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Clinical and non-clinical initial assessment of facial nerve paralysis: A qualitative review

Autorzy
Samsudin W. S. W. , Sundaraj K.
Wybrane pełne teksty z tego czasopisma
Identyfikatory
DOI
10.1016/j.bbe.2014.02.005
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper illustrates a brief review of some clinical and non-clinical methods to evaluate the facial nerve function in facial paralysis cases. A rigorous search of online databases such as IEEE, Springer, Elsevier, ACM digital library, Wiley online library, and Pub Med was conducted from January, 2012 to August, 2013 to discover and examine previous works on the field of facial treatment and rehabilitation. A brief introduction of facial nerve paralysis is provided. We examined the type of facial disorders, the number of subjects, and methods used to evaluate the facial nerve function. Different keywords were used to acquire the studies based on the desired criteria. A total of 80 articles were identified and were analysed for inclusion in this search. A brief discussion of both types of methods is presented. In conclusion, the review provides recommendations for further improvements.
Słowa kluczowe
EN
PL
Wydawca
Nałęcz Institute of Biocybernetics and Biomedical Engineering of the Polish Academy of Sciences
Elsevier
Czasopismo
Biocybernetics and Biomedical Engineering
Rocznik
2014
Tom
Vol. 34, no. 2
Strony
71--78
Opis fizyczny
Bibliogr. 80 poz., rys., tab.
Twórcy
autor
Samsudin W. S. W.
wansyahirahwsamsudin@yahoo.com; wansyahirahwsamsudin@gmail.com
  • AI-Rehab Research Group, Universiti Malaysia Perlis (UniMAP), Block B, Taman Pertiwi Indah, Jalan Kangar-Alor Setar, Seriab 01000 Kangar, Perlis, Malaysia
autor
Sundaraj K.
kenneth@unimap.edu.my
  • AI-Rehab Research Group, Universiti Malaysia Perlis (UniMAP), Kampus Pauh Putra, Perlis, Malaysia
Bibliografia
  • [1] Dunwald L. Using two- and three-dimensional kinematic analysis to compare functional outcomes in patients who have undergone facial reanimation surgery.[M.S. thesis] Edmonton, Alberta: Speech-Language Pathology and Audiology, Alberta University; 2010.
  • [2] Kecskés G. Current diagnostic, pharmaceutics and reconstructive surgical methods in the management of facial nerve palsy.[Ph.D. thesis] Szeged: Department of Otolaryngology. Head- and Neck Surgery, Szeged University; 2012.
  • [3] Schaitkin BM, May M. Reporting recovery of facial function. The facial nerve. May's second edition. New York: Thieme Medical Publisher, Inc; 2000. p. 275–99.
  • [4] Yen TL, Driscoll CL, Lalwani AK. Significance of House–Brackmann facial nerve grading global score in setting of differential facial nerve function. Otol Neurotol 2003;24 (1):118–22.
  • [5] Berg T, Jonsson L, Engstrom M. Agreement between the Sunnybrook: House Brackmann, and Yanagihara facial nerve grading system in Bell's palsy. Otol Neurotol 2004;25 (6):1020–6.
  • [6] Neely JG, Wang KX, Shapland CA, Sehizadeh A, Wang A. Computerized objective measurement of facial motion: normal variation and test–retest reliability. Otol Neurotol 2010;31(9):1488–92.
  • [7] Scriba H, Stoeckli SJ, Veraguth D, Pollak A, Fisch U. Objective evaluation of normal facial function. Ann Otol Rhinol Laryngol 1999;108(7 Pt 1):641–4.
  • [8] Sargent EW, Fadhli OA, Cohen RS. Measurement of facial movement with computer software. Arch Otolaryngol Head Neck Surg 1998;124(3):313–8.
  • [9] Sjogreen L, Andersson-Norinder J, Jacobson C. Development of speech: feeding, eating, and expression in Mobius sequence. Int J Pediatr Otorhinolaryngol 2001;60(3):197–204.
  • [10] Goldberg C, DeLorie R, Zuker RM, Mantkelow RT. The effects of gracilis muscle transplantation on speech in children with Moebius syndrome. J Craniofac Surg 2003;14(5):687–90.
  • [11] Pereira LM, Obara K, Dias JM, Menacho MO, Lavado EL, Cardoso JR. Facial exercise therapy for facial palsy: systematic review and meta-analysis. Clin Rehabil 2011;25(7):649–58.
  • [12] Pavlou E, Gkampeta A, Arampatzi M. Facial nerve palsy in childhood. Brain Dev 2011;33(8):644–50.
  • [13] Martyn CN, Hughes RA. Epidemiology of peripheral neuropathy. J Neurotol Neurosurg Psychiatry 1997;62 (4):310–8.
  • [14] Brach JS, VanSwearingen JM. Not all facial paralysis is Bell's palsy: a case report. Arch Phys Med Rehabil 1999;80(7):857–9.
  • [15] Singhi P, Jain V. Bell's palsy in children. Semin Pediatr Neurol 2003;10(4):289–97.
  • [16] Beurskens CH, Heymans PG. Mime therapy improves facial symmetry in people with long-term facial nerve paresis: a randomised controlled trial. Aust Physiother Assoc 2006;52(3):177–83.
  • [17] Steiner I, Mattan Y. Bell's palsy and herpes viruses: to (acyclo)vir or not to (acyclo)vir? J Neurol Sci 1999;170(1):19–23.
  • [18] Piercy J. Bell's palsy. BMJ 2005;330:1374.
  • [19] Benecke Jr JE. Facial paralysis. Otolaryngol Clin North Am 2002;35(2):357–65.
  • [20] Jackson CG, Doersten PG. The facial nerve. Current trends in diagnosis: treatment, and rehabilitation. Med Clin North Am 1999;83(1):179–95.
  • [21] Shaw M, Nazir F. Bell's palsy: a study of treatment advice given by neurologists. BMJ 2005;76(2):293–4.
  • [22] Tiemstra JD, Khatkhate N. Bell's palsy: diagnosis and management. Am Fam Phys 2007;76(7):997–1002.
  • [23] US Census Bureau. International Database [Online]; 2012 Available: http://www.census.gov/population/international/data/idb/ informationGateway.php.
  • [24] Kang TS, Vrabec JT, Giddings N, Terris DJ. Facial nerve grading systems (1985–2002): beyond the House– Brackmann scale. Otol Neurotol 2002;23(5):767–71.
  • [25] Ross BG, Fradet G, Nedzelski JM. Development of a sensitive clinical facial grading system. Otolaryngol Head Neck Surg 1996;114(3):380–6.
  • [26] Lewis BI, Adour KK. An analysis of the Adour–Swanson and House–Brackmann grading systems for facial nerve recovery. Eur Arch Otorhinolaryngol 1995;252(2):265–9.
  • [27] Kanerva M. Peripheral facial palsy – grading, etiology, and Melkersson–Rosenthal syndrome.[dissertation] Department of Otorhinolaryngology; 2008. p. 13.
  • [28] Bajaj-Luthra A, VanSwearingen J, Thornton RH, Johnson PC. Quantification of patterns of facial movement in patients with ocular to oral synkinesis. Plast Reconstr Surg 1998;101 (6):1473–80.
  • [29] Pourmomeny AA, Zadmehr H, Hossaini M. Measurement of facial movements with photoshop software during treatment of facial nerve palsy. J Res Med Sci 2011;16 (10):1313–8.
  • [30] Wang S, Li H, Qi F, Zhao Y. Objective facial paralysis grading based on Pface and eigenflow. Med Biol Eng Comp 2004;42 (5):598–603.
  • [31] Samsudin WSW, Sundaraj K. Review: evaluation and grading systems of facial paralysis for facial rehabilitation. J Phys Ther Sci 2013;25(4):515–9.
  • [32] Botman JW, Jongkees LB. The result of intratemporal treatment of facial palsy. Pract Otorhinolaryngol (Basel) 1955;17(2):80–100.
  • [33] House JW. Facial nerve grading systems. Laryngoscope 1983;93(8):1056–69.
  • [34] Dong J, Lin Y, Liu L. An approach to evaluation of degree of facial paralysis based on image processing and pattern recognition. J Inform Syst 2008;5(2):483–6.
  • [35] House JW, Brackmann DE. Facial nerve grading system. Otolaryngol Head Neck Surg 1985;93(2):146–7.
  • [36] Nishida T, Chen YW, Matsushiro N, Chihara K. An image based quantitative evaluation method for facial paralysis. Proc. Software Engineering and Data Mining (SEDM), 2nd International Conference, Jun 23–25 2010, Chendu, China; 2010.
  • [37] Chee Nedzelski JM. Facial nerve grading systems. Facial Plast Surg 2000;16(4):315–24.
  • [38] Hu WL, Ross B, Nedzelski J. Reliability of the Sunnybrook facial grading system by novice users. J Otolaryngol 2001;30 (4):208–11.
  • [39] Kayhan FT, Zurakowski D, Rauch SD. Toronto facial grading system: interobserver reliability. Otolaryngol Head Neck Surg 2000;122(2):212–5.
  • [40] Neely JG, Cherian NG, Dickerson CB, Nedzelski JM. Sunnybrook facial grading system: reliability and criteria for grading. Laryngoscope 2010;120(5):1038–45.
  • [41] Satoh Y, Kanzaki J, Yosjihara S. A comparison and conversion table of 'House–Brackmann facial nerve grading system' and 'the Yanagihara grading system'. Auris Nasus Larynx 2000;27(3):207–12.
  • [42] Stennert E, Limberg CH, Frentrup KP. An index for paresis and defective healing – an applied method for objectively determining therapeutic results in facial paralysis. HNO 1977;25(7):238–45.
  • [43] Burres SA. Facial biomechanics: the standard of normal. Laryngoscope 1985;95(6):708–14.
  • [44] Murty GE, Diver JP, Kelly PJ, O'Donoghue GM, Bradley PJ. The Nottingham system: objective assessment of facial nerve functions in the clinic. Otolaryngol Head Neck Surg 1994;110(2):156–61.
  • [45] Burres S, Fisch U. The comparison of facial grading systems. Arch Otolaryngol Head Neck Surg 1986;112(7):755–8.
  • [46] Croxson G, May M, Mester SJ. Grading facial nerve function: House–Brackmann vs Burres–Fisch. Am J Otol 1990; 11(4):240–6.
  • [47] Fields MJ, Peckitt NS. Facial nerve function index: a clinical measurement of facial nerve activity in patients with facial nerve palsies. Oral Surg Oral Med Oral Pathol 1990;69(6):681–2.
  • [48] Dulguerov P, Wang D, Perneger TV, Marchal F, Lehmann W. Videomimicography: the standards of normal revised. Arch Otolaryngol Head Neck Surg 2003;129(9):960–5.
  • [49] Delannoy JR, Ward TE. A preliminary investigation into theuse of machine vision techniques for automating facial paralysis rehabilitation therapy. Proc. IET Irish Signals and Systems Conference, June 23–24, 2010, Cork, Ireland (ISSC 2010); 2011.
  • [50] He S, Soraghan JJ, O'Reilly BF. Biomedical image sequence analysis with application to automatic quantitative assessment of facial paralysis. EURASIP J Image Video Process 2007;3:1–11.
  • [51] Otsu N. A threshold selection method from gray-level histogram. IEEE Trans Syst Man Cybern 1979;9(1):62–6.
  • [52] Maeda M, Yuen K, Iguti I. Evaluation of facial palsy by Moire' topography: a simplified method. Soc Pract Otolaryngol Supply 1993;64:60–5.
  • [53] Yuen K, Inokuchi I, Maeta M, Kawakami SI, Masuda Y. Evaluation of facial palsy by moiré topography index. Otolaryngol Head Neck Surg 1997;117(5):567–72.
  • [54] Mehta RP, Zhang S, Hadlock TA. Novel 3-D video for quantification of facial movement. Otolaryngol Head Neck Surg 2008;138(4):468–72.
  • [55] Sakaeda J, Tanaka T, Kunihiro T. Evaluation method of facial palsy using features from 3-dimensional construction. Proc. SICE-ICASE International Joint Conference, Oct 18–21, 2006, Busan, Korea (South); 2006.
  • [56] Johnson PC, Brown H, Kuzon WM, Balliet R, Garrison JL, Campbell J. Simultaneous quantification of facial movements: the maximal static response assay of facial nerve function. Ann Plast Surg 1994;32(2):171–4.
  • [57] Wachtman GS, Cohn JF, VanSwearingen JM, Manders EK. Automated tracking of facial features in patients with facial neuromuscular dysfunction. Plast Reconstr Surg 2001;107 (5):1124–33.
  • [58] Neely JG, Cheung JY, Wood M, Byers J, Rogerson A. Computerized quantitative dynamic analysis of facial motion in the paralyzed and synkinetic face. Am J Otol 1992;13(2):97–107.
  • [59] Neely JG, Joaquin AH, Kohn LA, Cheung JY. Quantitative assessment of the variation within grades of facial paralysis. Laryngoscope 1996;106(4):438–42.
  • [60] Liu L, Cheng G, Dong J, Wang S, Qu H, et al. Evaluation of facial paralysis degree based on regions. Proc 3rd International Conference on Knowledge Discovery and Data Mining (WKDD2010), Jan 09–10, 2010, Phukei, Thailand; 2010.
  • [61] Anguraj K, Padma S. Analysis of facial paralysis disease using image processing technique. Int J Comput Appl 2012;54(11):1–4.
  • [62] Dong J, Ma L, Li Q, Wang S, Liu L, Jian M. An approach for quantitative evaluation of the degree of facial paralysis based on salient point detection. Proc. Intelligent Information Technology Application Workshops (IITAW08) Dec 21–22, 2008, Shanghai, China; 2008.
  • [63] Gebhard A, Paulus D. Diagnosis support of patients with facial paresis; 2000.
  • [64] Cohn JF, Zlochower AJ, Lien J, Kanade T. Automated face analysis by feature point tracking has high concurrent validity with manual FACS coding. Psychophysiology 1999;36(1):35–43.
  • [65] Tanaka T, Nemoto J, Ohta M, Kunihiro T. The evaluation of facial palsy by amount of feature point movements at facial expressions. Proc. of 26th Annual International Conference of the IEEE EMBS San Francisco, Sept 1–5; 2004.
  • [66] Cootes T, Taylor CJ. Statistical models of appearance for computer vision.(Technical report) Manchester M13 9PT: Wolfson Image Analysis Unit. Imaging Science and Biomedical Engineering. University of Manchester; 2001 October.
  • [67] Isono M, Murata K, Tanaka H, Kawamoto M, Azuma H. An objective evaluation method for facial mimic motion. Otolaryngol Head Neck Surg 1996;114(1):27–31.
  • [68] He S, Soraghan JJ, O'Reilly BF, Xing D. Quantitative analysis of facial paralysis using local binary patterns in biomedical videos. IEEE Trans Biomed Eng 2009;56 (7):1864–70.
  • [69] Frey M, Giovanoli P, Gerber H, Slameczka M, Stüssi E. Three-dimensional video analysis of facial movements: a new method to assess the quantity and quality of the smile. Plast Reconstr Surg 1999;104(7):2032–9.
  • [70] Gunaratne P, Satoh Y. Objective evaluation of facial paralysis by asymmetry in expressions. Med Image Comput Comput Assist Interv – MICCAI 2003;2879:1–8.
  • [71] O'Grady KF, Antonyshyn OM. Facial asymmetry: three-dimensional analysis using laser surface scanning. Plast Reconstr Surg 1999;104(4):928–37.
  • [72] Tzou CH, Pona I, Placheta E, Hold A, Michaelidou M, Artner N, Kropatsch W, Gerber H, Frey M. Evolution of the 3-dimensional video system for facial motion analysis; ten years' experiences and recent developments. Ann Plast Surg 2012;69(2):173–85.
  • [73] Pourmomeni AA, Asiaei H, Mirshamsi M, Amirrajab S, Hasanzadeh A. Measurement of facial movements with photoshop software. Iran J Otorhinolaryngol 2010;22(59):15–20.
  • [74] Hadlock TA, Urban LS. Toward a universal: automated facial measurement tool in facial reanimation. Arch Facial Plast Surg 2012;14(4):277–82.
  • [75] Bajaj-Luthra A, Mueller T, Johnson PC. Quantitative analysis of facial motion components: anatomic and nonanatomic motion in normal persons and in patients with complete facial paralysis. Plast Reconstr Surg 1997;99 (7):1894–902.
  • [76] Hontanilla B, Aubá C. Automatic three-dimensional quantitative analysis for evaluation of facial movement. J Plastic Reconstr Aesthet Surg 2008;61(1):18–30.
  • [77] Tomat LR, Mantkelow RT. Evaluation of a new measurement tool for facial paralysis reconstruction. Plast Reconstr Surg 2005;115(3):696–704.
  • [78] Jorge JJ, Pialarissi PR, Borges GC, Squella SAF, Gouveia MF, Saragiotto JC, Goncalves VR. Objective computerized evaluation of normal patterns of facial muscles contraction. Braz J Otorhinolaryngol 2012;78(2):41–51.
  • [79] McGrenary S, O'Reilly BF, Soraghan JJ. Objective grading of facial paralysis using artificial intelligence analysis of video data. CBMS'05 Proc 18th IEEE Symposium on Computer-Based Medical Systems, IEEE Computer Society Washington, DC, USA; 2005.
  • [80] Sucar LE, Vargas A, Hidalgo JL, Martinez A, Leder RS, Hernandez J, et al. A prototype for automatic image analysis to quantify rehabilitation of chronic facial paralysis. Rev Mexicana Ingenieria Biomed 2004;25:109–13.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-003ec379-8fd8-4b87-90fe-fe27b581cb94
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