xRead - Nasal Obstruction (September 2024) Full Articles

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2459. Walker A, Hopkins C, Surda P. The use of google trends to investigate the loss of smell related searches during COVID-19 outbreak. Int Forum Allergy Rhinol . 2020;10(7):839-847. 2460. Lee IT, Nakayama T, Wu C-T, et al. Robust ACE2 protein expression localizes to the motile cilia of the respiratory tract epithelia and is not increased by ACE inhibitors or angiotensin receptor blockers. MedRxiv . 2020. 2461. Sharif-Askari FS, Sharif-Askari NS, Goel S, et al. Are patients with chronic rhinosinusitis with nasal polyps at a decreased risk of COVID-19 infection? Int Forum Allergy Rhi nol . 2020;10(10):1182-1185. 2462. Jian L, Yi W, Zhang N, et al. Perspective: COVID-19, Impli cations of nasal diseases and consequences for their manage ment. J Allergy Clin Immunol . 2020;146(1):67-69. 2463. Dhawale VS, Amara VR, Karpe PA, Malek V, Patel D, Tikoo K. Activation of angiotensin-converting enzyme 2 (ACE2) atten uates allergic airway inflammation in rat asthma model. Tox icol Appl Pharmacol . 2016;306:17-26. 2464. Ziegler CGK, Allon SJ, Nyquist SK, et al. SARS-CoV-2 recep tor ACE2 is an interferon-stimulated gene in human airway epithelial cells and is detected in specific cell subsets across tissues. Cell . 2020;181(5):1016-1035.e1019. 2465. Rameau A, Lee M, Enver N, Sulica L. Is office laryn goscopy an Aerosol-Generating procedure? Laryngoscope . 2020;130(11):2637-2642. 2466. Bleier BS, Welch KC. Preprocedural COVID-19 screening: do rhinologic patients carry a unique risk burden for false negative results? Int Forum Allergy Rhinol . 2020;10(10):1186 1188. 2467. DeConde AS, Yan CH, DeConde RP. In reply: navigating per sonal risk in rhinologic surgery during the COVID-19 pan demic. Int Forum Allergy Rhinol . 2020;10(10):1189-1190. 2468. Patel ZM, Fernandez-Miranda J, Hwang PH, et al. Precau tions for endoscopic transnasal skull base surgery during the COVID-19 pandemic. Neurosurgery . 2020;87(1):E66-E67. 2469. Sowerby LJ, Stephenson K, Dickie A, et al. International reg istry of otolaryngologist-head and neck surgeons with COVID 19. Int Forum Allergy Rhinol . 2020;10(11):1201-1208. 2470. Turner JH. Correspondence: international registry of otolaryngologist-head and neck surgeons with COVID-19. Int Forum Allergy Rhinol . 2020;10(12):1340-1341. 2471. Hunter E, Price DA, Murphy E, et al. First experience of COVID-19 screening of health-care workers in England. Lancet . 2020;395(10234):e77-e78. 2472. Lai X, Wang M, Qin C, et al. Coronavirus disease 2019 (COVID 2019) infection among health care workers and implications for prevention measures in a tertiary hospital in Wuhan, China. JAMA Network Open . 2020;3(5):e209666-e209666. 2473. Lombardi A, Consonni D, Carugno M, et al. Characteristics of 1573 healthcare workers who underwent nasopharyngeal swab testing for SARS-CoV-2 in Milan, Lombardy, Italy. Clin Microbiol Infect . 2020;26(10):1413.e9-1413.e13. 2474. Castelnuovo P, Turri-Zanoni M, Karligkiotis A, et al. Skull base surgery during the COVID-19 pandemic: the Italian Skull Base Society recommendations. Int Forum Allergy Rhinol . 2020;10(8):963-967. 2475. Tan KS, Yan Y, Ong HH, Chow VT, Shi L, Wang D-Y. Impact of respiratory virus infections in exacerbation of acute and chronic rhinosinusitis. Curr Allergy Asthma Rep . 2017;17(4):24.

2444. Miloshev B, Davidson CM, Gentles JC, Sandison AT. Aspergilloma of paranasal sinuses and orbit in Northern Sudanese. Lancet . 1966;1(7440):746-747. 2445. Mueller SK, Nocera AL, Dillon ST, et al. Noninvasive exosomal proteomic biosignatures, including cystatin SN, peroxiredoxin-5, and glycoprotein VI, accurately predict chronic rhinosinusitis with nasal polyps. Int Forum Allergy Rhinol . 2019;9(2):177-186. 2446. McDonald VM, Fingleton J, Agusti A, et al. Treatable traits: a new paradigm for 21st century management of chronic airway diseases: treatable traits down under international workshop report. Eur Respir J . 2019;53(5):1802058. 2447. Ninomiya T, Noguchi E, Haruna T, et al. Periostin as a novel biomarker for postoperative recurrence of chronic rhinosinitis with nasal polyps. Sci Rep . 2018;8(1):1-10. 2448. Okada N, Nakayama T, Asaka D, et al. Distinct gene expres sion profiles and regulation networks of nasal polyps in eosinophilic and non-eosinophilic chronic rhinosinusitis. Int Forum Allergy Rhinol . 2018;8(5):592-604. 2449. Wang W, Gao Z, Wang H, et al. Transcriptome analysis reveals distinct gene expression profiles in eosinophilic and noneosinophilic chronic rhinosinusitis with nasal polyps. Sci Rep . 2016;6:26604. 2450. Mueller SK, Nocera AL, Dillon ST, Wu D, Libermann TA, Bleier BS. Highly multiplexed proteomic analysis reveals sig nificant tissue and exosomal coagulation pathway derange ment in chronic rhinosinusitis with nasal polyps. Int Forum Allergy Rhinol . 2018;8(12):1438-1444. 2451. Ordovas-Montanes J, Dwyer DF, Nyquist SK, et al. Reduced cellular diversity and an altered basal progenitor cell state inform epithelial barrier dysfunction in human type 2 immu nity. bioRxiv . 2017:218958. 2452. Maxfield AZ, Korkmaz H, Gregorio LL, et al. General antibi otic exposure is associated with increased risk of devel oping chronic rhinosinusitis. Laryngoscope . 2017;127(2):296 302. 2453. Smith KA, Rudmik L. Impact of continued medical therapy in patients with refractory chronic rhinosinusitis. Int Forum Allergy Rhinol . 2014;4(1):34-38. 2454. Nocera AL, Mueller SK, Stephan JR, et al. Exosome swarms eliminate airway pathogens and provide passive epithe lial immunoprotection through nitric oxide. J Allergy Clin Immunol . 2019;143(4):1525-1535. e1521. 2455. Che C. Europe’s doctors repeat errors made in Wuhan, China medics say. Bloomberg News . https://www.bloomberg.com/ news/articles/2020-03-17/europe-s-doctors-getting-sick-like in-wuhan-chinese-doctors-say3gurl. Accessed October 12, 2020. 2456. Van Doremalen N, Bushmaker T, Morris D, Holbrook M, Gamble A, Williamson B. & Lloyd-Smith, JO. Aerosol and sur face stability of SARS-CoV-2 as compared with SARS-CoV-1. NEngl JMed . 2020;382(16):1564-1567. 2457. Bagheri SHR, Asghari AM, Farhadi M, et al. Coincidence of COVID-19 epidemic and olfactory dysfunction outbreak. medRxiv . 2020:2020.2003.2023.20041889. 2458. Menni C, Valdes A, Freydin M, et al. Loss of smell and taste in combination with other symptoms is a strong predictor of COVID-19 infection. medRxiv . In: Epub; 2020.