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Citing this Article

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Published on 05.02.18 in Vol 6, No 2 (2018): February

This paper is in the following e-collection/theme issue:

Works citing "Patterns of Fitbit Use and Activity Levels Throughout a Physical Activity Intervention: Exploratory Analysis from a Randomized Controlled Trial"

Sheri J Hartman, Sandahl H Nelson, Lauren S Weiner

JMIR Mhealth Uhealth 2018 (Feb 05); 6(2):e29 

According to Crossref, the following articles are citing this article (DOI 10.2196/mhealth.8503):

(note that this is only a small subset of citations)

  1. Jung M, Ha Y. Effectiveness of a Workplace Walking Program Using a Fitness Tracker Including Individual Counseling and Tailored Text Messaging. Journal of Korean Academy of Community Health Nursing 2019;30(3):257
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    CrossRef
  3. Signal NEJ, McLaren R, Rashid U, Vandal A, King M, Almesfer F, Henderson J, Taylor D. Haptic Nudges Increase Affected Upper Limb Movement During Inpatient Stroke Rehabilitation: Multiple-Period Randomized Crossover Study. JMIR mHealth and uHealth 2020;8(7):e17036
    CrossRef
  4. Klasnja P, Rosenberg DE, Zhou J, Anau J, Gupta A, Arterburn DE. A quality-improvement optimization pilot of BariFit, a mobile health intervention to promote physical activity after bariatric surgery. Translational Behavioral Medicine 2021;11(2):530
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  5. Jin D, Halvari H, Maehle N, Olafsen AH. Self-tracking behaviour in physical activity: a systematic review of drivers and outcomes of fitness tracking. Behaviour & Information Technology 2022;41(2):242
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  6. Singh B, Spence RR, Sandler CX, Tanner J, Hayes SC. Feasibility and effect of a physical activity counselling session with or without provision of an activity tracker on maintenance of physical activity in women with breast cancer — A randomised controlled trial. Journal of Science and Medicine in Sport 2020;23(3):283
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  7. Cheung Y, Hsueh P, Ensari I, Willey J, Diaz K. Quantile Coarsening Analysis of High-Volume Wearable Activity Data in a Longitudinal Observational Study. Sensors 2018;18(9):3056
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  8. Wu HS, Gal R, van Sleeuwen NC, Brombacher AC, IJsselsteijn WA, May AM, Monninkhof EM. Breast Cancer Survivors’ Experiences With an Activity Tracker Integrated Into a Supervised Exercise Program: Qualitative Study. JMIR mHealth and uHealth 2019;7(2):e10820
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  9. Lee S, Ha Y, Jung M, Yang S, Kang W. The Effects of a Mobile Wellness Intervention with Fitbit Use and Goal Setting for Workers. Telemedicine and e-Health 2019;25(11):1115
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  10. Tong HL, Coiera E, Tong W, Wang Y, Quiroz JC, Martin P, Laranjo L. Efficacy of a Mobile Social Networking Intervention in Promoting Physical Activity: Quasi-Experimental Study. JMIR mHealth and uHealth 2019;7(3):e12181
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  11. Brickwood K, Williams AD, Watson G, O’Brien J. Older adults’ experiences of using a wearable activity tracker with health professional feedback over a 12-month randomised controlled trial. DIGITAL HEALTH 2020;6:205520762092167
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  12. Olsen HM, Brown WJ, Kolbe-Alexander T, Burton NW. A Brief Self-Directed Intervention to Reduce Office Employees’ Sedentary Behavior in a Flexible Workplace. Journal of Occupational & Environmental Medicine 2018;60(10):954
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  13. Heinemann M, Welker SG, Li JQ, Wintergerst MWM, Turski GN, Turski CA, Terheyden JH, Mauschitz MM, Holz FG, Finger RP, Tsai D. Impact of visual impairment on physical activity in early and late age-related macular degeneration. PLOS ONE 2019;14(10):e0222045
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  14. Dreher N, Hadeler EK, Hartman SJ, Wong EC, Acerbi I, Rugo HS, Majure MC, Chien AJ, Esserman LJ, Melisko ME. Fitbit Usage in Patients With Breast Cancer Undergoing Chemotherapy. Clinical Breast Cancer 2019;19(6):443
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  15. Müller AM, Wang NX, Yao J, Tan CS, Low ICC, Lim N, Tan J, Tan A, Müller-Riemenschneider F. Heart Rate Measures From Wrist-Worn Activity Trackers in a Laboratory and Free-Living Setting: Validation Study. JMIR mHealth and uHealth 2019;7(10):e14120
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  16. Wu J, Ho T, Chang Y, Hsu C, Tsai CJ, Lai F, Lin M. Wearable-Based Mobile Health App in Gastric Cancer Patients for Postoperative Physical Activity Monitoring: Focus Group Study. JMIR mHealth and uHealth 2019;7(4):e11989
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  17. Phillips SM, Courneya KS, Welch WA, Gavin KL, Cottrell A, Nielsen A, Solk P, Blanch-Hartigan D, Cella D, Ackermann RT, Spring B, Penedo F. Breast cancer survivors’ preferences for mHealth physical activity interventions: findings from a mixed methods study. Journal of Cancer Survivorship 2019;13(2):292
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  18. Sharaievska I, Battista RA, Zwetsloot J. Use of Physical Activity Monitoring Devices by Families in Rural Communities: Qualitative Approach. JMIR Pediatrics and Parenting 2019;2(1):e10658
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  19. . The Adaptive Behavioral Components (ABC) Model for Planning Longitudinal Behavioral Technology-Based Health Interventions: A Theoretical Framework. Journal of Medical Internet Research 2020;22(6):e15563
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  20. Edney S, Bogomolova S, Ryan J, Olds T, Sanders I, Maher C. Creating Engaging Health Promotion Campaigns on Social Media: Observations and Lessons From Fitbit and Garmin. Journal of Medical Internet Research 2018;20(12):e10911
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  21. Somayaji D, Blok AC, Hayman LL, Colson Y, Jaklisch M, Cooley ME. Enhancing behavioral change among lung cancer survivors participating in a lifestyle risk reduction intervention: a qualitative study. Supportive Care in Cancer 2019;27(4):1299
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  22. MCNEIL J, BRENNER DR, STONE CR, O’REILLY R, RUAN Y, VALLANCE JK, COURNEYA KS, THORPE KE, KLEIN DJ, FRIEDENREICH CM. Activity Tracker to Prescribe Various Exercise Intensities in Breast Cancer Survivors. Medicine & Science in Sports & Exercise 2019;51(5):930
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  23. Gavin KL, Welch WA, Conroy DE, Kozey-Keadle S, Pellegrini C, Cottrell A, Nielsen A, Solk P, Siddique J, Phillips SM. Sedentary behavior after breast cancer: motivational, demographic, disease, and health status correlates of sitting time in breast cancer survivors. Cancer Causes & Control 2019;30(6):569
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  24. Chia GLC, Anderson A, McLean LA. Behavior Change Techniques Incorporated in Fitness Trackers: Content Analysis. JMIR mHealth and uHealth 2019;7(7):e12768
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  25. Hardcastle SJ, Jiménez-Castuera R, Maxwell-Smith C, Bulsara MK, Hince D, Bergman P. Fitbit wear-time and patterns of activity in cancer survivors throughout a physical activity intervention and follow-up: Exploratory analysis from a randomised controlled trial. PLOS ONE 2020;15(10):e0240967
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  26. Rubin DS, Rich Severin , Arena R, Bond S. Leveraging technology to move more and sit less. Progress in Cardiovascular Diseases 2021;64:55
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  27. Hartman SJ, Weiner LS, Natarajan L, Sears DD, Palmer BW, Parker B, Ahles T, Irwin ML, Au K. A randomized trial of physical activity for cognitive functioning in breast cancer survivors: Rationale and study design of I Can! Improving Cognition After Cancer. Contemporary Clinical Trials 2021;102:106289
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  28. Claudel SE, Tamura K, Troendle J, Andrews MR, Ceasar JN, Mitchell VM, Vijayakumar N, Powell-Wiley TM. Comparing Methods to Identify Wear-Time Intervals for Physical Activity With the Fitbit Charge 2. Journal of Aging and Physical Activity 2021;29(3):529
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  29. Peng W, Li L, Kononova A, Cotten S, Kamp K, Bowen M. Habit Formation in Wearable Activity Tracker Use Among Older Adults: Qualitative Study. JMIR mHealth and uHealth 2021;9(1):e22488
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  30. Rayward AT, Vandelanotte C, Van Itallie A, Duncan MJ. The Association Between Logging Steps Using a Website, App, or Fitbit and Engaging With the 10,000 Steps Physical Activity Program: Observational Study. Journal of Medical Internet Research 2021;23(6):e22151
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  31. McNeil J, Fahim M, Stone CR, O’Reilly R, Courneya KS, Friedenreich CM. Adherence to a lower versus higher intensity physical activity intervention in the Breast Cancer & Physical Activity Level (BC-PAL) Trial. Journal of Cancer Survivorship 2022;16(2):353
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  32. Nezami BT, Valle CG, Nulty AK, Espeland M, Wing RR, Tate DF. Predictors and Outcomes of Digital Weighing and Activity Tracking Lapses Among Young Adults During Weight Gain Prevention. Obesity 2021;29(4):698
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  33. Hogan JM, Grant G, Kelly FS, O’Hare JR. A time in motion study of impact of robotics on medication supply in an Australian hospital pharmacy. Journal of Pharmacy Practice and Research 2021;51(2):129
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  34. O’Loughlin EK, Sabiston CM, deJonge ML, Lucibello KM, O’Loughlin JL. Associations among physical activity tracking, physical activity motivation and level of physical activity in young adults. Journal of Health Psychology 2022;27(8):1833
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  35. Joseph RP, Ainsworth BE, Hollingshead K, Todd M, Keller C. Results of a Culturally Tailored Smartphone-Delivered Physical Activity Intervention Among Midlife African American Women: Feasibility Trial. JMIR mHealth and uHealth 2021;9(4):e27383
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  36. Blount DS, McDonough DJ, Gao Z. Effect of Wearable Technology-Based Physical Activity Interventions on Breast Cancer Survivors’ Physiological, Cognitive, and Emotional Outcomes: A Systematic Review. Journal of Clinical Medicine 2021;10(9):2015
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  37. Östlind E, Sant’Anna A, Eek F, Stigmar K, Ekvall Hansson E. Physical activity patterns, adherence to using a wearable activity tracker during a 12-week period and correlation between self-reported function and physical activity in working age individuals with hip and/or knee osteoarthritis. BMC Musculoskeletal Disorders 2021;22(1)
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  38. Orstad SL, Gerchow L, Patel NR, Reddy M, Hernandez C, Wilson DK, Jay M. Defining Valid Activity Monitor Data: A Multimethod Analysis of Weight-Loss Intervention Participants’ Barriers to Wear and First 100 Days of Physical Activity. Informatics 2021;8(2):39
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  39. Creaser AV, Clemes SA, Costa S, Hall J, Ridgers ND, Barber SE, Bingham DD. The Acceptability, Feasibility, and Effectiveness of Wearable Activity Trackers for Increasing Physical Activity in Children and Adolescents: A Systematic Review. International Journal of Environmental Research and Public Health 2021;18(12):6211
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  40. Di Blasio A, Morano T, Lancia F, Viscioni G, Di Iorio A, Grossi S, Cianchetti E, Cugusi L, Gobbo S, Bergamin M, D’Eugenio A, Masini L, Rinaldi M, Scognamiglio MT, Vamvakis A, Napolitano G. Effects of Activity Tracker-Based Counselling and Live-Web Exercise on Breast Cancer Survivors during Italy COVID-19 Lockdown. Journal of Functional Morphology and Kinesiology 2021;6(2):50
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  41. Papasideris M, Ayaz H, Safati AB, Morita PP, Hall PA. Examining the relationships among adolescent health behaviours, prefrontal function, and academic achievement using fNIRS. Developmental Cognitive Neuroscience 2021;50:100983
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  42. LESKINEN T, SUORSA K, TUOMINEN M, PULAKKA A, PENTTI J, LÖYTTYNIEMI E, HEINONEN I, VAHTERA J, STENHOLM S. The Effect of Consumer-based Activity Tracker Intervention on Physical Activity among Recent Retirees—An RCT Study. Medicine & Science in Sports & Exercise 2021;53(8):1756
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  43. Ester M, Eisele M, Wurz A, McDonough MH, McNeely M, Culos-Reed SN. Current Evidence and Directions for Future Research in eHealth Physical Activity Interventions for Adults Affected by Cancer: Systematic Review. JMIR Cancer 2021;7(3):e28852
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  44. Ferrante JM, Lulla A, Williamson JD, Devine KA, Ohman-Strickland P, Bandera EV. Patterns of Fitbit Use and Activity Levels Among African American Breast Cancer Survivors During an eHealth Weight Loss Randomized Controlled Trial. American Journal of Health Promotion 2022;36(1):94
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  45. Abrantes AM, Van Noppen D, Bailey G, Uebelacker LA, Buman M, Stein MD. A feasibility study of a peer-facilitated physical activity intervention in methadone maintenance. Mental Health and Physical Activity 2021;21:100419
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  46. . Machine learning in medicine: It has arrived, let's embrace it. Journal of Cardiac Surgery 2021;36(11):4121
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  47. Östlind E, Ekvall Hansson E, Eek F, Stigmar K. Experiences of activity monitoring and perceptions of digital support among working individuals with hip and knee osteoarthritis – a focus group study. BMC Public Health 2022;22(1)
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  48. Ha Y, Lee S, Lee D, Kang Y, Choi W, An J. Effectiveness of a Mobile Wellness Program for Nurses with Rotating Shifts during COVID-19 Pandemic: A Pilot Cluster-Randomized Trial. International Journal of Environmental Research and Public Health 2022;19(2):1014
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  49. Hays Weeks CC, Moore AA, Allison M, Patrick K, Bondi MW, Nebeker C, Liu TT, Wing D, Higgins M, Hartman SJ, Rissman RA, Zlatar ZZ. The Independent Walking for Brain Health Intervention for Older Adults: Protocol for a Pilot Randomized Controlled Trial. JMIR Research Protocols 2023;12:e42980
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  50. Williamson Lewis R, Howell KE, Effinger KE, Meacham LR, Wasilewski-Masker K, Mertens A, Gilleland Marchak J. Feasibility of Fitbit Use in Adolescent Survivors of Pediatric Cancer: Who Consistently Uses It and for How Long?. Journal of Adolescent and Young Adult Oncology 2023;12(4):529
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  51. Rodríguez-Torres J, Calvache-Mateo A, Ortiz-Rubio A, Muñoz-Vigueras N, López-López L, Valenza MC. Uso de eSalud para promover la actividad física en los supervivientes de neoplasias torácicas: revisión sistemática y metaanálisis. Enfermería Clínica 2022;
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  52. Shah VV, Brumbach BH, Pearson S, Vasilyev P, King E, Carlson-Kuhta P, Mancini M, Horak FB, Sowalsky K, McNames J, El-Gohary M. Opal Actigraphy (Activity and Sleep) Measures Compared to ActiGraph: A Validation Study. Sensors 2023;23(4):2296
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  53. Grunberg VA, Greenberg J, Mace RA, Bakhshaie J, Choi KW, Vranceanu A. Fitbit Activity, Quota-Based Pacing, and Physical and Emotional Functioning Among Adults With Chronic Pain. The Journal of Pain 2022;23(11):1933
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  54. Moye R, Towns T, Skipper A, Rose D. Are Smartwatches Actually Used for Exercise? Evidence from HBCU Students. American Journal of Health Education 2022;53(4):219
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  55. Ha Y, Lee S, Lee S, Chae Y. The Effectiveness of a mHealth Program Using Wearable Devices and Health Coaching among Bus Drivers for Promoting Physical Activity. Journal of Korean Academy of Community Health Nursing 2022;33(3):332
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  56. Javdan M, Ghasemaghaei M, Abouzahra M. Psychological barriers of using wearable devices by seniors: A mixed-methods study. Computers in Human Behavior 2023;141:107615
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  57. Ajmera P, Miraj M, Kalra S, Goyal RK, Chorsiya V, Shaik RA, Alzhrani M, Alanazi A, Alqahtani M, Miraj SA, Pawaria S, Mehta V. Impact of telehealth interventions on physiological and psychological outcomes in breast cancer survivors: A meta-analysis of randomised controlled trials. Frontiers in Oncology 2023;12
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  58. Malhotra R, Rahimi S, Agarwal U, Katz R, Kumar U, Garimella PS, Gupta V, Chopra T, Kotanko P, Ikizler TA, Larsen B, Cadmus-Bertram L, Ix JH. The Impact of a Wearable Activity Tracker and Structured Feedback Program on Physical Activity in Hemodialysis Patients: The Step4Life Pilot Randomized Controlled Trial. American Journal of Kidney Diseases 2023;82(1):75
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  59. Aguiar M, Trujillo M, Chaves D, Álvarez R, Epelde G. mHealth Apps Using Behavior Change Techniques to Self-report Data: Systematic Review. JMIR mHealth and uHealth 2022;10(9):e33247
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  60. Di Blasio A, Morano T, Lancia F, Viscioni G, Di Iorio A, Grossi S, Cianchetti E, Pippi R, Gobbo S, Bergamin M, D’eugenio A, Masini L, Rinaldi M, Grassadonia A, Vamvakis A, Napolitano G. Effects of activity tracker-based counselling and live-web exercise on breast cancer survivors’ sleep and waking time during Italy’s COVID-19 lockdown. Home Health Care Services Quarterly 2022;41(1):1
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  61. Kanai M, Izawa KP, Kubo H, Nozoe M, Shimada S. Objectively measured physical activity was not associated with neighborhood walkability attributes in community-dwelling patients with stroke. Scientific Reports 2022;12(1)
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  62. Joseph RP, Todd M, Ainsworth BE, Vega-López S, Adams MA, Hollingshead K, Hooker SP, Gaesser GA, Keller C. Smart Walk: A Culturally Tailored Smartphone-Delivered Physical Activity Intervention for Cardiometabolic Risk Reduction among African American Women. International Journal of Environmental Research and Public Health 2023;20(2):1000
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  63. Brannon GE, Ray M, Cho P, Baum M, Beg MS, Bevers T, Schembre SM, Basen-Engquist K, Liao Y. A qualitative study to explore the acceptability and usefulness of personalized biofeedback to motivate physical activity in cancer survivors. DIGITAL HEALTH 2022;8:205520762211290
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  64. Hartman SJ, Chen R, Tam RM, Narayan HK, Natarajan L, Liu L. Fitbit Use and Activity Levels From Intervention to 2 Years After: Secondary Analysis of a Randomized Controlled Trial. JMIR mHealth and uHealth 2022;10(6):e37086
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  65. Culos-Reed N, Wagoner CW, Dreger J, McNeely ML, Keats M, Santa Mina D, Cuthbert C, Capozzi LC, Francis GJ, Chen G, Ester M, McLaughlin E, Eisele M, Sibley D, Langley J, Chiekwe J, Christensen T. Implementing an exercise oncology model to reach rural and remote individuals living with and beyond cancer: a hybrid effectiveness-implementation protocol for project EXCEL (EXercise for Cancer to Enhance Living Well). BMJ Open 2022;12(12):e063953
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According to Crossref, the following books are citing this article (DOI 10.2196/mhealth.8503):

  1. Choukou M, (Katie) Zhu X, Malwade S, Dhar E, Abdul SS. Healthcare Information Management Systems. 2022. Chapter 19:301
    CrossRef