xRead - Olfactory Disorders (September 2023)

20426984, 2022, 4, Downloaded from https://onlinelibrary.wiley.com/doi/10.1002/alr.22929, Wiley Online Library on [04/09/2023]. See the Terms and Conditions (https://onlinelibrary.wiley.com/terms-and-conditions) on Wiley Online Library for rules of use; OA articles are governed by the applicable Creative Commons License

653

PATEL et al.

relation to olfactory bulb volume in patients with posttrau matic loss of smell. Laryngoscope . 2006;116:901–905. 1073. Yousem DM, Geckle RJ, Bilker WB, McKeown DA, Doty RL. Posttraumatic olfactory dysfunction: MR and clinical evalua tion. AJNR Am J Neuroradiol . 1996;17:1171–1179. 1074. Yousem DM, Geckle RJ, Bilker W, McKeown DA, Doty RL. MR evaluation of patients with congenital hyposmia or anosmia. AJR Am J Roentgenol . 1996;166:439–443. 1075. Moon WJ, Park M, Hwang M, Kim JK. Functional MRI as an objective measure of olfaction deficit in patients with traumatic anosmia. AJNR Am J Neuroradiol . 2018;39:2320– 2325. 1076. Han P, Winkler N, Hummel C, Hahner A, Gerber J, Hummel T. Impaired brain response to odors in patients with varied severity of olfactory loss after traumatic brain injury. JNeurol . 2018;265:2322–2332. 1077. Reichert JL, Postma EM, Smeets PAM, et al. Severity of olfac tory deficits is reflected in functional brain networks-An fMRI study. Hum Brain Mapp . 2018;39:3166–3177. 1078. Pellegrino R, Hahner A, Bojanowski V, Hummel C, Gerber J, Hummel T. Olfactory function in patients with hyposmia compared with he–lthy sub–ects - An fMRI study. Rhinology . 2016;54:374–381. 1079. Kollndorfer K, Fischmeister FP, Kowalczyk K, et al. Olfac tory training induces changes in regional functional connec tivity in patients with long-term smell loss. Neuroimage Clin . 2015;9:401–410. 1080. Yunpeng Z, Han P, Joshi A, Hummel T. Individual variability of olfactory fMRI in normosmia and olfactory dysfunction. Eur Arch Otorhinolaryngol . 2021;278:379–387. 1081. Peter MG, Fransson P, Martensson G, et al. Normal olfactory functional connectivity despite lifelong absence of olfactory experiences. Cereb Cortex . 2021;31:159–168. 1082. Park M, Chung J, Kim JK, Jeong Y, Moon WJ. Altered func tional brain networks in patients with traumatic anosmia: Resting-state functional MRI based on graph theoretical anal ysis. Korean J Radiol . 2019;20:1536–1545. 1083. Frasnelli J, Fark T, Lehmann J, Gerber J, Hummel T. Brain structure is changed in congenital anosmia. Neuroimage . 2013;83:1074–1080. 1084. Gellrich J, Han P, Manesse C, et al. Brain volume changes in hyposmic patients before and after olfactory training. Laryn goscope . 2018;128:1531–1536. 1085. Peng P, Gu H, Xiao W, et al. A voxel-based morphometry study of anosmic patients. Br JRadiol . 2013;86: 20130207. 1086. Bitter T, Bruderle J, Gudziol H, Burmeister HP, Gaser C, Guntinas-Lichius O. Gray and white matter reduction in hyposmic subjects—a voxel-based morphometry study. Brain Res . 2010;1347:42–47. 1087. Bitter T, Gudziol H, Burmeister HP, Mentzel HJ, Guntinas Lichius O, Gaser C. Anosmia leads to a loss of gray matter in cortical brain areas. Chem Senses . 2010;35:407– 415. 1088. Bitter T, Siegert F, Gudziol H, et al. Gray matter alterations in parosmia. Neuroscience . 2011;177:177–182. 1089. Tremblay C, Mei J, Frasnelli J. Olfactory bulb surround ings can help to distinguish Park’inson’s disease from non parkinsonian olfactory dysfunction. Neuroimage Clin .2020;28: 102457.

1057. Fokkens W, Lund VJ, Hopkins C, et al. European position paper on rhinosinustis and nasal polyps 2020. Rhinology . 2020;58(suppl S29): 1–164. 1058. Lötsch J, Reither N, Bogdanov V, et al. A brain-lesion pattern based algorithm for the diagnosis of posttraumatic olfactory loss. Rhinology . 2015;53:365–370. 1059. Ottaviano G’ Cantone’ E, D’Errico A, et al. Sn’iffin’ Sticks and olfactory system imaging in patients with Kallmann syn drome. Int Forum Allergy Rhinol . 2015;5:855–861. 1060. Huart C, Meusel T, Gerber J, Duprez T, Rombaux P, Hummel T. The depth of the olfactory sulcus is an indicator of congen ital anosmia. AJNR Am J Neuroradiol . 2011;32:1911–1914. 1061. Rombaux P, Potier H, Markessis E, Duprez T, Hummel T. Olfactory bulb volume and depth of olfactory sulcus in patients with idiopathic olfactory loss. Eur Arch Otorhinolaryngol . 2010;267:1551–1556. 1062. Atighechi S, Salari H, Baradarantar MH, Jafari R, Karimi G, Mirjali M. A comparative study of brain perfusion single photon emission computed tomography and magnetic reso nance imaging in patients with post-traumatic anosmia. Am J Rhinol Allergy . 2009;23:409–412. 1063. Goektas O, Fleiner F, Sedlmaier B, Bauknecht C. Correla tion of olfactory dysfunction of different etiologies in MRI and comparison with subjective and objective olfactometry. Eur J Radiol . 2009;71:469–473. 1064. Haehner A, Rodewald A, Gerber JC, Hummel T. Correla tion of olfactory function with changes in the volume of the human olfactory bulb. Arch Otolaryngol Head Neck Surg . 2008;134:621–624. 1065. AbdelBari Mattar M, El Adle H. Prognostic factors for olfac tory dysfunction in adult mild head trauma. World Neurosurg . 2020;141:e545–e52. 1066. Langdon C, Lehrer E, Berenguer J, et al. Olfactory train ing in post-traumatic smell impairment: mild improvement in threshold performances: Results from a randomized con trolled trial. J Neurotrauma . 2018;35:2641–2652. 1067. Shiga H, Taki J, Okuda K, et al. Prognostic value of olfactory nerve damage measured with thallium-based olfactory imag ing in patients with idiopathic olfactory dysfunction. Sci Rep . 2017;7:3581. 1068. Miao X, Yang L, Gu H, et al. Evaluation of post-traumatic anos mia with MRI and chemosensory ERPs. Eur Arch Otorhino laryngol . 2015;272:1945–1953. 1069. Levy LM, Degnan AJ, Sethi I, Henkin RI. Anatomic olfac tory structural abnormalities in congenital smell loss: mag netic resonance imaging evaluation of olfactory bulb, groove, sulcal, and hippocampal morphology. J Comput Assist Tomogr . 2013;37:650–657. 1070. Atighechi S, Zolfaghari A, Baradaranfar M, Dadgarnia M. Estimation of sensitivity and specificity of brain magnetic resonance imaging and single photon emission computed tomography in the diagnosis of olfactory dysfunction after head traumas. Am J Rhinol Allergy . 2013;27:403–406. 1071. Rombaux P, Huart C, Deggouj N, Duprez T, Hummel T. Prog nostic value of olfactory bulb volume measurement for recov ery in postinfectious and posttraumatic olfactory loss. Oto laryngol Head Neck Surg . 2012;147:1136–1141. 1072. Rombaux P, Mouraux A, Bertrand B, Nicolas G, Duprez T, Hummel T. Retronasal and orthonasal olfactory function in

Made with FlippingBook flipbook maker