Abstract
Laboratory specialists currently need to access scientific-based information at anytime and anywhere. A considerable period of time and too much effort are required to access this information through existing accumulated data. Personal digital assistants (PDA) are supposed to provide an effective solution with commercial software for this problem. In this study, 11 commercial software products (UpToDate, ePocrates, Inforetrive, Pepid, eMedicine, FIRST Consult, and 5 laboratory e-books released by Skyscape and/or Isilo) were selected and the benefits of their use were evaluated by seven laboratory specialists. The assessment of the software was performed based on the number of the tests included, the software content of detailed information for each test-like process, method, interpretation of results, reference ranges, critical values, interferences, equations, pathophysiology, supplementary technical details such as sample collection principles, and additional information such as linked references, evidence-based data, test cost, etc. In terms of technique, the following items are considered: the amount of memory required to run the software, the graphical user interface, which is a user-friendly instrument, and the frequency of new and/or up-date releases. There is still no perfect program, as we have anticipated. Interpretation of laboratory results may require software with an integrated program. However, methodological data are mostly not included in the software evaluated. It seems that these shortcomings will be fixed in the near future, and PDAs and relevant medical applications will also become indispensable for all physicians including laboratory specialists in the field of training/education and in patient care.
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Lu YC, Xiao Y, Sears A, Jacko JA (2005) A review and framework of handheld computer adoption in healthcare. Int J Med Inf 74:409–422
American Medical School Association. AMSA overview of handheld devices. http://www.amsa.org/resource/pda.cfm
Baumgart DC (2005) Personal digital assistants in health care: experienced clinicians in the palm of your hand? Lancet 366:1210–1222
Charitou M, Mills L, Baskin C et al (2005) Personal Digital Assistants: a review of their application in graduate medical education. Am J Med Qual 20:262–267i
De Groote SL, Doranski M (2004) The use of personal digital assistants in the health sciences: results of a survey. J Med Libr Assoc 92:341–348
Engum SA (2003) Do you know your students’ basic clinical skills exposure? Am J Surg 186:175–181
Sumner W 2nd, Campbell J, Irving SC (2006) Developing an educational reminder system for a handheld encounter log. Fam Med 38:736–741
Kurth RJ, Silenzio V, Irigoyen MM (2002) Use of personal digital assistants to enhance educational evaluation in a primary care clerkship. Med Teach 24:488–490
Kho A, Henderson LE, Dressler DD, Kripalani S (2006) Use of handheld computers in medical education. A systematic review. J Gen Intern Med 21:531–537
Johnston JM, Leung GM, Tin KY et al (2004) Evaluation of a handheld clinical decision support tool for evidence-based learning and practice in medical undergraduates. Med Educ 38:628–637
Seago BL, Schlesinger JB, Hampton CL (2002) Using a decade of data on medical student computer literacy for strategic planning, J Med Libr Assoc 90:202–209
Bakken S, Sheets Cook S, Curtis L et al (2003) Informatics competencies pre-and post-implementation of a Palm-based student clinical log and informatics for evidence-based practice curriculum. AMIA Annu Symp Proc 41–45
Scollin P, Callahan J, Mehta A, Garcia E (2006) The PDA as a reference tool: libraries’ role in enhancing nursing education. Comput Inform Nurs 24:208–213
Magos A, Sharma M, Buck L (2004) Handheld computers in clinical practice: are useful in informing and educating patients. BMJ 328:1565
McLeod TG, Ebbert JO, Lymp JF (2003) Survey assessment of personal digital assistant use among trainees and attending physicians. J Am Med Inform Assoc 10:605–607
Enders SJ, Enders JM, Holstad SG (2002) Drug-information soft-ware for Palm operating system personal digital assistants: breadth, clinical dependability, and ease of use. Pharmacotherapy 22:1036–1040
Goss L, Carrico R (2002) Get a grip on patient safety: outcomes in the palm of your hand. J Infus Nurs 25:274–279
Krause A, Hartl D, Theis F et al (2004) Mobile decision support for transplantation patient data. Int J Med Inform 73:461–464
Wu RC, Straus SE (2006) Evidence for handheld electronic medication records in improving care: a systematic review. BMC Med Inform Decis Mak 6:26
Garritty C, El Emam K (2006) Who’s using PDAs? Estimates of PDA use by health care providers: a systematic review of surveys. J Med Internet Res 8:e7
Clauson KA, Seamon MJ, Clauson AS, Van TB (2004) Evaluation of drug information databases for personal digital assistants. Am J Health Syst Pharm 61:1015–1024
Grasso BC, Genest R, Yung K, Arnold C (2002) Reducing errors in discharge medication lists by using personal digital assistants. Psychiatr Serv 53:1325–1326
Barrons R (2004) Evaluation of personal digital assistant software for drug interactions. Am J Health Syst Pharm 61:380–385
Robinson RL, Burk MS (2004) Identification of drug-drug interactions with personal digital assistant-based software. Am J Med 116:357–358
Miller SM, Beattie MM, Butt AA (2003) Personal digital assistant infectious diseases applications for health care professionals. Clin Infect Dis 36:1018–1029
France DJ, Miles P, Cartwright J et al (2003) A chemotherapy incident reporting and improvement system. Jt Comm J Qual Saf 29:171–180
Bird SB, Zarum RS, Renzi FP (2001) Emergency medicine resident patient care documentation using a hand-held computerized device. Acad Emerg Med 8:1200–1203
MacNeily AE, Nguan C, Haden K, Goldenberg SL (2003) Implementation of a PDA based program to quantify urology resident in-training experience. Can J Urol 10:1885–1890
Vincent C, Kim S, Schneeweiss R, Stevens N (2003) Documenting procedures and deliveries during family practice residency: a survey of graduates’ experiences, preferences, and recommendations. Fam Med 35:264–268
Sequist TD, Singh S, Pereira A, Pearson SD (2003) On Track: a database for evaluating the outpatient clinical experience of internal medicine residency training. AMIA Annu Symp Proc 1002
Carroll AE, Tarczy-Hornoch P, O’Reilly E, Christakis DA (2004) The effect of point-of-care personal digital assistant use on resident documentation discrepancies. Pediatrics 113:450–454
Goldsworthy S, Lawrence N, Goodman W (2006) The use of personal digital assistants at the point of care in an undergraduate nursing program. Comput Inform Nurs 24:138–143
Toffel MW, Horvath A (2004) Environmental implications of wireless technologies: news delivery and business meetings. Environ Sci Technol 38:2961–2970
Crelinsten GL (2004) The intern’s palmomental reflex. N Engl J Med 350:105
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Serdar, M.A., Turan, M. & Cihan, M. Rapid access to information resources in clinical biochemistry: medical applications of Personal Digital Assistants (PDA). Clin. Exper.Med. 8, 117–122 (2008). https://doi.org/10.1007/s10238-008-0166-y
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DOI: https://doi.org/10.1007/s10238-008-0166-y