It has been 10-years since the publication of Rhinosinusitis: evidence and experience, and since then a lot has changed in our understanding of the disease. Advances in pathophysiology, endotyping and new treatments such as biologics brought a new era in the management of our patients. This new guideline, developed jointly by ABR and ABORL-CCF, with the help of ASBAI presents an updated, evidence-based approach to the different forms of rhinosinusitis that aims to improve the diagnosis and treatment of this complex disease. The document covers a wide range of topics, including clear definitions of the different stages of acute sinusitis. It also introduces a new term called Prolonged Acute Viral Rhinosinusitis. Reviews phenotypes and endotypes of chronic rhinosinusitis, recommending methods for clinical and laboratory investigation, clinical and surgical treatment. We also discuss in detail fungal sinusitis and pediatric sinusitis. The objective of this updated Consensus is to clarify some already established and recent concepts, highlighting the importance of an accurate diagnosis to promote treatment approaches that reflect the best practices based on solid evidence. Therefore, we seek not only to improve the results of patients care, but also to guide thealth professionals through a clinical panorama that is in constant transformation.

The skin of Xenopus embryos contains numerous multiciliated cells (MCCs), which collectively generate a directed fluid flow across the epithelial surface essential for distributing the overlaying mucous. MCCs develop into highly specialized cells to generate this flow, containing approximately 150 evenly spaced centrioles that give rise to motile cilia. MCC-driven fluid flow can be impaired when ciliary dysfunction occurs, resulting in primary ciliary dyskinesia (PCD) in humans. Mutations in a large number of genes (∼50) have been found to be causative to PCD. Recently, studies have linked low levels of Adenylate Kinase 7 (AK7) gene expression to patients with PCD; however, the mechanism for this link remains unclear. Additionally, AK7 mutations have been linked to multiple PCD patients. Adenylate kinases modulate ATP production and consumption, with AK7 explicitly associated with motile cilia. Here we reproduce an AK7 PCD-like phenotype in Xenopus and describe the cellular consequences that occur with manipulation of AK7 levels. We show that AK7 localizes throughout the cilia in a DPY30 domain-dependent manner, suggesting a ciliary function. Additionally, we find that AK7 overexpression increases centriole number, suggesting a role in regulating centriole biogenesis. We find that in AK7-depleted embryos, cilia number, length, and beat frequency are all reduced, which in turn significantly decreases the tissue-wide mucociliary flow. Additionally, we find a decrease in centriole number and an increase in sub-apical centrioles, implying that AK7 influences both centriole biogenesis and docking, which we propose underlie its defect in ciliogenesis. We find that both the AK domain and the DPY30 domain are required for proper centriole regulation. We propose that AK7 plays a role in PCD by impacting centriole biogenesis and apical docking, ultimately leading to ciliogenesis defects that impair mucociliary clearance.

Background and Objective: Primary ciliary dyskinesia (PCD) is a rare genetic disorder that affects the mucociliary system, leading to progressive lung damage. This deterioration can result in bronchiectasis, atelectasis, and respiratory failure, necessitating lung transplantation in severe cases. This study aims to assess ciliary motility and ultrastructure in the bronchial epithelium of transplanted lungs in patients with PCD to determine whether mucociliary function is preserved post-transplantation. The findings seek to enhance scientific understanding and provide prognostic insights for these patients. Materials and Methods: A prospective observational study was conducted on two patients with PCD and advanced lung disease who underwent bilateral lung transplantation. Nasal and bronchial cilia samples were analyzed using high-speed videomicroscopy and transmission electron microscopy. Follow-up assessments included ciliary function analysis, lung rejection monitoring, and quality-of-life evaluations, with follow-up extending up to 30 months post-transplant. Results: Post-transplant evaluations demonstrated normal ciliary motility and ultrastructure in the transplanted lungs throughout the study period (up to 30 months), indicating the long-term preservation of mucociliary function. Conclusions: Transplanted lungs in patients with PCD maintain normal bronchial ciliary motility and structure in the long term, suggesting a favorable prognosis for both the graft and the recipient. These findings support the feasibility and long-term effectiveness of lung transplantation in patients with PCD.

To explore the clinical application effect and feasibility of intracytoplasmic sperm injection (ICSI) combined with artificial oocyte activation (AOA) technology in the treatment of male infertility caused by primary ciliary dyskinesia (PCD).

Between April 2022 and April 2024, our hospital's reproductive center treated a total of eight patients diagnosed with PCD and concurrent male infertility. Among them, six patients were treated with ICSI in conjunction with AOA as an adjuvant therapy, with their oocytes being subjected to ionomycin treatment for a duration of 15 min post-ICSI. One patient underwent ICSI alone, while another patient chose to use donor sperm. Ultimately, we assessed the fertilization rates and transferable embryo rates of all patients. The statistical results showed that the six patients who received ICSI combined with AOA achieved an average fertilization rate of 77.9% and a transferable embryo rate of 66.7%. Four of these patients achieved clinical pregnancy and live birth after embryo transfer. In contrast, the patient who received only ICSI had a fertilization rate of 51.7% and a transferable embryo rate of 20%.

AOA can be used as an adjuvant treatment in ICSI cycles for patients with PCD accompanied by male infertility. It not only increases the fertilization rate but also potentially improves embryo quality, thereby enhancing the transferable embryo rate.

Kartagener syndrome is characterized by chronic sinusitis, bronchiectasis, and total visceral transposition. While there are few reports of Kartagener syndrome combined with kidney disease, there are none that specifically report Kartagener syndrome in conjunction with minimal change disease. This is the first report of a rare case of Kartagener syndrome with minimal change disease, which presented with the typical triad and was clinically diagnosed.

A 24-year-old Chinese woman was admitted to the hospital with 2 weeks of foamy urine and edema of the eyelid and lower limbs. After admission, the examination indicated nephrotic syndrome and total visceral transposition. Computed tomography imaging revealed sinusitis bronchiectasis, and she was diagnosed with minimal change disease with Kartagener syndrome. A renal biopsy revealed minimal changes. After symptomatic antiinflammatory therapy, the patient was given telmisartan 50 mg orally once daily to reduce urinary protein levels. A total of 1 month after discharge, her 24-h urine protein content was < 1 g, with normal liver function and improved kidney disease.

We describe a rare case of Kartagener syndrome accompanied by glomerular disease and minimal change disease. The patient was treated symptomatically with antiinflammatory agents and will be monitored long term. We believe our findings will provide valuable guidance and reference for the treatment of such cases in the future.

Primary Ciliary Dyskinesia (PCD) is a rare genetic disorder characterized by abnormalities in the motile cilia. Diagnosis could be hard to make, but genetic analysis could be important for the diagnosis and for defining prognosis.

To evaluate the clinical, ultrastructural, and molecular characteristics of a cohort of PCD subjects.

The study cohort included PCD patients enrolled in two Italian centers. Clinical data were retrospectively collected consulting medical records. All patients underwent nasal brushing and peripheral blood sampling for ultrastructural analysis of motile cilia and genetic testing, respectively.

A total of 39 patients with PCD were enrolled (median age 25.5 years, range 2.5-54.3 years). All patients showed common clinical features, which included SIT in 22/39 (56.4%), chronic rhinitis in 31/39 (79.5%), chronic sinusitis in 26/37 (66.7%), chronic cough in 32/39 (82.1%), and neonatal respiratory distress in 46.2% (18/39). The genetic defect was identified in 27/39 patients (69.2%), while a diagnostic ultrastructure was found in 27/35 (77.1%). Assessing genotype-phenotype correlations, subjects with biallelic pathogenic variants in CCDC39 and CCDC40 genes had a significantly lower forced expiratory volume in the first second of exhalation value (p = 0.017) than subjects with pathogenic variants in DNAH5 or in other PCD-related genes.

Our study further highlights the high heterogeneity of ultrastructural defects and genetics characterizing patients with PCD, as well as providing additional evidence that patients with biallelic pathogenic variants in CCDC39 or CCDC40 display a worse clinical phenotype than patients with pathogenic variants in other PCD genes.

Primary ciliary dyskinesia (PCD), a rare disorder, is genetically varied. Mutations in proteins involved in the structure, function, or assembly of cilia are known to determine situs inversus, male infertility, and chronic destructive airway disease. PCD is inherited by an autosomal recessive pattern of inheritance in most cases. Nonetheless, patterns of autosomal dominant and X-linked inheritance have been mentioned. A history of recurrent upper and lower respiratory tract infections raised clinical suspicion of primary ciliary dyskinesia in a 10-year-old patient. Genetic tests were performed using next-generation sequencing technology (Illumina NextGen) with the multiplex ligation-dependent probe amplification technique for primary ciliopathies and syndromes subject to differential diagnosis. Genetic testing identified two pathogenic variants, not previously associated with a case report in the literature, c.7727A>G (p.Asp2576Gly) and c.8578G>A (p.Gly2860Ser), within the DNAH11 gene, which is associated with autosomal recessive PCD. The result also reported mutations in other genes involved in autosomal recessive PCD (DNAH8, DNAH9 and ZMYND10), which were classified as variants with uncertain clinical significance. Transmission electron microscopy of respiratory cilia and nasal nitric oxide measurement cannot be used to diagnose PCD in patients with DNAH11 mutations because the structure of cilia is normal, and the levels of NO are not constantly low. High-speed video microscopy analysis can be helpful because DNAH11 mutations cause a distinct phenotype of PCD. Nevertheless, the mutation analysis of various PCD-causing genes remains the easiest to conduct and with good results. Genetic research on PCD has identified a number of significant ciliary genes in recent years, offering fresh perspectives on the molecular processes underlying cilia assembly and function. This facilitates the development of new methods for the diagnosis, prevention, and treatment of PCD. However, because it is a highly complex and heterogeneous disease, the field of gene diagnosis and therapy in PCD is still in its infancy.

Primary ciliary dyskinesia (PCD), a rare ciliopathy disorder, is caused by variants in multiple genes, with DNAH5 being one of the most frequently implicated. However, the precise relationship between variant type or location in the DNAH5 gene and the clinical heterogeneity remains elusive. The present systematic review aims to provide critical insights into the impact of the molecular nature of DNAH5 variants on PCD phenotypes.

We enrolled all reported cases of PCD with biallelic pathogenic variants in the DNAH5 gene to date, and evaluated genotype-phenotype correlations in these patients, employing truncating (TV) and missense (MV) variant-carrying as grouping criteria.

A total of 323 PCD patients with the DNAH5 variants were included, with 14.55% of these patients were diagnosed as Kartagener syndrome. Pediatric and adult patients exhibited distinct clinical features, including varying incidences of bronchiectasis, infertility, neonatal respiratory distress (NRD), ciliary ultrastructural defects distributions, and lung function (all p < 0.05). With regard to mutational patterns, truncating variants in DNAH5 were clustered in the 1200-3200 amino acid region, and were more prevalent in children compared to adult (p < 0.0001). Most missense variants are clustering in the linker, AAA + ATPase and AAA-lid domains. The most frequently observed mutation, c.10815delT, was prevalent in Europe and America, whereas c.8030G > A was more common in China and Asia. In terms of genotype-phenotype correlations, individuals with the TV/TV genotype exhibited a higher proportion of NRD and earlier onset compared to those with MV-carrying genotypes, both in overall population and in pediatric patients (all p < 0.05). Patients with the TV/TV genotype exhibited worse lung function compared to those with MV-carrying genotypes.

The study underscores the broad mutational spectrum and high phenotypic heterogenicity in DNAH5-related PCD patients. The presence of biallelic truncating variants may predispose patients to earlier disease onset and poorer lung function.

Asthma is a multifactorial disease with heterogeneous clinical and pathophysiological phenotypes. Classical symptoms of asthma are wheeze, cough and breathlessness, and occasionally chest tightness. These symptoms are common to many respiratory and non-respiratory conditions, and misdiagnosis of asthma is frequent. There is no definitive test for the diagnosis of asthma, but a combination of a suggestive medical history, physical examination, lung function tests, and additional investigations will maximize the chances of making a correct diagnosis. Despite clear statements in international asthma guidelines, there are many gaps when performing diagnostic steps in current medical practice. An incomplete medical history, poor attention to the nature of respiratory sounds, failure to carry out objective tests, and inadequate estimation of the response to anti-asthma therapy are the main factors responsible for misdiagnosis of asthma. The use of wrong and potentially dangerous therapies, and high consumption of healthcare resources are the inevitable consequences of misdiagnosis. The main alternative diagnoses to asthma, clinical clues and objective tests useful for specific diagnoses are critically discussed.

Leucine Rich Repeat Containing protein 56 (LRRC56), also known as DNAAF12, is a member of the LRRC superfamily, whose dysfunction is associated with mucociliary clearance and laterality defects in humans. Here, we generated LRRC56-knockout mice using the CRISPR/Cas9 nuclease system to specifically target exons 4-5 of the LRRC56 gene. We observed that homozygous LRRC56 gene deletion is definitely deleterious, as 27.8% of LRRC56-/- mice died before adulthood. Among the surviving LRRC56-/- mice, the most prominent phenotypes included hydrocephalus, situs inversus, male infertility, and bronchiectasis. Transmission electron microscopy revealed defects in dynein arms of cilia and disorganized axonemal structure in flagella. Immunofluorescence analysis similarly revealed the absence of inner and outer dynein arm markers DNALI1 and DNAI2 in the cilia. Heterozygous LRRC56+/- mice developed normally, without exhibiting any symptoms of primary ciliary dyskinesia. In conclusion, the knockout of the LRRC56 gene in mice leads to a range of conditions consistent with primary ciliary dyskinesia. The absence of DNALI1 and DNAI2 signaling in knockout mouse cilia supports the critical role of the LRRC56 gene in dynein arm assembly.

Rationale: Primary ciliary dyskinesia (PCD) is a rare genetic disorder characterized by progressive lung disease. Pseudomonas aeruginosa is a major pathogen in this disease and is known to impact lung function. Previous genotype-phenotype studies have been limited by cross-sectional designs, isolated adult or pediatric populations, small numbers, or short follow-up durations. Objectives: We aimed to explore long-term lung function in PCD grouped by genotypes and ultrastructural defects, considering the influence of P. aeruginosa. Methods: In this retrospective observational study, we analyzed 43 years of spirometry and 20 years of microbiology data. Using linear mixed-effects models, we estimated forced expiratory volume in 1 second z-score trends and compared them at ages 10, 25, and 50 years, whereas generalized estimating equations were used to assess P. aeruginosa prevalence between groups. In a secondary analysis, we matched spirometry and microbiology samples to evaluate the influence of P. aeruginosa on lung function. Results: We included 127 genotyped patients, 6,691 spirometry measurements, and 10,082 microbiology samples. CCDC39 and CCDC40 variants showed early-onset and sustained decline in lung function, whereas DNAH11 and HYDIN variants demonstrated relative stability. Lung function in the proximity of positive P. aeruginosa cultures was on average 0.06 z-score lower. Despite this, differences between groups remained largely unaffected by P. aeruginosa. Conclusions: Long-term lung function in PCD follows discrete genotype-specific profiles and appears independent of P. aeruginosa infection. We confirm and extend previous findings of CCDC39 and CCDC40 as variants associated with early-onset severe lung function impairment persisting in the long term.

Cilia's back-and-forth beat pattern requires a central pair (CP) of microtubules. However, the mechanism by which the CP is upheld above the transition zone (TZ) remains unclear. Here, we showed that a rod-like substructure marked by Cep131 and ciliary Centrin serves as a polarized CP-supporting foundation. This CP-foundation (CPF) was assembled independently of the CP during ciliogenesis in mouse ependymal cells. It protruded from the distal end of the basal body out of the TZ to enwrap the proximal end of the CP. Through proximity labeling, we identified 26 potential CPF components, among which Ccdc148 specifically localized at the proximal region of Centrin-decorated CPF and was complementary to the Cep131-enriched distal region. Cep131 deficiency abolished the CPF, resulting in CP penetration into the TZ. Consequently, cilia became prone to ultrastructural abnormality and paralysis, and Cep131-deficient mice were susceptible to late-onset hydrocephalus. In addition to Centrin, phylogenetic analysis also indicated conservations of Ccdc131 and Ccdc148 from protists to mammals, suggesting that the CPF is an evolutionarily conserved multicomponent CP-supporting platform in cilia.

Rare genetic respiratory disease has an incidence rate of more than 1:2500 live births in Northern Europe and carries significant disease burden. Early diagnosis improves outcomes, but many individuals remain without a confident genetic diagnosis. Improved and expanded molecular testing methods are required to improve genetic diagnosis rates and thereby improve clinical outcomes. Using primary ciliary dyskinesia (PCD) as an exemplar rare genetic respiratory disease, we developed a standardized method to identify pathogenic variants using whole transcriptome RNA-sequencing (RNA-seq) of nasal epithelial cells cultured at air-liquid interface (ALI). The method was optimized using cells from healthy volunteers, and people with rhino-pulmonary disease but no diagnostic indication of PCD. We validated the method using nasal epithelial cells from PCD patients with known genetic cause. We then assessed the ability of RNA-seq to identify pathogenic variants and the disease mechanism in PCD likely patients but in whom DNA genetic testing was inconclusive. The majority of 49 targeted PCD genes were optimally identified in RNA-seq data from nasal epithelial cells grown for 21 days at ALI culture. Four PCD-likely patients without a previous genetic diagnosis received a confirmed genetic diagnosis from the findings of the RNA-seq data. We demonstrate the clinical potential of RNA-seq of nasal epithelial cells to identify variants in individuals with genetically unsolved PCD. This uplifted genetic diagnosis should improve genetic counselling, enables family cascade screening, opens the door to potential personalised treatment and care approaches. This methodology could be implemented in other rare lung diseases such as cystic fibrosis.

The product of ciliary gene HYDIN is an integral component for c2b projection within the motile cilia central pair (CP) apparatus. Biallelic mutations of this gene cause primary ciliary dyskinesia (PCD), an uncommon heterogeneous recessive disorder affecting motile cilia, resulting in defective mucociliary clearance that leads to chronic suppurative lung disease.

Nasal brushing samples were collected from two siblings attending the Victorian Diagnostic service for PCD. Nasal airway epithelial cells (NAECs) were cultured before cilia structure and function studies using high-speed video microscopy (HSVM), transmission electron microscopy, and immunofluorescence.

Cultured NAECs from both siblings showed defective cilia beating patterns under HSVM. A confirmatory PCD diagnosis was achieved through immunofluorescence, which showed the loss of HYDIN and the associated protein SPEF2 from the cilia axoneme.

This case report details the diagnosis of two siblings who displayed similar defective cilia beating phenotypes seen in patients with PCD bearing recessive HYDIN mutations. Uniquely, both siblings carry two previously unreported HYDIN mutations, which are in the cis position, demonstrating the possibility for disease manifestation without biallelic mutations of ciliary genes.

The authors declare no funding support for this study.

Primary ciliary dyskinesia (PCD) is characterized by upper and lower airway disease. Multiple studies have demonstrated the progression of pulmonary disease; however, longitudinal changes in the otologic and nasal symptoms have not been well described in patients. This study defines age-related prevalence, age of onset, and age-related trends in self-reported otologic and sinonasal comorbidities in individuals with PCD.

A prospective, longitudinal, multicenter, observational study spanning up to 12 years.

Six PCD centers in North America.

Inclusion criteria were <19 years of age and a confirmed diagnosis of PCD based on electron microscopy and/or genetics. A standardized medical history questionnaire and physical exam were completed during each study visit. Descriptive statistics were performed for the entire cohort as well as for subgroups based on ciliary ultrastructure.

A total of 147 participants were followed for an average of 7.6 ± 3.2 years. Pressure equalization tubes (PETs) were placed in 80%, transient hearing loss was reported in 68%, and persistent hearing loss was reported in 30%. Hearing aids and speech therapy were utilized by 8% and 27%, respectively. PETs were placed earlier in those with inner dynein arm/microtubular disorganization defects than those with outer dynein arm defects. Participants reported chronic nasal congestion in 97%, sinusitis in 87%, and 35% underwent >1 sinus surgery.

There is a high prevalence of reported otologic and sinonasal morbidity among people with PCD that begins during early childhood and persists. Further analysis is indicated to evaluate differences over time among participants with varying ultrastructural defects.

Level 2.

Primary ciliary dyskinesia (PCD) is a rare, genetically heterogeneous disease. Due to difficulty accessing diagnostic services and a lack of awareness of the syndrome, clinicians often fail to recognize the classic phenotype, leading to missed diagnoses.

Relevant medical records were accessed through The BIG DATA QUERY AND ANALYSIS SYSTEM of Peking Union Medical College Hospital from September 1, 2012 to March 31, 2024. The search strategy included the following key terms: (bronchiectasis OR atelectasis OR recurrent cough OR recurrent expectoration OR hemoptysis) AND (sinusitis OR nasal polyps OR otitis media OR neonatal pneumonia OR neonatal respiratory distress OR ectopic pregnancy OR infertility OR artificial insemination OR assisted reproduction OR hydrocephalus OR congenital heart disease OR organ laterality defect OR right-sided heart OR semen OR consanguineous marriage). Patients were filtered according to inclusion and exclusion criteria, and those with clinical suspicion of PCD were invited for screening, which included nasal nitric oxide and whole exome sequencing.

A total of 874 medical records were retrieved. After filtering based on inclusion and exclusion criteria, 65 patients with clinical suspicion of PCD were identified, 21 of whom accepted our invitation to complete PCD-related screening. Among them, four were diagnosed with PCD, one was diagnosed with cystic fibrosis, and one was diagnosed with immunodeficiency-21.

This is the first study to use an electronic medical record retrieval system to identify missed diagnoses PCD. We believe that the methods used in this study can be extended to other rare diseases in the future.

Millions of people worldwide die from malignant tumors every year, and the current clinical treatment is still based on radiotherapy and chemotherapy. Immunotherapy-adjuvant chemotherapy is widely applied, yet resistance to various factors persists in the management of advanced malignancies. Recently researchers have gradually discovered that the integrity of primary cilia is closely related to many diseases. The phenotypic changes in primary cilia are found in some cases of progeria, tumorigenesis, and drug resistance. Primary cilia seem to mediate signaling during these diseases. Hedgehog inhibitors have emerged in recent years to treat tumors by controlling signaling proteins on primary cilia. There is evidence for the use of anti-tumor drugs to treat senescence-related disease. Considering the close relationship between aging and obesity, as well as the obesity is the phenotype of many ciliopathies. Therefore, we speculate that some anti-tumor or anti-aging drugs can treat ciliopathies. Additionally, there is evidence suggesting that anti-aging drugs for tumor treatment, in which the process may be mediated by cilia. This review elucidates for the first time that cilia may be involved in the regulation of senescence, metabolic, tumorigenesis, and tumor resistance and hypothesizes that cilia can be regulated to treat these diseases in the future.

The airway epithelium is the first point of contact for inhaled pathogens. The role of epithelial cells in clearance, infection and colonisation of bacteria is established. The interactions of respiratory viruses and cilia is less understood, but viruses are known to target ciliated epithelial cells for entry, replication and dissemination. Furthermore, some respiratory viruses impair and/or enhance ciliary activity. This review examines what is known about the interactions between cilia and viral infection and how respiratory viruses effect cilia function with subsequent consequences for human health. We discuss the models which can be used to investigate the relationship between respiratory viruses and the host airway.

Background: Primary Ciliary Dyskinesia (PCD) is a rare genetic disorder requiring airway clearance techniques for mucus removal. We aimed to evaluate the feasibility and the effect of the active cycle of breathing technique (ACBT) versus oscillating positive expiratory pressure therapy (OPEP) in improving lung function and functional exercise capacity among children with PCD in Palestine. Methods: 32 PCD children (6-18 years) were included in a 12-week home-based feasibility study. They were assigned randomly into two groups: ACBT and OPEP. Data collection included spirometry measurements, and the six-minute walk test (6MWT). Results: After 12 weeks of regular airway clearance techniques (ACT), the FEV1, MEF25-75%, and the 6MWT demonstrated statistically significant differences (p = .02, p = .04, and p = .05 respectively) between the two groups, in favor of the OPEP group with the effect size of Cohen's d (0.86, 0.76, and 0.71) respectively. However, there was no significant difference (p > .05) between the two groups in FVC and FEV1/FVC. Additionally, only in the OPEP group, significant differences were recorded between pre and post-tests for FEV1 and 6MWT (p < .05). Conclusion: The randomized study design comparing ACBT and OPEP was feasible and acceptable to patients. OPEP demonstrates potential for managing respiratory health; however, treatments should be individualized to address each patient's specific needs. Further research with larger cohorts is needed to assess the effectiveness of both methods.

Primary Ciliary Dyskinesia (PCD) is a complex mostly autosomal recessive disorder characterized by dysfunction of primary motor cilia, leading to multisystemic manifestations, primarily affecting the rhino-sinopulmonary system. Despite advancements in understanding its pathogenesis, genotype-phenotype correlations are not fully elucidated. Utilizing sibling cohorts offers a promising approach to investigate these genotype-phenotype correlations in PCD.

This retrospective cohort study, conducted from 2010 to 2023 at Soroka University Medical Center in Be'er-Sheva, Israel, included patients with a confirmed diagnosis of PCD. Variables and outcomes compared include typical presenting symptoms, lung function, structural changes in chest tomography (CT), and anthropometric data.

Seventeen sibling patients from eight families met the inclusion criteria. At the last follow-up visit, the median age was 16 years. Genetic diagnosis revealed homozygous pathogenic variants including DNAH11, DNAAF3, DNAL1, and ZMYND10. Full concordance rates were observed for unexplained neonatal respiratory distress, chronic cough, and rhinosinusitis in patients with DNAH11 mutations. The family with the DNAAF3 mutation exhibited the lowest difference in Forced Expiratory Volume in 1 s (FEV1) Z-scores (0.48), but the highest differences in Forced Vital Capacity (FVC) Z-scores (3.39). High differences in FEV1 Z-scores were identified in the family with the DNAL1 mutation (2.06), while the lowest differences in FVC Z-scores (0.39) were observed in the same family.

High concordance rates for certain mutations in clinical features suggest potential genotype-phenotype correlations, in contrast to weak concordance in lung function. Challenges remain in establishing direct correlations between genetic mutations and clinical outcomes.

The estimated prevalence of tracheobronchomalacia (TBM) in children is about 1:2100. Prevalence of intrathoracic malacia is higher in children with chronic lung disease such as bronchiectasis and cystic fibrosis (CF) and may contribute to increased morbidity.

To determine the prevalence and assess clinical features of tracheomalacia (TM), TBM and bronchomalacia (BM) in patients with primary ciliary dyskinesia (PCD).

We performed a retrospective case-note review of all children with a confirmed or highly likely diagnosis of PCD attending Oslo University Hospital between 2000 and 2021. We selected those who had undergone flexible fiberoptic bronchoscopy (FB) and in whom the presence of TBM was assessed. We retrieved demographic and clinical data, including airway symptoms, PCD-diagnostic criteria, indication for bronchoscopy, the presence of lobar atelectasis, microbiology and the descriptive and unblinded video-recorded results of FB. Complications occurring during and after bronchoscopy were noted.

Of 71 children with PCD, 32 underwent FB and were included in the review. The remaining 39 were included for TBM prevalence calculation only. Median age at FB was 6.0 years (3.1-11.9). Twenty-two children (69%) had intrathoracic airway malacia. Four (13%) had isolated TM, seven (22%) had TBM, and 11 (34%) had isolated BM affecting either main (n = 4) or lobar bronchi (n = 7) (LBM), including four with associated lobar atelectasis. FB related complications, one major, 12 minor, were documented in 13 children (41%).

We found a high prevalence of TBM among children with PCD undergoing FB. This may represent a significant comorbidity and have implications for patient management.

Primary ciliary dyskinesia (PCD) is a genetic disorder affecting motile cilia. Most cases are inherited recessively, due to variants in >50 genes that result in abnormal or absent motile cilia. This leads to chronic upper and lower airway disease, subfertility, and laterality defects. Given overlapping clinical features and genetic heterogeneity, diagnosis can be difficult and often occurs late. Of those tested an estimated 30% of genetically screened PCD patients still lack a molecular diagnosis. A molecular diagnosis allows for appropriate clinical management including prediction of phenotypic features correlated to genotype. Here, we aimed to identify how readily a genetic diagnosis could be made using whole genome sequencing (WGS) to facilitate identification of pathogenic variants in known genes as well as novel PCD candidate genes.

WGS was used to screen for pathogenic variants in eight patients with PCD.

7/8 cases had homozygous or biallelic variants in DNAH5, DNAAF4 or DNAH11 classified as pathogenic or likely pathogenic. Three identified variants were deletions, ranging from 3 to 13 kb, for which WGS identified precise breakpoints, permitting confirmation by Sanger sequencing. WGS yielded identification of a de novo variant in a novel PCD gene TUBB4B.

Here, WGS uplifted genetic diagnosis of PCD by identifying structural variants and novel modes of inheritance in new candidate genes. WGS could be an important component of the PCD diagnostic toolkit, increasing molecular diagnostic yield from current (70%) levels, and enhancing our understanding of fundamental biology of motile cilia and variants in the noncoding genome.

Primary ciliary dyskinesia (PCD) is a group of genetically heterogeneous disorders characterized by clinical manifestations resulting from abnormal ciliary motility. Mutations in critical genes, such as Cyclin O (CCNO), have been associated with severe respiratory disease, though limited data are currently available. Here we show that CCNO deficient ciliated cells can only form a reduced number of fully functional centrioles that can mature into ciliated basal bodies, and their transport and anchoring to the top of the plasma membrane are abnormal. Furthermore, we observed that CCNO localizes not only in the cytoplasm but also in the nucleus during the early stages of ciliogenesis, and this dual localization persists into adulthood. Transcriptome analysis revealed downregulation of genes involved in cilia assembly and movement, along with altered transcription factors associated with ciliation upon CCNO depletion. These findings indicate that CCNO may serve as a key regulator in the transcriptional regulation of multiciliogenesis.

A dramatic increase in fetal situs inversus diagnoses by ultrasound in the months following the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) surge of December 2022 in China led us to investigate whether maternal SARS-CoV-2 exposure could be associated with elevated risk of fetal situs inversus.

In this multi-institutional, hospital-based, matched case-control study, we investigated pregnant women who underwent ultrasonographic fetal biometric assessment at gestational weeks 20-24 at our hospitals. Each pregnant woman carrying a situs inversus fetus was randomly matched with four controls based on the date of confinement. Relevant information, including SARS-CoV-2 infection, and other potential risk factors were collected. Conditional logistic regression was used to test possible associations between fetal situs inversus and SARS-CoV-2 infection at different gestational weeks as well as individual risk factors.

A total of 52 pregnant women diagnosed with fetal situs inversus between January 1 and October 31, 2023 and 208 matched controls with normal fetuses were enrolled. We found no association between an increased risk of fetal situs inversus with gestational SARS-CoV-2 infection or with other risk factors. However, fetal situs inversus was significantly associated with SARS-CoV-2 infection specifically in gestational weeks 4-6 (adjusted odds ratio [aOR] 6.54 [95% confidence interval 1.76-24.34]), but not with infection at other gestational ages, after adjusting for covariates.

Increased risk of fetal situs inversus is significantly associated with maternal SARS-CoV-2 infection at gestational weeks 4-6, corresponding to the fetal developmental window for visceral lateralization in humans.

National Key R&D Program of China, etc.

Primary ciliary dyskinesia (PCD) is a rare, motile ciliopathy inherited through mostly autosomal recessive variants that results in chronic ear, sinus, and respiratory disease. Despite neonatal respiratory distress being a common presenting symptom in term infants with PCD, the diagnosis is often delayed due to non-familiarity of neonatal caregivers with phenotypic and diagnostic features of this disease. Organ laterality defects, prenatal cerebral ventriculomegaly, and a family history of suppurative respiratory disease may occur in PCD and should prompt neonatal testing for this condition. In this review of neonatal PCD diagnoses in a large PCD clinic, prevalence and details of neonatal PCD issues are presented, highlighting the typically delayed onset of neonatal respiratory distress and lobar atelectasis on chest radiography, specific presentations in premature neonates, and responses to perinatal therapies.

Data are limited on the genetic profile of primary ciliary dyskinesia (PCD) from developing countries. Here, we report one of the first study on genetic profile of patients with suspected PCD from India. In this prospective cross-sectional study, we enrolled 162 children with suspected PCD. We recorded clinical features, relevant laboratory tests for PCD and performed whole exome sequencing (WES). We are reporting 67 patients here who had positive variant/s on WES. We had 117 variants in 40 genes among 67 patients. Among the 108 unique variants, 33 were categorized as pathogenic or likely pathogenic (P/LP). We had nine novel variants in out cohort. The 29 definite PCD cases, diagnosed by composite reference standards, had variants in 16 genes namely LRRC6/DNAAF11 (5), DNAH5 (3), CCDC39 (3), HYDIN (3), DNAH11 (2), CCDC40 (2), CCDC65 (2) and one each DNAAF3, DNAAF2, CFAP300, RPGR, CCDC103, CCDC114, SPAG1, DNAI1, and DNAH14. To conclude, we identified 108 unique variants in 40 genes among 67 patients. The common genes involved in definite cases of PCD in Indian patients were LRRC6, DNAH5, CCDC39, and HYDIN. Our findings suggest a need to develop a separate genetic panel for PCD in the Indian population.

Despite great promise, application of mRNA therapeutics in the lung has proven challenging. Many groups have reported success instilling liquid mRNA formulations in animal models, but direct intratracheal administration of large liquid quantities to the human lung presents significant safety and distribution concerns. To accomplish safe and effective mRNA delivery to the lung, formulations must be prepared for dosing via inhalation. An inhaled mRNA delivery system for the lung must be both robust enough to survive inhalation conditions and potent enough to deliver mRNA upon reaching the lung. In this work dry powder lipid nanoparticle formulations are developed, using spray-freeze-drying, to produce stable, biologically active, inhalable dry powders for mRNA delivery. The final powders have suitable aerosolization properties, with mean mass aerodynamic diameter (MMAD) of 3-4 microns, and fine particle fraction (FPF) ≈40%, allowing for efficient mRNA delivery to the deep lung following inhalation. Importantly, the formulations developed here are suitable for use with different ionizable lipids. Four different ionizable lipid-based formulations are evaluated as powders, and all exhibit in vivo pulmonary mRNA delivery equal to that of instilled liquid formulations. These results lay promising groundwork for the eventual development of an inhalable mRNA dry powder therapeutic.

We present the case of a 58-year-old female patient with primary ciliary dyskinesia (PCD). She was born to parents with a consanguineous marriage. Chest computed tomography conducted at age 41 years indicated no situs inversus, and findings of bronchiectasis were limited to the middle and lingular lobes. Despite long-term macrolide therapy, bronchiectasis exacerbations frequently occurred. PCD was suspected because of the low nasal nitric oxide level (20.7 nL/min). Electron microscopy revealed outer and inner dynein arm defects, and a genetic analysis identified a homozygous single-nucleotide deletion in the DNAAF1 gene. Based on these results, the patient was diagnosed with PCD due to a biallelic DNAAF1 mutation.

Ependymal cells are arranged along the inner surfaces of the ventricles and the central canal of the spinal cord, providing anatomical, physiological and immunological barriers that maintain cerebrospinal fluid (CSF) homeostasis. Based on this, studies have found that alterations in gene expression, cell junctions, cytokine secretion and metabolic disturbances can lead to dysfunction of ependymal cells, thereby participating in the onset and progression of central nervous system (CNS) infections. Additionally, ependymal cells can exhibit proliferative and regenerative potential as well as secretory functions during CNS injury, contributing to neuroprotection and post-injury recovery. Currently, studies on ependymal cell primarily focus on the basic investigations of their morphology, function and gene expression; however, there is a notable lack of clinical translational studies examining the molecular mechanisms by which ependymal cells are involved in disease onset and progression. This limits our understanding of ependymal cells in CNS infections and the development of therapeutic applications. Therefore, this review will discuss the molecular mechanism underlying the involvement of ependymal cells in CNS infections, and explore their potential for application in clinical treatment modalities.

Primary ciliary dyskinesia (PCD), a disorder of the motile cilia, is now recognised as an underdiagnosed cause of bronchiectasis. Accurate PCD diagnosis comprises clinical assessment, analysis of cilia and the identification of biallelic variants in one of 50 known PCD-related genes, including HYDIN. HYDIN-related PCD is underdiagnosed due to the presence of a pseudogene, HYDIN2, with 98% sequence homology to HYDIN. This presents a significant challenge for Short-Read Next Generation Sequencing (SR-NGS) and analysis, and many diagnostic PCD gene panels do not include HYDIN. We have used a combined approach of SR-NGS with bioinformatic masking of HYDIN2, and state-of-the-art long-read Nanopore sequencing (LR_NGS), together with analysis of respiratory cilia including transmission electron microscopy and immunofluorescence to address the underdiagnosis of HYDIN as a cause of PCD. Bioinformatic masking of HYDIN2 after SR-NGS facilitated the detection of biallelic HYDIN variants in 15 of 437 families, but compromised the detection of copy number variants. Supplementing testing with LR-NGS detected HYDIN deletions in 2 families, where SR-NGS had detected a single heterozygous HYDIN variant. LR-NGS was also able to confirm true homozygosity in 2 families when parental testing was not possible. Utilising a combined genomic diagnostic approach, biallelic HYDIN variants were detected in 17 families from 242 genetically confirmed PCD cases, comprising 7% of our PCD cohort. This represents the largest reported HYDIN cohort to date and highlights previous underdiagnosis of HYDIN-associated PCD. Moreover this provides further evidence for the utility of LR-NGS in diagnostic testing, particularly for regions of high genomic complexity.

Primary ciliary dyskinesia (PCD) is a group of rare genetically heterogeneous disorders caused by defective cilia and flagella motility. The clinical phenotype of PCD patients commonly includes chronic oto-sino-pulmonary disease, infertility, and, in about half of cases, laterality defects due to randomization of left-right body asymmetry. To date, pathogenic variants in more than 50 genes responsible for motile cilia structure and assembly have been reported in such patients. While multiple population-specific mutations have been described in PCD cohorts from different countries, the data on genetic spectrum of PCD in Russian population are still extremely limited.

The present study provides a comprehensive clinical and genetic characterization of 21 Russian families with PCD living in various country regions. Anomalies of ciliary beating in patients` respiratory epithelial cells were confirmed by high-speed video microscopy. In the most cases, custom-designed panel sequencing allowed to uncover causative variants in well-known or rarely mentioned PCD-related genes, including DNAH5, DNAH11, CFAP300, LRRC6, ZMYND10, CCDC103, HYDIN, ODAD4, DNAL1, and OFD1. The variations comprised common mutations, as well as novel genetic variants, some of which probably specific for Russian patients. Additional targeted analysis of mRNA transcripts from ciliated cells enabled us to specify functional effects of newly identified genetic variants in DNAH5 (c.2052+3G>T, c.3599-2A>G), HYDIN (c.10949-2A>G, c.1797C>G), and ZMYND10 (c.510+1G>C) on splicing process. In particular, the splice site variant c.2052+3G>T, detected in four unrelated families, resulted in skipping of exon 14 in DNAH5 transcripts and, according to haplotype analysis of affected probands, was proposed as an ancestral founder mutation in Udmurt population.

The reported data provide a vital insight into genetic background of primary ciliary dyskinesia in the Russian population. The findings clearly illustrate the utility of gene panel sequencing coupled with transcriptional analysis in identification and clinical interpretation of novel genetic variants.