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1860797413300633600
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INTELEK Repository
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Online Access
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https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072
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| date |
2015-12-30 12:29:05
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Restricted Document
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| id |
12616
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UniSZA
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| internalnotes |
Cole SW, Berenson NM. Comparison of drug information practice curriculum components in US colleges of pharmacy. Am J Pharm Educ 2005;69:240. Zehnder S, Beutler M, Bruppacher R, Ehrenhofer T, Hersberger KE. Need and use of drug information sources in community pharmacies: a questionnaire-based survey in German-speaking Switzerland. Pharm Wold Sci 2004;26:197-02. Simon SK, Seldon HL. Personal health records: mobile biosensors and smartphones for developing countries. Global Telehealth 2012;182:125-32. Pullinger W, Franklin BD. Pharmacists’ documentation in patients’ hospital health records: issues and educational implications. Int J Pharm Practice 2010;18:108–15. Lacy CF, Saya FG, Shane RR. Quality of pharmacists’ documentations in patients’ medical records. Am J Health-Syst Pharm 1996;53:2171–5. Strand LM, Cipolle RJ, Morley PC. Documenting the clinical pharmacists' activities: back to basics. Drug Intell Clin Pharm 1988;22:63–7. Dayer L, Seth H, Paul A, Paul OG, Bradley CM. Smartphone medication adherence apps: Potential benefits to patients and providers. J Am Pharm Assoc 2013;53:172-81. Cafazzo JA, Casselman M, Hamming N, Debra KK, Mark RP. Design of am Health app for the self-management of adolescent type 1 diabetes: a pilot study. J Med Intern Res 2012;14:e70. Vervloet M, Linn AJ, van Weert JCM, de Bakker DH, Bouvy ML, van Dijk L. The effectiveness of interventions using electronic reminders to improve adherence to chronic medication: a systematic review of the literature. Jamia J 2012;19:696–04. Cartwright LA, Spina SP. Smartphones in clinical pharmacy practice: Is it evidence-based? Health Policy Technol 2014;3:85-9. Lua PL, Neni WS, Lee JKF, Zariah AA. The interactive animated epilepsy education programme (IAEEP): how feasible, acceptable and practical is the technology to children? Technol Healthcare 2013;21:557-66. Pourhoseingholi MA, Vahedi M, Rahimzadeh M. Sample size calculation in medical studies. Gastroenterol Hepatol 2013;6:14–7. Vibhuti A, Sharrel P, Tasmiya K. Awareness of and readiness for medication therapy management among community pharmacist in New York City: result from a focus group. Innovation Pharm 2013;4:116. Sankaranarayanan J, Sallach RE. Rural patients’ access to mobile phones and willingness to receive mobile phone-based pharmacy and other health technology services: a pilot study. Telemedicine e-Health 2014;20:182-5. Aspden P, Wolcott J, Bootman JL, Cronenwett LR. Institute of medicine (US). Committee on identifying and preventing medication errors. Preventing medication errors. Washington DC: National Academies Press; 2006. Irani S, Seba P, Speich R, Boehler A. Medication errors: an important component of non-adherence to medication in an outpatient population of lung transplant recipients. Am J Transplant 2007;7:2561-6. Druss BG, Ji X, Glick G, von Esenwein SA. Randomized trial of an electronic personal health record for patients with serious mental illnesses. Am J Psychiatry 2014;171:360-8. Markle Foundation. The personal health working group final report; 2003. Available from: www.providersedge.com/ ehdocs/ehr_articles/The_Personal_Health_Working_Group_ Final_Report.pdf. [Last accessed on 04 May 2015]. Mao Y, Zhang Y, Zhai S. Mobile phone text messaging for pharmaceutical care in a hospital in china. J Telemed Telecare 2008;14:410-4. Pop-Eleches C, Thirumurthy H, Habyarimana JP, Zivin JG, Goldstein MP, Walque D, et al. Mobile phone technologies improve adherence to antiretroviral treatment in a resource-limited setting: a randomized controlled trial of text message reminders. AIDS 2011;25:825-34. Al-Dhawailie AA, Al-Enezi AN, Al-Qhtani BF, Al-Enezi KT, Al-Harbi NM, Al-Tulaian NS, et al. Mobile phone text messaging for pharmaceutical care in Saudi Arabia: a pilot study. Int J Pharm 2013;3:312-5. Park LG, Howie-Esquivel J, Chung ML, Dracup K. A text messaging intervention to promote medication adherence for patients with coronary heart disease: a randomized controlled trial. Patient Education 2014;94:261-8. Ministry of Higher Education (Internet). Statistics of higher education of Malaysia; 2010. Available from: htpp://www.mohe.gov.my/web statistic/perangkaan. [Last accessed on 18 May 2015].
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6923-01-FH02-FSK-15-04682.jpg
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norman
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oai_dc
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https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12616
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12616 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=12616 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal image/jpeg inches 96 96 norman 1417 26 26 756 1417x756 2015-12-30 12:29:05 6923-01-FH02-FSK-15-04682.jpg UniSZA Private Access Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM) International Journal of Pharmacy and Pharmaceutical Sciences Objectives: Smartphones could be used as a novel approach to improve medication adherence and patient’s behaviour; due to constant accessibility, and the provision of a repository for health and medication information. This study aimed to assess the feasibility and acceptability of the use of My Electronic Personal Health Record Monitor (My-ePHRM), a newly-developed application (software) for personal health record monitoring as well as the factors that predict its acceptability. Methods: A cross-sectional study using structured questionnaire was conducted on 363 potential users. Statistical analyses were performed using SPSS version 20.0. Description statistics and multiple logistic regression analysis were employed. Results: Majority of the participants were females (69.7%) with the mean age of 22 y (SD±1.7). Of the total number of the participants, 63.9% agreed that My-ePHRM was easy to operate and 50.7% thought that the language used was simple and easy to understand. Most of the participants found the features of My-ePHRM attractive (61.7%) and 52.1% would like to own it in the future. The majority agreed that My-ePHRM could increase health knowledge (57.0%), increase drug knowledge (54.0%) and could improve drug adherence (56.5%). Overall, (52.6%) believed that it was a good programme and (54.3%) would recommend it to others. Multiple logistic regression analysis revealed that ethnicity, gender and programme of the study participants did not predict My-ePHRM acceptance. Conclusion: My-ePHRM has been shown to be acceptable, simple and practical by its target users creating a huge potential in patients participation in documenting health-related activities. 7 12 International Journal of Pharmacy and Pharmaceutical Science International Journal of Pharmacy and Pharmaceutical Science 228-232 Cole SW, Berenson NM. Comparison of drug information practice curriculum components in US colleges of pharmacy. Am J Pharm Educ 2005;69:240. Zehnder S, Beutler M, Bruppacher R, Ehrenhofer T, Hersberger KE. Need and use of drug information sources in community pharmacies: a questionnaire-based survey in German-speaking Switzerland. Pharm Wold Sci 2004;26:197-02. Simon SK, Seldon HL. Personal health records: mobile biosensors and smartphones for developing countries. Global Telehealth 2012;182:125-32. Pullinger W, Franklin BD. Pharmacists’ documentation in patients’ hospital health records: issues and educational implications. Int J Pharm Practice 2010;18:108–15. Lacy CF, Saya FG, Shane RR. Quality of pharmacists’ documentations in patients’ medical records. Am J Health-Syst Pharm 1996;53:2171–5. Strand LM, Cipolle RJ, Morley PC. Documenting the clinical pharmacists' activities: back to basics. Drug Intell Clin Pharm 1988;22:63–7. Dayer L, Seth H, Paul A, Paul OG, Bradley CM. Smartphone medication adherence apps: Potential benefits to patients and providers. J Am Pharm Assoc 2013;53:172-81. Cafazzo JA, Casselman M, Hamming N, Debra KK, Mark RP. Design of am Health app for the self-management of adolescent type 1 diabetes: a pilot study. J Med Intern Res 2012;14:e70. Vervloet M, Linn AJ, van Weert JCM, de Bakker DH, Bouvy ML, van Dijk L. The effectiveness of interventions using electronic reminders to improve adherence to chronic medication: a systematic review of the literature. Jamia J 2012;19:696–04. Cartwright LA, Spina SP. Smartphones in clinical pharmacy practice: Is it evidence-based? Health Policy Technol 2014;3:85-9. Lua PL, Neni WS, Lee JKF, Zariah AA. The interactive animated epilepsy education programme (IAEEP): how feasible, acceptable and practical is the technology to children? Technol Healthcare 2013;21:557-66. Pourhoseingholi MA, Vahedi M, Rahimzadeh M. Sample size calculation in medical studies. Gastroenterol Hepatol 2013;6:14–7. Vibhuti A, Sharrel P, Tasmiya K. Awareness of and readiness for medication therapy management among community pharmacist in New York City: result from a focus group. Innovation Pharm 2013;4:116. Sankaranarayanan J, Sallach RE. Rural patients’ access to mobile phones and willingness to receive mobile phone-based pharmacy and other health technology services: a pilot study. Telemedicine e-Health 2014;20:182-5. Aspden P, Wolcott J, Bootman JL, Cronenwett LR. Institute of medicine (US). Committee on identifying and preventing medication errors. Preventing medication errors. Washington DC: National Academies Press; 2006. Irani S, Seba P, Speich R, Boehler A. Medication errors: an important component of non-adherence to medication in an outpatient population of lung transplant recipients. Am J Transplant 2007;7:2561-6. Druss BG, Ji X, Glick G, von Esenwein SA. Randomized trial of an electronic personal health record for patients with serious mental illnesses. Am J Psychiatry 2014;171:360-8. Markle Foundation. The personal health working group final report; 2003. Available from: www.providersedge.com/ ehdocs/ehr_articles/The_Personal_Health_Working_Group_ Final_Report.pdf. [Last accessed on 04 May 2015]. Mao Y, Zhang Y, Zhai S. Mobile phone text messaging for pharmaceutical care in a hospital in china. J Telemed Telecare 2008;14:410-4. Pop-Eleches C, Thirumurthy H, Habyarimana JP, Zivin JG, Goldstein MP, Walque D, et al. Mobile phone technologies improve adherence to antiretroviral treatment in a resource-limited setting: a randomized controlled trial of text message reminders. AIDS 2011;25:825-34. Al-Dhawailie AA, Al-Enezi AN, Al-Qhtani BF, Al-Enezi KT, Al-Harbi NM, Al-Tulaian NS, et al. Mobile phone text messaging for pharmaceutical care in Saudi Arabia: a pilot study. Int J Pharm 2013;3:312-5. Park LG, Howie-Esquivel J, Chung ML, Dracup K. A text messaging intervention to promote medication adherence for patients with coronary heart disease: a randomized controlled trial. Patient Education 2014;94:261-8. Ministry of Higher Education (Internet). Statistics of higher education of Malaysia; 2010. Available from: htpp://www.mohe.gov.my/web statistic/perangkaan. [Last accessed on 18 May 2015].
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| spellingShingle |
Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM)
|
| summary |
Objectives: Smartphones could be used as a novel approach to improve medication adherence and patient’s behaviour; due to constant accessibility, and the provision of a repository for health and medication information. This study aimed to assess the feasibility and acceptability of the use of My Electronic Personal Health Record Monitor (My-ePHRM), a newly-developed application (software) for personal health record monitoring as well as the factors that predict its acceptability. Methods: A cross-sectional study using structured questionnaire was conducted on 363 potential users. Statistical analyses were performed using SPSS version 20.0. Description statistics and multiple logistic regression analysis were employed. Results: Majority of the participants were females (69.7%) with the mean age of 22 y (SD±1.7). Of the total number of the participants, 63.9% agreed that My-ePHRM was easy to operate and 50.7% thought that the language used was simple and easy to understand. Most of the participants found the features of My-ePHRM attractive (61.7%) and 52.1% would like to own it in the future. The majority agreed that My-ePHRM could increase health knowledge (57.0%), increase drug knowledge (54.0%) and could improve drug adherence (56.5%). Overall, (52.6%) believed that it was a good programme and (54.3%) would recommend it to others. Multiple logistic regression analysis revealed that ethnicity, gender and programme of the study participants did not predict My-ePHRM acceptance. Conclusion: My-ePHRM has been shown to be acceptable, simple and practical by its target users creating a huge potential in patients participation in documenting health-related activities.
|
| title |
Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM)
|
| title_full |
Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM)
|
| title_fullStr |
Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM)
|
| title_full_unstemmed |
Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM)
|
| title_short |
Feasibility and acceptability of my electronic personal health record monitor (MY-EPHRM)
|
| title_sort |
feasibility and acceptability of my electronic personal health record monitor (my-ephrm)
|