[The transitional care from pediatrics to adult medicine within the rare autoimmune and autoinflammatory diseases network]. / Transition de la médecine pédiatrique à la médecine pour adultes dans les maladies autoimmunes et autoinflammatoires rares.

The committee involved in transitional care within the French network on rare autoimmune and auto-inflammatory diseases has developed tools and published recommendations for the care during the transition of adolescents and young adults suffering from these chronic diseases which often demonstrate flares. As the challenge is the compliance to the continuation of care in the adult world, the therapeutic alliance between the young patient and his/her pediatrician and then his/her adult doctor is particularly important. The working group thus carried out a survey on how doctors and young patients perceive their relationship during the period of transition in medical supervision.

Title: Transition de la médecine pédiatrique à la médecine pour adultes dans les maladies autoimmunes et autoinflammatoires rares. Abstract: La commission « Transition ¼ de la filière de santé des maladies auto-immunes et auto-inflammatoires rares a développé des outils et émis des recommandations pour la prise en charge des adolescents et jeunes adultes atteints de ces maladies chroniques évoluant souvent par poussées, durant la période de transition de la médecine pédiatrique vers la médecine pour adultes. L'enjeu de l'adhésion du jeune patient à la poursuite de son parcours de soin dans le système de santé des adultes rend particulièrement importante l'alliance thérapeutique avec son médecin pédiatre puis son médecin pour adultes. Le groupe de travail issu de cette commission a ainsi mené une enquête sur la façon dont les médecins et les jeunes patients perçoivent leur relation durant la période de la transition du suivi médical.

Development of a Prediction Model for COVID-19 Acute Respiratory Distress Syndrome in Patients With Rheumatic Diseases: Results From the Global Rheumatology Alliance Registry.

OBJECTIVE: Some patients with rheumatic diseases might be at higher risk for coronavirus disease 2019 (COVID-19) acute respiratory distress syndrome (ARDS). We aimed to develop a prediction model for COVID-19 ARDS in this population and to create a simple risk score calculator for use in clinical settings. METHODS: Data were derived from the COVID-19 Global Rheumatology Alliance Registry from March 24, 2020, to May 12, 2021. Seven machine learning classifiers were trained on ARDS outcomes using 83 variables obtained at COVID-19 diagnosis. Predictive performance was assessed in a US test set and was validated in patients from four countries with independent registries using area under the curve (AUC), accuracy, sensitivity, and specificity. A simple risk score calculator was developed using a regression model incorporating the most influential predictors from the best performing classifier. RESULTS: The study included 8633 patients from 74 countries, of whom 523 (6%) had ARDS. Gradient boosting had the highest mean AUC (0.78; 95% confidence interval [CI]: 0.67-0.88) and was considered the top performing classifier. Ten predictors were identified as key risk factors and were included in a regression model. The regression model that predicted ARDS with 71% (95% CI: 61%-83%) sensitivity in the test set, and with sensitivities ranging from 61% to 80% in countries with independent registries, was used to develop the risk score calculator. CONCLUSION: We were able to predict ARDS with good sensitivity using information readily available at COVID-19 diagnosis. The proposed risk score calculator has the potential to guide risk stratification for treatments, such as monoclonal antibodies, that have potential to reduce COVID-19 disease progression.

Alteration of sarcoplasmic reticulum ca release in skeletal muscle from calpain 3-deficient mice.

Mutations of Ca(2+)-activated proteases (calpains) cause muscular dystrophies. Nevertheless, the specific role of calpains in Ca(2+) signalling during the onset of dystrophies remains unclear. We investigated Ca(2+) handling in skeletal cells from calpain 3-deficient mice. [Ca(2+)](i) responses to caffeine, a ryanodine receptor (RyR) agonist, were decreased in -/- myotubes and absent in -/- myoblasts. The -/- myotubes displayed smaller amplitudes of the Ca(2+) transients induced by cyclopiazonic acid in comparison to wild type cells. Inhibition of L-type Ca(2+) channels (LCC) suppressed the caffeine-induced [Ca(2+)](i) responses in -/- myotubes. Hence, the absence of calpain 3 modifies the sarcoplasmic reticulum (SR) Ca(2+) release, by a decrease of the SR content, an impairment of RyR signalling, and an increase of LCC activity. We propose that calpain 3-dependent proteolysis plays a role in activating support proteins of intracellular Ca(2+) signalling at a stage of cellular differentiation which is crucial for skeletal muscle regeneration.

Abnormal distribution of calcium-handling proteins: a novel distinctive marker in core myopathies.

Central core disease (CCD) and multi-minicore disease (MmD) are muscle disorders characterized by foci of mitochondria depletion and sarcomere disorganization ("cores") in muscle fibers. Although core myopathies are the most frequent congenital myopathies, their pathogenesis remains elusive and specific diagnostic markers are lacking. Core myopathies are mostly caused by mutations in 2 sarcoplasmic reticulum proteins: the massive Ca-release channel RyR1 or the selenoprotein N (SelN) of unknown function. To search for distinctive markers and to obtain further pathophysiological insight, we identified the molecular defects in 12 core myopathy patients and analyzed the immunolocalization of 6 proteins of the Ca-release complex in their muscle biopsies. In 7 cases with RYR1 mutations (6 CCD, one MmD), RyR1 was depleted from the cores; in contrast, the other proteins of the sarcoplasmic reticulum (calsequestrin, SERCA1/2, and triadin) and the T-tubule (dihydropyridine receptor-alpha1subunit) accumulated within or around the lesions, suggesting an original modification of the Ca-release complex protein arrangement. Conversely, all Ca-related proteins were distributed normally in 5 MmD cases with SelN mutations. Our results provide an appropriate tool to orientate the differential and molecular diagnosis of core myopathies and suggest that different pathophysiological mechanisms lead to core formation in SelN- and in RyR1-related core myopathies.

Characterization of the muscle involvement in dynamin 2-related centronuclear myopathy.

Centronuclear myopathy (CNM) is a slowly progressive congenital myopathy characterized by abnormal centrally located nuclei in a large number of muscle fibres. Recently, different missense mutations affecting the middle domain of the dynamin 2 (DNM2) have been shown to cause autosomal dominant CNM. In order to better define the phenotype of DNM2-related CNM, we report here on the clinical and muscle imaging findings of 10 patients harbouring DNM2 mutations. DNM2-CNM is characterized by slowly progressive muscular weakness usually beginning in adolescence or early adulthood. In addition to bilateral ptosis, our data show that distal muscle weakness often exceeds proximal involvement. Furthermore, electrophysiological investigations frequently demonstrated signs of mild axonal peripheral nerve involvement, and electromyographical examination may show neuropathic changes in addition to the predominant myopathic changes. These features overlap with findings seen in the phenotype of DNM2-related autosomal dominant Charcot-Marie-Tooth disease type 2B. In all 10 DNM2-CNM patients, muscle computer tomography assessment showed a consistent pattern of muscular involvement and a characteristic temporal course with early and predominant distal muscle involvement, and later affection of the posterior thigh compartment and gluteus minimus muscles. The recognition of this specific imaging pattern of muscle involvement--distinct to the reported patterns in other congenital myopathies--may enable a better selection for direct genetic testing.

Evidence of a founder effect for the tissue-nonspecific alkaline phosphatase (TNSALP) gene E174K mutation in hypophosphatasia patients.

Hypophosphatasia is a rare inborn error of metabolism characterised by defective bone mineralisation caused by a deficiency of liver-, bone- or kidney-type alkaline phosphatase due to mutations in the tissue-nonspecific alkaline phosphatase (TNSALP) gene. The clinical expression of the disease is highly variable, ranging from stillbirth with a poorly mineralised skeleton to pathologic skeletal fractures which develop in late adulthood only. This clinical heterogeneity is due to the strong allelic heterogeneity in the TNSALP gene. We found that mutation E174K is the most frequent in Caucasian patients, and that it was carried by 31% of our patients with mild hypophosphatasia. Because the mutation was found in patients of various geographic origins, we investigated whether it had a unique origin or rather multiple origins due to recurrence of de novo mutations. Three intragenic polymorphisms, S93S, 472+12delG and V505A, were genotyped in patients carrying E174K and in normal unrelated individuals. Our results show that all the E174K mutations are carried by a common ancestral haplotype, also found at low frequency in normal and hypophosphatasia chromosomes. We conclude that the TNSALP gene E174K mutation is the result of a relatively ancient ancestral mutation that occurred on a single chromosome in the north of Western Europe and spread throughout the rest of Europe and into the New World as a result of human migration.