Abstract
BackgroundDiagnosis of primary ciliary dyskinesia (PCD) still remains a challenge, especially with mutations in the Dynein Arm Heavy Chain 11 (DNAH11) gene. Classical diagnostic measures like Transmission Electron Microscopy (TEM) are not applicable for mutations in the DNAH11 gene since ultrastructural defects of the ciliary apparatus are absent. Novel mutations encoding for PCD appear all the time with considerable variation in the clinical picture, making it necessary to update data bases and guidelines for PCD diagnostics.MethodsIn this study we examined two unrelated, Finnish families with symptoms of PCD applying the clinical scoring system: Primary ciliary dyskinesia Rule (PICADAR), high speed video microscopy analysis (HSVMA) for ciliary movement, a commercially available gene panel analysis and nasal Nitric Oxide (nNO) measurements if applicable.ResultsTwo, likely pathogenic variants in the DNAH11 gene (c.2341G > A, p. (Glu781Lys) ja c.7645 + 5G > A) were detected. In the first family, compound heterozygous mutations led to disease manifestation in two of 4 children, which showed a similar phenotype of cilia beating pattern but marked differences in disease severity. In the second family, all three children were homozygotes for the c.2341G > A p.(Glu781Lys) mutation and showed a similar degree of disease severity. However, the phenotype of cilia beating pattern was different ranging from stiff, static cilia to a hyperkinetic movement in one of these children.ConclusionsIn this study we describe two Finnish families with PCD, revealing two novel mutations in the DNAH11 gene which show considerable variety in the clinical and beating cilia phenotype. The results of this study show the clinician that PCD can be much milder than generally expected and diagnosis demands a combination of measures which are only successful in experienced hands. Chronic and repeatedly treated wet cough should raise suspicion of PCD, referring the patient for further diagnostics to a specialised PCD centre.
Highlights
Diagnosis of primary ciliary dyskinesia (PCD) still remains a challenge, especially with mutations in the Dynein Arm Heavy Chain 11 (DNAH11) gene
In this study we describe five patients in two unrelated, Finnish families from the same area of WesternFinland, which were investigated for PCD on suspicion of one member of each family employing the Primary ciliary dyskinesia Rule (PICADAR) questionnaire after Behan et al [12], nasal Nitric Oxide (nNO) measurements, high speed video microscopy analysis (HSVMA) and genetic testing
Two of our patients were diagnosed with situs inversus but none of the patients developed bronchiectasis resulting partly in a low score on the PICADAR questionnaire
Summary
Diagnosis of primary ciliary dyskinesia (PCD) still remains a challenge, especially with mutations in the Dynein Arm Heavy Chain 11 (DNAH11) gene. Classical diagnostic measures like Transmission Electron Microscopy (TEM) are not applicable for mutations in the DNAH11 gene since ultrastructural defects of the ciliary apparatus are absent. Primary ciliary dyskinesia (PCD) is an inherited, genetically and clinically heterogeneous disorder which causes disturbances in the movement of beating cilia. In the sinobronchial epithelium PCD leads to impaired mucociliary clearance. Prevalence of PCD is estimated to be in the range of 1:4000 to 50.000. This gap of disease prevalence probably reflects rather the impaired availability of proper diagnostics than variability of genetics among different ethnic groups [2]. Some degree of variability can be explained by a higher prevalence in societies with a high degree of consanguinity [3]
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