Kombiniert-heterozygote Defizienz von Komplementfaktor C7 bei einerPatientin mit rezidivierender Meningitis

Zusammenfassung: Hintergrund:: Die Assoziation zwischen Komplementdefizienzen, insbesondere von Komponenten der terminalen Kaskade (C5-C9), und dem Auftreten von Meningokokkeninfekten und bakteriellen Meningitiden ist gut beschrieben. Fallbeschreibung:: In dem vorliegenden Fallbericht wird dabei erstmals ein kombiniert-heterozygoter Defekt im C7-Gen beschrieben, der noch eine Restproduktion von C7 erlaubte. Diese Restproduktion reichte jedoch nicht aus, um vor rezidivierenden Meningitiden zu schützen. Schlussfolgerung:: Der Fallbericht zeigt erneut den Stellenwert der Komplementdiagnostik bei Patienten mit Meningokokkeninfekt und die Notwendigkeit, auch Patienten mit reduzierter, aber noch messbarer Komplementaktivität einer weiteren Abklärung auf eine Komplementdefizienz zuzuführe

The ARCA Registry: A Collaborative Global Platform for Advancing Trial Readiness in Autosomal Recessive Cerebellar Ataxias.

Autosomal recessive cerebellar ataxias (ARCAs) form an ultrarare yet expanding group of neurodegenerative multisystemic diseases affecting the cerebellum and other neurological or non-neurological systems. With the advent of targeted therapies for ARCAs, disease registries have become a precious source of real-world quantitative and qualitative data complementing knowledge from preclinical studies and clinical trials. Here, we review the ARCA Registry, a global collaborative multicenter platform (>15 countries, >30 sites) with the overarching goal to advance trial readiness in ARCAs. It presents a good clinical practice (GCP)- and general data protection regulation (GDPR)-compliant professional-reported registry for multicenter web-based capture of cross-center standardized longitudinal data. Modular electronic case report forms (eCRFs) with core, extended, and optional datasets allow data capture tailored to the participating site's variable interests and resources. The eCRFs cover all key data elements required by regulatory authorities [European Medicines Agency (EMA)] and the European Rare Disease (ERD) platform. They capture genotype, phenotype, and progression and include demographic data, biomarkers, comorbidity, medication, magnetic resonance imaging (MRI), and longitudinal clinician- or patient-reported ratings of ataxia severity, non-ataxia features, disease stage, activities of daily living, and (mental) health status. Moreover, they are aligned to major autosomal-dominant spinocerebellar ataxia (SCA) and sporadic ataxia (SPORTAX) registries in the field, thus allowing for joint and comparative analyses not only across ARCAs but also with SCAs and sporadic ataxias. The registry is at the core of a systematic multi-component ARCA database cluster with a linked biobank and an evolving study database for digital outcome measures. Currently, the registry contains more than 800 patients with almost 1,500 visits representing all ages and disease stages; 65% of patients with established genetic diagnoses capture all the main ARCA genes, and 35% with unsolved diagnoses are targets for advanced next-generation sequencing. The ARCA Registry serves as the backbone of many major European and transatlantic consortia, such as PREPARE, PROSPAX, and the Ataxia Global Initiative, with additional data input from SPORTAX. It has thus become the largest global trial-readiness registry in the ARCA field

Impact of examinees' stereopsis and near visual acuity on laparoscopic virtual reality performance

Purpose: Laparoscopic surgery represents specific challenges, such as the reduction of a three-dimensional anatomic environment to two dimensions. The aim of this study was to investigate the impact of the loss of the third dimension on laparoscopic virtual reality (VR) performance. Methods: We compared a group of examinees with impaired stereopsis (group 1, n=28) to a group with accurate stereopsis (group 2, n=29). The primary outcome was the difference between the mean total score (MTS) of all tasks taken together and the performance in task 3 (eye-hand coordination), which was a priori considered to be the most dependent on intact stereopsis. Results: The MTS and performance in task 3 tended to be slightly, but not significantly, better in group 2 than in group 1 [MTS: −0.12 (95% CI −0.32, 0.08; p=0.234); task 3: −0.09 (95% CI −0.29, 0.11; p=0.385)]. The difference of MTS between simulated impaired stereopsis between group 2 (by attaching an eye patch on the adominant eye in the 2nd run) and the first run of group 1 was not significant (MTS: p=0.981; task 3: p=0.527). Conclusion: We were unable to demonstrate an impact of impaired examinees' stereopsis on laparoscopic VR performance. Individuals with accurate stereopsis seem to be able to compensate for the loss of the third dimension in laparoscopic VR simulations