Abstract
The Human Interface Technology Laboratory (HIT Lab) is a multi-disciplinary research and development lab whose work centers on novel approaches to human interface technology. Lab researchers represent a wide range of disciplines from across the University of Washington campus, including engineering, medicine, education, social sciences, architecture, and the design arts. We describe here a representative sampling of past and current HIT Lab research and development activities related to medicine, including virtual reality and augmented/mixed reality applications for direct patient therapy, tools for basic medical education and procedure training, novel approaches to medical image acquisition and display, and new visualization methods in medical informatics.
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Bagley S, Kelly B, Tunnicliffe N, Turnbull G, Walker JM (1991) The effect of visual cues on the gait of independently mobile Parkinson’s disease patients. Physiotherapy 77:415–420
Berg D, Raugi G, Gladstone H, Berkley J, Ganter M, Turkiyyah G (2001) Virtual reality simulators for dermatologic surgery: measuring their validity as a teaching tool. In: Proceedings of medicine meets virtual reality 2001, Newport Beach, CA
Berkley J, Weghorst S, Gladstone H, Raugi G, Berg D, Ganter M (1999) Banded matrix approach to finite element modeling for soft tissue simulation. Virtual Real 4:203–212
Berkley J, Oppenheimer P, Weghorst S, Berg D, Raugi G, Haynor D, Ganter M, Brooking C, Turkiyyah G (2000) Creating fast finite element models from medical images. In: Proceedings of medicine meets virtual reality 2000, Newport Beach, CA
Berkley J, Turkiyyah G, Berg D, Ganter M, Weghorst S (2004) Real-time finite element modeling for surgery simulation: an application to virtual suturing. IEEE Trans Vis Comput Graph 10(3):1–12
Billinghurst M, Kato H (1999) Collaborative mixed reality. In: Proceedings of international symposium on mixed reality (ISMR ‘99). Mixed reality—merging real and virtual worlds. Yokohama, Japan, pp 261–284
Billinghurst M, Kato H, Poupyrev I (2001) MagicBook: transitioning between reality and virtuality. Presented at CHI 2001, March 30–April 5, 2001, Seattle, WA
Bryant R, Seibel EJ, Lee CM, Schroder KE (2004) Low-cost wearable low vision aid using a handmade retinal light scanning microdisplay. J Soc Inf Disp 12(4):397
Campbell BD, Mete HO, Furness T, Weghorst S, Zabinsky Z (2008) Emergency response planning and training through interactive simulation and visualization with decision support. In: Proceedings of 2008 IEEE conference on technologies for homeland security. Boston, MA, pp 176–180
Carlin AS, Hoffman HG, Weghorst S (1997) Virtual reality and tactile augmentation in the treatment of spider phobia: a case study. Behav Res Ther 35:153–158
Difede J, Cukor J, Jayasinghe N, Patt I, Jedel S, Spielman L, Giosan C, Hoffman HG (2007) Virtual reality exposure therapy for the treatment of posttraumatic stress disorder following September 11, 2001. J Clin Psychiatry 68:1639–1647
Difede J, Hoffman HG (2002) Virtual reality exposure therapy for World Trade Center post traumatic stress disorder: a case report. Cyberpsychol Behav 5:529–536
Fauver M, Seibel EJ, Rahn JR, Meyer MG, Patten FW, Neumann T, Nelson AC (2005) Three-dimensional imaging of single isolated cell nuclei using optical projection tomography. Opt Express 13(11):4210–4223
Furness TA (1986) The super cockpit and human factors challenges. In: Ung M (ed) Proceedings of human factors society 30th annual meeting. Dayton, OH, pp 48–52
Furness T (1988) Harnessing virtual space. In: Proceedings of SID international symposium digest of technical papers. Playa del Rey, CA, pp 4–7
Garcia-Palacios A, Hoffman HG, Carlin C, Furness TAIII, Botella-Arbona C (2002) Virtual reality in the treatment of spider phobia: a controlled study. Behav Res Ther 40(9):983–993
Gillet A, Goodsell D, Sanner MF, Stoffler D, Weghorst S, Winn W, Olson AJ (2004) Computer-linked autofabricated 3D model for teaching structural biology. In: Proceedings of SIGGRAPH 2004, Los Angeles, CA
Hoffman HG (1998) Physically touching virtual objects using tactile augmentation enhances the realism of virtual environments. In: Proceedings of the IEEE virtual reality annual international symposium ‘98, Atlanta, GA. IEEE Computer Society, Los Alamitos, pp 59–63
Hoffman H (2004) Virtual-reality therapy. Sci Am
Hoffman HG, Doctor JN, Patterson DR, Carrougher GJ, Furness TAIII (2000) Use of virtual reality for adjunctive treatment of adolescent burn pain during wound care: a case report. Pain 85:305–309
Hoffman HG, Patterson DR, Carrougher GJ, Sharar S (2001) The effectiveness of virtual reality based pain control with multiple treatments. Clin J Pain 17:229–235
Hoffman HG, Garcia-Palacios A, Carlin C, Furness TA III, Botella-Arbona (2003a) Interfaces that heal: coupling real and virtual objects to cure spider phobia. Int J Hum Comput Interact 16:283–300
Hoffman HG, Garcia-Palacios A, Kapa VA, Beecher J, Sharar SR (2003b) Immersive virtual reality for reducing experimental ischemic pain. Int J Hum Comput Interact 15:469–486
Hoffman HG, Sharar SR, Coda B, Everett JJ, Ciol M, Richards T, Patterson DR (2004a) Manipulating presence influences the magnitude of virtual reality analgesia. Pain 111(1–2):162–168
Hoffman HG, Patterson DR, Magula J, Carrougher GJ, Zeltzer K, Dagadakis S, Sharar SR (2004b) Water-friendly virtual reality pain control during wound care. J Clin Psychol 60(2):189–195
Hoffman HG, Richards TL, Magula J, Seibel EJ, Hayes C, Mathis M, Sharar SR, Maravilla K (2004c) A magnet-friendly virtual reality fiberoptic image delivery system. Cyberpsychol Behav 6:645–648
Hoffman HG, Richards TL, Van Oostrom T, Coda BA, Jensen MP, Blough DK, Sharar SR (2007) The analgesic effects of opioids and immersive virtual reality distraction: evidence from subjective and functional brain imaging assessments. Anesth Analg 105:1776–1783
Hoffman HG, Patterson DR, Seibel E, Soltani M, Jewett-Leahy L, Sharar SR (2008) Virtual reality pain control during burn wound debridement in the hydrotank. Clin J Pain 24(4):299–304
Imai H (1996) Clinicophysiological features of akinesia. Eur Neurol 36(Suppl 1):9–12
Kaminsky TA, Dudgeon BJ, Billingsley FF, Mitchell PH, Weghorst SJ (2007) Virtual cues and functional mobility of people with Parkinson’s disease: a single-subject pilot study. J Rehabil Res Dev 44(3):437–448
Kaufman S, Poupyrev I, Miller E, Billinghurst M, Oppenheimer P, Weghorst S (1997) New interface metaphors for complex information space visualization: an ECG monitor object prototype. Stud Health Technol Inform 39:131–140
Lewis GN, Byblow WD, Walt SE (2000) Stride length regulation in Parkinson’s disease: the use of extrinsic, visual cues. Brain 123:2077–2090
Lindblad AJ, Turkiyyah GM, Weghorst SJ, Berg D (2006) Real-time finite element based virtual tissue cutting. Presented at MMVR 2006, 24–27 January 2006, Long Beach, CA
Maani C, Hoffman HG, DeSocio PA, Morrow M, Galin C, Magula J, Maiers A, Gaylord K (2008) Pain control during wound care for combat-related burn injuries using custom articulated arm mounted virtual reality goggles. J CyberTher Rehabil 1:193–198
Medina E, Chen Y, Weghorst S (2007) Understanding biochemistry with augmented reality. In: Montgomerie C, Seale J (eds) Proceedings of world conference on educational multimedia, hypermedia and telecommunications 2007. AACE, Chesapeake, pp 4235–4239
Mete HO, Zabinsky ZB (2007) Preparing for disasters: medical supply location and distribution. In: Proceedings of the INFORMS conference, Seattle, WA, 2007
Morris ME (2000) Movement disorders in people with Parkinson’s disease: a model for physical therapy. Phys Ther 80:578–597
Oppenheimer P, Gupta A, Weghorst S, Sweet R, Porter J (2001) The representation of blood flow in endourologic surgical simulations. In: Proceedings of medicine meets virtual reality 2001. Newport Beach, CA, pp 365–371
Pryor HL, Furness TA, Viirre E (1998) The virtual retinal display: a new display technology using scanned laser light. In: Proceedings of human factors and ergonomics society, 42nd annual meeting. Santa Monica, CA, pp 1570–1574
Riess T, Weghorst S (1995) Augmented reality in the treatment of Parkinson's disease. In: Proceedings of medicine meets virtual reality III, San Diego, CA, pp 298–302
Sankaranarayanan G, Weghorst S, Sanner MF, Gillet A, Olson AJ (2003) Role of haptics in teaching structural molecular biology. In: Proceedings of 11th international symposium on haptic interfaces for virtual environment and teleoperator systems, March 22–23, 2003. Los Angeles, CA, pp 363–266
Sanner MF (1999) Python: a programming language for software integration and development. J Mol Graph Model 17(1):57–61
Schowengerdt BT, Seibel EJ (2006) True 3D scanned voxel displays using single and multiple light sources. J Soc Inf Disp 14(2):135–143
Seibel EJ, Smithwick QYL (2002) Unique features of optical scanning, single fiber endoscopy. Lasers Surg Med 30(3):177–183
Seibel EJ, Smithwick QYJ, Brown CM, Reinhall PG (2001) Single fiber flexible endoscope: general design for small size, high resolution, and wide field of view. In: Proceedings of the SPIE, biomonitoring and endoscopy technologies, San Diego, CA, vol 4158, pp 29–39
Seibel EJ, Johnston RS, Melville CD (2006) A full-color scanning fiber endoscope. In: Gannot I (ed) Optical fibers and sensors for medical diagnostics and treatment applications. Proceedings of SPIE, vol 6083, pp 9–16
Seibel EJ, Carroll RE, Dominitz JA, Johnston RS, Melville CD, Lee CM, Seitz SM, Kimmey MB (2008) Tethered-capsule endoscopy, a low-cost and high-performance alternative technology for the screening of esophageal cancer and Barrett’s esophagus. IEEE Trans Biomed Eng 55(3):1032–1042
Steele E, Grimmer K, Thomas B, Mulley B, Fulton I, Hoffman H (2003) Virtual reality as a pediatric pain modulation technique: a case study. Cyberpsychol Behav 6:633–638
Sweet RM, Oppenheimer P, Porter J, Hendrickson D, Gupta A, Weghorst S (2002) The simulation of bleeding in endoscopic procedures using virtual reality. J Endourol 16(7):451–455
Sweet RM, Kowalewski T, Oppenheimer P, Berkley J, Satava R, Weghorst S (2004) Validation of the UW TURP simulator as an assessment and training tool. J Urol 172(5 Pt 1):1953–1957
Weghorst S (2001) Augmented reality approaches to sensory rehabilitation. Presented at HCI International, New Orleans, LA, August 2001
Weghorst S, Prothero J, Furness TA III, Anson D, Riess T (1994) Virtual images in the treatment of Parkinson’s disease akinesia. In: Proceedings of medicine meets virtual reality II. San Diego, CA, pp 242–243
Weghorst S, Oppenheimer P, Kaufman S, Haynor D, Gifford J, Edmond C, Dunbar P, Billinghurst M, Poupyrev I, Miller E (1997) The LIMIT: a VR testbed for clinical interface design. In: Presented at Medicine Meets Virtual Reality, San Diego, CA, January 1997
Weiner WJ, Singer C (1989) Parkinson’s disease and nonpharmacologic treatment programs. J Am Geriatr Soc 37:359–363
Wright JL, Hoffman HG, Sweet RM (2005) Virtual reality as an adjunctive pain control during transurethral microwave thermotherapy. Urology 66:1320
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Weghorst, S., Seibel, E., Oppenheimer, P. et al. Medical interface research at the HIT Lab. Virtual Reality 12, 201–214 (2008). https://doi.org/10.1007/s10055-008-0107-9
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DOI: https://doi.org/10.1007/s10055-008-0107-9