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Human–Computer Interaction Volume 31, 2016 - Issue 3-4: Special Issue on Body Tracking and Healthcare
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Articles

Co-Interpreting Movement With Sensors: Assessing Parkinson’s Patients’ Deep Brain Stimulation Programming

Helena M. MentisUniversity of Maryland, Baltimore CountyView further author information
,
Rita ShewbridgeUniversity of Maryland, Baltimore County
,
Sharon PowellUniversity of MarylandSchool of Medicine
,
Melissa ArmstrongUniversity of MarylandSchool of Medicine
,
Paul FishmanUniversity of MarylandSchool of Medicine
&
Lisa ShulmanUniversity of MarylandSchool of Medicine
Pages 227-260 | Received 15 Nov 2014, Accepted 08 Jul 2015, Published online: 07 Nov 2015

REFERENCES

  • Aanestad, M. (2003). The camera as an actor Design-in-use of telemedicine infrastructure in surgery. Computer Supported Cooperative Work (CSCW), 12, 1–20. doi:10.1023/A:1022492210898
  • Alač, M. (2008). Working with brain scans: Digital images and gestural interaction in fMRI laboratory. Social Studies of Science, 38, 483–508. doi:10.1177/0306312708089715
  • Baston, C., Mancini, M., Schoneburg, B., Horak, F., & Rocchi, L. (2014). Postural strategies assessed with inertial sensors in healthy and Parkinsonian subjects. Gait & Posture, 40, 70–75. doi:10.1016/j.gaitpost.2014.02.012
  • Bonato, P., Sherrill, D. M., Standaert, D. G., Salles, S. S., & Akay, M. (2004). Data mining techniques to detect motor fluctuations in Parkinson’s disease. In Proceedings of the IEEE conference on engineering in medicine and biology society (Vol. 2, pp. 4766–4769). Hoboken, NJ: IEEE.
  • Büscher, M. (2005). Social life under the microscope. Sociological Research Online, 10(1).
  • El-Gohary, M., Pearson, S., Mcnames, J., Mancini, M., Horak, F., Mellone, S., & Chiari, L. (2014). Continuous monitoring of turning in patients with movement disability. Sensors, 14, 356–369. doi:10.3390/s140100356
  • Gabel, M., Renshaw, E., Schuster, A., & Gilad-Bachrach, R. (2012). Full body gait analysis with kinect. Proceedings of the IEEE 2012 Conference on Engineering in Medicine and Biology Society. Hoboken, NJ: IEEE.
  • Gallagher, S., & Zahavi, D. (2008). The phenomenological mind. New York, NY: Routledge.
  • Gaver, W. (2012). What should we expect from research through design? Proceedings of the CHI 2012 Conference on Human Factors in Computer Systems. New York, NY: ACM.
  • Ghika, J., Wiegner, A. W., Fang, J. J., Davies, L., Young, R. R., & Growdon, J. (1993). Portable system for quantifying motor abnormalities in Parkinson’s disease. IEEE Transactions on Biomedical Engineering, 40, 276–283. doi:10.1109/10.216411
  • Goodwin, C. (1994). Professional vision. American Anthropologist, 96, 606–633. doi:10.1525/aa.1994.96.issue-3
  • Gurwitsch, A. (2010). Some principles of gestalt psychology. In R. M. Zaner (Ed.), The collected works of Aron Gurwitsch (1901-1973) (pp. 85–148). Amsterdam, The Netherlands: Springer.
  • Heath, C., Hindmarsh, J., & Luff, P. (2010). Video in qualitative research. London: Sage.
  • Hirschauer, S. (1991). The manufacture of bodies in surgery. Social Studies of Science, 21, 279–319. doi:10.1177/030631291021002005
  • Hoff, J. I., van den Plas, A. A., Wagemans, E. A., & van Hilten, J. J. (2001). Accelerometric assessment of levodopa-induced dyskinesias in Parkinson’s disease. Movement Disorders, 16, 58–61. doi:10.1002/1531-8257(200101)16:1<58::AID-MDS1018>3.0.CO;2-9
  • Hogstel, M. O. (2001). Gerontology: Nursing care of the older adult. Albany: Delmar Thompson Learning.
  • Höök, K., & Löwgren, J. (2012). Strong concepts: Intermediate-level knowledge in interaction design research. Transactions on Computer-Human Interaction, 19, Article 23. doi:10.1145/2362364
  • Horak, F. B., & Mancini, M. (2013). Objective biomarkers of balance and gait for Parkinson’s disease using body worn sensors. Movement Disorders, 28, 1544–1551. doi:10.1002/mds.v28.11
  • Joyce, K. (2005). Appealing images: Magnetic resonance imaging and the production of authoritative knowledge. Social Studies of Science, 35, 437–462. doi:10.1177/0306312705050180
  • Kaplan, B. (1995). Objectification and negotiation in interpreting clinical images: Implications for computer-based patient records. Artificial Intelligence in Medicine, 7, 439–454. doi:10.1016/0933-3657(95)00014-W
  • Keijsers, N. L., Horstink, M. W., & Gielen, S. C. (2006). Ambulatory motor assessment in Parkinson’s disease. Movement Disorders, 21, 34–44. doi:10.1002/mds.20633
  • Keijsers, N. L., Horstink, M. W., van Hilten, J. J., Hoff, J. I., & Gielen, C. C. (2000). Detection and assessment of the severity of levodopa-induced dyskinesia in patients with Parkinson’s disease by neural networks. Movement Disorders, 15, 1104–1111. doi:10.1002/1531-8257(200011)15:6<>1.0.CO;2-D
  • Kim, J. W., Lee, J. H., Kwon, Y., Kim, C. S., Eom, G. M., Koh, S. B., … Park, K. W. (2010). Quantification of bradykinesia during clinical finger taps using a gyrosensor in patients with Parkinson’s disease. Medical & Biological Engineering & Computing, 49, 365–371. doi:10.1007/s11517-010-0697-8
  • Mentis, H. M., & Johansson, C. (2013). Seeing movement qualities. Proceedings of CHI 2013 Conference on Human Factors in Computer Systems. New York, NY: ACM.
  • Mentis, H. M., Shewbridge, R., Powell, S., Fishman, P., & Shulman, L. (2015). Being seen: Co-interpreting Parkinson’s patient’s movement ability in deep brain stimulation programming. Proceedings of CHI 2015 Conference on Human Factors in Computer Systems. New York, NY: ACM.
  • Mentis, H. M., & Taylor, A. (2013). Imaging the body: Embodied vision in minimally invasive surgery. Proceedings of CHI 2013 Conference on Human Factors in Computer Systems. New York, NY: ACM.
  • Mol, A. (2002). The body multiple: Ontology in medical practice. Durham, NC: Duke University Press.
  • Mol, A., & Law, J. (2004). Embodied action, enacted bodies: The example of hypoglycaemia. Body & Society, 10(2–3), 43–62. doi:10.1177/1357034X04042932
  • Morrison, C., Culmer, P., Mentis, H., & Pincus, T. (2014). Vision-based body tracking: Turning Kinect into a clinical tool. Disability and Rehabilitation: Assistive Technology. Advance online publication. doi:10.3109/17483107.2014.989419
  • Morrow, C. D., Smentkowski, K., Schwartz, S., Armstrong, M. J., Gruber-Baldini, A. L., Anderson, K. E., … Shulman, L. M. (2014). Does spouse participation influence quality of life reporting in patients with Parkinson’s disease? Quality of Life Research, 24(1), 245–249.
  • O’Brien, T. (2002). Neurodegenerative disease. In J. Addington Hall & I. Higginson (Eds.), Palliative care for non-cancer patients (pp. 44–95). Oxford, UK: Oxford University Press.
  • Patel, S., Sherrill, D. M., Hughes, R., Hester, T., Huggins, N., Lie-Nemeth, T. … Bonato, P. (2006). Analysis of the severity of dyskinesia in patients with Parkinson’s disease via wearable sensors. Paper presented at BSN2006 International Workshop Wearable Implantable Body Sensor Networks, Cambridge, MA.
  • Patrick, S. K., Denington, A. A., Gauthier, M. J. A., Gillard, D. M., & Prochazka, A. (2001). Quantification of the UPDRS rigidity scale. IEEE Transactions on Neural Systems and Rehabilitation Engineering, 9, 31–41. doi:10.1109/7333.918274
  • Peto, V., Jenkinson, C., Fitzpatrick, R., & Greenhall, R. (1995). The development and validation of a short measure of functioning and well being for individuals with Parkinson’s disease. Quality of Life Research, 4, 241–248. doi:10.1007/BF02260863
  • Pope, C. (2002). Contingency in everyday surgical work. Sociology of Health & Illness, 24, 369–384. doi:10.1111/1467-9566.00300
  • Prasad, A. (2005). Making images/making bodies: Visibilizing and disciplining through Magnetic Resonance Imaging (MRI). Science, Technology & Human Values, 30, 291–316. doi:10.1177/0162243904271758
  • Scheler, M. (1954). The nature of sympathy. London, UK: Routledge.
  • Schrag, A., Jahanshahi, M., & Quinn, N. (2000). What contributes to quality of life in patients with Parkinson’s disease. Journal of Neurology, Neurosurgery, and Psychiatry, 69, 308–312. doi:10.1136/jnnp.69.3.308
  • Scott, S. (2002). Understanding the challenge of Parkinson’s disease. Nursing Standard, 16, 48–53. doi:10.7748/ns2002.06.16.41.48.c3222
  • Searle, J. R. (2014). Seeing things as they are: A theory of perception. Oxford, UK: Oxford University Press.
  • Shusterman, R. (2008). Body consciousness: A philosophy of mindfulness and somaesthetics. Cambridge, UK: Cambridge University Press.
  • Spieker, S., Jentgens, C., Boose, A., & Dichgans, J. (1995). Reliability, specificity and sensitivity of long-term tremor recordings. Electroencephalography & Clinical Neurophysiology, 97, 326–331. doi:10.1016/0924-980X(95)00208-3
  • Stephenson, C. (2001). Major diseases: An overview. In M. Hogstel (Ed.), Gerontology: Nursing care of the older adult (pp. 287–288). Independence, KY: Delmar Cengage Learning.
  • Storni, C. (2009). The politics of design in Socio-technical dispositif. Reconciling healthcare toward a future patient-centric perspective. Proceedings of the IFIP 2009 Conference on Human Computer Interaction. Berlin, Germany: IFIP.
  • Thielgen, T., Foerster, F., Fuchs, G., Hornig, A., & Fahrenberg, J. (2004). Tremor in Parkinson’s disease: 24-hr monitoring with calibrated accelerometry. Electromyography and Clinical Neurophysiology, 44, 137–146.
  • Thomas, S., & MacMahon, D. (2004). Parkinson’s disease, palliative care and older people: Part 2. Nursing Older People, 16, 22–26.
  • Vongsathorn, L., O’Hara, K., & Mentis, H. M. (2013). Bodily interaction in the dark. Proceedings of the CHI 2013 Conference on Human Factors in Computer Systems. New York, NY: ACM.
  • Weiss, A., Herman, T., Giladi, N., & Hausdorff, J. M. (2014). Objective assessment of fall risk in Parkinson’s disease using a body-fixed sensor worn for 3 Days. PloS One, 9(5), e96675.
  • Weiss, A., Herman, T., Plotnik, M., Brozgol, M., Mai-dan, I., Giladi, N., … & Hausdorff, J. M. (2010). Can an accelerometer enhance the utility of the Timed Up & Go Test when evaluating patients with Parkinson’s disease? Medical Engineering & Physics, 32, 119–125.
  • Zimmerman, J., Forlizzi, J., & Evenson, S. (2007). Research through design as a method for interaction design research in HCI. Proceedings of the CHI 2007 Conference on Human Factors in Computer Systems. New York, NY: ACM.

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