Service Blueprint for Improving Clinical Guideline Adherence via Mobile Health Technology
Background: To improve the delivery of paediatric
healthcare in low resource settings, Community Health Workers
(CHW) have been provided with a paper-based set of protocols
known as Community Case Management (CCM). Yet research has
shown that CHW adherence to CCM guidelines is poor, ultimately
impacting health service delivery. Digitising the CCM guidelines via
mobile technology is argued in extant literature to improve CHW
adherence. However, little research exist which outlines how (a) this
process can be digitised and (b) adherence could be improved as a
result. Aim: To explore how an electronic mobile version of CCM
(eCCM) can overcome issues associated with the paper-based CCM
protocol (inadequate adherence to guidelines) vis-à-vis service
blueprinting. This service blueprint will outline how (a) the CCM
process can be digitised using mobile Clinical Decision Support
Systems software to support clinical decision-making and (b)
adherence can be improved as a result. Method: Development of a
single service blueprint for a standalone application which visually
depicts the service processes (eCCM) when supporting the CHWs,
using an application known as Supporting LIFE (SL eCCM app) as
an exemplar. Results: A service blueprint is developed which
illustrates how the SL eCCM app can be utilised by CHWs to assist
with the delivery of healthcare services to children. Leveraging
smartphone technologies can (a) provide CHWs with just-in-time
data to assist with their decision making at the point-of-care and (b)
improve CHW adherence to CCM guidelines. Conclusions: The
development of the eCCM opens up opportunities for the CHWs to
leverage the inherent benefit of mobile devices to assist them with
health service delivery in rural settings. To ensure that benefits are
achieved, it is imperative to comprehend the functionality and form
of the eCCM service process. By creating such a service blueprint for
an eCCM approach, CHWs are provided with a clear picture
regarding the role of the eCCM solution, often resulting in buy-in
from the end-users.
[1] J. G. Yang, J.S. Yang, J. Kahn, “Mobile health needs and opportunities
in developing countries”, Health Affairs, vol. 29, pp. 252-258, 2010.
[2] L. Iwaya, M. Gomes, MA. Simplicio, TC. Carvalho, CK. Dominicini,
RR. Sakuragui, MS. Rebelo, MA. Gutierrez, M. Naslund, P. Hakansson,
P, “Mobile health in emerging countries: A survey of research initiatives
in Brazil. International Journal of Medical Informatics. 82, 283-98.
2013.
[3] T. Tamrat, S. Kachnowski, “Special delivery: An analysis of mHealth in
maternal and newborn health programs and their outcomes around the
world”, Maternal Child Health Journal, vol. 16, pp. 1092–1101. 2012.
[4] A. Chib, MH. Van Velthoven, J. Car, “mHealth adoption in lowresource
environments: A review of the use of mobile healthcare in
developing countries”, Journal of Health Communication, vol. 20, no. 1,
pp. 4-34. 2015.
[5] WHO. URL: http://www.who.int/gho/child_health/mortality/en/
[6] CJ. Briggs, P. Garner, “Strategies for integrating primary health services
in middle- and low-income countries at the point of delivery”, Cochrane
Database of Systematic Reviews, vol. 19, no.2, CD003318, 2006.
[7] World Health Organisation Report. The Multi-Country Evaluation of
IMCI Effectiveness, Cost and Impact (MCE): Progress Report, May
2001 - April 2002 World Health Organisation. Available at:
http://www.who.int/imci-mce/Publications/WHO_FCH_CAH_02.16.pdf
[8] AK. Rowe, D. de Savigny, CF. Lanata, CG. Victora, “How can we
achieve and maintain high-quality performance of health workers in
low-resource settings?”, Lancet, vol. 366, no. 9490,pp. 1026–1035.
2005.
[9] S. Gove, “Integrated management of childhood illness by outpatient
health workers: technical basis and overview. The WHO Working
Group on Guidelines for Integrated Management of Sick Children”,
Bulletin of the World Health Organisation, vol. 75, suppl. 1, pp. 7-
24.1999.
[10] J. Bryce, CG. Victoria, Habicht, JP., RE Black, RW Scherpnier; MCEIMCI
Technical Advisors, Programmatic pathways to child survival:
results of a multi-country evaluation of Integrated Management of
Childhood Illness. Health Policy and Planning, vol. 20, suppl. 1, pp. i5-
i17. 2005.
[11] J. Bryce, S. el Arifeen, G. Pariyo, C. Lanaa, D. Gwatkin, J. Habicht,
Reducing child mortality: can public health deliver? Lancet, vol. 362,
no. 9378, pp. 159-164. 2003.
[12] B. DeRenzi, N. Lesh, T. Parikh, et al., E-IMCI: Improving pediatric
health care in low-income countries, In Proc. of the SIGCHI conference
on human factors in computing systems, 753-762. 2008.
[13] T. Adam, F. Manzi, JA. Schellenberg, L. Mgalula, D. de Savigny, DB
Evans, “Does the Integrated Management of Childhood Illness cost
more than routine care? Results from the United Republic of Tanzania,”
Bulletin of the World Health Organization, vol.83, no. 5.pp, 369-377.
[14] HM Admed, M. Mitchell, B. Hedt. National implementation of
Integrated Management of Childhood Illness (IMCI): Policy constraints
and strategies. Health Policy, vol. 96, no.2. pp.128-133. 2010.
[15] M. Mitchell, M. Getchell, M. Nkaka, D. Msellemu J. Van Esch, B. Hedt-
Gauthier, “Perceived improvement in integrated management of
childhood illness implementation through use of mobile technology:
qualitative evidence from a pilot study in Tanzania,” Journal of Health
Communication, Vol. 13, sup 1, pp. 118-127. 2012.
[16] C. Gronroos, “Service management: a management focus for service
competition,” International Journal of Service Industry Management,
vol. 1, no. 1, pp. 6-14, 1990.
[17] E. Gummesson, “Relationship marketing and a new economy: it’s time
for de-programming,” Journal of Services Marketing, vol. 16, no. 7, pp.
585-589. 2002.
[18] B. O’Flaherty, S. Woodworth, C, Thornton, Y. O’Connor Y. “An
Exploration of Customer-Centric Cloud Service Design”. In: Helfert M,
and Donnellan B, ed. Design Science: Perspectives from Europe.
Springer International Publishing, vol. 388, pp. 99-111.2013.
[19] I. Sim, P. Gorman, R. Greenes, BR. Haynes, B. Kaplan, H. Lehmann,
PC. Tang, “Clinical Decision Support Systems for the Practice of
Evidence-based Medicine”, Journal of the American Medical
Informatics Association, vol. 8, no. 6, pp. 527-534. 2001.
[20] AX. Garg, N. Adhikari, H. McDonald, et al., “Effects of computerized
clinical decision support systems on practitioner performance and
patient outcomes. A systematic review,” Journal of the American
Medical Association, vol. 293, no. 10, pp. 1223-1238. 2009.
[21] C. McGowan, RG. Neville, IW. Ricketts, FC. Warner, G. Hoskins, GE.
Thomas, “Lessons from a randomized controlled trial designed to
evaluate computer decision support software to improve the
management of asthma,” Medical Informatics and Internet in Medicine,
vol. 26, no. 3, pp. 191-201. 2001.
[22] A. Zarabzadeh, J. O’Donoghue, Y. O’Connor, T. O’Kane, S.
Woodworth, G. Gallagher, S. O’Connor, “Variations in health care
providers’ perceptions: decision making based on patient vital signs,”
Journal of Decision Systems, vol. 22, no. 3, pp. 168-189. 2013.
[23] D.L. Hunt, R.B. Haynes, S.E. Hanna, K. Smith, “Effects of Computer-
Based Clinical Decision Support Systems on Physician Performance and
Patient Outcomes. A Systematic Review,” Journal of the American
Medical Association, vol. 280, no.15, pp. 1339-1346. 1998.
[24] SS. Intille, “Ubiquitous computing technology for just-in-time
motivation of behavior change”, In Proc. of Medinfo, vol. 11, pp. 1434-
1437. 2004.
[25] GL. Shostack, “How to design a service,” European Journal of
Marketing, vol. 16, no. 1, pp. 49-63. 1982.
[26] MJ. Bitner, AL. Ostrom, F. Morgan F. “Service blueprinting: a practical
technique for service innovation,” California Management Review, vol.
50, no. 3, pp. 66-94. 2008.
[1] J. G. Yang, J.S. Yang, J. Kahn, “Mobile health needs and opportunities
in developing countries”, Health Affairs, vol. 29, pp. 252-258, 2010.
[2] L. Iwaya, M. Gomes, MA. Simplicio, TC. Carvalho, CK. Dominicini,
RR. Sakuragui, MS. Rebelo, MA. Gutierrez, M. Naslund, P. Hakansson,
P, “Mobile health in emerging countries: A survey of research initiatives
in Brazil. International Journal of Medical Informatics. 82, 283-98.
2013.
[3] T. Tamrat, S. Kachnowski, “Special delivery: An analysis of mHealth in
maternal and newborn health programs and their outcomes around the
world”, Maternal Child Health Journal, vol. 16, pp. 1092–1101. 2012.
[4] A. Chib, MH. Van Velthoven, J. Car, “mHealth adoption in lowresource
environments: A review of the use of mobile healthcare in
developing countries”, Journal of Health Communication, vol. 20, no. 1,
pp. 4-34. 2015.
[5] WHO. URL: http://www.who.int/gho/child_health/mortality/en/
[6] CJ. Briggs, P. Garner, “Strategies for integrating primary health services
in middle- and low-income countries at the point of delivery”, Cochrane
Database of Systematic Reviews, vol. 19, no.2, CD003318, 2006.
[7] World Health Organisation Report. The Multi-Country Evaluation of
IMCI Effectiveness, Cost and Impact (MCE): Progress Report, May
2001 - April 2002 World Health Organisation. Available at:
http://www.who.int/imci-mce/Publications/WHO_FCH_CAH_02.16.pdf
[8] AK. Rowe, D. de Savigny, CF. Lanata, CG. Victora, “How can we
achieve and maintain high-quality performance of health workers in
low-resource settings?”, Lancet, vol. 366, no. 9490,pp. 1026–1035.
2005.
[9] S. Gove, “Integrated management of childhood illness by outpatient
health workers: technical basis and overview. The WHO Working
Group on Guidelines for Integrated Management of Sick Children”,
Bulletin of the World Health Organisation, vol. 75, suppl. 1, pp. 7-
24.1999.
[10] J. Bryce, CG. Victoria, Habicht, JP., RE Black, RW Scherpnier; MCEIMCI
Technical Advisors, Programmatic pathways to child survival:
results of a multi-country evaluation of Integrated Management of
Childhood Illness. Health Policy and Planning, vol. 20, suppl. 1, pp. i5-
i17. 2005.
[11] J. Bryce, S. el Arifeen, G. Pariyo, C. Lanaa, D. Gwatkin, J. Habicht,
Reducing child mortality: can public health deliver? Lancet, vol. 362,
no. 9378, pp. 159-164. 2003.
[12] B. DeRenzi, N. Lesh, T. Parikh, et al., E-IMCI: Improving pediatric
health care in low-income countries, In Proc. of the SIGCHI conference
on human factors in computing systems, 753-762. 2008.
[13] T. Adam, F. Manzi, JA. Schellenberg, L. Mgalula, D. de Savigny, DB
Evans, “Does the Integrated Management of Childhood Illness cost
more than routine care? Results from the United Republic of Tanzania,”
Bulletin of the World Health Organization, vol.83, no. 5.pp, 369-377.
[14] HM Admed, M. Mitchell, B. Hedt. National implementation of
Integrated Management of Childhood Illness (IMCI): Policy constraints
and strategies. Health Policy, vol. 96, no.2. pp.128-133. 2010.
[15] M. Mitchell, M. Getchell, M. Nkaka, D. Msellemu J. Van Esch, B. Hedt-
Gauthier, “Perceived improvement in integrated management of
childhood illness implementation through use of mobile technology:
qualitative evidence from a pilot study in Tanzania,” Journal of Health
Communication, Vol. 13, sup 1, pp. 118-127. 2012.
[16] C. Gronroos, “Service management: a management focus for service
competition,” International Journal of Service Industry Management,
vol. 1, no. 1, pp. 6-14, 1990.
[17] E. Gummesson, “Relationship marketing and a new economy: it’s time
for de-programming,” Journal of Services Marketing, vol. 16, no. 7, pp.
585-589. 2002.
[18] B. O’Flaherty, S. Woodworth, C, Thornton, Y. O’Connor Y. “An
Exploration of Customer-Centric Cloud Service Design”. In: Helfert M,
and Donnellan B, ed. Design Science: Perspectives from Europe.
Springer International Publishing, vol. 388, pp. 99-111.2013.
[19] I. Sim, P. Gorman, R. Greenes, BR. Haynes, B. Kaplan, H. Lehmann,
PC. Tang, “Clinical Decision Support Systems for the Practice of
Evidence-based Medicine”, Journal of the American Medical
Informatics Association, vol. 8, no. 6, pp. 527-534. 2001.
[20] AX. Garg, N. Adhikari, H. McDonald, et al., “Effects of computerized
clinical decision support systems on practitioner performance and
patient outcomes. A systematic review,” Journal of the American
Medical Association, vol. 293, no. 10, pp. 1223-1238. 2009.
[21] C. McGowan, RG. Neville, IW. Ricketts, FC. Warner, G. Hoskins, GE.
Thomas, “Lessons from a randomized controlled trial designed to
evaluate computer decision support software to improve the
management of asthma,” Medical Informatics and Internet in Medicine,
vol. 26, no. 3, pp. 191-201. 2001.
[22] A. Zarabzadeh, J. O’Donoghue, Y. O’Connor, T. O’Kane, S.
Woodworth, G. Gallagher, S. O’Connor, “Variations in health care
providers’ perceptions: decision making based on patient vital signs,”
Journal of Decision Systems, vol. 22, no. 3, pp. 168-189. 2013.
[23] D.L. Hunt, R.B. Haynes, S.E. Hanna, K. Smith, “Effects of Computer-
Based Clinical Decision Support Systems on Physician Performance and
Patient Outcomes. A Systematic Review,” Journal of the American
Medical Association, vol. 280, no.15, pp. 1339-1346. 1998.
[24] SS. Intille, “Ubiquitous computing technology for just-in-time
motivation of behavior change”, In Proc. of Medinfo, vol. 11, pp. 1434-
1437. 2004.
[25] GL. Shostack, “How to design a service,” European Journal of
Marketing, vol. 16, no. 1, pp. 49-63. 1982.
[26] MJ. Bitner, AL. Ostrom, F. Morgan F. “Service blueprinting: a practical
technique for service innovation,” California Management Review, vol.
50, no. 3, pp. 66-94. 2008.
@article{"International Journal of Medical, Medicine and Health Sciences:71333", author = "Y. O’Connor and C. Heavin and S. O’ Connor and J. Gallagher and J. Wu and J. O’Donoghue", title = "Service Blueprint for Improving Clinical Guideline Adherence via Mobile Health Technology", abstract = "Background: To improve the delivery of paediatric
healthcare in low resource settings, Community Health Workers
(CHW) have been provided with a paper-based set of protocols
known as Community Case Management (CCM). Yet research has
shown that CHW adherence to CCM guidelines is poor, ultimately
impacting health service delivery. Digitising the CCM guidelines via
mobile technology is argued in extant literature to improve CHW
adherence. However, little research exist which outlines how (a) this
process can be digitised and (b) adherence could be improved as a
result. Aim: To explore how an electronic mobile version of CCM
(eCCM) can overcome issues associated with the paper-based CCM
protocol (inadequate adherence to guidelines) vis-à-vis service
blueprinting. This service blueprint will outline how (a) the CCM
process can be digitised using mobile Clinical Decision Support
Systems software to support clinical decision-making and (b)
adherence can be improved as a result. Method: Development of a
single service blueprint for a standalone application which visually
depicts the service processes (eCCM) when supporting the CHWs,
using an application known as Supporting LIFE (SL eCCM app) as
an exemplar. Results: A service blueprint is developed which
illustrates how the SL eCCM app can be utilised by CHWs to assist
with the delivery of healthcare services to children. Leveraging
smartphone technologies can (a) provide CHWs with just-in-time
data to assist with their decision making at the point-of-care and (b)
improve CHW adherence to CCM guidelines. Conclusions: The
development of the eCCM opens up opportunities for the CHWs to
leverage the inherent benefit of mobile devices to assist them with
health service delivery in rural settings. To ensure that benefits are
achieved, it is imperative to comprehend the functionality and form
of the eCCM service process. By creating such a service blueprint for
an eCCM approach, CHWs are provided with a clear picture
regarding the role of the eCCM solution, often resulting in buy-in
from the end-users.", keywords = "Adherence, community health workers, developing
countries, mobile clinical decision support systems, CDSS, service
blueprint.", volume = "9", number = "11", pages = "776-5", }
