Top

Published in:

2023 | OriginalPaper | Chapter

Digital Twins and Healthcare: Quick Overview and Human-Centric Perspectives

Authors : Giacinto Barresi, Andrea Gaggioli, Federico Sternini, Alice Ravizza, Claudio Pacchierotti, Lorenzo De Michieli

Published in: mHealth and Human-Centered Design Towards Enhanced Health, Care, and Well-being

Publisher: Springer Nature Singapore

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Digital Twins constitute a class of innovative data-intensive network-based computing solutions based on real-time interactive simulations of physical systems—Physical Twins—in multiple domains, representing and predicting the states of complex systems (from bacteria to cities). However, the variety of Digital Twins proposed in literature makes it difficult to shape a general definition for this class of computational tools (possibly merging with phygital systems). On the other hand, this is a sign of the versatility of Digital Twins, in both their own capability to solve heterogeneous problems in real world and to inspire novel approaches to handle the uncertainty in complex systems. Such advantages are also explored in fields like healthcare, especially considering domains of Digital Health and mHealth. Indeed, major efforts in research are pushing the methodological and technological boundaries of biomedical sciences, translational research, and precision medicine. Such efforts should be pursued for implementing Digital Twins helping, for instance, the human-centric optimization of the resources allocation in healthcare settings (hospitals, homes, and cities). This chapter will present the opportunity and the ethical issues of using these systems for foreseeing the future states of a person or a population (a need that certainly was highlighted during the COVID-19 pandemic) or a system including a medical device and its user.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Wirtschaft"

Online-Abonnement

Mit Springer Professional "Wirtschaft" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 340 Zeitschriften

aus folgenden Fachgebieten:

Bauwesen + Immobilien
Business IT + Informatik
Finance + Banking
Management + Führung
Marketing + Vertrieb
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

previous chapter Data Uncertainty and m-Health Interaction Design for Aging People

next chapter mHealth for Well-Being: Case Studies in Physiological, Cognitive, and Affective Sensing

McGregor, I.: The relationship between simulation and emulation. In: Proceedings of the Winter Simulation Conference, IEEE, pp 1683–1688 (2002)

Hsu, Y., Chiu, J.-M., Liu, J.S.: Digital twins for industry 4.0 and beyond. In: 2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM), IEEE, pp 526–530 (2019)

Bagaria, N., Laamarti, F., Badawi, H.F., Albraikan, A., Martinez Velazquez, R.A., El Saddik, A.: Health 4.0: digital twins for health and well-being. In: Connected Health in Smart Cities, pp. 143–152. Springer (2020)

Phanden, R.K., Sharma, P., Dubey, A.: A review on simulation in digital twin for aerospace, manufacturing and robotics. Mater. Today: Proc. 38, 174–178 (2021)

Juarez, M.G., Botti, V.J., Giret, A.S.: Digital twins: review and challenges. J. Comput. Inf. Sci. Eng. 21(3) (2021)

Ritto, T., Rochinha, F.: Digital twin, physics-based model, and machine learning applied to damage detection in structures. Mech. Syst. Signal Process. 155, 107614 (2021)CrossRef

Allam, Z., Bibri, S.E., Jones, D.S., Chabaud, D., Moreno, C.: Unpacking the ‘15-Minute City’via 6G, IoT, and digital twins: towards a new narrative for increasing urban efficiency, resilience, and sustainability. Sensors 22(4), 1369 (2022)CrossRef

Jiang, J., Tobia, M., Lawther, R., Branchaud, D., Bednarz, T.: Double vision: digital twin applications within extended reality. In: ACM SIGGRAPH 2020 Appy Hour, pp. 1–2 (2020)

Coorey, G., Figtree, G.A., Fletcher, D.F., Redfern, J.: The health digital twin: advancing precision cardiovascular medicine. Nat. Rev. Cardiol. 18(12), 803–804 (2021)CrossRef

10.

Li, X., Liu, H., Wang, W., Zheng, Y., Lv, H., Lv, Z.: Big data analysis of the internet of things in the digital twins of smart city based on deep learning. Futur. Gener. Comput. Syst. 128, 167–177 (2022)CrossRef

11.

Ahmadi-Assalemi, G., Al-Khateeb, H., Maple, C., Epiphaniou, G., Alhaboby, Z.A., Alkaabi, S., Alhaboby, D.: Digital twins for precision healthcare. In: Cyber Defence in the Age of AI, Smart Societies and Augmented Humanity. Springer, pp 133–158 (2020)

12.

Evjemo, L.D., Gjerstad, T., Grøtli, E.I., Sziebig, G.: Trends in smart manufacturing: role of humans and industrial robots in smart factories. Curr. Robot. Rep. 1(2), 35–41 (2020)CrossRef

13.

Yang, D., Karimi, H.R., Kaynak, O., Yin, S.: Developments of digital twin technologies in industrial, smart city and healthcare sectors: a survey. Complex Eng. Syst. 1(1), 3 (2021)

14.

Guo, J., Lv, Z.: Application of digital twins in multiple fields. Multim. Tools Appl. 1–27 (2022)

15.

Qiu, C., Zhou, S., Liu, Z., Gao, Q., Tan, J.: Digital assembly technology based on augmented reality and digital twins: a review. Virtual Real. Intell. Hardw. 1(6), 597–610 (2019)CrossRef

16.

Jeršov, S., Tepljakov, A.: Digital twins in extended reality for control system applications. In: 2020 43rd International Conference on Telecommunications and Signal Processing (TSP). IEEE, pp 274–279 (2020)

17.

Madhavan, S., Beckman, R.A., McCoy, M.D., Pishvaian, M.J., Brody, J.R., Macklin, P.: Envisioning the future of precision oncology trials. Nat. Cancer 2(1), 9–11 (2021)CrossRef

18.

Grieves, M., Vickers, J.: Digital twin: mitigating unpredictable, undesirable emergent behavior in complex systems. In: Transdisciplinary perspectives on complex systems. Springer, pp. 85–113 (2017)

19.

Shafto, M., Conroy, M., Doyle, R., Glaessgen, E., Kemp, C., LeMoigne, J., Wang, L.: Modeling, simulation, information technology & processing roadmap. Natl. Aeronaut. Space Adm. 32(2012), 1–38 (2012)

20.

Jones, D., Snider, C., Nassehi, A., Yon, J., Hicks, B.: Characterising the digital twin: a systematic literature review. CIRP J. Manuf. Sci. Technol. 29, 36–52 (2020)CrossRef

21.

Singh, M., Fuenmayor, E., Hinchy, E.P., Qiao, Y., Murray, N., Devine, D.: Digital twin: origin to future. Appl. Syst. Innov. 4(2), 36 (2021)CrossRef

22.

Kuehner, K.J., Scheer, R., Strassburger, S.: Digital twin: finding common ground—A meta-review. Procedia CIRP 104, 1227–1232 (2021)CrossRef

23.

Rossmann, A., Hertweck, D.: Digital twins: a meta-review on their conceptualization, application, and reference architecture

24.

Fuller, A., Fan, Z., Day, C., Barlow, C.: Digital twin: enabling technologies, challenges and open research. IEEE Access 8, 108952–108971 (2020)CrossRef

25.

Barresi, G., Pacchierotti, C., Laffranchi, M., De Michieli, L.: Beyond digital twins: phygital twins for neuroergonomics in human-robot interaction. Front. Neurorobot. 138 (2022)

26.

Kritzinger, W., Karner, M., Traar, G., Henjes, J., Sihn, W.: Digital twin in manufacturing: a categorical literature review and classification. IFAC-PapersOnLine 51(11), 1016–1022 (2018)CrossRef

27.

Semeraro, C., Lezoche, M., Panetto, H., Dassisti, M.: Digital twin paradigm: a systematic literature review. Comput. Ind. 130, 103469 (2021)CrossRef

28.

Van der Valk, H., Haße, H., Möller, F., Arbter, M., Henning, J.-L., Otto, B.: A taxonomy of digital Twins. In: AMCIS (2020)

29.

Gichane, M.M., Byiringiro, J.B., Chesang, A.K., Nyaga, P.M., Langat, R.K., Smajic, H., Kiiru, C.W.: Digital triplet approach for real-time monitoring and control of an elevator security system. Designs 4(2), 9 (2020)CrossRef

30.

Umeda, Y., Ota, J., Kojima, F., Saito, M., Matsuzawa, H., Sukekawa, T., Takeuchi, A., Makida, K., Shirafuji, S.: Development of an education program for digital manufacturing system engineers based on ‘Digital Triplet’concept. Procedia Manuf. 31, 363–369 (2019)CrossRef

31.

Khan, L.U., Saad, W., Niyato, D., Han, Z., Hong, C.S.: Digital-twin-enabled 6G: vision, architectural trends, and future directions. IEEE Commun. Mag. 60(1), 74–80 (2022)CrossRef

32.

Liu, Y., Ong, S, Nee, A.: State-of-the-art survey on digital twin implementations. Adv. Manuf. 1–23 (2022)

33.

Barricelli, B.R., Casiraghi, E., Fogli, D.: A survey on digital twin: definitions, characteristics, applications, and design implications. IEEE Access 7, 167653–167671 (2019)CrossRef

34.

Groshev, M., Guimarães, C., Martín-Pérez, J., de la Oliva, A.: Toward intelligent cyber-physical systems: digital twin meets artificial intelligence. IEEE Commun. Mag. 59(8), 14–20 (2021)CrossRef

35.

Wang, T., Li, J., Deng, Y., Wang, C., Snoussi, H., Tao, F.: Digital twin for human-machine interaction with convolutional neural network. Int. J. Comput. Integr. Manuf. 34(7–8), 888–897 (2021)CrossRef

36.

Czwick, C., Anderl, R.: Cyber-physical twins-definition, conception and benefit. Procedia CIRP 90, 584–588 (2020)CrossRef

37.

Haag, S., Anderl, R.: Digital twin–Proof of concept. Manuf. Lett. 15, 64–66 (2018)CrossRef

38.

Burghardt, A., Szybicki, D., Gierlak, P., Kurc, K., Pietruś, P., Cygan, R.: Programming of industrial robots using virtual reality and digital twins. Appl. Sci. 10(2), 486 (2020)CrossRef

39.

Pairet, È., Ardón, P., Liu, X., Lopes, J., Hastie, H., Lohan, K.S.: A digital twin for human-robot interaction. In: 2019 14th ACM/IEEE International Conference on Human-Robot Interaction (HRI). IEEE, pp 372–372 (2019)

40.

Ravichandar, H., Polydoros, A.S., Chernova, S., Billard, A.: Recent advances in robot learning from demonstration. Ann. Rev. Contr., Robot. Auton. Syst. 3, 297–330 (2020)CrossRef

41.

Tao, F., Zhang, M.: Digital twin shop-floor: a new shop-floor paradigm towards smart manufacturing. IEEE Access 5, 20418–20427 (2017)CrossRef

42.

Malik, A.A., Bilberg, A.: Digital twins of human robot collaboration in a production setting. Procedia Manuf. 17, 278–285 (2018)CrossRef

43.

Fagherazzi, G.: Deep digital phenotyping and digital twins for precision health: time to dig deeper. J. Med. Internet Res. 22(3), e16770 (2020)CrossRef

44.

Booyse, W., Wilke, D.N., Heyns, S.: Deep digital twins for detection, diagnostics and prognostics. Mech. Syst. Signal Process. 140, 106612 (2020)CrossRef

45.

Elkefi, S., Asan, O.: Digital twins for managing health care systems: rapid literature review. J. Med. Internet Res. 24(8), e37641 (2022)CrossRef

46.

Paul, G., Abele, N.D., Kluth, K.: A review and qualitative meta-analysis of digital human modeling and cyber-physical-systems in ergonomics 4.0. IISE Trans. Occup. Ergon. Human Factors 1–13 (2021)

47.

Lonsdale, H., Gray, G.M., Ahumada, L.M., Yates, H.M., Varughese, A., Rehman, M.A.: The perioperative human digital twin. Anesth. Analg. 134(4), 885–892 (2022)CrossRef

48.

Laubenbacher, R., Sluka, J.P., Glazier, J.A.: Using digital twins in viral infection. Science 371(6534), 1105–1106 (2021)CrossRef

49.

Milne-Ives, M., Fraser, L.K., Khan, A., Walker, D., van Velthoven, M.H., May, J., Wolfe, I., Harding, T., Meinert, E.: Life course digital twins-intelligent monitoring for early and continuous intervention and prevention (LifeTIME): proposal for a retrospective cohort study. JMIR Res. Protoc. 11(5), e35738 (2022)CrossRef

50.

Subramanian, K.: Digital twin for drug discovery and development—The virtual liver. J. Indian Inst. Sci. 100(4), 653–662 (2020)CrossRef

51.

Schwartz, S.M., Wildenhaus, K., Bucher, A., Byrd, B.: Digital twins and the emerging science of self: Implications for digital health experience design and “small” data. Front. Comput. Sci. 2, 31 (2020)CrossRef

52.

Lal, A., Li, G., Cubro, E., Chalmers, S., Li, H., Herasevich, V., Dong, Y., Pickering, B.W., Kilickaya, O., Gajic, O.: Development and verification of a digital twin patient model to predict specific treatment response during the first 24 hours of sepsis. Crit. Care Explor. 2(11) (2020)

53.

Erol, T., Mendi, A.F., Doğan, D.: The digital twin revolution in healthcare. In: 2020 4th International Symposium on Multidisciplinary Studies and Innovative Technologies (ISMSIT), IEEE, pp. 1–7 (2020)

54.

Voigt, I., Inojosa, H., Dillenseger, A., Haase, R., Akgün, K., Ziemssen, T.: Digital twins for multiple sclerosis. Front. Immunol. 12, 1556 (2021)CrossRef

55.

Ahmed, H., Devoto, L.: The potential of a digital twin in surgery. Surg. Innov. 28(4), 509–510 (2021)CrossRef

56.

Tai, Y., Zhang, L., Li, Q., Zhu, C., Chang, V., Rodrigues, J.J., Guizani, M.: Digital twin-enabled IoMT system for surgical simulation using rAC-GAN. IEEE Internet Things J. (2022)

57.

Bjelland, Ø., Rasheed, B., Schaathun, H.G., Pedersen, M.D., Steinert, M., Hellevik, A.I., Bye, R.T.: Towards a digital twin for arthroscopic knee surgery: a systematic review. IEEE Access (2022)

58.

Golse, N., Joly, F., Combari, P., Lewin, M., Nicolas, Q., Audebert, C., Samuel, D., Allard, M.-A., Cunha, A.S., Castaing, D.: Predicting the risk of post-hepatectomy portal hypertension using a digital twin: a clinical proof of concept. J. Hepatol. 74(3), 661–669 (2021)CrossRef

59.

Garbey, M., Joerger, G., Furr, S.: Application of digital twin and heuristic computer reasoning to workflow management: gastroenterology outpatient centers study (2022). medRxiv

60.

Kalozoumis, P.G., Marino, M., Carniel, E.L., Lakovidis, D.K.: Towards the development of a digital twin for endoscopic medical device testing. In: Digital Twins for Digital Transformation: Innovation in Industry, pp. 113–145. Springer (2022)

61.

Croatti, A., Gabellini, M., Montagna, S., Ricci, A.: On the integration of agents and digital twins in healthcare. J. Med. Syst. 44(9), 1–8 (2020)CrossRef

62.

Patrone, C., Galli, G., Revetria, R.: A state of the art of digital twin and simulation supported by data mining in the healthcare sector. In: Advancing Technology Industrialization Through Intelligent Software Methodologies, Tools and Techniques, pp. 605–615 (2019)

63.

Faleiro, R., Pan, L., Pokhrel, S.R., Doss, R.: Digital twin for cybersecurity: towards enhancing cyber resilience. In: International Conference on Broadband Communications, Networks and Systems, pp. 57–76. Springer (2021)

64.

Cicirelli, F., Guerrieri, A., Mastroianni, C., Vinci, A.: Emerging internet of things solutions and technologies. Electronics 10, 1928 (2021). Note: MDPI stays neutral with regard to jurisdictional claims in published

65.

Karakra, A., Fontanili, F., Lamine, E., Lamothe, J.: HospiT'Win: a predictive simulation-based digital twin for patients pathways in hospital. In: 2019 IEEE EMBS International Conference on Biomedical & Health Informatics (BHI), IEEE, pp. 1–4 (2019)

66.

Zhao, Z., Shen, L., Yang, C., Wu, W., Zhang, M., Huang, G.Q.: IoT and digital twin enabled smart tracking for safety management. Comput. Oper. Res. 128, 105183 (2021)MathSciNetMATHCrossRef

67.

Liu, Y., Zhang, L., Yang, Y., Zhou, L., Ren, L., Wang, F., Liu, R., Pang, Z., Deen, M.J.: A novel cloud-based framework for the elderly healthcare services using digital twin. IEEE Access 7, 49088–49101 (2019)CrossRef

68.

Pilati, F., Tronconi, R., Nollo, G., Heragu, S.S., Zerzer, F.: Digital twin of COVID-19 mass vaccination centers. Sustainability 13(13), 7396 (2021)CrossRef

69.

Barresi, G., Zenzeri, J., Tessadori, J., Laffranchi, M., Semprini, M., Michieli, L.D.: Neuro-gerontechnologies: applications and opportunities. In: Internet of Things for Human-Centered Design, pp 123–153. Springer (2022)

70.

Petrushin, A., Freddolini, M., Barresi, G., Bustreo, M., Laffranchi, M., Bue, A.D., Michieli, L.D.: IoT-Powered monitoring systems for geriatric healthcare: overview. In: Internet of Things for Human-Centered Design, pp. 99–122 (2022)

71.

Ackerman, M.J., Filart, R., Burgess, L.P., Lee, I., Poropatich, R.K.: Developing next-generation telehealth tools and technologies: patients, systems, and data perspectives. Telemed. e-Health 16(1), 93–95 (2010)CrossRef

72.

Tröbinger, M., Costinescu, A., Xing, H., Elsner, J., Hu, T., Naceri, A., Figueredo, L., Jensen, E., Burschka, D., Haddadin, S.: A dual doctor-patient twin paradigm for transparent remote examination, diagnosis, and rehabilitation. In: 2021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). IEEE, pp. 2933–2940 (2021)

73.

Benis, A., Tamburis, O., Chronaki, C., Moen, A.: One digital health: a unified framework for future health ecosystems. J. Med. Internet Res. 23(2), e22189 (2021)CrossRef

74.

Rodríguez-Aguilar, R., Marmolejo-Saucedo, J.-A.: Conceptual framework of digital health public emergency system: digital twins and multiparadigm simulation. EAI Endors. Trans. Pervasive Health Technol. 6(21), e3–e3 (2020)CrossRef

75.

Laaki, H., Miche, Y., Tammi, K.: Prototyping a digital twin for real time remote control over mobile networks: application of remote surgery. IEEE Access 7, 20325–20336 (2019)CrossRef

76.

Taylor, L., Dibb, B.: Exploring users and non-users views of the digital twin on a mHealth app: a thematic, qualitative approach. Cogent Psychol. 9(1), 2079802 (2022)CrossRef

77.

Behm-Morawitz, E.: Mirrored selves: The influence of self-presence in a virtual world on health, appearance, and well-being. Comput. Hum. Behav. 29(1), 119–128 (2013)CrossRef

78.

Fox, J., Bailenson, J.N., Tricase, L.: The embodiment of sexualized virtual selves: the Proteus effect and experiences of self-objectification via avatars. Comput. Hum. Behav. 29(3), 930–938 (2013)CrossRef

79.

Wrzesien, M., Rodríguez, A., Rey, B., Alcañiz, M., Baños, R.M., Vara, M.D.: How the physical similarity of avatars can influence the learning of emotion regulation strategies in teenagers. Comput. Hum. Behav. 43, 101–111 (2015)CrossRef

80.

Horne, M., Hill, A., Murells, T., Ugail, H., Chinnadorai, R., Hardy, M.: Using avatars in weight management settings: a systematic review. Internet Interv. 19, 100295 (2020)CrossRef

81.

Kim, Y., Sundar, S.S.: Visualizing ideal self vs. actual self through avatars: impact on preventive health outcomes. Comput. Human Behav. 28(4), 1356–1364 (2012)

82.

Matsangidou, M., Otkhmezuri, B., Ang, C.S., Avraamides, M., Riva, G., Gaggioli, A., Iosif, D., Karekla, M.: “Now i can see me” designing a multi-user virtual reality remote psychotherapy for body weight and shape concerns. Human-Comput. Interact. 37(4), 314–340 (2022)CrossRef

83.

Blut, M., Wang, C., Wünderlich, N.V., Brock, C.: Understanding anthropomorphism in service provision: a meta-analysis of physical robots, chatbots, and other AI. J. Acad. Mark. Sci. 49(4), 632–658 (2021)CrossRef

84.

Godfrey, S.B., Barresi, G.: Video games for positive aging: playfully engaging older adults. In: Internet of Things for Human-Centered Design, pp. 375–404. Springer (2022)

85.

Harichandran, A., Johansen, K.W., Jacobsen, E.L., Teizer, J.: A conceptual framework for construction safety training using dynamic virtual reality games and digital twins. In: ISARC. Proceedings of the International Symposium on Automation and Robotics in Construction. IAARC Publications, pp. 621–628 (2021)

86.

El Saddik, A., Badawi, H., Velazquez, R.A.M., Laamarti, F., Diaz, R.G., Bagaria, N., Arteaga-Falconi, J.S.: Dtwins: a digital twins ecosystem for health and well-being. IEEE COMSOC MMTC Commun. Front. 14, 39–43 (2019)

87.

Choukou, M.-A.: Sustainability of mHealth solutions for healthcare system strengthening. In: Digital Health, pp 171–189. Elsevier (2021)

88.

Corti, L., Afferni, P., Bertolaso, M.: Healthcare 4.0 and human-centric approach. MEDIC (2020)

89.

Afferni, P., Merone, M., Soda, P.: Hospital 4.0 and its innovation in methodologies and technologies. In: 2018 IEEE 31st International Symposium on Computer-Based Medical Systems (CBMS), IEEE, pp 333–338 (2018)

90.

Sarangi, S., Choudhury, S.B., Jain, P., Bhatt, P.V., Ramanath, S., Sharma, R., Srinivasu, P.: Development and deployment of a scalable IoT Framework for digital farming applications. In: 2018 IEEE Global Humanitarian Technology Conference (GHTC). IEEE, pp. 1–2 (2018)

91.

Gaggioli, A.: Phygital spaces: when atoms meet bits. Cyberpsychol. Behav. Soc. Netw. 20(12), 774–774 (2017)CrossRef

92.

Soloviov, E., Danilov, A.: The beginning of phygital world. South Asian J. Eng. Technol. 10 (2020)

93.

Gregory, D.: Healthcare Goes Digital: Designing for the Convergence of the Digital and Physical Environment—Implications for Design Professionals. SAGE Publications Sage CA, Los Angeles, CA (2022)

94.

Yoon, K., Kim, S.-K., Jeong, S.P., Choi, J.-H. Interfacing cyber and physical worlds: introduction to IEEE 2888 standards. In: 2021 IEEE International Conference on Intelligent Reality (ICIR). IEEE, pp 49–50 (2021)

95.

Frossard, L., Lloyd, D.: The future of bionic limbs. Res. Features 134, 74–77 (2021)

96.

Chen, D., Ottikkutti, S., Tahmasebi, K.N.: A mechatronics-twin framework based on Stewart platform for effective exploration of operational behaviors of prosthetic sockets with amputees. In: BIODEVICES-16th International Conference on Biomedical Electronics and Devices (2022)

97.

Pizzolato, C., Saxby, D.J., Palipana, D., Diamond, L.E., Barrett, R.S., Teng, Y.D., Lloyd, D.G.: Neuromusculoskeletal modeling-based prostheses for recovery after spinal cord injury. Front. Neurorobot. 97 (2019)

98.

Wright, J.M., Regele, O.B., Kourtis, L.C., Pszenny, S.M., Sirkar, R., Kovalchick, C., Jones, G.B.: Evolution of the digital biomarker ecosystem. Dig. Med. 3(4), 154 (2017)CrossRef

99.

Kwok, P.K., Yan, M., Qu, T., Lau, H.Y.: User acceptance of virtual reality technology for practicing digital twin-based crisis management. Int. J. Comput. Integr. Manuf. 34(7–8), 874–887 (2021)CrossRef

100.

Leo, C.G., Tumolo, M.R., Sabina, S., Colella, R., Recchia, V., Ponzini, G., Fotiadis, D.I., Bodini, A., Mincarone, P.: Health technology assessment for in silico medicine: social, ethical and legal aspects. Int. J. Environ. Res. Public Health 19(3), 1510 (2022)CrossRef

101.

Huang, P.-H., Kim, K.-H., Schermer, M.: Ethical issues of digital twins for personalized health care service: preliminary mapping study. J. Med. Internet Res. 24(1), e33081 (2022)CrossRef

102.

Nyholm, S.: Should a medical digital twin be viewed as an extension of the patient’s body? J. Med. Ethics 47(6), 401–402 (2021)CrossRef

103.

Bruynseels, K., Santoni de Sio, F., Van den Hoven, J.: Digital twins in health care: ethical implications of an emerging engineering paradigm. Front. Genet. 31 (2018)

104.

Braun, M.: Represent me: please! towards an ethics of digital twins in medicine. J. Med. Ethics 47(6), 394–400 (2021)CrossRef

105.

Nurgalieva, L., O’Callaghan, D., Doherty, G.: Security and privacy of mHealth applications: a scoping review. IEEE Access 8, 104247–104268 (2020)CrossRef

106.

Perno, M., Hvam, L., Haug, A.: Enablers and barriers to the implementation of digital twins in the process industry: a systematic literature review. In: 2020 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM). IEEE, pp 959–964 (2020)

107.

Yi, C., Park, S., Yang, C., Jiang, F., Ding, Z., Zhu, J., Liu, J.: Muscular human cybertwin for internet of everything: a pilot study. IEEE Trans. Ind. Inf. (2022)

Title: Digital Twins and Healthcare: Quick Overview and Human-Centric Perspectives
Authors: Giacinto Barresi
Andrea Gaggioli
Federico Sternini
Alice Ravizza
Claudio Pacchierotti
Lorenzo De Michieli
Publisher: Springer Nature Singapore
Book: mHealth and Human-Centered Design Towards Enhanced Health, Care, and Well-being
Print ISBN: 978-981-9939-88-6

Electronic ISBN: 978-981-9939-89-3

Copyright Year: 2023
DOI: https://doi.org/10.1007/978-981-99-3989-3_4

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Springer Professional "Wirtschaft"