View clinical trials related to Ciliary Motility Disorders.
Filter by:Primary purpose is to identify individuals who have PCD due to a genetic mutation within the DNAI1 and other genes of interest to help refer participants to future clinical studies for this rare disease.
Primary Ciliary Dyskinesias (PCD) are rare, autosomal recessive respiratory diseases, due to a defect in mucociliary clearance linked to abnormalities in the structure and/or function of the cilia. The variety of ciliary abnormalities identified reflects the genetic heterogeneity of PCDs. The thirty or so genes currently implicated explain the pathology in about half of the patients. PCDs are characterized by recurrent infections of the upper (rhinosinusitis) and lower (bronchitis) airways, beginning in early childhood and progressing respectively to nasal polyposis and bronchial dilatation. In half of the cases, there is a lateralization defect of the organs (situs inversus) corresponding to Kartagener's syndrome. There is more frequent infertility in men (immobility of spermatozoa) than in women (miscarriages and tubal pregnancies). About a third of patients progress to respiratory failure. The identification of predictive factors of severity, specific to PCDs, would improve patient care. It is also important to assess the quality of life of patients with PCD, particularly at the ENT level. Data from prevalent patients are currently integrated into three separate and complementary databases: the "e-RespiRare" database, the "DCP Cils" database and the "DCP genes" database. The first step is therefore to constitute the RaDiCo-DCP database which will include data from prevalent and incident patients whose diagnosis of PCD is certain. The cohort aims to improve the routine care of PCD patients, in particular by highlighting predictive factors of severity, allowing early and personalized care, to assess the social impact (quality of life) and medical conditions of ENT impairment, as well as adult infertility, to finely characterize the ciliary phenotype. The study also aims to search for new DCP genes and to allow genotype/phenotype correlation studies.
Although patients with bronchiectasis tend to have non reversible obstructive patterns on pulmonary function tests (PFTs), reversible obstruction is not uncommon. While bronchodilator response (BDR) is a main characteristic of asthma, the pathophysiology causing this phenomenon in bronchiectasis patients is less clear. The goal of this clinical trial is to assess BDR in patients with bronchiectasis. The main aims of this study: 1. To evaluate the role of bronchodilators in BDR testing of patients with bronchiectasis. 2. Characterize and compare BDR between different subgroups of patients with bronchiectasis, and compared to patients without bronchiectasis (healthy controls). 3. Identify demographics and other clinical variables associated with positive BDR Participants will be taking a series of three spirometry tests: After the first spirometry testing, patients will be randomly assigned to receive bronchodilators as per bronchodilator response protocol (Salbutamol, 100 mcg, 4 puffs via spacer) or four puffs of placebo. After a waiting time of 15 minutes, spirometry will be repeated. Following the second spirometry testing those who received salbutamol will now receive placebo and those receiving placebo will receive Salbutamol. After a second period of 15 minutes, a third series of spirometry will be recorded.
This cross-sectional and longitudinal observational study is to gather data on the utility of tests that are used to make a diagnosis of primary ciliary dyskinesia (PCD). There is new testing available, called nasal nitric oxide testing, that non-invasively measures nitric oxide levels in the sinus cavity. Individuals with PCD characteristically have low levels, but this testing does not have extensive data from everyday clinical practice. The objective of this proposal is to improve the diagnostic approach to children and adults with clinical concerns for primary ciliary dyskinesia (PCD).
This is the first-in-human study with RCT1100 and is designed to provide initial safety and tolerability data for future clinical studies.
The goal of this observational study is to characterize clinical measures and biomarkers of airway disease in adults with primary ciliary dyskinesia (PCD) and in a group of healthy volunteers (HV) to establish normative values. Lung function, mucociliary clearance, radiological findings, and clinical findings will be assessed. Furthermore, quality of life will be assessed using QOL-PCD, a disease specific questionnaire.
Primary Ciliary Dyskinesia associated with abnormalities of lateralization of organs (with existence of a situs inversus in 50% of cases) and secondary fertility disorders related in humans to abnormalities of mobility of sperm but very little data on the structure and function of tubal cilia in women
this study is aiming at learning more about primary ciliary dyskinesia (PCD) and tests that are used to diagnose this condition. One purpose of this study is to measure the level of nitric oxide in the nasal passages and examine how often the results correlate with other tests currently done to make the diagnosis.
The overall objective of this longitudinal, observational study is to provide information needed to inform the design of future interventional trials of respiratory exacerbation prevention and treatment in children and adults with primary ciliary dyskinesia (PCD).
Primary Ciliary Dyskinesia (PCD) is a rare genetic disorder characterized by dysfunction of motile cilia associated with recurrent infections of the airways, laterality defects (Situs inversus totalis in about 50% of cases) and fertility problems. At present, mutations in > 45 genes associated with PCD and mucociliary clearance disorders have been identified, representing most likely two thirds of all human cases. The aims of this study are: 1. Correlation between nasal NO levels and distinct PCD genotypes 2. Determination of further parameters potentially associated with nasal NO levels in genotyped PCD individuals 1. course of clinical manifestations (e.g. neonatal distress, infections, bronchiectasis) 2. diagnostic results (HVMA, TEM, IF) 3. lung function outcome (FVC, FEV1)