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Items: 1 to 20 of 100

1.

Investigation on ciliary functionality of different airway epithelial cell lines in 3D cell culture.

Lodes NT, Seidensticker K, Perniss A, Nietzer SL, Oberwinkler H, May T, Walles T, Hebestreit H, Hackenberg S, Steinke M.

Tissue Eng Part A. 2019 Nov 7. doi: 10.1089/ten.TEA.2019.0188. [Epub ahead of print]

PMID:
31696788
2.

Nasal epithelial cell culture as a tool in evaluating ciliary dysfunction.

Gilain L, Zahm JM, Pierrot D, Fuchey C, Peynegre R, Puchelle E.

Acta Otolaryngol. 1993 Nov;113(6):772-6.

PMID:
8291437
3.

Patient-specific three-dimensional explant spheroids derived from human nasal airway epithelium: a simple methodological approach for ex vivo studies of primary ciliary dyskinesia.

Marthin JK, Stevens EM, Larsen LA, Christensen ST, Nielsen KG.

Cilia. 2017 Mar 23;6:3. doi: 10.1186/s13630-017-0049-5. eCollection 2017.

4.

Protease-activated receptor 2 activates airway apical membrane chloride permeability and increases ciliary beating.

McMahon DB, Workman AD, Kohanski MA, Carey RM, Freund JR, Hariri BM, Chen B, Doghramji LJ, Adappa ND, Palmer JN, Kennedy DW, Lee RJ.

FASEB J. 2018 Jan;32(1):155-167. doi: 10.1096/fj.201700114RRR. Epub 2017 Sep 5.

5.

Ciliary beating recovery in deficient human airway epithelial cells after lentivirus ex vivo gene therapy.

Chhin B, Negre D, Merrot O, Pham J, Tourneur Y, Ressnikoff D, Jaspers M, Jorissen M, Cosset FL, Bouvagnet P.

PLoS Genet. 2009 Mar;5(3):e1000422. doi: 10.1371/journal.pgen.1000422. Epub 2009 Mar 20.

6.

Functional characterization of various channel-expressing central airway epithelial cells from mouse induced pluripotent stem cells.

Yoshie S, Nakamura R, Kobayashi D, Miyake M, Omori K, Hazama A.

J Cell Physiol. 2019 Feb 4. doi: 10.1002/jcp.28254. [Epub ahead of print]

PMID:
30714154
7.

Rapid Expansion of Human Epithelial Stem Cells Suitable for Airway Tissue Engineering.

Butler CR, Hynds RE, Gowers KH, Lee Ddo H, Brown JM, Crowley C, Teixeira VH, Smith CM, Urbani L, Hamilton NJ, Thakrar RM, Booth HL, Birchall MA, De Coppi P, Giangreco A, O'Callaghan C, Janes SM.

Am J Respir Crit Care Med. 2016 Jul 15;194(2):156-68. doi: 10.1164/rccm.201507-1414OC.

8.

Differentiation of human surface upper airway epithelial cells in primary culture on a floating collagen gel.

Chevillard M, Hinnrasky J, Pierrot D, Zahm JM, Klossek JM, Puchelle E.

Epithelial Cell Biol. 1993 Jan;2(1):17-25.

PMID:
7689028
9.

Gene editing of DNAH11 restores normal cilia motility in primary ciliary dyskinesia.

Lai M, Pifferi M, Bush A, Piras M, Michelucci A, Di Cicco M, del Grosso A, Quaranta P, Cursi C, Tantillo E, Franceschi S, Mazzanti MC, Simi P, Saggese G, Boner A, Pistello M.

J Med Genet. 2016 Apr;53(4):242-9. doi: 10.1136/jmedgenet-2015-103539. Epub 2016 Jan 4.

PMID:
26729821
10.

[Optimization of in vitro culture conditions for human amniotic epithelial cells and expression of stem cell markers].

Chen YY, Lu Y, Wang K, Wang Y, Wu DY, Liu B, Yang Y, Lü SH.

Zhongguo Shi Yan Xue Ye Xue Za Zhi. 2011 Apr;19(2):464-8. Chinese.

PMID:
21518509
11.

Identification of an Immortalized Human Airway Epithelial Cell Line with Dyskinetic Cilia.

Kuek LE, Griffin P, Martinello P, Graham AN, Kalitsis P, Robinson PJ, Mackay GA.

Am J Respir Cell Mol Biol. 2018 Sep;59(3):375-382. doi: 10.1165/rcmb.2017-0188OC.

PMID:
29481304
12.

An autocrine ATP release mechanism regulates basal ciliary activity in airway epithelium.

Droguett K, Rios M, Carreño DV, Navarrete C, Fuentes C, Villalón M, Barrera NP.

J Physiol. 2017 Jul 15;595(14):4755-4767. doi: 10.1113/JP273996. Epub 2017 Jun 15.

13.

CCDC65 mutation causes primary ciliary dyskinesia with normal ultrastructure and hyperkinetic cilia.

Horani A, Brody SL, Ferkol TW, Shoseyov D, Wasserman MG, Ta-shma A, Wilson KS, Bayly PV, Amirav I, Cohen-Cymberknoh M, Dutcher SK, Elpeleg O, Kerem E.

PLoS One. 2013 Aug 26;8(8):e72299. doi: 10.1371/journal.pone.0072299. eCollection 2013.

14.

Whole-exome capture and sequencing identifies HEATR2 mutation as a cause of primary ciliary dyskinesia.

Horani A, Druley TE, Zariwala MA, Patel AC, Levinson BT, Van Arendonk LG, Thornton KC, Giacalone JC, Albee AJ, Wilson KS, Turner EH, Nickerson DA, Shendure J, Bayly PV, Leigh MW, Knowles MR, Brody SL, Dutcher SK, Ferkol TW.

Am J Hum Genet. 2012 Oct 5;91(4):685-93. doi: 10.1016/j.ajhg.2012.08.022.

15.

Tubulin polyglutamylation is essential for airway ciliary function through the regulation of beating asymmetry.

Ikegami K, Sato S, Nakamura K, Ostrowski LE, Setou M.

Proc Natl Acad Sci U S A. 2010 Jun 8;107(23):10490-5. doi: 10.1073/pnas.1002128107. Epub 2010 May 24.

16.

Induced Pluripotent Stem Cells for Primary Ciliary Dyskinesia Modeling and Personalized Medicine.

Mianné J, Ahmed E, Bourguignon C, Fieldes M, Vachier I, Bourdin A, Assou S, De Vos J.

Am J Respir Cell Mol Biol. 2018 Dec;59(6):672-683. doi: 10.1165/rcmb.2018-0213TR. Review.

PMID:
30230352
17.

Distinct axonemal processes underlie spontaneous and stimulated airway ciliary activity.

Ma W, Silberberg SD, Priel Z.

J Gen Physiol. 2002 Dec;120(6):875-85.

18.

Proliferation, differentiation and ciliary beating of human respiratory ciliated cells in primary culture.

Chevillard M, Hinnrasky J, Zahm JM, Plotkowski MC, Puchelle E.

Cell Tissue Res. 1991 Apr;264(1):49-55.

PMID:
2054845
19.

Quantitative analysis of ciliary beating in primary ciliary dyskinesia: a pilot study.

Papon JF, Bassinet L, Cariou-Patron G, Zerah-Lancner F, Vojtek AM, Blanchon S, Crestani B, Amselem S, Coste A, Housset B, Escudier E, Louis B.

Orphanet J Rare Dis. 2012 Oct 11;7:78. doi: 10.1186/1750-1172-7-78.

20.

Changes in culture expanded human amniotic epithelial cells: implications for potential therapeutic applications.

Pratama G, Vaghjiani V, Tee JY, Liu YH, Chan J, Tan C, Murthi P, Gargett C, Manuelpillai U.

PLoS One. 2011;6(11):e26136. doi: 10.1371/journal.pone.0026136. Epub 2011 Nov 2.

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