Uncommon music making: The functional roles of music in design for healthcare

Authors

  • Elif Özcan Critical Alarms Lab Delft University of Technology Erasmus Medical Center Rotterdam
  • Lois Frankel School of Industrial Design Carleton University
  • Jesse Stewart School for Studies in Art and Culture: Music Carleton University

DOI:

https://doi.org/10.47513/mmd.v11i4.707

Abstract

In this paper, we discuss some uncommon settings and roles for music, demonstrating how music can aid in the design and implementation of socially responsible healthcare products that are encouraging, inclusive, and sensitive to critical contexts. We review three music-inspired design cases (CareTunes: Musical Alarms for Critical Care, Music and Senior Exercise, and We Are All Musicians and the Adaptive Use Musical Instrument) in which the authors took part. The literature review and the analysis of the case studies provide us with the following insights: music enhances sensory experiences, facilitates physical engagement with the world, music can guide medical professionals in critical contexts, and music creates social cohesion. All of these projects demonstrate the importance of involving participants (users or performers) in the process to address their life experiences.  Thus, the use of music in design applications is experienced as a positive influence that can facilitate wellbeing for community members, persons with disabilities, medical patients, and healthcare professionals in the workplace. 

Author Biographies

Elif Özcan, Critical Alarms Lab Delft University of Technology Erasmus Medical Center Rotterdam

Elif Özcan (PhD) is the director of Critical Alarms Lab at Delft University of Technology and Erasmus Medical Center (NL) and aims to highlight the value of human-centered research and sound-driven innovations for critical care. 

Lois Frankel, School of Industrial Design Carleton University

Lois Frankel (PhD)is an Associate Professor and past Director of the School of Industrial Design, Carleton University. Her human-centred design research applies a sensory anthropology perspective in the areas of design for ageing and disability, interaction design, sensory aspects of design, and user experience design. In addition, her Sense-It! Research team is developing tools for increasing awareness of multi-sensory factors for design.

Jesse Stewart, School for Studies in Art and Culture: Music Carleton University

Jesse Stewart (PhD) is an award-winning composer, percussionist, and researcher dedicated to reimagining the spaces between artistic and academic disciplines, and to promoting inclusive music making through research, performance, and scholarship.

References

Hallam, S. 2010. ‘‘The Power of Music: Its Impact on the Intellectual, Social and Personal Development of Children and Young People.’’ International Journal of Music Education 28: 269-289. doi:10.1177/0255761410370658.

Bilhartz, T. D., Bruhn, R.A., & Olson, J.E. (2000). The effect of early music training on child cognitive development. Journal of Applied Developmental Psychology, 20, 615–636.

Geoghegan, N., & Mitchelmore, M. (1996). Possible effects of early childhood music on mathematical achievement. Journal for Australian Research in Early Childhood Education, 1, 57–64.

Schäfer, T., Sedlmeier, P., Städtler, C., & Huron, D. (2013). The psychological functions of music listening. Frontiers in Psychology, 4, 511. http://doi.org/10.3389/fpsyg.2013.00511

Wong, P. C. M., Skoe, E., Russo, N. M., Dees, T., & Kraus, N. (2007). Musical experience shapes human brainstem encoding of linguistic pitch patterns. Nature Neuroscience, 10, 420–422.

Clift, S., Hancox, G., Staricoff, R., & Whitmore, C. (2008). Singing and health: A systematic mapping and review of non-clinical research. Sidney de Haan Research Centre for Arts and Health: Canterbury Christ Church University.

Juslin, P., & Västfjäll, D. (2008). Emotional responses to music: The need to consider underlying mechanisms. Behavioral and Brain Sciences, 31(5), 559-575.

Kellaris, J., & Kent, R. (1992). The influence of music on consumers' temporal perceptions: Does time fly when you're having fun? Journal of Consumer Psychology, 1(4), 365-376.

Lordier, L., Meskaldji, D. E., Grouiller, F., Pittet, M. P., Vollenweider, A., Vasung, L., ... & Hüppi, P. S. (2019). Music in premature infants enhances high-level cognitive brain networks. Proceedings of the National Academy of Sciences, 201817536.

DellaVolpe, J.D.; Huang, D.T. (2015). Is there a role for music in the ICU? Journal of Critical Care, 19, 17.

Uhlig, S.; Jaschke, A.; Scherder, E. (2013). Effects of music on emotion regulation: A systematic literature review. In Proceedings of the 3rd International Conference on Music & Emotion, Jyväskylä, Finland.

http://www.bbc.com/future/story/20180810-the-simple-change-that-can-save-patients-lives

Lazarus, R. S., & Folkman, S. (1984). Stress, appraisal, and coping. Springer.

Koelsch, & Siebel. (2005). Towards a neural basis of music perception. Trends in Cognitive Sciences, 9(12), 578-584.

van der Heijden, M. J., Araghi, S. O., van Dijk, M., Jeekel, J., & Hunink, M. M. (2015). The effects of perioperative music interventions in pediatric surgery: a systematic review and meta-analysis of randomized controlled trials. PloS one, 10(8), e0133608.

Sandstrom, G. M., & Russo, F. A. (2010). Music Hath Charms: The Effects of Valence and Arousal on Recovery Following an Acute Stressor. Music and Medicine, 2(3), 137-143.

Knight, W. E., & Rickard, N. S. (2001). Relaxing Music Prevents Stress-Induced Increases in Subjective Anxiety, Systolic Blood Pressure, and Heart Rate in Healthy Males and Females. Journal of Music Therapy, 38(4), 254-272.

Bensimon, M., Amir, D., & Wolf, Y. (2008). Drumming through trauma: Music therapy with post-traumatic soldiers. The Arts in Psychotherapy, 35(1), 34-48.

Carr, C., d’Ardenne, P., Sloboda, A., Scott, C., Wang, D., & Priebe, S. (2012). Group music therapy for patients with persistent post‐traumatic stress disorder–an exploratory randomized controlled trial with mixed methods evaluation. Psychology and Psychotherapy: Theory, Research and Practice, 85(2), 179-202.

Özcan, E., Birdja, D., Simonse, L., & Struijs, A. (2019). Alarm in the ICU! Envisioning patient monitoring and alarm management in future intensive care units. In Service Design and Service Thinking in Healthcare and Hospital Management(pp. 421-446). Springer, Cham.

Kristensen, M. S., Edworthy, J., & Özcan, E. (2016). Alarm fatigue in the ward: An acoustical problem?. SoundEffects-An Interdisciplinary Journal of Sound and Sound Experience, 6(1), 88-104.

Edmondson, D., Richardson, S., Falzon, L., Davidson, K. W., Mills, M. A., & Neria, Y. (2012). Posttraumatic stress disorder prevalence and risk of recurrence in acute coronary syndrome patients: A meta-analytic review. PLoS One, 7(6), e38915.

Griffiths, J., Fortune, G., Barber, V., & Young, J. D. (2007). The prevalence of post-traumatic stress disorder in survivors of ICU treatment: A systematic review. Intensive Care Medicine, 33(9), 1506–1518.

Tulloch, H., Greenman, P. S., & Tassé, V. (2014). Post-traumatic stress disorder among cardiac patients: Prevalence, risk factors, and considerations for assessment and treatment. Behavioral Science (Basel), 5(1), 27–40.

Cvach, M. (2012). Monitor alarm fatigue: An integrative review. Biomedical Instrumentation and Technology, 46(4), 268–277.

Drew, B. J., Harris, P., Zègre-Hemsey, J. K., Mammone, T., Schindler, D., Salas-Boni, R., et al. (2014). Insights into the problem of alarm fatigue with physiologic monitor devices: A comprehensive observational study of consecutive intensive care unit patients. PLoS One, 9(10), e110274.

Tsien, C. L., & Fackler, J. C. (1997). Poor prognosis for existing monitors in the intensive care unit. Critical Care Medicine, 25(4), 614–619.

Borowski, M., Görges, M., Fried, R., Such, O., Wrede, C., & Imhoff, M. (2011). Medical device alarms. Biomedizinische Technik, 56, 73–83.

Graham, K. C., & Cvach, M. (2010). Monitor alarm fatigue: Standardizing use of physiological monitors and decreasing nuisance alarms. American Journal of Critical Care, 19(1), 28–34. https://doi.org/10.4037/ajcc2010651

Bogers, K. (2018). Care Tunes: Music as a Nurses’ Monitoring Tool. Master’s Thesis, Industrial Design Engineering; Delft University of Technology: Delft, The Netherlands.

Critical Alarms Lab: https://delftdesignlabs.org/criticalalarmslab/

Özcan, E., Birdja, D., & Edworthy, J. R. (2018). A Holistic and Collaborative Approach to Audible Alarm Design. Biomedical instrumentation & technology, 52(6), 422-432.

Kennedy, a. B., & Blair, S. N. (2014). Motivating People to Exercise. American Journal of Lifestyle Medicine, (c), 1559827614524135–. http://doi.org/10.1177/1559827614524135

Tenenbaum, G., Lidor, R., Lavyan, N., Morrow, K., Tonnel, S., Gershgoren, A., ... Johnson, M. (2004). The effect of music type on running perseverance and coping with effort sensations. Psychology of Sport and Exercise, 5(2), 89–109. http://doi.org/10.1016/S1469-0292(02)00041-9

Van Der Vlist, B., Bartneck, C., & Mäueler, S. (2011). moBeat: Using interactive music to guide and motivate users during aerobic exercising. Applied Psychophysiology Biofeedback, 36(2), 135–145. http://doi.org/10.1007/s10484-011-9149-y

Wongkee, A. (2016) Designing Responsive Music-making Devices: Creating Positive Exercise Experiences for Seniors (Master's thesis). Carleton University, Ottawa, Ontario, Canada.

Frankel, L. D. (2015) Sensory Insights for Design: A Sensory Anthropology Approach to Industrial Design. PhD thesis, Concordia University.

Seath, L., & Thow, M. (1995). The Effect of Music on the Perception of Effort and Mood During Aerobic Type Exercise. Physiotherapy, 81(10), 592–596.

Ferrier, A., Lewansdowski, B., Mackenzie-Haines, J., and Simla, L. (2017) Music for Motion Phase 1 Report, School of Industrial Design Carleton University, Canada.

Karageorghis, C. I., & Priest, D.-L. (2012). Music in the exercise domain: a review and synthesis (Part I). International Review of Sport and Exercise Psychology, 5(1), 44–66. http://doi.org/10.1080/1750984X.2011.631026

Bailey, B. (2005). Effects of group singing and performance for marginalized and middle-class singers. Psychology of Music, 33(3), 269–303. http://doi.org/10.1177/0305735605053734

Mackenzie-Haines, J. (2018). Music for Motion Phase 1 Phase 4 Report, School of Industrial Design Carleton University, Canada.

Lewandowski, B. (2018). Music for Motion Phase 1 Phase 4 Report, School of Industrial Design Carleton University, Canada.

Simla, L. (2018). Music for Motion Phase 1 Phase 4 Report, School of Industrial Design Carleton University, Canada.

Oliveros, Pauline, Leaf Miller, Jaclyn Heyen, Gillian Siddall, and Sergio Hazard. (2011) A musical improvisation interface for people with severe physical disabilities. Music and Medicine, 3(3): 172-181.

Parić, A. (2019). Biopsychological Effects Of Social Participation On Aging: The Role Of Identity-affirming Music And The Arts. PhD thesis, Carleton University.

Robb, Peter. (2019) Making music and building community in Saint-Vincent Hospital. Artsfile.

Devlin, A., & Arneill, A. (2003). Health Care Environments and Patient Outcomes: A Review of the Literature. Environment and Behavior, 35(5), 665-694.

Published

2019-10-23

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Full Length Articles