Primary ciliary dyskinesia: critical evaluation of clinical symptoms and diagnosis in patients with normal and abnormal ultrastructure

doi:10.1186/1750-1172-9-11

. 2014 Jan 22:9:11.

doi: 10.1186/1750-1172-9-11.

Primary ciliary dyskinesia: critical evaluation of clinical symptoms and diagnosis in patients with normal and abnormal ultrastructure

Mieke Boon¹, Anne Smits, Harry Cuppens, Martine Jaspers, Marijke Proesmans, Lieven J Dupont, Francois L Vermeulen, Sabine Van Daele, Anne Malfroot, Veronique Godding, Mark Jorissen, Kris De Boeck

Affiliations

PMID: 24450482
PMCID: PMC4016480
DOI: 10.1186/1750-1172-9-11

Primary ciliary dyskinesia: critical evaluation of clinical symptoms and diagnosis in patients with normal and abnormal ultrastructure

Mieke Boon et al. Orphanet J Rare Dis. 2014.

. 2014 Jan 22:9:11.

doi: 10.1186/1750-1172-9-11.

Authors

Mieke Boon¹, Anne Smits, Harry Cuppens, Martine Jaspers, Marijke Proesmans, Lieven J Dupont, Francois L Vermeulen, Sabine Van Daele, Anne Malfroot, Veronique Godding, Mark Jorissen, Kris De Boeck

Affiliation

¹ Department of Pediatrics, Pediatric Pulmonology, University Hospital Leuven, Leuven, Belgium. mieke.boon@uzleuven.be.

PMID: 24450482
PMCID: PMC4016480
DOI: 10.1186/1750-1172-9-11

Abstract

Background: Primary ciliary dyskinesia (PCD) is a rare disorder with variable disease progression. To date, mutations in more than 20 different genes have been found. At present, PCD subtypes are described according to the ultrastructural defect on transmission electron microscopy (TEM) of the motile cilia. PCD with normal ultrastructure (NU) is rarely reported because it requires additional testing. Biallelic mutations in DNAH11 have been described as one cause of PCD with NU.The aim of our study was to describe the clinical characteristics of a large population of patients with PCD, in relation to the ultrastructural defect. Additionally, we aimed to demonstrate the need for biopsy and cell culture to reliably diagnose PCD, especially the NU subtype.

Methods: We retrospectively analyzed data from 206 patients with PCD. We compared the clinical characteristics, lung function, microbiology and imaging results of 68 patients with PCD and NU to those of 90 patients with dynein deficiencies and 41 patients with central pair abnormalities. In addition, we aimed to demonstrate the robustness of the diagnosis of the NU subtype in cell culture by data from genetic analysis.

Results: PCD with NU comprised 33% (68/206) of all patients with PCD. Compared to other subtypes, patients with PCD and NU had a similar frequency of upper and lower respiratory tract problems, as well as similar lung function and imaging. With the currently widely applied approach, without cell culture, the diagnosis would have been missed in 16% (11/68) of patients with NU. Genetic analysis was performed in 29/68 patients with PCD and NU, and biallelic mutations were found in 79% (23/29) of tested patients.

Conclusions: We reported on the clinical characteristics of a large population of patients with PCD and NU. We have shown that systematic performance of biopsy and cell culture increases sensitivity to detect PCD, especially the subtype with NU.PCD with NU has similar clinical characteristics as other PCD types and requires biopsy plus ciliogenesis in culture for optimal diagnostic yield.

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Figures

**Figure 1**
**Flow chart of the diagnostic algorithm for PCD, used in our center.** Functional evaluation (CBF and coordination of ciliary beating) was performed on the fresh biopsy, provided that cilia were present. If sufficient material was obtained, a part of the biopsy is prepared for TEM, the rest is brought in a cell culture system. After ciliogenesis in culture, all the samples are evaluated for functional and structural abnormalities. The diagnosis of PCD is made when coordination after ciliogenesis in culture (marked in grey) is abnormal. Genetic analysis is not performed routinely, but is performed preferentially in patients with normal ultrastructure.

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References

1. Lucas JSA, Walker WT, Kuehni CE, Lazor R. Primary ciliary dyskinesia. Eur Respir Monograph. 2011;54:201–217.
1. Zariwala MA, Omran H, Ferkol TW. The emerging genetics of primary ciliary dyskinesia. Proc Am Thorac Soc. 2011;8:430–433. doi: 10.1513/pats.201103-023SD. - DOI - PMC - PubMed
1. Horvath J, Fliegauf M, Olbrich H, Kispert A, King SM, Mitchison H, Zariwala MA, Knowles MR, Sudbrak R, Fekete G. et al.Identification and analysis of axonemal dynein light chain 1 in primary ciliary dyskinesia patients. Am J Respir Cell Mol Biol. 2005;33:41–47. doi: 10.1165/rcmb.2004-0335OC. - DOI - PubMed
1. Onoufriadis A, Paff T, Antony D, Shoemark A, Micha D, Kuyt B, Schmidts M, Petridi S, Dankert-Roelse JE, Haarman EG. et al.Splice-site mutations in the axonemal outer dynein arm docking complex gene ccdc114 cause primary ciliary dyskinesia. Am J Hum Genet. 2013;92:88–98. doi: 10.1016/j.ajhg.2012.11.002. - DOI - PMC - PubMed
1. Mitchison HM, Schmidts M, Loges NT, Freshour J, Dritsoula A, Hirst RA, O’Callaghan C, Blau H, AL Dabbagh M, Olbrich H. et al.Mutations in axonemal dynein assembly factor dnaaf3 cause primary ciliary dyskinesia. Nat genet. 2012;44:381–389. doi: 10.1038/ng.1106. - DOI - PMC - PubMed

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[1] Lucas JSA, Walker WT, Kuehni CE, Lazor R. Primary ciliary dyskinesia. Eur Respir Monograph. 2011;54:201–217.

[2] Lucas JSA, Walker WT, Kuehni CE, Lazor R. Primary ciliary dyskinesia. Eur Respir Monograph. 2011;54:201–217.

[3] Zariwala MA, Omran H, Ferkol TW. The emerging genetics of primary ciliary dyskinesia. Proc Am Thorac Soc. 2011;8:430–433. doi: 10.1513/pats.201103-023SD. - DOI - PMC - PubMed

[4] Zariwala MA, Omran H, Ferkol TW. The emerging genetics of primary ciliary dyskinesia. Proc Am Thorac Soc. 2011;8:430–433. doi: 10.1513/pats.201103-023SD. - DOI - PMC - PubMed

[5] Horvath J, Fliegauf M, Olbrich H, Kispert A, King SM, Mitchison H, Zariwala MA, Knowles MR, Sudbrak R, Fekete G. et al.Identification and analysis of axonemal dynein light chain 1 in primary ciliary dyskinesia patients. Am J Respir Cell Mol Biol. 2005;33:41–47. doi: 10.1165/rcmb.2004-0335OC. - DOI - PubMed

[6] Horvath J, Fliegauf M, Olbrich H, Kispert A, King SM, Mitchison H, Zariwala MA, Knowles MR, Sudbrak R, Fekete G. et al.Identification and analysis of axonemal dynein light chain 1 in primary ciliary dyskinesia patients. Am J Respir Cell Mol Biol. 2005;33:41–47. doi: 10.1165/rcmb.2004-0335OC. - DOI - PubMed

[7] Onoufriadis A, Paff T, Antony D, Shoemark A, Micha D, Kuyt B, Schmidts M, Petridi S, Dankert-Roelse JE, Haarman EG. et al.Splice-site mutations in the axonemal outer dynein arm docking complex gene ccdc114 cause primary ciliary dyskinesia. Am J Hum Genet. 2013;92:88–98. doi: 10.1016/j.ajhg.2012.11.002. - DOI - PMC - PubMed

[8] Onoufriadis A, Paff T, Antony D, Shoemark A, Micha D, Kuyt B, Schmidts M, Petridi S, Dankert-Roelse JE, Haarman EG. et al.Splice-site mutations in the axonemal outer dynein arm docking complex gene ccdc114 cause primary ciliary dyskinesia. Am J Hum Genet. 2013;92:88–98. doi: 10.1016/j.ajhg.2012.11.002. - DOI - PMC - PubMed

[9] Mitchison HM, Schmidts M, Loges NT, Freshour J, Dritsoula A, Hirst RA, O’Callaghan C, Blau H, AL Dabbagh M, Olbrich H. et al.Mutations in axonemal dynein assembly factor dnaaf3 cause primary ciliary dyskinesia. Nat genet. 2012;44:381–389. doi: 10.1038/ng.1106. - DOI - PMC - PubMed

[10] Mitchison HM, Schmidts M, Loges NT, Freshour J, Dritsoula A, Hirst RA, O’Callaghan C, Blau H, AL Dabbagh M, Olbrich H. et al.Mutations in axonemal dynein assembly factor dnaaf3 cause primary ciliary dyskinesia. Nat genet. 2012;44:381–389. doi: 10.1038/ng.1106. - DOI - PMC - PubMed

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Primary ciliary dyskinesia: critical evaluation of clinical symptoms and diagnosis in patients with normal and abnormal ultrastructure

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Primary ciliary dyskinesia: critical evaluation of clinical symptoms and diagnosis in patients with normal and abnormal ultrastructure

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