leber C, Fitzner C, Skorning M: Feasibility of prehospital teleconsultation in acute stroke - a pilot study in clinical routine. PLoS One 2012, 7:e36796.
• [8]Fischermann H, Skorning M, Bergrath S, Krüger S, Schröder J, Fitzner C, Rörtgen D, Beckers SK, Rossaint R: Prehospital teleconsultation in acute coronary syndromes: feasibility and effects [abstract]. Circulation 2011, 124:21s A250.
• [9]Sejersten M, Sillesen M, Hansen PR, Nielsen SL, Nielsen H, Trautner S, Hampton D, Wagner GS, Clemmensen P: Effect on treatment delay of prehospital teletransmission of 12-lead electrocardiogram to a cardiologist for immediate triage and direct referral of patients with ST-segment elevation acute myocardial infarction to primary percutaneous coronary intervention. Am J Cardiol 2008, 101:941-946.
• [10]Carstensen S, Nelson GC, Hansen PS, Macken L, Irons S, Flynn M, Kovoor P, Soo Hoo SY, Ward MR, Rasmussen HH: Field triage to primary angioplasty combined with emergency department bypass reduces treatment delays and is associated with improved outcome. Eur Heart J 2007, 28:2313-2319.
• [11]Adams GL, Campbell PT, Adams JM, Strauss DG, Wall K, Patterson J, Shuping KB, Maynard C, Young D, Corey C, Thompson A, Lee BA, Wagner GS: Effectiveness of prehospital wireless transmission of electrocardiograms to a cardiologist via hand-held device for patients with acute myocardial infarction (from the Timely Intervention in Myocardial Emergency, NorthEast Experience [TIME-NE]). Am J Cardiol 2006, 98:1160-1164.
• [12]Dhruva VN, Abdelhadi SI, Anis A, Gluckman W, Hom D, Dougan W, Kaluski E, Haider B, Klapholz M: ST-segment analysis using wireless technology in acute myocardial infarction (STAT-MI) trial. J Am Coll Cardiol 2007, 50:509-513.
• [13]Sanchez-Ross M, Oghlakian G, Maher J, Patel B, Mazza V, Hom D, Dhruva V, Langley D, Palmaro J, Ahmed S, Kaluski E, Klapholz M: The STAT-MI (ST-segment analysis using wireless technology in acute myocardial infarction) trial improves outcomes. JACC Cardiovasc Interv 2011, 4:222-227.
• [14]Gonzalez MA, Satler LF, Rodrigo ME, Gaglia MA, Ben-Dor I, Maluenda G, Hanna N, Suddath WO, Torguson R, Pichard AD, Waksman R: Cellular video-phone assisted transmission and interpretation of prehospital 12-lead electrocardiogram in acute st-segment elevation myocardial infarction. J Interv Cardiol 2011, 24:112-118.
• [15]Ohtsuka M, Uchida E, Nakajima T, Yamaguchi H, Takano H, Komuro I: Transferring images via the wireless messaging network using camera phones shortens the time required to diagnose acute coronary syndrome. Circ J 2007, 71:1499-1500.
• [16]Engel H, Huang JJ, Tsao CK, Lin CY, Chou PY, Brey EM, Henry SL, Cheng MH: Remote real-time monitoring of free flaps via smartphone photography and 3 G wireless internet: A prospective study evidencing diagnostic accuracy. Microsurgery 2011, 31:589-595.
• [17]Hsieh CH, Jeng SF, Chen CY, Yin JW, Yang JC, Tsai HH, Yeh MC: Teleconsultation with the mobile camera-phone in remote evaluation of replantation potential. J Trauma 2005, 58:1208-1212.
• [18]Pirris SM, Monaco EA, Tyler-Kabara EC: Telemedicine through the use of digital cell phone technology in pediatric neurosurgery: a case series. Neurosurgery 2010, 66:999-1004.
• [19]Chu Y, Ganz A: A mobile Teletrauma system using 3 G networks. IEEE Trans Inf Technol Biomed 2004, 8:456-462.
• [20]Bergrath S, Rörtgen D, Rossaint R, Beckers SK, Fischermann H, Brokmann JC, Czaplik M, Felzen M, Schneiders MT, Skorning M: Technical and organisational feasibility of a multifunctional telemedicine system in an emergency medical service - an observational study. J Telemed Telecare 2011, 17:371-377.