Carolin Kröner scite author profile

Patients with interstitial lung disease due to surfactant protein C (SFTPC) mutations are rare and not well characterised.We report on all subjects collected over a 15-year period in the kids-lung register with interstitial lung disease and a proven SFTPC mutation. We analysed clinical courses, interventions and outcomes, as well as histopathological and radiological interrelations.17 patients (seven male) were followed over a median of 3 years (range 0.3-19). All patients were heterozygous carriers of autosomal dominant SFTPC mutations. Three mutations ( p.L101P, p.E191 K and p.E191*) have not been described before in the context of surfactant protein C deficiency. Patients with alterations in the BRICHOS domain of the protein (amino acids 94-197) presented earlier. At follow-up, one patient was healthy (2 years), six patients were "sick-better" (2.8 years, range 0.8-19), seven patients were "sick-same" (6.5 years, 1.3-15.8) and three patients were "sick-worse" (0.3 years, 0.3-16.9). Radiological findings changed from ground-glass to increasing signs of fibrosis and cyst formation with increasing age. Empiric treatments had variable effects, also in patients with the same genotype.Prospective studies with randomised interventions are urgently needed and can best be performed in the framework of international registers. @ERSpublications Genotype alone does not predict the clinical course of surfactant protein C deficiency in children and young adults http://ow.ly/GRhCc

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Categorizing diffuse parenchymal lung disease in children

Griese

Irnstetter

Hengst

et al. 2015

Orphanet J Rare Dis

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BackgroundAim of this study was to verify a systematic and practical categorization system that allows dynamic classification of pediatric DPLD irrespective of completeness of patient data.MethodsThe study was based on 2322 children submitted to the kids-lung-register between 1997 and 2012. Of these children 791 were assigned to 12 DPLD categories, more than 2/3 belonged to categories manifesting primarily in infancy. The work-flow of the pediatric DPLD categorization system included (i) the generation of a final working diagnosis, decision on the presence or absence of (ii) DPLD and (iii) a systemic or lung only condition, and (iv) the allocation to a category and subcategory. The validity and inter-observer dependency of this workflow was re-tested using a systematic sample of 100 cases.ResultsTwo blinded raters allocated more than 80 % of the re-categorized cases identically. Non-identical allocation was due to lack of appreciation of all available details, insufficient knowledge of the classification rules by the raters, incomplete patient data, and shortcomings of the classification system itself.ConclusionsThis study provides a suitable workflow and hand-on rules for the categorization of pediatric DPLD. Potential pitfalls were identified and a foundation was laid for the development of consensus-based, international categorization guidelines.Electronic supplementary materialThe online version of this article (doi:10.1186/s13023-015-0339-1) contains supplementary material, which is available to authorized users.

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GATA2 deficiency in children and adults with severe pulmonary alveolar proteinosis and hematologic disorders

et al. 2015

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BackgroundThe majority of cases with severe pulmonary alveolar proteinosis (PAP) are caused by auto-antibodies against GM-CSF. A multitude of genetic and exogenous causes are responsible for few other cases. Goal of this study was to determine the prevalence of GATA2 deficiency in children and adults with PAP and hematologic disorders.MethodsOf 21 patients with GM-CSF-autoantibody negative PAP, 13 had no other organ involvement and 8 had some form of hematologic disorder. The latter were sequenced for GATA2.ResultsAge at start of PAP ranged from 0.3 to 64 years, 4 patients were children. In half of the subjects GATA2-sequence variations were found, two of which were considered disease causing. Those two patients had the typical phenotype of GATA2 deficiency, one of whom additionally showed a previously undescribed feature – a cholesterol pneumonia. Hematologic disorders included chronic myeloic leukemia, juvenile myelo-monocytic leukemia, lymphoblastic leukemia, sideroblastic anemia and two cases of myelodysplastic syndrome (MDS). A 4 year old child with MDS and DiGeorge Syndrome Type 2 was rescued with repetitive whole lung lavages and her PAP was cured with heterologous stem cell transplant.ConclusionsIn children and adults with severe GM-CSF negative PAP a close cooperation between pneumologists and hemato-oncologists is needed to diagnose the underlying diseases, some of which are caused by mutations of transcription factor GATA2. Treatment with whole lung lavages as well as stem cell transplant may be successful.

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Impaired memory B‐cell development and antibody maturation with a skewing toward IgE in patients with STAT3 hyper‐IgE syndrome

Veen

Krätz

McKenzie

et al. 2019

Allergy

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Background: Signal transducer and activator of transcription 3 hyper-IgE syndrome (STAT3-HIES) is caused by heterozygous mutations in the STAT3 gene and is associated with eczema, elevated serum IgE, and recurrent infections resembling severe atopic dermatitis, while clinically relevant specific IgE is almost absent. Methods:To investigate the impact of STAT3 signaling on B-cell responses, we assessed lymph node and bone marrow, blood B and plasma cell subsets, somatic hypermutations in Ig genes, and in vitro proliferation and antibody production in STAT3-HIES patients and healthy controls. Results: Lymph nodes of STAT3-HIES patients showed normal germinal center architecture and CD138 + plasma cells residing in the paracortex, which expressed IgE, IgG, and IgM but not IgA. IgE + plasma cells were abundantly present in STAT3-HIES bone marrow. Proliferation of naive B cells upon stimulation with CD40L and IL-4 was similar in patients and controls, while patient cells showed reduced responses to IL-21. IgE, IgG1, IgG3 and IgA1 transcripts showed reduced somatic hypermutations. | 2395 van de veen et al.

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Carolin Kröner

Lung disease caused byABCA3mutations

Genotype alone does not predict the clinical course ofSFTPCdeficiency in paediatric patients

Categorizing diffuse parenchymal lung disease in children

GATA2 deficiency in children and adults with severe pulmonary alveolar proteinosis and hematologic disorders

Impaired memory B‐cell development and antibody maturation with a skewing toward IgE in patients with STAT3 hyper‐IgE syndrome

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