Objective videomicroscopy parameters correlate ciliary beating to ultrastructure in primary ciliary dyskinesia

High speed videomicroscopy (HSV) becomes a key test in primary ciliary dyskinesia (PCD), providing a qualitative evaluation and recently a quantitative analysis of ciliary beating. We aimed to correlate ultrastructural phenotype and ciliary beating Method: 75 PCD patients were prospectively included to reach 15 patients per main ultrastructural phenotypes (combined outer/inner dynein arm defect, outer dynein arm defect, inner dynein arm defect with microtubular disorganization, central complex defect and PCD with normal ultrastructure). Ciliary beating was assessed by the proportion of beating ciliated edges, the ciliary beat frequency (CBF), a qualitative evaluation and a quantitative analysis allowing measuring objective parameters Result: Combined outer/inner dynein arm defect induced a total ciliary immotility, whatever the involved gene; (ii) Outer dynein arm defect induced a minimal residual beating with dramatically low CBF related to increased pause and recovery duration, especially in case of DNAI1 mutations; (iii) Inner dynein arm defect induced a weak proportion of ciliated edges still beating, a decreased beating angle and furthermore a relatively conserved CBF in case of CCDC39 mutations; (iv) Central complex defect induced nearly normal quantitative parameters with a circular gyrating motion in a minority of ciliated edges, whatever the involved gene; (v) PCD with normal ultrastructure induced a wide discrepancy in beating parameters but a frequent increased CBF Conclusion: Quantitative analysis by HSV allows objectively detecting abnormal values of ciliary beating parameters characteristic of each of the main ultrastructural phenotypes reported in PCD.