The role of molecular genetics in diagnosing familial hematuria(s)

Familial microscopic hematuria (MH) of glomerular origin represents a heterogeneous group of monogenic conditions involving several genes, some of which remain unknown. Recent advances have increased our understanding and our ability to use molecular genetics for diagnosing such patients, enabling us to study their clinical characteristics over time. Three collagen IV genes, COL4A3, COL4A4, and COL4A5 explain the autosomal and X-linked forms of Alport syndrome (AS), and a subset of thin basement membrane nephropathy (TBMN). A number of X-linked AS patients follow a milder course reminiscent of that of patients with heterozygous COL4A3/COL4A4 mutations and TBMN, while at the same time a significant subset of patients with TBMN and familial MH progress to chronic kidney disease (CKD) or end-stage kidney disease (ESKD). A mutation in CFHR5, a member of the complement factor H family of genes that regulate complement activation, was recently shown to cause isolated C3 glomerulopathy, presenting with MH in childhood and demonstrating a significant risk for CKD/ESKD after 40 years old. Through these results molecular genetics emerges as a powerful tool for a definite diagnosis when all the above conditions enter the differential diagnosis, while in many at-risk related family members, a molecular diagnosis may obviate the need for another renal biopsy

Up to date on primary ciliary dyskinesia in children.

Primary ciliary dyskinesia (PCD) is a congenital, clinically and ultrastructurally heterogeneous disease due to abnormal structure and/or function of cilia, with impaired mucociliary transport leading to several respiratory disorders. PCD can be diagnosed by the combination of thorough clinical examination with functional and ultrastructural analysis of the cilia. This paper shows progresses in PCD diagnosis obtained by ciliogenesis in culture evaluation of ciliated respiratory cells and by genetic analysis of mutations in candidate genes. Moreover, since to date no specific treatments are available to correct the ciliary dysfunction, the paper shows the proper therapeutical approach by the use of respiratory physiotherapy and regular exercise to favour airways clearance, by antibiotics administration to control acute airway infections. Macrolides administration as antinflammatory option is suggeste

Nasal nitric oxide in atypical primary ciliary dyskinesia

Background: Atypical cases of primary ciliary dyskinesia (PCD) may present with minimal transmission electron microscopy (TEM) defects. The diagnostic role of nasal nitric oxide (nNO) levels was evaluated in those patients. Methods: Sixty-four children with recurrent pneumonia were studied with ciliary motion analysis, TEM, and nNO. Results: Investigations indicated PCD in 12 patients, secondary ciliary dyskinesia (SCD) in 50 patients, and normal results in 2 patients. In 4 of 50 children with SCD, atypical PCD was considered possible. The mean (+/- SD) nNO was 130 +/- 46.95 parts per billion in children affected by PCD, 127.79 +/- 68.58 parts per billion in atypical patients, and 760 +/- 221 parts per billion in children with SCD. Three to 5 months later, the nNO level was 132.75 +/- 55.76 parts per billion in children with atypical disease and 778.00 +/- 197 parts per billion in children with SCD. Conclusion: Low levels of nNO may help to identify patients with atypical PCD

Bronchiectasis in Children with Recurrent Pneumonia: An Immunopathological Damage Associated with Secondary Ciliary Dysmotility

The aim of this study is to assess ciliary motion patterns in children with bronchiectasis unrelated to cystic fibrosis or primary ciliary dyskinesia. In 51 children with recurrent pneumonia, high resolution computed tomography (HRCT) was carried out to detect and score bronchiectasis. Moreover, ciliary ultrastructure, beat frequency and motion pattern were evaluated and compared to those observed in 30 healthy children. Bronchiectasis at HRCT was found in 31/51 children. Ciliary dysmotility was found in 20/31 children with bronchiectasis (64.5%). Overall, ciliary dysmotility was found in 39/51 patients (76.5%). Ciliary dysmotility showed a significant correlation with the HRCT score (p=0.02). Absent motion in some fields was found in 44/51 patients (86.3%) and this also showed significant correlation with the HRCT score (p=0.005). The specificity and sensitivity of ciliary dysmotility as an indicator of bronchiectasis was 74.3% and 83.3% respectively. The positive predictive value was 93.5%, and negative predictive value was 50%. Ciliary dysmotility, in children with recurrent airways infections, correlates with the presence and severity of bronchiectasis. Whether ciliary dysmotility is a cause or a consequence of anatomical lesion is a matter of speculation. Very likely there is an amplification and self-maintaining mechanism between the two events which may lead to more serious disease

CT-guided radiolabelled aerosol studies for assessing pulmonary impairment in children with bronchiectasis

Objective. To determine whether CT-guided mucociliary clearance studies allow differentiation between bronchiectasis associated with primary ciliary dyskinesia (PCD) and those unrelated to congenital or genetically transmitted defects. Materials and methods. Fifteen children aged 4-18 years with a CT diagnosis of bronchiectasis were included in the study. Six had PCD, while in nine cases no congenital disorder was demonstrated. Results. CT showed bronchiectasis in 26 (29 %) of 90 lung regions. Radiolabelled aerosol studies were conducted globally for each lung and on the regions affected by bronchiectasis. Global half-time of activity (t(1/2)) values of patients with PCD were significantly higher (P < 0.001) than those with bronchiectasis unrelated to congenital disorders. Among the 26 lung regions in which CT demonstrated bronchiectasis, regional clearance was abnormal in 24 cases. Patients with PCD showed no statistically significant difference between regional and global t(1/2) values. Patients with bronchiectasis unrelated to congenital disorders showed significantly higher regional t(1/2) values in the affected regions with respect to the corresponding global pulmonary t(1/2) (P < 0.06). Conclusions. The combination of morphological CT information with functional data concerning the clearance of radiolabelled aerosol adds to our understanding of pulmonary impairment in children with bronchiectasis. In particular, regional studies allow the recognition of different mucociliary clearance patterns in bronchiectasis associated with PCD and those unrelated to congenital or genetically transmitted defects

New DNAH11 mutations in primary ciliary dyskinesia with normal axonemal ultrastructure

No abstract availabl