Your search keyword '"John Vissing"' showing total 625 results

1. Genotype-specific effects of elamipretide in patients with primary mitochondrial myopathy: a post hoc analysis of the MMPOWER-3 trial

Author

Amel Karaa, Enrico Bertini, Valerio Carelli, Bruce Cohen, Gregory M. Ennes, Marni J. Falk, Amy Goldstein, Gráinne Gorman, Richard Haas, Michio Hirano, Thomas Klopstock, Mary Kay Koenig, Cornelia Kornblum, Costanza Lamperti, Anna Lehman, Nicola Longo, Maria Judit Molnar, Sumit Parikh, Han Phan, Robert D. S. Pitceathly, Russekk Saneto, Fernando Scaglia, Serenella Servidei, Mark Tarnopolsky, Antonio Toscano, Johan L. K. Van Hove, John Vissing, Jerry Vockley, Jeffrey S. Finman, Anthony Abbruscato, David A. Brown, Alana Sullivan, James A. Shiffer, Michelango Mancuso, and on behalf of the MMPOWER-3 Trial Investigators

Subjects

Elamipretide, PMM, Replisome, Mitochondria, MtDNA maintenance, MtDNA multiple deletions, Medicine

Abstract

Abstract Background As previously published, the MMPOWER-3 clinical trial did not demonstrate a significant benefit of elamipretide treatment in a genotypically diverse population of adults with primary mitochondrial myopathy (PMM). However, the prespecified subgroup of subjects with disease-causing nuclear DNA (nDNA) pathogenic variants receiving elamipretide experienced an improvement in the six-minute walk test (6MWT), while the cohort of subjects with mitochondrial DNA (mtDNA) pathogenic variants showed no difference versus placebo. These published findings prompted additional genotype-specific post hoc analyses of the MMPOWER-3 trial. Here, we present these analyses to further investigate the findings and to seek trends and commonalities among those subjects who responded to treatment, to build a more precise Phase 3 trial design for further investigation in likely responders. Results Subjects with mtDNA pathogenic variants or single large-scale mtDNA deletions represented 74% of the MMPOWER-3 population, with 70% in the mtDNA cohort having either single large-scale mtDNA deletions or MT-TL1 pathogenic variants. Most subjects in the nDNA cohort had pathogenic variants in genes required for mtDNA maintenance (mtDNA replisome), the majority of which were in POLG and TWNK. The mtDNA replisome post-hoc cohort displayed an improvement on the 6MWT, trending towards significant, in the elamipretide group when compared with placebo (25.2 ± 8.7 m versus 2.0 ± 8.6 m for placebo group; p = 0.06). The 6MWT results at week 24 in subjects with replisome variants showed a significant change in the elamipretide group subjects who had chronic progressive external ophthalmoplegia (CPEO) (37.3 ± 9.5 m versus − 8.0 ± 10.7 m for the placebo group; p = 0.0024). Pharmacokinetic (exposure–response) analyses in the nDNA cohort showed a weak positive correlation between plasma elamipretide concentration and 6MWT improvement. Conclusions Post hoc analyses indicated that elamipretide had a beneficial effect in PMM patients with mtDNA replisome disorders, underscoring the importance of considering specific genetic subtypes in PMM clinical trials. These data serve as the foundation for a follow-up Phase 3 clinical trial (NuPOWER) which has been designed as described in this paper to determine the efficacy of elamipretide in patients with mtDNA maintenance-related disorders. Classification of evidence Class I ClinicalTrials.gov identifier NCT03323749

Published

2024

2. Efficacy and safety of rozanolixizumab in patients with muscle-specific tyrosine kinase autoantibody-positive generalised myasthenia gravis: a subgroup analysis of the randomised, double-blind, placebo-controlled, adaptive phase III MycarinG study

Author

Ali A. Habib, Sabrina Sacconi, Giovanni Antonini, Elena Cortés-Vicente, Julian Grosskreutz, Zabeen K. Mahuwala, Renato Mantegazza, Robert M. Pascuzzi, Kimiaki Utsugisawa, John Vissing, Tuan Vu, Heinz Wiendl, Marion Boehnlein, Bernhard Greve, Franz Woltering, and Vera Bril

Subjects

Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: Muscle-specific tyrosine kinase (MuSK) autoantibody-positive (Ab+) generalised myasthenia gravis (gMG) is a rare and frequently severe subtype of gMG. Objectives: To assess the efficacy and safety of rozanolixizumab in the subgroup of patients with MuSK Ab+ gMG in the MycarinG study. Design: A randomised, double-blind, placebo-controlled phase III study. Methods: Patients with acetylcholine receptor (AChR) Ab+ or MuSK Ab+ gMG (aged ⩾18 years, Myasthenia Gravis Foundation of America Disease Class II–IVa, Myasthenia Gravis Activities of Daily Living [MG-‍ADL] score ⩾3.0 [non-ocular symptoms], Quantitative Myasthenia Gravis score ⩾11.0) were randomly assigned (1:1:1) to receive once-weekly subcutaneous infusions of rozanolixizumab 7 mg/kg, rozanolixizumab 10 mg/kg or placebo for 6 weeks, followed by an 8-week observation period. Randomisation was stratified by AChR and MuSK autoantibody status. The primary study endpoint was change from baseline to Day 43 in MG-ADL score. Treatment-emergent adverse events (TEAEs) were also assessed. Results: Overall, 200 patients were randomised, of whom 21 had MuSK Ab+ gMG and received rozanolixizumab 7 mg/kg ( n = 5), 10 mg/kg ( n = 8) or placebo ( n = 8). In patients with MuSK Ab+ gMG, reductions from baseline to Day 43 in MG-ADL scores were observed: rozanolixizumab 7 mg/kg least squares mean (LSM) change (standard error), –7.28 (1.94); 10 mg/kg, –4.16 (1.78); and placebo, 2.28 (1.95). Rozanolixizumab 7 mg/kg LSM difference from placebo was −9.56 (97.5% confidence interval: −15.25, −3.87); 10 mg/kg, −6.45 (−11.03, –1.86). TEAEs were experienced by four (80.0%), five (62.5%) and three (37.5%) patients with MuSK Ab+ gMG receiving rozanolixizumab 7 mg/kg, 10 mg/kg and placebo, respectively. No patients experienced serious TEAEs. No deaths occurred. Conclusion: This subgroup analysis of adult patients with MuSK Ab+ gMG enrolled in the MycarinG study supports the use of rozanolixizumab as an effective treatment option for patients with gMG who have MuSK autoantibodies. Trial registration: ClinicalTrials.gov: NCT03971422 ( https://clinicaltrials.gov/study/NCT03971422 ); EU Clinical Trials Register: EudraCT 2019-000968-18 ( https://www.clinicaltrials‌register.eu/ctr-search/trial/2019-000968-18/GB ).

Published

2024

3. 2999 Response to rozanolixizumab across treatment cycles in patients with generalised myasthenia gravis: a post hoc analysis

Author

John Vissing, Renato Mantegazza, Sabrina Sacconi, Julian Grosskreutz, Robert M Pascuzzi, Vera Bril, Ali A Habib, Tuan Vu, Bernhard Greve, Jeremy Welton, Raphaëlle Beau Lejdstrom, Fiona Grimson, Zabeen K Mahuwala, and Thaïs Tarancón

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2024

4. Pulmonary vascular adaptations to hypoxia in elite breath-hold divers

Author

Thomas Kjeld, Anders Brenøe Isbrand, Henrik Christian Arendrup, Jens Højberg, Jacob Bejder, Thomas O. Krag, John Vissing, Lars Poulsen Tolbod, Johannes Hendrik Harms, Lars Christian Gormsen, Dan Fuglø, and Egon Godthaab Hansen

Subjects

cardiac MR (CMR), cardiac PET/CT, echocardiagraphy, freediving, cardiac output, Physiology, QP1-981

Abstract

IntroductionElite breath-hold divers (BHD) possess several oxygen conserving adaptations to endure long dives similar to diving mammals. During dives, Bottlenose Dolphins may increase the alveolar ventilation (VA) to perfusion (Q) ratio to increase alveolar oxygen delivery. We hypothesized that BHD possess similar adaptive mechanisms during apnea.Methods and resultsPulmonary blood volume (PBV) was determined by echocardiography, 15O-H2O PET/CT, and cardiac MRi, (n = 6) during and after maximum apneas. Pulmonary function was determined by body box spirometry and compared to matched controls. After 2 min of apnea, the PBV determined by echocardiography and 15O-H2O-PET/CT decreased by 26% and 41%, respectively. After 4 min of apnea, the PBV assessed by echocardiography and cardiac MRi decreased by 48% and 67%, respectively (n = 6). Fractional saturation (F)O2Hb determined by arterial blood-gas-analyses collected after warm-up and a 5-minute pool-apnea (n = 9) decreased by 43%. Compared to matched controls (n = 8), spirometry revealed a higher total and alveolar-lung-capacity in BHD (n = 9), but a lower diffusion-constant.ConclusionOur results contrast with previous studies, that demonstrated similar lung gas transfer in BHD and matched controls. We conclude that elite BHD 1) have a lower diffusion constant than matched controls, and 2) gradually decrease PBV during apnea and in turn increase VA/Q to increase alveolar oxygen delivery during maximum apnea. We suggest that BHD possess pulmonary adaptations similar to diving mammals to tolerate decreasing tissue oxygenation.New and noteworthyThis manuscript addresses novel knowledge on tolerance to hypoxia during diving, which is shared by elite breath-hold divers and adult diving mammals: Our study indicates that elite breath-hold divers gradually decrease pulmonary blood volume and in turn increase VA/Q, to increase alveolar oxygen delivery during maximum apnea to tolerate decreasing oxygen levels similar to the Bottlenose Dolphin.

Published

2024

5. Hemoglobin concentration and blood shift during dry static apnea in elite breath hold divers

Author

Thomas Kjeld, Thomas O. Krag, Anders Brenøe, Ann Merete Møller, Henrik Christian Arendrup, Jens Højberg, Dan Fuglø, Søren Hancke, Lars Poulsen Tolbod, Lars Christian Gormsen, John Vissing, and Egon Godthaab Hansen

Subjects

cardiac PET/CT, cardiac MR (CMR), spleen ultrasound examination, dual x-ray absorptiometry (DXA), Bohr effect, free diving, Physiology, QP1-981

Abstract

IntroductionElite breath-hold divers (BHD) enduring apneas of more than 5 min are characterized by tolerance to arterial blood oxygen levels of 4.3 kPa and low oxygen-consumption in their hearts and skeletal muscles, similar to adult seals. Adult seals possess an adaptive higher hemoglobin-concentration and Bohr effect than pups, and when sedated, adult seals demonstrate a blood shift from the spleen towards the brain, lungs, and heart during apnea. We hypothesized these observations to be similar in human BHD. Therefore, we measured hemoglobin- and 2,3-biphosphoglycerate-concentrations in BHD (n = 11) and matched controls (n = 11) at rest, while myocardial mass, spleen and lower extremity volumes were assessed at rest and during apnea in BHD.Methods and resultsAfter 4 min of apnea, left ventricular myocardial mass (LVMM) determined by 15O-H2O-PET/CT (n = 6) and cardiac MRI (n = 6), was unaltered compared to rest. During maximum apnea (∼6 min), lower extremity volume assessed by DXA-scan revealed a ∼268 mL decrease, and spleen volume, assessed by ultrasonography, decreased ∼102 mL. Compared to age, BMI and VO2max matched controls (n = 11), BHD had similar spleen sizes and 2,3- biphosphoglycerate-concentrations, but higher total hemoglobin-concentrations.ConclusionOur results indicate: 1) Apnea training in BHD may increase hemoglobin concentration as an oxygen conserving adaptation similar to adult diving mammals. 2) The blood shift during dry apnea in BHD is 162% more from the lower extremities than from the spleen. 3) In contrast to the previous theory of the blood shift demonstrated in sedated adult seals, blood shift is not towards the heart during dry apnea in humans.

Published

2024

6. Data from the European registry for patients with McArdle disease (EUROMAC): functional status and social participation

Author

Walaa Karazi, Renata S. Scalco, Mads G. Stemmerik, Nicoline Løkken, Alejandro Lucia, Alfredo Santalla, Andrea Martinuzzi, Marinela Vavla, Gianluigi Reni, Antonio Toscano, Olimpia Musumeci, Carlyn V. Kouwenberg, Pascal Laforêt, Beatriz San Millán, Irene Vieitez, Gabriele Siciliano, Enrico Kühnle, Rebecca Trost, Sabrina Sacconi, Hacer Durmus, Biruta Kierdaszuk, Andrew Wakelin, Antoni L. Andreu, Tomàs Pinós, Ramon Marti, Ros Quinlivan, John Vissing, Nicol C. Voermans, and EUROMAC Consortium

Subjects

McArdle disease, Glycogen storage disease V, Rare diseases, International registry, Health care, Medicine

Abstract

Abstract Background The European registry for individuals with GSD5 and other muscle glycogenosis (EUROMAC) was launched to register rare muscle glycogenosis in Europe, to facilitate recruitment for research trials and to learn about the phenotypes and disseminate knowledge about the diseases. A network of twenty collaborating partners from eight European countries and the US contributed data on rare muscle glycogenosis in the EUROMAC registry. Methods Following the initial report on demographics, neuromuscular features and comorbidity (2020), we here present the data on social participation, previous and current treatments (medication, supplements, diet and rehabilitation) and limitations. Furthermore, the following questionnaires were used: Fatigue severity scale (FSS), WHO Disability Assessment Scale (DAS 2.0), health related quality of life (SF36) and International Physical Activity Questionnaire (IPAQ). Results Of 282 participants with confirmed diagnoses of muscle glycogenosis, 269 had GSD5. Of them 196 (73%) completed all questionnaires; for the others, the data were incomplete. The majority, 180 (67%) were currently working. Previous medical treatments included pain medication (23%) and rehabilitation treatment (60%). The carbohydrate-rich diet was reported to be beneficial for 68%, the low sucrose diet for 76% and the ketogenic diet for 88%. Almost all participants (93%) reported difficulties climbing stairs. The median FSS score was 5.22, indicating severe fatigue. The data from the WHODAS and IPAQ was not of sufficient quality to be interpreted. Conclusions The EUROMAC registry have provided insight into the functional and social status of participants with GSD5: most participants are socially active despite limitations in physical and daily life activities. Regular physical activity and different dietary approaches may alleviate fatigue and pain.

Published

2023

7. Muscle fat replacement and contractility in patients with skeletal muscle sodium channel disorders

Author

Jonas Jalili Pedersen, Mads Godtfeldt Stemmerik, Laura Nørager Jacobsen, Sofie Vinther Skriver, Gustav Rhode Wilms, Morten Duno, and John Vissing

Subjects

Medicine, Science

Abstract

Abstract Skeletal muscle sodium channel disorders give rise to episodic symptoms such as myotonia and/or periodic paralysis. Chronic symptoms with permanent weakness are not considered characteristic of the phenotypes. Muscle fat replacement represents irreversible damage that inevitably will impact on muscle strength. This study investigates muscle fat replacement and contractility in patients with pathogenic SCN4A variants compared to healthy controls. T1-weighted and 2-point Dixon MRI of the legs were conducted to assess fat replacement. Stationary dynamometry was used to assess muscle strength. Contractility was determined by maximal muscle contraction divided by cross-sectional muscle area. The average cross-sectional intramuscular fat fraction was greater in patients compared with controls by 2.5% in the calves (95% CI 0.74–4.29%, p = 0.007) and by 2.0% in the thighs (95% CI 0.75–3.2%, p = 0.003). Muscle contractility was less in patients vs. controls by 14–27% (p

Published

2023

8. OxPhos defects cause hypermetabolism and reduce lifespan in cells and in patients with mitochondrial diseases

Author

Gabriel Sturm, Kalpita R. Karan, Anna S. Monzel, Balaji Santhanam, Tanja Taivassalo, Céline Bris, Sarah A. Ware, Marissa Cross, Atif Towheed, Albert Higgins-Chen, Meagan J. McManus, Andres Cardenas, Jue Lin, Elissa S. Epel, Shamima Rahman, John Vissing, Bruno Grassi, Morgan Levine, Steve Horvath, Ronald G. Haller, Guy Lenaers, Douglas C. Wallace, Marie-Pierre St-Onge, Saeed Tavazoie, Vincent Procaccio, Brett A. Kaufman, Erin L. Seifert, Michio Hirano, and Martin Picard

Subjects

Biology (General), QH301-705.5

Abstract

A meta-analysis of 17 cohorts of mitochondrial disease patients reveals that OxPhos defects are associated with signs of hypermetabolism. Experiments in patient-derived fibroblast show that mitochondrial OxPhos defects trigger hypermetabolism in a cell-autonomous manner and this is linked to accelerated telomere shortening and epigenetic aging.

Published

2023

9. NEB mutations disrupt the super-relaxed state of myosin and remodel the muscle metabolic proteome in nemaline myopathy

Author

Natasha Ranu, Jenni Laitila, Hannah F. Dugdale, Jennifer Mariano, Justin S. Kolb, Carina Wallgren-Pettersson, Nanna Witting, John Vissing, Juan Jesus Vilchez, Chiara Fiorillo, Edmar Zanoteli, Mari Auranen, Manu Jokela, Giorgio Tasca, Kristl G. Claeys, Nicol C. Voermans, Johanna Palmio, Sanna Huovinen, Maurizio Moggio, Thomas Nyegaard Beck, Aikaterini Kontrogianni-Konstantopoulos, Henk Granzier, and Julien Ochala

Subjects

Skeletal muscle, Nemaline myopathy, Nebulin, Myosin, Metabolism, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Nemaline myopathy (NM) is one of the most common non-dystrophic genetic muscle disorders. NM is often associated with mutations in the NEB gene. Even though the exact NEB-NM pathophysiological mechanisms remain unclear, histological analyses of patients’ muscle biopsies often reveal unexplained accumulation of glycogen and abnormally shaped mitochondria. Hence, the aim of the present study was to define the exact molecular and cellular cascade of events that would lead to potential changes in muscle energetics in NEB-NM. For that, we applied a wide range of biophysical and cell biology assays on skeletal muscle fibres from NM patients as well as untargeted proteomics analyses on isolated myofibres from a muscle-specific nebulin‐deficient mouse model. Unexpectedly, we found that the myosin stabilizing conformational state, known as super-relaxed state, was significantly impaired, inducing an increase in the energy (ATP) consumption of resting muscle fibres from NEB-NM patients when compared with controls or with other forms of genetic/rare, acquired NM. This destabilization of the myosin super-relaxed state had dynamic consequences as we observed a remodeling of the metabolic proteome in muscle fibres from nebulin‐deficient mice. Altogether, our findings explain some of the hitherto obscure hallmarks of NM, including the appearance of abnormal energy proteins and suggest potential beneficial effects of drugs targeting myosin activity/conformations for NEB-NM.

Published

2022

10. β‐Galactosidase deficiency in the GLB1 spectrum of lysosomal storage disease can present with severe muscle weakness and atrophy

Author

Jonas Jalili Pedersen, Morten Duno, Flemming Wibrand, Christian Hammer, Thomas Krag, and John Vissing

Subjects

fat replacement, GLB1‐related disorders, metabolic neuromuscular disorder, Morquio B, muscle wasting, myopathy, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract Deficiency of the enzyme β‐galactosidase due to variants in the GLB1‐gene is associated with metabolic disorders: Morquio B and GM1‐gangliosidosis. Here, we report a case compound heterozygous for variants in the GLB1‐gene and a severe muscular phenotype. Full body T1‐w MRI was conducted for muscular involvement. Biopsy was stained with hematoxylin and eosin for histopathological evaluation. EDTA blood‐sample was subjected to whole exome sequencing. Metabolic analysis included residual enzyme activity and evaluation urinary substrate secretion. Additionally, electroneurography, echocardiography, forced volume capacity and biochemistry were evaluated. Examination showed severe proximal weakness (MRC: hip flexion 2, hip extension 2, and shoulder rotation 2), Gower's sign, no extrapyramidal symptoms and normal creatine kinase levels. MRI showed severe muscle wasting of the thigh and shoulder girdle. Muscle biopsy showed mild myopathic changes. β‐galactosidase activity was reduced to 28%–34%. Urinary glycosaminoglycan was elevated by 5.9–8.6 mg/mmol (ref.:0–5.1 mg/mmol). Electrophoresis indicated excess keratan sulfate. Exome sequencing revealed two missense variants in the GLB1 gene. Clinical features, genetic testing and laboratory findings indicate a case of β‐galactosidase‐deficiency with a muscular phenotype.

Published

2022

11. Energy metabolism during exercise in patients with β‐enolase deficiency (GSDXIII)

Author

Astrid Emilie Buch, Olimpia Musumeci, Ralph Wigley, Mads Peter Godtfeldt Stemmerik, Anne‐Sofie Vibæk Eisum, Karen Lindhardt Madsen, Nicolai Preisler, David Hilton‐Jones, Ros Quinlivan, Antonio Toscano, and John Vissing

Subjects

β‐enolase deficiency, exercise intolerance, exercise metabolism, GSDXIII, maximal exercise capacity, metabolic myopathy, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract Aim To investigate the in vivo skeletal muscle metabolism in patients with β‐enolase deficiency (GSDXIII) during exercise, and the effect of glucose infusion. Methods Three patients with GSDXIII and 10 healthy controls performed a nonischemic handgrip test as well as an incremental cycle ergometer test measuring maximal oxidative consumption (VO2max) and a 1‐hour submaximal cycle test at an intensity of 65% to 75% of VO2max. The patients repeated the submaximal exercise after 2 days, where they received a 10% iv‐glucose supplementation. Results Patients had lower VO2max than healthy controls, and two of three patients had to stop prematurely during the intended 1‐hour submaximal exercise test. During nonischemic forearm test, all patients were able to produce lactate in normal amounts. Glucose infusion had no effect on patients' exercise capacity. Conclusions Patients with GSDXIII experience exercise intolerance and episodes of myoglobinuria, even to the point of needing renal dialysis, but still retain an almost normal anaerobic metabolic response to submaximal intensity exercise. In accordance with this, glucose supplementation did not improve exercise capacity. The findings show that GSDXIII, although causing episodic rhabdomyolysis, is one of the mildest metabolic myopathies affecting glycolysis.

Published

2021

12. Autophagy is affected in patients with hypokalemic periodic paralysis: an involvement in vacuolar myopathy?

Author

Thomas O. Krag, Sonja Holm-Yildiz, Nanna Witting, and John Vissing

Subjects

Hypokalemic periodic paralysis, CACNA1S, Vacuoles, Autophagy, TFEB, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Hypokalemic periodic paralysis is an autosomal dominant, rare disorder caused by variants in the genes for voltage-gated calcium channel CaV1.1 (CACNA1S) and NaV1.4 (SCN4A). Patients with hypokalemic periodic paralysis may suffer from periodic paralysis alone, periodic paralysis co-existing with permanent weakness or permanent weakness alone. Hypokalemic periodic paralysis has been known to be associated with vacuolar myopathy for decades, and that vacuoles are a universal feature regardless of phenotype. Hence, we wanted to investigate the nature and cause of the vacuoles. Fourteen patients with the p.R528H variation in the CACNA1S gene was included in the study. Histology, immunohistochemistry and transmission electron microscopy was used to assess general histopathology, ultrastructure and pattern of expression of proteins related to muscle fibres and autophagy. Western blotting and real-time PCR was used to determine the expression levels of proteins and mRNA of the proteins investigated in immunohistochemistry. Histology and transmission electron microscopy revealed heterogenous vacuoles containing glycogen, fibrils and autophagosomes. Immunohistochemistry demonstrated autophagosomes and endosomes arrested at the pre-lysosome fusion stage. Expression analysis showed a significant decrease in levels of proteins an mRNA involved in autophagy in patients, suggesting a systemic effect. However, activation level of the master regulator of autophagy gene transcription, TFEB, did not differ between patients and controls, suggesting competing control over autophagy gene transcription by nutritional status and calcium concentration, both controlling TFEB activity. The findings suggest that patients with hypokalemic periodic paralysis have disrupted autophagic processing that contribute to the vacuoles seen in these patients.

Published

2021

13. Creation and implementation of a European registry for patients with McArdle disease and other muscle glycogenoses (EUROMAC registry)

Author

Tomàs Pinós, Antoni L. Andreu, Claudio Bruno, Georgios M. Hadjigeorgiou, Ronald G. Haller, Pascal Laforêt, Alejandro Lucía, Miguel A. Martín, Andrea Martinuzzi, Carmen Navarro, Piraye Oflazer, Jean Pouget, Ros Quinlivan, Sabrina Sacconi, Renata S. Scalco, Antonio Toscano, John Vissing, Matthias Vorgerd, Andrew Wakelin, Ramon Martí, and EUROMAC Consortium

Subjects

Myopathy, Rare diseases, International registry, McArdle disease, Metabolic diseases, Glycogen storage disease, Medicine

Abstract

Abstract Background International patient registries are of particular importance for rare disorders, as they may contribute to overcome the lack of knowledge derived from low number of patients and limited awareness of these diseases, and help to learn more about their geographical or population-based specificities, which is relevant for research purposes and for promoting better standards of care and diagnosis. Our objective was to create and implement a European registry for patients with McArdle disease and other muscle glycogenoses (EUROMAC) and to disseminate the knowledge of these disorders. Results Teams from nine different countries (United Kingdom, Spain, Italy, France, Germany, Denmark, Greece, Turkey and USA) created a consortium that developed the first European registry dedicated to rare muscle glycogenoses. A work plan was implemented to design the database and platform that constitute the registry, by choosing clinical, genetics and molecular variables of interest, based on experience gained from previous national registries for similar metabolic disorders. Among dissemination activities, several teaching events were organized in different countries, especially those where the consortium considered the awareness of these diseases needs to be promoted among health professionals and patients. Conclusion EUROMAC represents a step forward in the knowledge of those disorders to which it is dedicated, and will have relevant clinical outcomes at the diagnostic, epidemiological, clinical and research level.

Published

2020

14. Responsiveness of outcome measures in myotonic dystrophy type 1

Author

Kirsten L. Knak, Aisha M. Sheikh, Nanna Witting, and John Vissing

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Objective As myotonic dystrophy type 1(DM1) evolves slowly and interventional trials often have a short duration, responsive outcomes in DM1 are needed. The objective of this study was to determine the responsiveness of muscle strength, balance, and functional mobility measurements after a 1‐year follow‐up period in individuals with DM1. Methods Sixty‐three adults with noncongenital DM1 completed the following assessments at baseline and at 1‐year follow‐up: Handheld dynamometry (lower limbs), stationary dynamometry (lower limbs), step test, timed‐up‐and‐go test (TUG), modified clinical test of sensory integration and balance (mCTSIB), feet‐together stance, tandem stance, one‐leg stance, 10‐meter walk test, and sit‐to‐stand test. Results Change was captured by stationary dynamometry (proximal flexor and extensor muscles), handheld dynamometry (proximal flexor and distal extensor muscles), TUG, and mCTSIB (P ≤ 0.04). Ceiling or floor effects were shown for most static balance tests. Interpretation Overall, adequate responsiveness was shown for both muscle strength dynamometers, TUG and mCTSIB. These outcomes are therefore likely candidate endpoints for clinical trials lasting 1 year. Most static balance tests are not responsive and not recommended in a heterogeneous DM1 population.

Published

2020

15. Global FKRP Registry: observations in more than 300 patients with Limb Girdle Muscular Dystrophy R9

Author

Lindsay B. Murphy, Olivia Schreiber‐Katz, Karen Rafferty, Agata Robertson, Ana Topf, Tracey A. Willis, Marcel Heidemann, Simone Thiele, Laurence Bindoff, Jean‐Pierre Laurent, Hanns Lochmüller, Katherine Mathews, Claudia Mitchell, John Herbert Stevenson, John Vissing, Lacey Woods, Maggie C. Walter, and Volker Straub

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Objective The Global FKRP Registry is a database for individuals with conditions caused by mutations in the Fukutin‐Related Protein (FKRP) gene: limb girdle muscular dystrophy R9 (LGMDR9, formerly LGMD2I) and congenital muscular dystrophies MDC1C, Muscle–Eye–Brain Disease and Walker–Warburg Syndrome. The registry seeks to further understand the natural history and prevalence of FKRP‐related conditions; aid the rapid identification of eligible patients for clinical studies; and provide a source of information to clinical and academic communities. Methods Registration is patient‐initiated through a secure online portal. Data, reported by both patients and their clinicians, include: age of onset, presenting symptoms, family history, motor function and muscle strength, respiratory and cardiac function, medication, quality of life and pain. Results Of 663 registered participants, 305 were genetically confirmed LGMDR9 patients from 23 countries. A majority of LGMDR9 patients carried the common mutation c.826C > A on one or both alleles; 67.9% were homozygous and 28.5% were compound heterozygous for this mutation. The mean ages of symptom onset and disease diagnosis were higher in individuals homozygous for c.826C > A compared with individuals heterozygous for c.826C > A. This divergence was replicated in ages of loss of running ability, wheelchair‐dependence and ventilation assistance; consistent with the milder phenotype associated with individuals homozygous for c.826C > A. In LGMDR9 patients, 75.1% were currently ambulant and 24.6%, nonambulant (unreported in 0.3%). Cardiac impairment was reported in 23.2% (30/129). Interpretation The Global FKRP Registry enables the collection of patient natural history data, which informs academics, healthcare professionals and industry. It represents a trial‐ready cohort of individuals and is centrally placed to facilitate recruitment to clinical studies.

Published

2020

16. Impaired lipolysis in propionic acidemia: A new metabolic myopathy?

Author

Jesper H. Storgaard, Karen L. Madsen, Nicoline Løkken, John Vissing, Gerrit vanHall, Allan M. Lund, and Mette C. Ørngreen

Subjects

carbohydrate metabolism, exercise metabolism, fat metabolism, metabolic myopathy, organic aciduria, propionic acidemia, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract The objective of this study was to investigate the fat and carbohydrate metabolism in a patient with propionic acidemia (PA) during exercise by means of indirect calorimetry and stable isotope technique. A 34‐year‐old patient with PA performed a 30‐minute submaximal cycle ergometer test. Data were compared to results from six gender‐ and age‐matched healthy controls. Main findings are that the patient with PA had impaired lipolysis, blunted fatty acid oxidation, compensatory increase in carbohydrate utilization, and low work capacity. Our findings indicate that PA should be added to the list of metabolic myopathies.

Published

2020

17. Extreme Hypoxia Causing Brady-Arrythmias During Apnea in Elite Breath-Hold Divers

Author

Thomas Kjeld, Anders Brenøe Isbrand, Katrine Linnet, Bo Zerahn, Jens Højberg, Egon Godthaab Hansen, Lars Christian Gormsen, Jacob Bejder, Thomas Krag, John Vissing, Hans Erik Bøtker, and Henrik Christian Arendrup

Subjects

junctional rhythm, brady-arrythmia, free-diving, invasive blood pressure, hypoxia induced factor-1 (HIF-1), atrioventricular block, Physiology, QP1-981

Abstract

Introduction: The cardiac electrical conduction system is very sensitive to hypoglycemia and hypoxia, and the consequence may be brady-arrythmias. Weddell seals endure brady-arrythmias during their dives when desaturating to 3.2 kPa and elite breath-hold-divers (BHD), who share metabolic and cardiovascular adaptions including bradycardia with diving mammals, endure similar desaturation during maximum apnea. We hypothesized that hypoxia causes brady-arrythmias during maximum apnea in elite BHD. Hence, this study aimed to define the arterial blood glucose (Glu), peripheral saturation (SAT), heart rhythm (HR), and mean arterial blood pressure (MAP) of elite BHD during maximum apneas.Methods: HR was monitored with Direct-Current-Pads/ECG-lead-II and MAP and Glu from a radial arterial-catheter in nine BHD performing an immersed and head-down maximal static pool apnea after three warm-up apneas. SAT was monitored with a sensor on the neck of the subjects. On a separate day, a 12-lead-ECG-monitored maximum static apnea was repeated dry (n = 6).Results: During pool apnea of maximum duration (385 ± 70 s), SAT decreased from 99.6 ± 0.5 to 58.5 ± 5.5% (∼PaO2 4.8 ± 1.5 kPa, P < 0.001), while Glu increased from 5.8 ± 0.2 to 6.2 ± 0.2 mmol/l (P = 0.009). MAP increased from 103 ± 4 to 155 ± 6 mm Hg (P < 0.005). HR decreased to 46 ± 10 from 86 ± 14 beats/minute (P < 0.001). HR and MAP were unchanged after 3–4 min of apnea. During dry apnea (378 ± 31 s), HR decreased from 55 ± 4 to 40 ± 3 beats/minute (P = 0.031). Atrioventricular dissociation and junctional rhythm were observed both during pool and dry apneas.Conclusion: Our findings contrast with previous studies concluding that Glu decreases during apnea diving. We conclude during maximum apnea in elite BHD that (1) the diving reflex is maximized after 3–4 min, (2) increasing Glu may indicate lactate metabolism in accordance with our previous results, and (3) extreme hypoxia rather than hypoglycemia causes brady-arrythmias in elite BHD similar to diving mammals.

Published

2021

18. Nampt controls skeletal muscle development by maintaining Ca2+ homeostasis and mitochondrial integrity

Author

Astrid L. Basse, Marianne Agerholm, Jean Farup, Emilie Dalbram, Joachim Nielsen, Niels Ørtenblad, Ali Altıntaş, Amy M. Ehrlich, Thomas Krag, Santina Bruzzone, Morten Dall, Roldan M. de Guia, Jonas B. Jensen, Andreas B. Møller, Anders Karlsen, Michael Kjær, Romain Barrès, John Vissing, Steen Larsen, Niels Jessen, and Jonas T. Treebak

Subjects

Cyclophilin D, Mitochondrial permeability transition pore (mPTP), Myopathy, NAD+, Nicotinamide riboside, Sarcopenia, Internal medicine, RC31-1245

Abstract

Objective: NAD+ is a co-factor and substrate for enzymes maintaining energy homeostasis. Nicotinamide phosphoribosyltransferase (NAMPT) controls NAD+ synthesis, and in skeletal muscle, NAD+ is essential for muscle integrity. However, the underlying molecular mechanisms by which NAD+ synthesis affects muscle health remain poorly understood. Thus, the objective of the current study was to delineate the role of NAMPT-mediated NAD+ biosynthesis in skeletal muscle development and function. Methods: To determine the role of Nampt in muscle development and function, we generated skeletal muscle-specific Nampt KO (SMNKO) mice. We performed a comprehensive phenotypic characterization of the SMNKO mice, including metabolic measurements, histological examinations, and RNA sequencing analyses of skeletal muscle from SMNKO mice and WT littermates. Results: SMNKO mice were smaller, with phenotypic changes in skeletal muscle, including reduced fiber area and increased number of centralized nuclei. The majority of SMNKO mice died prematurely. Transcriptomic analysis identified that the gene encoding the mitochondrial permeability transition pore (mPTP) regulator Cyclophilin D (Ppif) was upregulated in skeletal muscle of SMNKO mice from 2 weeks of age, with associated increased sensitivity of mitochondria to the Ca2+-stimulated mPTP opening. Treatment of SMNKO mice with the Cyclophilin D inhibitor, Cyclosporine A, increased membrane integrity, decreased the number of centralized nuclei, and increased survival. Conclusions: Our study demonstrates that NAMPT is crucial for maintaining cellular Ca2+ homeostasis and skeletal muscle development, which is vital for juvenile survival.

Published

2021

19. Quantitative Muscle MRI and Clinical Findings in Women With Pathogenic Dystrophin Gene Variants

Author

Freja Fornander, Tuva Åsatun Solheim, Anne-Sofie Vibæk Eisum, Nanna Scharff Poulsen, Annarita Ghosh Andersen, Julia Rebecka Dahlqvist, Morten Dunø, and John Vissing

Subjects

dystrophinopathy, female carriers, Dixon MRI, muscle fat infiltration, dynamometry, muscle strength, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objective: To explore fat replacement, muscle strength, and clinical features in women heterozygous for a pathogenic DMD variant, we prospectively examined 53 women, assuming that some of these women—despite of the recessive X-linked inheritance—manifested clinical symptoms.Methods: We performed a cross-sectional observational study using MRI and stationary dynamometry of lower extremities, extracted blood muscle biomarkers, and investigated subjective complaints. Results were compared with 19 healthy women.Results:DMD variant carriers were weaker and had higher fat fractions than controls in all investigated muscle groups (p < 0.02). Fat fractions were 18% in carriers vs. 11% in controls in thighs (p = 0.008), and 15 vs. 11% in calf muscles (p = 0.032). Seventy-two percent had fat fractions deviating from controls by two standard deviations (SDs) in one or more of the 16 investigated muscle groups. On strength testing, 40% of the carriers had results deviating from control muscle strength by two SDs in one or more dynamometry assessments. Forty-three carriers (81%) had either reduced muscle strength (2 SDs from control mean). Thirty of these had subjective symptoms. Blood creatine kinase and myoglobin were elevated in 57% of the carriers.Conclusion: Using quantitative methods, this study shows that both clinically symptomatic and asymptomatic women with pathogenic DMD variants show a high prevalence of muscle affection. Longitudinal studies in female carriers of pathogenic DMD variants are needed to follow the evolution of these changes.

Published

2021

20. Cardiac Involvement in Women With Pathogenic Dystrophin Gene Variants

Author

Tuva Å. Solheim, Freja Fornander, Anna A. Raja, Rasmus Møgelvang, Nanna S. Poulsen, Morten Dunø, Henning Bundgaard, and John Vissing

Subjects

dystrophinopathy, female carriers, cardiac MRI, echocardiography, cardiac, cardiac involvement, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objective: To determine the frequency and extent of cardiac involvement in female carriers of pathogenic variants in DMD, 53 women were examined through an observational, cross-sectional study.Methods: Genetically verified female carriers of pathogenic DMD variants were examined by cardiac magnetic resonance imaging (CMR) with late gadolinium enhancement, echocardiography, 24-h Holter monitoring, ECG, and blood concentrations of skeletal and cardiac muscle biomarkers.Results: Fifty-three female carriers of pathogenic DMD variants (mean age 49.6 years, 33 associated with DMD, and 20 with BMD) were included in the study. Sixty-two percent had cardiac dysfunction on echocardiography. On CMR, 49% had myocardial fibrosis, 35% had dilated left ventricles, and 10% had left ventricular hypertrophy. ECGs were abnormal in 72%, and abnormal Holter monitoring was found in 43%. Age did not correlate with myocardial fibrosis or cardiac dysfunction. Myocardial fibrosis was more frequent in carriers of pathogenic variants associated with DMD vs. BMD (61 vs. 28%, p = 0.02).Conclusion: This study shows that cardiac involvement, affecting both structure and function of the heart, is found in over 2/3 of women with a pathogenic DMD variant. The study supports early cardiac screening, including ECG, Holter, and cardiac imaging, in this group of carriers, so that symptoms related to pathogenic variants in DMD can be recognized, and relevant treatment can be initiated. Longitudinal studies are needed to assess morbidity and mortality related to single, pathogenic DMD variants in women.

Published

2021

21. No effect of triheptanoin on exercise performance in McArdle disease

Author

Karen L. Madsen, Pascal Laforêt, Astrid E. Buch, Mads G. Stemmerik, Chris Ottolenghi, Stéphane N. Hatem, Daniel T. Raaschou‐Pedersen, Nanna S. Poulsen, Maria Atencio, Marie‐Pierre Luton, Alexandre Ceccaldi, Ronald G. Haller, Ros Quinlivan, Fanny Mochel, and John Vissing

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Objective To study if treatment with triheptanoin, a 7‐carbon triglyceride, improves exercise tolerance in patients with McArdle disease. McArdle patients have a complete block in glycogenolysis and glycogen‐dependent expansion of tricarboxylic acid cycle (TCA), which may restrict fat oxidation. We hypothesized that triheptanoin metabolism generates substrates for the TCA, which potentially boosts fat oxidation and improves exercise tolerance in McArdle disease. Methods Double‐blind, placebo‐controlled, crossover study in patients with McArdle disease completing two treatment periods of 14 days each with a triheptanoin or placebo diet (1 g/kg/day). Primary outcome was change in mean heart rate during 20 min submaximal exercise on a cycle ergometer. Secondary outcomes were change in peak workload and oxygen uptake along with changes in blood metabolites and respiratory quotients. Results Nineteen of 22 patients completed the trial. Malate levels rose on triheptanoin treatment versus placebo (8.0 ± SD2.3 vs. 5.5 ± SD1.8 µmol/L, P

Published

2019

22. Deep morphological analysis of muscle biopsies from type III glycogenesis (GSDIII), debranching enzyme deficiency, revealed stereotyped vacuolar myopathy and autophagy impairment

Author

Pascal Laforêt, Michio Inoue, Evelyne Goillot, Claire Lefeuvre, Umut Cagin, Nathalie Streichenberger, Sarah Leonard-Louis, Guy Brochier, Angeline Madelaine, Clemence Labasse, Carola Hedberg-Oldfors, Thomas Krag, Louisa Jauze, Julien Fabregue, Philippe Labrune, Jose Milisenda, Aleksandra Nadaj-Pakleza, Sabrina Sacconi, Federico Mingozzi, Giuseppe Ronzitti, François Petit, Benedikt Schoser, Anders Oldfors, John Vissing, Norma B. Romero, Ichizo Nishino, and Edoardo Malfatti

Subjects

Glycogen storage disease III, Muscle glycogenosis, Metabolic myopathies, Myopathology, Autophagy, Autophagic impairment, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Glycogen storage disorder type III (GSDIII), or debranching enzyme (GDE) deficiency, is a rare metabolic disorder characterized by variable liver, cardiac, and skeletal muscle involvement. GSDIII manifests with liver symptoms in infancy and muscle involvement during early adulthood. Muscle biopsy is mainly performed in patients diagnosed in adulthood, as routine diagnosis relies on blood or liver GDE analysis, followed by AGL gene sequencing. The GSDIII mouse model recapitulate the clinical phenotype in humans, and a nearly full rescue of muscle function was observed in mice treated with the dual AAV vector expressing the GDE transgene. In order to characterize GSDIII muscle morphological spectrum and identify novel disease markers and pathways, we performed a large international multicentric morphological study on 30 muscle biopsies from GSDIII patients. Autophagy flux studies were performed in human muscle biopsies and muscles from GSDIII mice. The human muscle biopsies revealed a typical and constant vacuolar myopathy, characterized by multiple and variably sized vacuoles filled with PAS-positive material. Using electron microscopy, we confirmed the presence of large non-membrane bound sarcoplasmic deposits of normally structured glycogen as well as smaller rounded sac structures lined by a continuous double membrane containing only glycogen, corresponding to autophagosomes. A consistent SQSTM1/p62 decrease and beclin-1 increase in human muscle biopsies suggested an enhanced autophagy. Consistent with this, an increase in the lipidated form of LC3, LC3II was found in patients compared to controls. A decrease in SQSTM1/p62 was also found in the GSDIII mouse model. In conclusion, we characterized the morphological phenotype in GSDIII muscle and demonstrated dysfunctional autophagy in GSDIII human samples. These findings suggest that autophagic modulation combined with gene therapy might be considered as a novel treatment for GSDIII.

Published

2019

23. Natural history of limb girdle muscular dystrophy R9 over 6 years: searching for trial endpoints

Author

Alexander P. Murphy, Jasper Morrow, Julia R. Dahlqvist, Tanya Stojkovic, Tracey A. Willis, Christopher D. J. Sinclair, Stephen Wastling, Tarek Yousry, Michael S. Hanna, Meredith K. James, Anna Mayhew, Michelle Eagle, Laurence E. Lee, Jean‐Yves Hogrel, Pierre G. Carlier, John S. Thornton, John Vissing, Kieren G. Hollingsworth, and Volker Straub

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Objective Limb girdle muscular dystrophy type R9 (LGMD R9) is an autosomal recessive muscle disease for which there is currently no causative treatment. The development of putative therapies requires sensitive outcome measures for clinical trials in this slowly progressing condition. This study extends functional assessments and MRI muscle fat fraction measurements in an LGMD R9 cohort across 6 years. Methods Twenty‐three participants with LGMD R9, previously assessed over a 1‐year period, were re‐enrolled at 6 years. Standardized functional assessments were performed including: myometry, timed tests, and spirometry testing. Quantitative MRI was used to measure fat fraction in lower limb skeletal muscle groups. Results At 6 years, all 14 muscle groups assessed demonstrated significant increases in fat fraction, compared to eight groups in the 1‐year follow‐up study. In direct contrast to the 1‐year follow‐up, the 6‐min walk test, 10‐m walk or run, timed up and go, stair ascend, stair descend and chair rise demonstrated significant decline. Among the functional tests, only FVC significantly declined over both the 1‐ and 6‐year studies. Interpretation These results further support fat fraction measurements as a primary outcome measure alongside functional assessments. The most appropriate individual muscles are the vastus lateralis, gracilis, sartorius, and gastrocnemii. Using composite groups of lower leg muscles, thigh muscles, or triceps surae, yielded high standardized response means (SRMs). Over 6 years, quantitative fat fraction assessment demonstrated higher SRM values than seen in functional tests suggesting greater responsiveness to disease progression.

Published

2019

24. Mitochondrial mutation m.3243A>G associates with insulin resistance in non-diabetic carriers

Author

Jakob Høgild Langdahl, Anja Lisbeth Frederiksen, John Vissing, Morten Frost, Knud Bonnet Yderstræde, and Per Heden Andersen

Subjects

monogenic diabetes, G%22">mitochondrial DNA point mutation m.3243A>G, mitochondrial dysfunction, insulin resistance, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Aim: This case–control study aimed to examine impairments in glucose metabolism in non-diabetic carriers of the mitochondrial mutation m.3243A>G by evaluating insulin secretion capacity and sensitivity. Methods: Glucose metabolism was investigated in 23 non-diabetic m.3243A>G carriers and age-, sex- and BMI-matched healthy controls with an extended 4-h oral glucose tolerance test (OGTT). Insulin sensitivity index and acute insulin response were estimated on the basis of the OGTT. This was accompanied by examination of body composition by dual-energy X-ray absorptiometry (DXA), maximum aerobic capacity and a Recent Physical Activity Questionnaire (RPAQ). Results: Fasting p-glucose, s-insulin and s-c-peptide levels did not differ between m.3243A>G carriers and controls. Insulin sensitivity index (BIGTT-S1) was significantly lower in the m.3243A>G carriers, but there was no difference in the acute insulin response between groups. P-lactate levels were higher in carriers throughout the OGTT. VO2max, but not BMI, waist and hip circumferences, lean and fat body mass%, MET or grip strength, was lower in mutation carriers. BIGTT-S1 remained lower in mutation carriers after adjustment for multiple confounding factors including VO2max in regression analyses. Conclusions: Glucose metabolism in m.3243A>G carriers was characterized by reduced insulin sensitivity, which could represent the earliest phase in the pathogenesis of m.3243A>G-associated diabetes.

Published

2019

25. Function, structure and quality of striated muscles in the lower extremities in patients with late onset Pompe Disease—an MRI study

Author

Michael Vaeggemose, Rosa Andersen Mencagli, Julie Schjødtz Hansen, Bianca Dräger, Steffen Ringgaard, John Vissing, and Henning Andersen

Subjects

Late Onset Pompe Disease, Quantitative magnetic resonance imaging (mri), Muscle quality, Enzyme replacement therapy, Clinical tests, Follow-up, Medicine, Biology (General), QH301-705.5

Abstract

Background Pompe Disease (PD) is a rare inherited metabolic myopathy, caused by lysosomal-α-glucosidase (GAA) deficiency, which leads to glycogen accumulation within the lysosomes, resulting in cellular and tissue damage. Due to the emergence of a disease modifying treatment with recombinant GAA there has been a large increase in studies of late onset Pompe Disease (LOPD) during the last decade. Methods The present study evaluates muscle quality in 10 patients with LOPD receiving treatment with enzyme replacement therapy and in 10 age and gender matched healthy controls applying T1-weighted Dixon MR imaging and isokinetic dynamometry. Muscle quality was determined by muscle strength in relation to muscle size (contractile cross-sectional area, CSA) and to muscle quality (fat fraction). A follow-up evaluation of the patients was performed after 8–12 months. Patient evaluations also included: six-minute walking test (6MWT), forced vital capacity, manual muscle testing and SF-36 questionnaire. Results Fat fraction of knee flexors (0.15 vs 0.07, p

Published

2021

26. Patients With Becker Muscular Dystrophy Have Severe Paraspinal Muscle Involvement

Author

Aisha M. Sheikh, Karen Rudolf, Josefine de Stricker Borch, Tahmina Khawajazada, Nanna Witting, and John Vissing

Subjects

paraspinal muscles, Becker muscular dystrophy, quantitative muscle MRI, quantitative trunk strength, fat fraction, Neurology. Diseases of the nervous system, RC346-429

Abstract

Introduction: Paraspinal muscles are important for gross motor functions. Impairment of these muscles can lead to poor postural control and ambulation difficulty. Little knowledge exists about the involvement of paraspinal muscles in Becker muscular dystrophy.Objective: In this cross-sectional study, we investigated the involvement of paraspinal muscles with quantitative trunk strength measure and quantitative muscle MRI.Methods and Materials: Eighteen patients with Becker muscular dystrophy underwent trunk, hip, and thigh strength assessment using a Biodex dynamometer and an MRI Dixon scan. Fourteen age- and body mass index-matched healthy men were included for comparison.Results: Muscle fat fraction (FF) of the paraspinal muscles (multifidus and erector spinae) was higher in participants with Becker muscular dystrophy vs. healthy controls at all three examined spinal levels (C6, Th12, and L4/L5) (p < 0.05). There was a strong and inverse correlation between paraspinal muscle FF and trunk extension strength (ρ = −0.829, p < 0.001), gluteus maximus FF and hip extension strength (ρ = −0.701, p = 0.005), FF of the knee extensor muscles (quadriceps and sartorius) and knee extension strength (ρ = −0.842, p < 0.001), and FF of the knee flexor muscles (hamstring muscles) and knee flexion strength (ρ = −0.864, p < 0.001). Fat fraction of the paraspinal muscles also correlated with muscle FF of the thigh muscles and lower leg muscles.Conclusion: In conclusion, patients with Becker muscular dystrophy demonstrate severe paraspinal muscular involvement indicated by low back extension strength and high levels of fat replacement, which parallel involvement of lower limb muscles. Assessment of paraspinal muscle strength and fat replacement may serve as a possible biomarker for both the clinical management and further study of the disease.

Published

2021

27. Quantitative Muscle MRI as Outcome Measure in Patients With Becker Muscular Dystrophy—A 1-Year Follow-Up Study

Author

Aisha M. Sheikh, Karen Rudolf, Nanna Witting, and John Vissing

Subjects

Becker muscular dystrophy, quantitative muscle MRI, muscle strength, fat fraction, outcome measure, Neurology. Diseases of the nervous system, RC346-429

Abstract

Introduction: With the advent of emerging molecular therapies for muscular dystrophies, the need for knowledge about natural history course of such diseases is of utmost importance in the preparation for future trials. However, for Becker muscular dystrophy such knowledge is scarce.Objective: In this 1-year follow-up study, we examined disease progression in Becker muscular dystrophy by monitoring changes in MRI-assessed muscle fat fraction (FF) in axial and lower limb muscles and quantitative muscle strength of axial muscles.Methods and Materials: Sixteen patients with Becker muscular dystrophy were investigated by (1) muscle strength of the trunk using a Biodex dynamometer and (2) Dixon muscle MRI of paraspinal and lower limb muscles. Quantitative MRI data was analyzed in two parts: The first part consisted of all participants (N = 16). The second analysis assessed two separate groups comprising lesser affected participants (N = 5) and more severely affected patients (n = 11).Results: Trunk extension and flexion strength remained stable from baseline to follow-up. MRI did not show any significant increase in muscle FF % from baseline to follow-up in all patients, except for multifidus at the spinal level T12 (p = 0.01). However, when we analyzed the two subgroups, according to disease severity, FF% increased in the lesser severely affected group at L4/L5 erector spinae (p = 0.047), sartorius (p = 0.028), gracilis (p = 0.009), tibialis anterior (p = 0.047), peroneals (p = 0.028), and gastrocnemius medialis (p = 0.009), while the severely affected group only increased significantly at T12 multifidus (p = 0.028) and T12 erector spinae (p = 0.011). No difference in muscle strength was observed in the two subgroups.Conclusion: Our results add to the existing knowledge about the natural rate of disease progression in BMD. As quantitative MRI was able to identify changes where strength assessment was not, MRI could be a strong biomarker for change in BMD. However, our findings show that it is important to stratify patients with BMD according to phenotype for future clinical trials.

Published

2021

28. Mutation Load of Single, Large-Scale Deletions of mtDNA in Mitotic and Postmitotic Tissues

Author

Tina D. Jeppesen, Morten Duno, and John Vissing

Subjects

mtDNA mutation, mtDNA deletion, phenotype–genotype, mitochondrial myopathy, CPEO, chronic progressive external ophthalmoplegia, Genetics, QH426-470

Abstract

It is generally accepted that patients with chronic progressive ophthalmoplegia caused by single large-scale deletion (SLD) of mitochondrial DNA (mtDNA) only harbor mutation in skeletal and eye muscles. The aim of this study was to investigate the presence and the level of heteroplasmy of mtDNA deletions in mitotic tissues of patients displaying mtDNA deletion of mitotic tissues in patients with SLDs and pure muscle phenotype. MtDNA mutation load was studied in three mitotic (urine epithelial cells, buccal mucosa, and blood) and one postmitotic (skeletal muscle) tissues in 17 patients with SLDs of mtDNA and pure muscle involvement. All patients had mtDNA deletion in skeletal muscle, and 78% of the patients also displayed the mtDNA deletion in mitotic tissues. The mtDNA mutation load was higher in skeletal muscle versus mitotic tissues. The mtDNA mutation load did not correlate with age of sampling of tissues, but there was a correlation between the mtDNA mutations load in skeletal muscle and (1) the site of 5′ end breaking point of the SLD, (2) the size of SLD, (3) the number of affected tRNAs, and (4) age at onset (r > 0.58, P < 0.05). The findings indicate that mtDNA mutation in mitotic tissue is common in patients with SLDs of mtDNA. The lack of correlation between age of tissue sampling, age at onset, and mtDNA mutation load in mitotic tissues indicates that there is no extensive post-natal modification of mtDNA mutation load in mitotic tissues of patients with pure muscle phenotype.

Published

2020

29. Depletion of ATP Limits Membrane Excitability of Skeletal Muscle by Increasing Both ClC1-Open Probability and Membrane Conductance

Author

Pieter Arnold Leermakers, Kamilla Løhde Tordrup Dybdahl, Kristian Søborg Husted, Anders Riisager, Frank Vincenzo de Paoli, Tomàs Pinós, John Vissing, Thomas Oliver Brøgger Krag, and Thomas Holm Pedersen

Subjects

skeletal muscle, ATP, membrane excitability, fatigue, membrane conductance, ClC-1, Neurology. Diseases of the nervous system, RC346-429

Abstract

Activation of skeletal muscle contractions require that action potentials can be excited and propagated along the muscle fibers. Recent studies have revealed that muscle fiber excitability is regulated during repeated firing of action potentials by cellular signaling systems that control the function of ion channel that determine the resting membrane conductance (Gm). In fast-twitch muscle, prolonged firing of action potentials triggers a marked increase in Gm, reducing muscle fiber excitability and causing action potential failure. Both ClC-1 and KATP ion channels contribute to this Gm rise, but the exact molecular regulation underlying their activation remains unclear. Studies in expression systems have revealed that ClC-1 is able to bind adenosine nucleotides, and that low adenosine nucleotide levels result in ClC-1 activation. In three series of experiments, this study aimed to explore whether ClC-1 is also regulated by adenosine nucleotides in native skeletal muscle fibers, and whether the adenosine nucleotide sensitivity of ClC-1 could explain the rise in Gm muscle fibers during prolonged action potential firing. First, whole cell patch clamping of mouse muscle fibers demonstrated that ClC-1 activation shifted in the hyperpolarized direction when clamping pipette solution contained 0 mM ATP compared with 5 mM ATP. Second, three-electrode Gm measurement during muscle fiber stimulation showed that glycolysis inhibition, with 2-deoxy-glucose or iodoacetate, resulted in an accelerated and rapid >400% Gm rise during short periods of repeated action potential firing in both fast-twitch and slow-twitch rat, and in human muscle fibers. Moreover, ClC-1 inhibition with 9-anthracenecarboxylic acid resulted in either an absence or blunted Gm rise during action potential firing in human muscle fibers. Third, Gm measurement during repeated action potential firing in muscle fibers from a murine McArdle disease model suggest that the rise in Gm was accelerated in a subset of fibers. Together, these results are compatible with ClC-1 function being regulated by the level of adenosine nucleotides in native tissue, and that the channel operates as a sensor of skeletal muscle metabolic state, limiting muscle excitability when energy status is low.

Published

2020

30. Absence of p.R50X Pygm read-through in McArdle disease cellular models

Author

Guillermo Tarrasó, Alberto Real-Martinez, Marta Parés, Lídia Romero-Cortadellas, Laura Puigros, Laura Moya, Noemí de Luna, Astrid Brull, Miguel Angel Martín, Joaquin Arenas, Alejandro Lucia, Antoni L. Andreu, Jordi Barquinero, John Vissing, Thomas O. Krag, and Tomàs Pinós

Subjects

mcardle disease, metabolic myopathy, premature termination codon, read-through, cellular models, Medicine, Pathology, RB1-214

Abstract

McArdle disease is an autosomal recessive disorder caused by the absence of muscle glycogen phosphorylase, which leads to blocked muscle glycogen breakdown. We used three different cellular models to evaluate the efficiency of different read-through agents (including amlexanox, Ataluren, RTC13 and G418) in McArdle disease. The first model consisted of HeLa cells transfected with two different GFP-PYGM constructs presenting the Pygm p.R50X mutation (GFP-PYGM p.R50X and PYGM Ex1-GFP p.R50X). The second cellular model was based on the creation of HEK293T cell lines stably expressing the PYGM Ex1-GFP p.R50X construct. As these plasmids encode murine Pygm cDNA without any intron sequence, their transfection in cells would allow for analysis of the efficacy of read-through agents with no concomitant nonsense-mediated decay interference. The third model consisted of skeletal muscle cultures derived from the McArdle mouse model (knock-in for the p.R50X mutation in the Pygm gene). We found no evidence of read-through at detectable levels in any of the models evaluated. We performed a literature search and compared the premature termination codon context sequences with reported positive and negative read-through induction, identifying a potential role for nucleotide positions −9, −8, −3, −2, +13 and +14 (the first nucleotide of the stop codon is assigned as +1). The Pygm p.R50X mutation presents TGA as a stop codon, G nucleotides at positions −1 and −9, and a C nucleotide at −3, which potentially generate a good context for read-through induction, counteracted by the presence of C at −2 and its absence at +4.

Published

2020

31. Growth Factors Do Not Improve Muscle Function in Young or Adult mdx Mice

Author

Tue L. Nielsen, Tessa M. Hornsyld, Tomàs Pinós, Camilla Brolin, John Vissing, and Thomas O. Krag

Subjects

mdx, DMD, muscular regeneration, hepatocyte growth factor, leukemia inhibitory factor, Biology (General), QH301-705.5

Abstract

Muscular dystrophies constitute a broad group of genetic disorders leading to muscle wasting. We have previously demonstrated that treating a muscular atrophy mouse model with growth factors resulted in increased muscle mass. In the present study, we treated the Duchenne mouse model mdx for 12 weeks with myogenic growth factors peri- and post-onset of muscular degeneration to explore the effects in the oxidative muscle soleus and the glycolytic muscle extensor digitorum longus (EDL). We found no overall beneficial effect in the peri-onset group at the conclusion of the study. In the post-onset group, the functional improvement by means of electrophysiological examinations ex vivo was mostly confined to the soleus. EDL benefitted from the treatment on a molecular level but did not improve functionally. Histopathology revealed signs of inflammation at the end of treatment. In conclusion, the growth factor cocktail failed to improve the mdx on a functional level.

Published

2022

32. Detection of variants in dystroglycanopathy-associated genes through the application of targeted whole-exome sequencing analysis to a large cohort of patients with unexplained limb-girdle muscle weakness

Author

Katherine Johnson, Marta Bertoli, Lauren Phillips, Ana Töpf, Peter Van den Bergh, John Vissing, Nanna Witting, Shahriar Nafissi, Shirin Jamal-Omidi, Anna Łusakowska, Anna Kostera-Pruszczyk, Anna Potulska-Chromik, Nicolas Deconinck, Carina Wallgren-Pettersson, Sonja Strang-Karlsson, Jaume Colomer, Kristl G. Claeys, Willem De Ridder, Jonathan Baets, Maja von der Hagen, Roberto Fernández-Torrón, Miren Zulaica Ijurco, Juan Bautista Espinal Valencia, Andreas Hahn, Hacer Durmus, Tracey Willis, Liwen Xu, Elise Valkanas, Thomas E. Mullen, Monkol Lek, Daniel G. MacArthur, and Volker Straub

Subjects

Whole-exome sequencing, Dystroglycanopathies, Limb-girdle muscle weakness, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Dystroglycanopathies are a clinically and genetically heterogeneous group of disorders that are typically characterised by limb-girdle muscle weakness. Mutations in 18 different genes have been associated with dystroglycanopathies, the encoded proteins of which typically modulate the binding of α-dystroglycan to extracellular matrix ligands by altering its glycosylation. This results in a disruption of the structural integrity of the myocyte, ultimately leading to muscle degeneration. Methods Deep phenotypic information was gathered using the PhenoTips online software for 1001 patients with unexplained limb-girdle muscle weakness from 43 different centres across 21 European and Middle Eastern countries. Whole-exome sequencing with at least 250 ng DNA was completed using an Illumina exome capture and a 38 Mb baited target. Genes known to be associated with dystroglycanopathies were analysed for disease-causing variants. Results Suspected pathogenic variants were detected in DPM3, ISPD, POMT1 and FKTN in one patient each, in POMK in two patients, in GMPPB in three patients, in FKRP in eight patients and in POMT2 in ten patients. This indicated a frequency of 2.7% for the disease group within the cohort of 1001 patients with unexplained limb-girdle muscle weakness. The phenotypes of the 27 patients were highly variable, yet with a fundamental presentation of proximal muscle weakness and elevated serum creatine kinase. Conclusions Overall, we have identified 27 patients with suspected pathogenic variants in dystroglycanopathy-associated genes. We present evidence for the genetic and phenotypic diversity of the dystroglycanopathies as a disease group, while also highlighting the advantage of incorporating next-generation sequencing into the diagnostic pathway of rare diseases.

Published

2018

33. Pure exercise intolerance and ophthalmoplegia associated with the m.12,294G > A mutation in the MT-TL2 gene: a case report

Author

Patrick Soldath, Karen Lindhardt Madsen, Astrid Emilie Buch, Morten Duno, Flemming Wibrand, and John Vissing

Subjects

Case report, Mitochondrial DNA, MT-TL2 mutation, Mitochondrial myopathy, Exercise intolerance, Exercise physiological study, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Pure exercise intolerance associated with exclusive affection of skeletal muscle is a very rare phenotype of patients with mitochondrial myopathy. Moreover, the exercise intolerance in these rare patients is yet not well explored, as most of known cases have not been assessed by objective testing, but only by interview. We report a patient with a mitochondrial DNA (mtDNA) mutation that gives rise to an exclusive myopathy associated with exercise intolerance and ophthalmoplegia. We quantified the patient’s exercise intolerance through detailed exercise testing. Case presentation A 39-year-old man presented with exercise intolerance and chronic progressive external ophthalmoplegia. Sequencing of the entire mtDNA identified a m.12,294G > A mutation in the MT-TL2 gene. The mutation was heteroplasmic in skeletal muscle (75%) while undetectable in blood, urinary sediment, and buccal mucosa as well as in tissues from the patient’s mother. The mutation affected a highly conserved site in the anticodon stem of the mitochondrial transfer RNA Leucine (CUN) molecule and lead to a severe combined respiratory chain defect. Exercise physiological studies in the patient demonstrated a significantly reduced maximal oxygen uptake of 20.4 ml O2 × min−1 × kg−1 (about half of normal) as well as threefold elevated lactate/pyruvate ratios. Conclusion The findings of our study support that the m.12,294G > A mutation is pathogenic. Likely, the mutation arose sporadically in early embryogenesis after differentiation of the mesoderm into muscle progenitor cells, leading to a pure myopathic phenotype.

Published

2017

34. Skeletal muscle metabolism during prolonged exercise in Pompe disease

Author

Nicolai Preisler, Pascal Laforêt, Karen Lindhardt Madsen, Edith Husu, Christoffer Rasmus Vissing, Gitte Hedermann, Henrik Galbo, Christopher Lindberg, and John Vissing

Subjects

skeletal muscle metabolism, glycogen, exercise, Pompe disease, glycogenosis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Objective: Pompe disease (glycogenosis type II) is caused by lysosomal alpha-glucosidase deficiency, which leads to a block in intra-lysosomal glycogen breakdown. In spite of enzyme replacement therapy, Pompe disease continues to be a progressive metabolic myopathy. Considering the health benefits of exercise, it is important in Pompe disease to acquire more information about muscle substrate use during exercise. Methods: Seven adults with Pompe disease were matched to a healthy control group (1:1). We determined (1) peak oxidative capacity (VO2peak) and (2) carbohydrate and fatty acid metabolism during submaximal exercise (33 W) for 1 h, using cycle-ergometer exercise, indirect calorimetry and stable isotopes. Results: In the patients, VO2peak was less than half of average control values; mean difference −1659 mL/min (CI: −2450 to −867, P = 0.001). However, the respiratory exchange ratio increased to >1.0 and lactate levels rose 5-fold in the patients, indicating significant glycolytic flux. In line with this, during submaximal exercise, the rates of oxidation (ROX) of carbohydrates and palmitate were similar between patients and controls (mean difference 0.226 g/min (CI: 0.611 to −0.078, P = 0.318) and mean difference 0.016 μmol/kg/min (CI: 1.287 to −1.255, P = 0.710), respectively). Conclusion: Reflecting muscle weakness and wasting, Pompe disease is associated with markedly reduced maximal exercise capacity. However, glycogenolysis is not impaired in exercise. Unlike in other metabolic myopathies, skeletal muscle substrate use during exercise is normal in Pompe disease rendering exercise less complicated for e.g. medical or recreational purposes.

Published

2017

35. Antimyostatin Treatment in Health and Disease: The Story of Great Expectations and Limited Success

Author

Tue L. Nielsen, John Vissing, and Thomas O. Krag

Subjects

myostatin, muscular dystrophy, muscular regeneration, ActRIIB, TGF-β, Cytology, QH573-671

Abstract

In the past 20 years, myostatin, a negative regulator of muscle mass, has attracted attention as a potential therapeutic target in muscular dystrophies and other conditions. Preclinical studies have shown potential for increasing muscular mass and ameliorating the pathological features of dystrophic muscle by the inhibition of myostatin in various ways. However, hardly any clinical trials have proven to translate the promising results from the animal models into patient populations. We present the background for myostatin regulation, clinical and preclinical results and discuss why translation from animal models to patients is difficult. Based on this, we put the clinical relevance of future antimyostatin treatment into perspective.

Published

2021

36. Adaptations in Mitochondrial Enzymatic Activity Occurs Independent of Genomic Dosage in Response to Aerobic Exercise Training and Deconditioning in Human Skeletal Muscle

Author

Andreas M. Fritzen, Frank B. Thøgersen, Kasper Thybo, Christoffer R. Vissing, Thomas O. Krag, Cristina Ruiz-Ruiz, Lotte Risom, Flemming Wibrand, Louise D. Høeg, Bente Kiens, Morten Duno, John Vissing, and Tina D. Jeppesen

Subjects

mtDNA, mitochondria, skeletal muscle, exercise training, mitochondrial biogenesis, Cytology, QH573-671

Abstract

Mitochondrial DNA (mtDNA) replication is thought to be an integral part of exercise-training-induced mitochondrial adaptations. Thus, mtDNA level is often used as an index of mitochondrial adaptations in training studies. We investigated the hypothesis that endurance exercise training-induced mitochondrial enzymatic changes are independent of genomic dosage by studying mtDNA content in skeletal muscle in response to six weeks of knee-extensor exercise training followed by four weeks of deconditioning in one leg, comparing results to the contralateral untrained leg, in 10 healthy, untrained male volunteers. Findings were compared to citrate synthase activity, mitochondrial complex activities, and content of mitochondrial membrane markers (porin and cardiolipin). One-legged knee-extensor exercise increased endurance performance by 120%, which was accompanied by increases in power output and peak oxygen uptake of 49% and 33%, respectively (p < 0.01). Citrate synthase and mitochondrial respiratory chain complex I–IV activities were increased by 51% and 46–61%, respectively, in the trained leg (p < 0.001). Despite a substantial training-induced increase in mitochondrial activity of TCA and ETC enzymes, there was no change in mtDNA and mitochondrial inner and outer membrane markers (i.e. cardiolipin and porin). Conversely, deconditioning reduced endurance capacity by 41%, muscle citrate synthase activity by 32%, and mitochondrial complex I–IV activities by 29–36% (p < 0.05), without any change in mtDNA and porin and cardiolipin content in the previously trained leg. The findings demonstrate that the adaptations in mitochondrial enzymatic activity after aerobic endurance exercise training and the opposite effects of deconditioning are independent of changes in the number of mitochondrial genomes, and likely relate to changes in the rate of transcription of mtDNA.

Published

2019

37. Aerobic Training in Patients with Congenital Myopathy.

Author

Gitte Hedermann, Christoffer Rasmus Vissing, Karen Heje, Nicolai Preisler, Nanna Witting, and John Vissing

Subjects

Medicine, Science

Abstract

INTRODUCTION:Congenital myopathies (CM) often affect contractile proteins of the sarcomere, which could render patients susceptible to exercise-induced muscle damage. We investigated if exercise is safe and beneficial in patients with CM. METHODS:Patients exercised on a stationary bike for 30 minutes, three times weekly, for 10 weeks at 70% of their maximal oxygen uptake (VO2max). Creatine kinase (CK) was monitored as a marker of muscle damage. VO2max, functional tests, and questionnaires evaluated efficacy. RESULTS:Sixteen patients with CM were included in a controlled study. VO2max increased by 14% (range, 6-25%; 95% CI 7-20; p < 0.001) in the seven patients who completed training, and tended to decrease in a non-intervention group (n = 7; change -3.5%; range, -11-3%, p = 0.083). CK levels were normal and remained stable during training. Baseline Fatigue Severity Scale scores were high, 4.9 (SE 1.9), and tended to decrease (to 4.4 (SE 1.7); p = 0.08) with training. Nine patients dropped out of the training program. Fatigue was the major single reason. CONCLUSIONS:Ten weeks of endurance training is safe and improves fitness in patients with congenital myopathies. The training did not cause sarcomeric injury, even though sarcomeric function is affected by the genetic abnormalities in most patients with CM. Severe fatigue, which characterizes patients with CM, is a limiting factor for initiating training in CM, but tends to improve in those who train. TRIAL REGISTRATION:The Regional Committee on Health Research Ethics of the Capital Region of Denmark H-2-2013-066 and ClinicalTrials.gov H2-2013-066.

Published

2016

38. Effect of Gender, Disease Duration and Treatment on Muscle Strength in Myasthenia Gravis.

Author

Gülsenay Citirak, Sanja Cejvanovic, Henning Andersen, and John Vissing

Subjects

Medicine, Science

Abstract

The aim of this observational, cross-sectional study was to quantify the potential presence of muscle weakness among patients with generalized myasthenia gravis (gMG). The influence of gender, treatment intensity and disease duration on muscle strength and disease progression was also assessed.Muscle strength was tested in 8 muscle groups by manual muscle testing and by hand-held dynamometry in 107 patients with gMG and 89 healthy age- and gender-matched controls. Disease duration, severity and treatment history were reviewed and compared with muscle strength.Patients had reduced strength in all tested muscle group compared to control subjects (p

Published

2016

39. Decreased variability of the 6-minute walk test by heart rate correction in patients with neuromuscular disease.

Author

Kira P Prahm, Nanna Witting, and John Vissing

Subjects

Medicine, Science

Abstract

OBJECTIVE: The 6-minute walk test is widely used to assess functional status in neurological disorders. However, the test is subject to great inter-test variability due to fluctuating motivation, fatigue and learning effects. We investigated whether inter-test variability of the 6MWT can be reduced by heart rate correction. METHODS: Sixteen patients with neuromuscular diseases, including Facioscapulohumeral muscular dystrophy, Limb-girdle muscular dystrophy, Charcot-Marie-Tooths, Dystrophia Myotonica and Congenital Myopathy and 12 healthy subjects were studied. Patients were excluded if they had cardiac arrhythmias, if they received drug treatment for hypertension or any other medical conditions that could interfere with the interpretation of the heart rate and walking capability. All completed three 6-minute walk tests on three different test-days. Heart rate was measured continuously. RESULTS: Successive standard 6-minute walk tests showed considerable learning effects between Tests 1 and 2 (4.9%; P = 0.026), and Tests 2 and 3 (4.5%; P = 0.020) in patients. The same was seen in controls between Tests 1 and 2 (8.1%; P = 0.039)). Heart rate correction abolished this learning effect. CONCLUSION: A modified 6-minute walk test, by correcting walking distance with average heart rate during walking, decreases the variability among repeated 6-minute walk tests, and should be considered as an alternative outcome measure to the standard 6-minute walk test in future clinical follow-up and treatment trials.

Published

2014

40. Quantitative magnetic resonance imaging in limb-girdle muscular dystrophy 2I: a multinational cross-sectional study.

Author

Tracey A Willis, Kieren G Hollingsworth, Anna Coombs, Marie-Louise Sveen, Soren Andersen, Tanya Stojkovic, Michelle Eagle, Anna Mayhew, Paulo Loureiro de Sousa, Liz Dewar, Jasper M Morrow, Christopher D J Sinclair, John S Thornton, Kate Bushby, Hanns Lochmuller, Michael G Hanna, Jean-Yves Hogrel, Pierre G Carlier, John Vissing, and Volker Straub

Subjects

Medicine, Science

Abstract

We conducted a prospective multinational study of muscle pathology using magnetic resonance imaging (MRI) in patients with limb-girdle muscular dystrophy 2I (LGMD2I). Thirty eight adult ambulant LGMD2I patients (19 male; 19 female) with genetically identical mutations (c.826C>A) in the fukutin-related protein (FKRP) gene were recruited. In each patient, T1-weighted (T1w) imaging was assessed by qualitative grading for 15 individual lower limb muscles and quantitative Dixon imaging was analysed on 14 individual lower limb muscles by region of interest analysis. We described the pattern and appearance of muscle pathology and gender differences, not previously reported for LGMD2I. Diffuse fat infiltration of the gastrocnemii muscles was demonstrated in females, whereas in males fat infiltration was more prominent in the medial than the lateral gastrocnemius (p = 0.05). In the anterior thigh of males, in contrast to females, median fat infiltration in the vastus medialis muscle (45.7%) exceeded that in the vastus lateralis muscle (11.2%) (p

Published

2014

41. Muscle atrophy reversed by growth factor activation of satellite cells in a mouse muscle atrophy model.

Author

Simon Hauerslev, John Vissing, and Thomas O Krag

Subjects

Medicine, Science

Abstract

Muscular dystrophies comprise a large group of inherited disorders that lead to progressive muscle wasting. We wanted to investigate if targeting satellite cells can enhance muscle regeneration and thus increase muscle mass. We treated mice with hepatocyte growth factor and leukemia inhibitory factor under three conditions: normoxia, hypoxia and during myostatin deficiency. We found that hepatocyte growth factor treatment led to activation of the Akt/mTOR/p70S6K protein synthesis pathway, up-regulation of the myognic transcription factors MyoD and myogenin, and subsequently the negative growth control factor, myostatin and atrophy markers MAFbx and MuRF1. Hypoxia-induced atrophy was partially restored by hepatocyte growth factor combined with leukemia inhibitory factor treatment. Dividing satellite cells were three-fold increased in the treatment group compared to control. Finally, we demonstrated that myostatin regulates satellite cell activation and myogenesis in vivo following treatment, consistent with previous findings in vitro. Our results suggest, not only a novel in vivo pharmacological treatment directed specifically at activating the satellite cells, but also a myostatin dependent mechanism that may contribute to the progressive muscle wasting seen in severely affected patients with muscular dystrophy and significant on-going regeneration. This treatment could potentially be applied to many conditions that feature muscle wasting to increase muscle bulk and strength.

Published

2014

42. Quantitative muscle MRI as an assessment tool for monitoring disease progression in LGMD2I: a multicentre longitudinal study.

Author

Tracey A Willis, Kieren G Hollingsworth, Anna Coombs, Marie-Louise Sveen, Søren Andersen, Tanya Stojkovic, Michelle Eagle, Anna Mayhew, Paulo L de Sousa, Liz Dewar, Jasper M Morrow, Christopher D J Sinclair, John S Thornton, Kate Bushby, Hanns Lochmüller, Michael G Hanna, Jean-Yves Hogrel, Pierre G Carlier, John Vissing, and Volker Straub

Subjects

Medicine, Science

Abstract

Outcome measures for clinical trials in neuromuscular diseases are typically based on physical assessments which are dependent on patient effort, combine the effort of different muscle groups, and may not be sensitive to progression over short trial periods in slow-progressing diseases. We hypothesised that quantitative fat imaging by MRI (Dixon technique) could provide more discriminating quantitative, patient-independent measurements of the progress of muscle fat replacement within individual muscle groups.To determine whether quantitative fat imaging could measure disease progression in a cohort of limb-girdle muscular dystrophy 2I (LGMD2I) patients over a 12 month period.32 adult patients (17 male;15 female) from 4 European tertiary referral centres with the homozygous c.826C>A mutation in the fukutin-related protein gene (FKRP) completed baseline and follow up measurements 12 months later. Quantitative fat imaging was performed and muscle fat fraction change was compared with (i) muscle strength and function assessed using standardized physical tests and (ii) standard T1-weighted MRI graded on a 6 point scale.There was a significant increase in muscle fat fraction in 9 of the 14 muscles analyzed using the quantitative MRI technique from baseline to 12 months follow up. Changes were not seen in the conventional longitudinal physical assessments or in qualitative scoring of the T₁w images.Quantitative muscle MRI, using the Dixon technique, could be used as an important longitudinal outcome measure to assess muscle pathology and monitor therapeutic efficacy in patients with LGMD2I.

Published

2013

43. Protein turnover and cellular stress in mildly and severely affected muscles from patients with limb girdle muscular dystrophy type 2I.

Author

Simon Hauerslev, Marie L Sveen, John Vissing, and Thomas O Krag

Subjects

Medicine, Science

Abstract

Patients with Limb girdle muscular dystrophy type 2I (LGMD2I) are characterized by progressive muscle weakness and wasting primarily in the proximal muscles, while distal muscles often are spared. Our aim was to investigate if wasting could be caused by impaired regeneration in the proximal compared to distal muscles. Biopsies were simultaneously obtained from proximal and distal muscles of the same patients with LGMD2I (n = 4) and healthy subjects (n = 4). The level of past muscle regeneration was evaluated by counting internally nucleated fibers and determining actively regenerating fibers by using the developmental markers embryonic myosin heavy chain (eMHC) and neural cell adhesion molecule (NCAM) and also assessing satellite cell activation status by myogenin positivity. Severe muscle histopathology was occasionally observed in the proximal muscles of patients with LGMD2I whereas distal muscles were always relatively spared. No difference was found in the regeneration markers internally nucleated fibers, actively regenerating fibers or activation status of satellite cells between proximal and distal muscles. Protein turnover, both synthesis and breakdown, as well as cellular stress were highly increased in severely affected muscles compared to mildly affected muscles. Our results indicate that alterations in the protein turnover and myostatin levels could progressively impair the muscle mass maintenance and/or regeneration resulting in gradual muscular atrophy.

Published

2013

44. 254th ENMC international workshop. Formation of a European network to initiate a European data collection, along with development and sharing of treatment guidelines for adult SMA patients. Virtual meeting 28 – 30 January 2022

Author

Maggie C. Walter, Pascal Laforêt, W. Ludo van der Pol, Elena Pegoraro, Shahram Attarian, Bart Bartels, Ksenija Gorni, Nathalie Goemans, Nicole Gusset, Victoria Hodgkinson, Tim Hagenacker, Janbernd Kirschner, Andrea Klein, Anna Kostera-Pruszczyk, Hanns Lochmüller, Chiara Marini-Bettolo, Eugenio Mercuri, Robert Muni-Lofra, Laetitia Ouillade, Rosaline Quinlivan, Constantinos Papadopoulos, Hélène Prigent, Emmanuelle Salort-Campana, Valeria A Sansone, Rivka Smit, Piera Smeriglio, Simone Thiele, Ben Tichler, Peter Van den Bergh, Juan F Vazquez-Costa, and John Vissing

Subjects

Neurology, Pediatrics, Perinatology and Child Health, Medizin, Neurology (clinical), Genetics (clinical)

Published

2023

45. Rozanolixizumab efficacy in generalised myasthenia gravis: Subgroup analyses from the randomised, phase 3, MycarinG study

Author

Jo, Moxey, primary, Artur, Drużdż, additional, Julian, Grosskreutz, additional, Renato, Mantegazza, additional, Kimiaki, Utsugisawa, additional, John, Vissing, additional, Raphaëlle Beau, Lejdstrom, additional, Marion, Boehnlein, additional, Fiona, Grimson, additional, and Vera, Bril, additional

Published

2023

46. Safety and efficacy of rozanolixizumab in patients with generalised myasthenia gravis (MycarinG): a randomised, double-blind, placebo-controlled, adaptive phase 3 study

Author

Vera Bril, Artur Drużdż, Julian Grosskreutz, Ali A Habib, Renato Mantegazza, Sabrina Sacconi, Kimiaki Utsugisawa, John Vissing, Tuan Vu, Marion Boehnlein, Ali Bozorg, Maryam Gayfieva, Bernhard Greve, Franz Woltering, Henry J Kaminski, Angela Genge, Rami Massie, Maxime Berube, Lubna Daniyal, Shabber Mannan, Eduardo Ng, Ritesh Rohan Raghu Raman, Evelyn Sarpong, Monica Alcantara, Annie Dionne, Zaeem Siddiqi, Derrick Blackmore, Faraz Hussain, Genevieve Matte, Stephan Botez, Michaela Tyblova, Michala Jakubikova, Jana Junkerova, Nanna Witting, Sonja Holm-Yildiz, Mads Stemmerik, Henning Andersen, Izabella Obál, Guilhem Solé, Stéphane Mathis, Marie-Hélène Violleau, Christine Tranchant, Sihame Messai, Jean-Baptiste Chanson, Aleksandra Nadaj-Pakleza, Arnaud Verloes, Leila Zaidi, Manuela Gambella, Michele Cavalli, Tanya Stojkovic, Sophie Demeret, Loic Le Guennec, Giorgia Querin, Nicolas Weiss, Marion Masingue, Laurent Magy, Karima Ghorab, Ia Rukhadze, Alexander Tsiskaridze, Marina Janelidze, Temur Margania, Florian Then Bergh, Eike Hänsel, Andrea Kalb, Bianca Meilick, Mandy Reuschel, Lars-Malte Teußer, Astrid Unterlauft, Clemens Goedel, Tim Hagenacker, Andreas Totzeck, Benjamin Stolte, Franz Blaes, Christine Bindler, Vasilios Tsoutsikas, Annekathrin Roediger, Christian Geis, Jens Schmidt, Jana Zschüntzsch, Margret Schwarz, Stefanie Meyer, Karsten Kummer, Stefanie Glaubitz, Rachel Zeng, Heinz Wiendl, Luisa Klotz, Anna Lammerskitten, Jan Lünemann, Péter Diószeghy, Lorenzo Maggi, Elena Rinaldi, Matteo Gastaldi, Federico Mazzacane, Pietro Businaro, Raffaele Iorio, Giovanni Antonini, Laura Fionda, Rita Rinaldi, Simone Rossi, Francesco Habetswallner, Francesco Tuccillo, Haruna Umehara, Eiko Uenaka, Masanori Takahashi, Keiko Higashi, Makoto Kinoshita, Emika Yoneda, Noriko Nakamura, Saeka Fujita, Tomoya Kubota, Masami Ono, Sana Yamamoto, Taku Hatano, Kazuki Oikoshi, Kazumasa Yokoyama, Yutaka Oji, Yuji Tomizawa, Akiyuki Uzawa, Manato Yasuda, Sachiko Akita, Yukiko Ozawa, Yosuke Onishi, Miki Takaki, Hiromi Yamada, Kanako Minemoto, Miki Sanko, Nanae Izawa, Mayumi Nakayama, Masayuki Masuda, Rune Tsuji, Nobuhiro Ido, Yumi Hyodo, Yoshihiko Okubo, Akiko Minohara, Nana Haraguchi, Makiko Naito, Seiko Yoshida, Yuri Fukushige, Akira Tsujino, Atsushi Nagaoka, Teiichiro Miyazaki, Shunsuke Yoshimura, Takuro Hirayama, Tomoaki Shima, Naoko Okamoto, Riki Matsumoto, Kenji Sekiguchi, Takehiro Ueda, Norio Chihara, Mari Kirimura, Emi Sunagawa, Ayaka Suzuki, Shigeaki Suzuki, Aozora Wada, Kei Ishizuchi, Yasushi Suzuki, Mitsuo Yata, Yuka Komatsu, Kenichi Tsukita, Genya Watanabe, Kazuki Sato, Emiko Kawasaki, Naoki Yamamoto, Hirohiko Ono, Tomoko Tsuda, Shigeki Ohashi, Yuka Fujisawa, Yumiko Yokota, Yuriko Nagane, Kameda Ayumi, Yuka Takematsu, Hiroyuki Naito, Kumiko Kuwada, Konrad Rejdak, Sebastian Szklener, Monika Kitowska, Kandyda Derkacz, Tomasz Berkowicz, Paulina Budzinska, Marek Halas, Leonid Zaslavskiy, Evgeniya Skornyakova, Sergey Kotov, Ekaterina Novikova, Olga Sidorova, Vitalii Goldobin, Tatiana Alekseeva, Patimat Isabekova, Nadezhda Malkova, Denis Korobko, Gordana Djordjevic, Aleksandar Stojanov, Stojan Peric, Dragana Lavrnic, Ivo Bozovic, Aleksa Palibrk, Carlos Casasnovas, Velina Nedkova-Hristova, Nuria Vidal Fernández, Elena Cortés Vicente, Luis Querol Gutiérrez, Maria Salvadó Figueras, Anna Canovas Segura, Raúl Juntas Morales, Daniel Sanchez Tejerina, Albert Saiz, Yolanda Blanco Morgado, Sara Llufriú Durán, María Sepúlveda Gázquez, Eugenia María Martínez Hernández, Gerardo Gutiérrez Gutiérrez, Paqui Iniesta, José Meca Lallana, Yuh-Cherng Guo, Hou-Chang Chiu, Jiann-Horng Yeh, Ya Hui Chen, Mei Fen Lee, Yi-Chung Lee, Kuan Lin Lai, Said Beydoun, Salma Akhter, Lucy Lam, Alisha Thomas, Michael Rivner, Brandy Quarles, Dale Lange, Shara Holzberg, Pantelis Pavlakis, Ashwathy Goutham, Henry Kaminski, Radwa Aly, Lisa Ashworth, Kathryn Bender, Karie Bond, Joanne Buckner, Sara Byerly, James Caress, Jessyca Clemons, Asha Farmer, Catherine Franklin, Summer Harris, Meredith Hiatt, Rachana Gandhi Mehta, Gina Miller, Lynn Smith, Rose Smith, Brian Strittmatter, Tahseen Mozaffar, Isela Hernandez, Kelsey Moulton, Chafic Karam, Pranali Ravikumar, Catherine Lomen-Hoerth, Laura Rosow, Hannah George, Viktoriya Irodenko, Carol Denny, Bart Hanson, Sara Klein, Jennifer Martinez-Thompson, Elie Naddaf, Denny Padgett, Eric Sorenson, Jane L Sultze, Delena Weis, Kourosh Rezania, Jason Thonhoff, Sheetal Shroff, Robert Pascuzzi, Angela Micheels, Cynthia Bodkin, Adam Comer, Gelasio Baras, Renee Wagner, Zabeen Mahuwala, Stephen Ryan, Kai Su, Khema Sharma, Andrew Brown, and Kore Liow

Subjects

Neurology (clinical)

Published

2023

47. 263rd ENMC International Workshop

Author

Anna Sarkozy, Rosaline Quinlivan, John P. Bourke, Alessandra Ferlini, Inès Barthélémy, Linda H Cripe, Emily Reuben, Teresinha Evangelista, Anca Florian, Josh Gribnau, Lidia Gonzalez-Quereda, Michela Guglieri, Erik Niks, Rahul Phadke, Luisa Politano, Ros Quinlivan, John Vissing, Nicol Voermans, Elizabeth Vroom, Aleksandra Pietrusz, Fernanda Fortunato, Saskia Houwen, and Developmental Biology

Subjects

All institutes and research themes of the Radboud University Medical Center, Neurology, Pediatrics, Perinatology and Child Health, Neurology (clinical), Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Genetics (clinical)

Abstract

Item does not contain fulltext

Published

2023

48. 265th ENMC International Workshop: Muscle imaging in Facioscapulohumeral Muscular Dystrophy (FSHD): relevance for clinical trials. 22-24 April 2022, Hoofddorp, The Netherlands

Author

Mauro Monforte, Shahram Attarian, John Vissing, Jordi Diaz-Manera, Giorgio Tasca, Raj Badiani, David Bendahan, Pierre Carlier, Robert-Yves Carlier, Olof Dahlqvist Leinhard, Roberto Fernandez-Torron, Teresa Gerhalter, Linda Heskamp, Hermien Kan, Doris Leung, Aurea Martins-Bach, Kisten Meiburger, Anna Pichiecchio, Michal Rataj, Sabrina Sacconi, Francesco Santini, Nens van Alfen, Sanne Vincenten, and Nicol Voermans

Subjects

Neurology, Pediatrics, Perinatology and Child Health, Neurology (clinical), Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Genetics (clinical)

Abstract

Item does not contain fulltext

Published

2023

49. Diagnosis and management of metabolic myopathies

Author

Salman F. Bhai and John Vissing

Subjects

Cellular and Molecular Neuroscience, Physiology, Physiology (medical), Neurology (clinical)

Published

2023

50. Homozygous splice variant (c.1741-6G>A) of the COL6A1 gene in three patients with Ullrich congenital muscular dystrophy

Author

Maria Barington, Morten Dunø, Ulf Birkedal, John Vissing, Alfred Peter Born, Thomas Krag, Thomas van Overeem Hansen, and Elsebet Østergaard

Subjects

Neurology, Pediatrics, Perinatology and Child Health, Neurology (clinical), Genetics (clinical)

Published

2023