Longitudinal excursion and strain in the median nerve during novel nerve gliding exercises for carpal tunnel syndrome

Nerve and tendon gliding exercises are advocated in the conservative and postoperative management of carpal tunnel syndrome (CTS). However, traditionally advocated exercises elongate the nerve bedding substantially, which may induce a potentially deleterious strain in the median nerve with the risk of symptom exacerbation in some patients and reduced benefits from nerve gliding. This study aimed to evaluate various nerve gliding exercises, including novel techniques that aim to slide the nerve through the carpal tunnel while minimizing strain (sliding techniques). With these sliding techniques, it is assumed that an increase in nerve strain due to nerve bed elongation at one joint (e.g., wrist extension) is simultaneously counterbalanced by a decrease in nerve bed length at an adjacent joint (e.g., elbow flexion). Excursion and strain in the median nerve at the wrist were measured with a digital calliper and miniature strain gauge in six human cadavers during six mobilization techniques. The sliding technique resulted in an excursion of 12.4 mm, which was 30% larger than any other technique (p 0.0002). Strain also differed between techniques (p 0.00001), with minimal peak values for the sliding technique. Nerve gliding associated with wrist movements can be considerably increased and nerve strain substantially reduced by simultaneously moving neighboring joints. These novel nerve sliding techniques are biologically plausible exercises for CTS that deserve further clinical evaluation. © 2007 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 25:972-980, 200

Construction of a subgenomic CV-B3 replicon expressing emerald green fluorescent protein to assess viral replication of a cardiotropic enterovirus strain in cultured human cells

Coxsackieviruses B (CV-B) (Picornaviridae) are a common infectious cause of acute myocarditis in children and young adults, a disease, which is a precursor to 10-20% of chronic myocarditis and dilated cardiomyopathy (DCM) cases. The mechanisms involved in the disease progression from acute to chronic myocarditis phase and toward the DCM clinical stage are not fully understood but are influenced by both viral and host factors. Subgenomic replicons of CV-B can be used to assess viral replication mechanisms in human cardiac cells and evaluate the effects of potential antiviral drugs on viral replication activities. Our objectives were to generate a reporter replicon from a cardiotropic prototype CV-B3/28 strain and to characterize its replication properties into human cardiac primary cells. To obtain this replicon, a cDNA plasmid containing the full CV-B3/28 genome flanked by a hammerhead ribozyme sequence and an MluI restriction site was generated and used as a platform for the insertion of sequences encoding emerald green fluorescent protein (EmGFP) in place of those encoding VP3. In vitro transcribed RNA from this plasmid was transfected into HeLa cells and human primary cardiac cells and was able to produce EmGFP and VP1-containing polypeptides. Moreover, non-structural protein biological activity was assessed by the specific cleavage of eIF4G1 by viral 2A(pro). Viral RNA replication was indirectly demonstrated by inhibition assays, fluoxetine was added to cell culture and prevented the EmGFP synthesis. Our results indicated that the EmGFP CV-B3 replicon was able to replicate and translate as well as the CV-B3/28 prototype strain. Our EmGFP CV-B3 replicon will be a valuable tool to readily investigate CV-B3 replication activities in human target cell models

Study of the replication activity of complete and deleted forms of coxsackievirus B3 in the 5' noncoding region of their genome in primary human cardiomyocytes culture.

Les Entérovirus humains du groupe B (EV-B) et plus spécifiquement les virus Coxsackie B sont considérés comme une cause majeure des myocardites infectieuses aigues et chroniques dont 10% peuvent évoluer vers la cardiomyopathie dilatée (CMD). Les mécanismes moléculaires viraux impliqués dans la progression de la myocardite aiguë vers le stade de la CMD ne sont pas élucidés.L’analyse par séquençage NGS a montré chez 8 (33%) des 24 patients atteints de CMD inexpliquée l’existence de populations majoritaires tronquées de 19 à 50 nucléotides associées à des formes virales minoritaires complètes. La proportion de populations tronquées s’est révélée négativement corrélée au ratio ARN+/ARN- et à la charge virale. Des études immuno-histologiques et par hybridation in situ des tissus cardiaques ont montré que le clivage de la dystrophine était uniquement retrouvé dans les cardiomyocytes infectés par les EV-B. Pour étudier les activités de réplication des populations d’EV-B persistants, un réplicon (CVB3-emGFP) a été généré à partir d’une souche cardiotrope (CV-B3/28). La transfection d’ARN de synthèse complets et tronqués (d50) dans des cultures de cardiomyocytes humains primaires a mis en évidence des mécanismes de recombinaison et/ou de trans-complémentation entre ces 2 formes virales induisant de faibles activités de réplication.Nos résultats démontrent l’existence de mécanismes de coopération moléculaire entre des populations d’EV-B tronquées et complètes qui pourraient expliquer la mise en place du mécanisme de persistance virale observée au cours de la phase clinique de CMD. Ces résultats pourraient contribuer au développement de nouvelles stratégies thérapeutiques pour prévenir et traiter les infections cardiaques à EV-B.Enteroviruses group B (EV-B) and more specifically Coxsackievirus B are recognized as major causes of acute and chronic infectious myocarditis, which 10% may progress towards dilated cardiomyopathy (DCM). Viral molecular mechanisms involved in the progression from acute myocarditis to the clinical stage of DCM remain unknown.Deep sequencing analysis showed in 8 (33%) of 24 unexplained DCM patients the existence of major CVB3 populations with deletions of 19 to 50 nucleotides associated with a minority of complete viral forms. The proportion of deleted viral populations was negatively correlated with RNA+/RNA- ratio and the viral load levels. Immuno-histological and in situ hybridization assays of DCM cardiac tissues demonstrated that the cleavage of dystrophin was found only in cardiomyocytes infected with EV-B. To study the replication activities of persistent EV-B populations, a replicon (CVB3-emGFP) was generated from a cardiotropic strain (CV-B3/28). Transfection of synthesized complete and truncated (d50) viral RNAs in primary human cardiomyocytes cultures revealed mechanisms of recombination and / or trans-complementation between these two viral forms inducing low replication activities.In conclusions, our original results demonstrated the existence of new molecular mechanisms of cooperation between EV-B deleted and complete viral populations that could explain the development of a viral persistence mechanism observed during the clinical phase of DCM. These findings may contribute to the development of new therapeutic strategies to prevent and treat persistent heart EV-B infections

Analysis of transcription and translation viral activities of wild type (WT) and 5’ terminally deleted enteroviruses in a model of cultured primary human cardiomyocytes

International audienc

Construction of a subgenomic CV-B3 replicon expressing emerald green fluorescent protein to assess viral replication of a cardiotropic enterovirus strain in cultured human cells.

Coxsackieviruses B (CV-B) (Picornaviridae) are a common infectious cause of acute myocarditis in children and young adults, a disease, which is a precursor to 10-20% of chronic myocarditis and dilated cardiomyopathy (DCM) cases. The mechanisms involved in the disease progression from acute to chronic myocarditis phase and toward the DCM clinical stage are not fully understood but are influenced by both viral and host factors. Subgenomic replicons of CV-B can be used to assess viral replication mechanisms in human cardiac cells and evaluate the effects of potential antiviral drugs on viral replication activities. Our objectives were to generate a reporter replicon from a cardiotropic prototype CV-B3/28 strain and to characterize its replication properties into human cardiac primary cells. To obtain this replicon, a cDNA plasmid containing the full CV-B3/28 genome flanked by a hammerhead ribozyme sequence and an MluI restriction site was generated and used as a platform for the insertion of sequences encoding emerald green fluorescent protein (EmGFP) in place of those encoding VP3. In vitro transcribed RNA from this plasmid was transfected into HeLa cells and human primary cardiac cells and was able to produce EmGFP and VP1-containing polypeptides. Moreover, non-structural protein biological activity was assessed by the specific cleavage of eIF4G1 by viral 2A(pro). Viral RNA replication was indirectly demonstrated by inhibition assays, fluoxetine was added to cell culture and prevented the EmGFP synthesis. Our results indicated that the EmGFP CV-B3 replicon was able to replicate and translate as well as the CV-B3/28 prototype strain. Our EmGFP CV-B3 replicon will be a valuable tool to readily investigate CV-B3 replication activities in human target cell models