Myasthenia gravis is a chronic autoimmune disorder that affects the neuromuscular junction leading to fluctuating skeletal muscle fatigability. The majority of myasthenia gravis patients have detectable antibodies in ...Myasthenia gravis is a chronic autoimmune disorder that affects the neuromuscular junction leading to fluctuating skeletal muscle fatigability. The majority of myasthenia gravis patients have detectable antibodies in their serum, targeting acetylcholine receptor, muscle-specific kinase, or related proteins. Current treatment for myasthenia gravis involves symptomatic therapy, immunosuppressive drugs such as corticosteroids, azathioprine, and mycophenolate mofetil, and thymectomy, which is primarily indicated in patients with thymoma or thymic hyperplasia. However, this condition continues to pose significant challenges including an unpredictable and variable disease progression, differing response to individual therapies, and substantial longterm side effects associated with standard treatments(including an increased risk of infections, osteoporosis, and diabetes), underscoring the necessity for a more personalized approach to treatment. Furthermore, about fifteen percent of patients, called “refractory myasthenia gravis patients”, do not respond adequately to standard therapies. In this context, the introduction of molecular therapies has marked a significant advance in myasthenia gravis management. Advances in understanding myasthenia gravis pathogenesis, especially the role of pathogenic antibodies, have driven the development of these biological drugs, which offer more selective, rapid, and safer alternatives to traditional immunosuppressants. This review aims to provide a comprehensive overview of emerging therapeutic strategies targeting specific immune pathways in myasthenia gravis, with a particular focus on preclinical evidence, therapeutic rationale, and clinical translation of B-cell depletion therapies, neonatal Fc receptor inhibitors, and complement inhibitors.展开更多
Background:This study aimed to determine the effect of different carbohydrate(CHO)doses on exercise capacity in patients with McArdle disease—the paradigm of“exercise intolerance”,characterized by complete muscle g...Background:This study aimed to determine the effect of different carbohydrate(CHO)doses on exercise capacity in patients with McArdle disease—the paradigm of“exercise intolerance”,characterized by complete muscle glycogen unavailability—and to determine whether higher exogenous glucose levels affect metabolic responses at the McArdle muscle cell(in vitro)level.Methods:Patients with McArdle disease(n=8)and healthy controls(n=9)underwent a 12-min submaximal cycling constant-load bout followed by a maximal ramp test 15 min after ingesting a non-caloric placebo.In a randomized,double-blinded,cross-over design,patients repeated the tests after consuming either 75 g or 150 g of CHO(glucose:fructose=2:1).Cardiorespiratory,biochemical,perceptual,and electromyographic(EMG)variables were assessed.Additionally,glucose uptake and lactate appearance were studied in vitro in wild-type and McArdle mouse myotubes cultured with increasing glucose concentrations(0.35,1.00,4.50,and 10.00 g/L).Results:Compared with controls,patients showed the“classical”second-wind phenomenon(after prior disproportionate tachycardia,myalgia,and excess electromyographic activity during submaximal exercise,all p<0.05)and an impaired endurance exercise capacity(-51%ventilatory threshold and55%peak power output,both p<0.001).Regardless of the CHO dose(p<0.05 for both doses compared with the placebo),CHO intake increased blood glucose and lactate levels,decreased fat oxidation rates,and attenuated the second wind in the patients.However,only the higher dose increased ventilatory threshold(+27%,p=0.010)and peak power output(+18%,p=0.007).In vitro analyses revealed no differences in lactate levels across glucose concentrations in wild-type myotubes,whereas a doseresponse effect was observed in McArdle myotubes.Conclusion:CHO intake exerts beneficial effects on exercise capacity in McArdle disease,a condition associated with total muscle glycogen unavailability.Some of these benefits are dose dependent.展开更多
Background: Hereditary transthyretin(ATTRv) amyloidosis is an autosomal dominant disease linked to transthyretin gene mutations which cause instability of the transthyretin tetramer. After dissociation and misfolding ...Background: Hereditary transthyretin(ATTRv) amyloidosis is an autosomal dominant disease linked to transthyretin gene mutations which cause instability of the transthyretin tetramer. After dissociation and misfolding they reassemble as insoluble fibrils(i.e. amyloid). Apart from the common Val30 Met mutation there is a very heterogeneous group of non-Val30 Met mutations. In some cases, the clinical picture is dominated by a rapidly evolving restrictive and hypertrophic cardiomyopathy. Methods: A case series of four liver recipients with the highly clinically relevant, rare and particularly aggressive Val122 del mutation is presented. Medical and surgical therapeutic options, waiting list policy for ATTRv-amyloidosis, including the need for heart transplantation, and status of heart-liver transplantation are discussed. Results: Three patients needed a staged(1 patient) or simultaneous(2 patients) heart-liver transplant due to rapidly progressing cardiac failure and/or neurologic disability. Domino liver transplantation was impossible in two due to fibrotic hepatic transformation caused by cardiomyopathy. After a follow-up ranging from 3.5 to 9.5 years, cardiac(allograft) function was maintained in all patients, but neuropathy progressed in three patients, one of whom died after 80 months. Conclusions: This is the first report in(liver) transplant literature about the rare Val122 del ATTRv mutation. Due to its aggressiveness, symptomatic patients should be prioritized on the liver and, in cases with cardiomyopathy, heart waiting lists in order to avoid the irreversible neurological and cardiac damage that leads to a rapid lethal outcome.展开更多
Along with hereditary myopathies, there are many exogenic (the same a not hereditary) muscle affections due to the pathology of endocrine gland’s functioning. These forms of muscle pathology are called endocrine myop...Along with hereditary myopathies, there are many exogenic (the same a not hereditary) muscle affections due to the pathology of endocrine gland’s functioning. These forms of muscle pathology are called endocrine myopathies. In the cases of thyroid gland hyperfunction (the same a thyrotoxicosis), different regions of neuromuscular system may be involved in the pathological process. Thyrotoxic myopathy (TM) which is a subject of this investigation, occupies one of the first places between thyrotoxic (the same a thyrotoxicosis) neuromuscular affections. Meanwhile, for a long time in literature there was no clarity about the degree of muscle weakness and atrophy to diagnose TM in a patient. It’s because of the fact that the majority of patients complain of increased fatigue and general weakness due to thyrotoxicosis. In present time TM diagnostics is very rare. TM is a phenocopy (the clinical similar) of many neuromuscular diseases. However in literature, the data about peculiarities of clinical picture of TM is almost completely absent, it isn’t known about the frequency of affection of the isolated muscles or muscle groups, the topography of muscle weakness and successive involvement of isolated muscles in the pathological process during different stages of thyrotoxicosis and myopathy. The questions of differential diagnosis with similar neuromuscular disorders are described very poorly. In present article, we accent our attention at the clinical differentiation of the TM with other neuromuscular diseases, namely muscular dystrophy, myasthenia gravis, polymyositis, Addison’s disease, proximal spinal muscular atrophy, steroid myopathy and neurosis. In our opinion, the early diagnosis of TM may help the diagnosis of thyrotoxicosis in patients who have no classical clinical signs of this disease, i.e. in patients with latent thyrotoxicosis.展开更多
The classification of central nervous system(CNS)glioma went through a sequence of developments,between 2006 and 2021,started with only histological approach then has been aided with a major emphasis on molecular sign...The classification of central nervous system(CNS)glioma went through a sequence of developments,between 2006 and 2021,started with only histological approach then has been aided with a major emphasis on molecular signatures in the 4^(th) and 5^(th) editions of the World Health Organization(WHO).The recent reformation in the 5th edition of the WHO classification has focused more on the molecularly defined entities with better characterized natural histories as well as new tumor types and subtypes in the adult and pediatric populations.These new subclassified entities have been incorporated in the 5^(th) edition after the continuous exploration of new genomic,epigenomic and transcriptomic discovery.Indeed,the current guidelines of 2021 WHO classification of CNS tumors and European Association of Neuro-Oncology(EANO)exploited the molecular signatures in the diagnostic approach of CNS gliomas.Our current review presents a practical diagnostic approach for diffuse CNS gliomas and circumscribed astrocytomas using histomolecular criteria adopted by the recent WHO classification.We also describe the treatment strategies for these tumors based on EANO guidelines.展开更多
Medulloblastoma(MB)is considered the commonest malignant brain tumor in children.Multimodal treatments consisting of surgery,radiation,and chemotherapy have improved patients’survival.Nevertheless,the recurrence occu...Medulloblastoma(MB)is considered the commonest malignant brain tumor in children.Multimodal treatments consisting of surgery,radiation,and chemotherapy have improved patients’survival.Nevertheless,the recurrence occurs in 30%of cases.The persistent mortality rates,the failure of current therapies to extend life expectancy,and the serious complications of non-targeted cytotoxic treatment indicate the need for more refined therapeutic approaches.Most MBs originating from the neurons of external granular layer line the outer surface of neocerebellum and responsible for the afferent and efferent connections.Recently,MBs have been segregated into four molecular subgroups:Wingless-activated(WNT-MB)(Group 1);Sonichedgehog-activated(SHH-MB)(Group 2);Group 3 and 4 MBs.These molecular alterations follow specific gene mutations and disease-risk stratifications.The current treatment protocols and ongoing clinical trials against these molecular subgroups are still using common chemotherapeutic agents by which their efficacy have improved the progression-free survival but did not change the overall survival.However,the need to explore new therapies targeting specific receptors in MB microenvironment became essential.The immune microenvironment of MBs consists of distinctive cellular heterogeneities including immune cells and none-immune cells.Tumour associate macrophage and tumour infiltrating lymphocyte are considered the main principal cells in tumour microenvironment,and their role are still under investigation.In this review,we discuss the mechanism of interaction between MB cells and immune cells in the microenvironment,with an overview of the recent investigations and clinical trials.展开更多
Dear Editor,Significant progress has been made in understanding the genetics of amyotrophic lateral sclerosis(ALS),particularly in European populations.However,a substantial proportion of familial ALS(fALS)cases remai...Dear Editor,Significant progress has been made in understanding the genetics of amyotrophic lateral sclerosis(ALS),particularly in European populations.However,a substantial proportion of familial ALS(fALS)cases remaingenetically unexplained.Emerging evidence suggests that ALS phenotypes and genetic risk factors may vary across ethnicities and regions.Investigating the genetic architecture of ALS in understudied populations could uncover new pathwaysand mechanisms contributing to motor neuron degeneration.展开更多
The lymphatic system consists of a network of lymph capillaries and vessels deputed to drain the interstitial fluid(containing floating macromolecules,such as nutrients,cellular debris and tissue-infiltrating pathogen...The lymphatic system consists of a network of lymph capillaries and vessels deputed to drain the interstitial fluid(containing floating macromolecules,such as nutrients,cellular debris and tissue-infiltrating pathogens)and to transport tissue-patrolling lymphocytes and dendritic cells(DCs)to draining lymph nodes(drLNs).1 Knowledge of the mechanisms associated with cellular transmigration into the lymphatic system could offer the opportunity to manipulate the immune response in a wide range of diseases,such as autoimmune diseases and cancer.2,3 In this research highlight,we discuss a recent study that sheds light on our understanding of the molecules involved in DCs docking to lymphatic endothelial cells,a critical step prior to their subsequent endothelial transmigration into lymphatic vessels.DC docking occurs through the interaction between hyaluronan(hyaluronic acid,HA)molecules on the plasma membrane and lymphatic-vessel endothelial protein(LYVE-1).展开更多
文摘Myasthenia gravis is a chronic autoimmune disorder that affects the neuromuscular junction leading to fluctuating skeletal muscle fatigability. The majority of myasthenia gravis patients have detectable antibodies in their serum, targeting acetylcholine receptor, muscle-specific kinase, or related proteins. Current treatment for myasthenia gravis involves symptomatic therapy, immunosuppressive drugs such as corticosteroids, azathioprine, and mycophenolate mofetil, and thymectomy, which is primarily indicated in patients with thymoma or thymic hyperplasia. However, this condition continues to pose significant challenges including an unpredictable and variable disease progression, differing response to individual therapies, and substantial longterm side effects associated with standard treatments(including an increased risk of infections, osteoporosis, and diabetes), underscoring the necessity for a more personalized approach to treatment. Furthermore, about fifteen percent of patients, called “refractory myasthenia gravis patients”, do not respond adequately to standard therapies. In this context, the introduction of molecular therapies has marked a significant advance in myasthenia gravis management. Advances in understanding myasthenia gravis pathogenesis, especially the role of pathogenic antibodies, have driven the development of these biological drugs, which offer more selective, rapid, and safer alternatives to traditional immunosuppressants. This review aims to provide a comprehensive overview of emerging therapeutic strategies targeting specific immune pathways in myasthenia gravis, with a particular focus on preclinical evidence, therapeutic rationale, and clinical translation of B-cell depletion therapies, neonatal Fc receptor inhibitors, and complement inhibitors.
基金supported by a Sara Borrell postdoctoral contract granted by Instituto de Salud Carlos III(CD21/00138).PLV,DB-G and AL are funded by the Spanish Ministry of Economy and Competitiveness and Fondos Feder(Alejandro Lucia,Grant No.PI18/00139)TP is funded by the Spanish Ministry of Economy and Competitiveness and Fondos Feder(Tomas Pinos,Grant No.PI22/00201).
文摘Background:This study aimed to determine the effect of different carbohydrate(CHO)doses on exercise capacity in patients with McArdle disease—the paradigm of“exercise intolerance”,characterized by complete muscle glycogen unavailability—and to determine whether higher exogenous glucose levels affect metabolic responses at the McArdle muscle cell(in vitro)level.Methods:Patients with McArdle disease(n=8)and healthy controls(n=9)underwent a 12-min submaximal cycling constant-load bout followed by a maximal ramp test 15 min after ingesting a non-caloric placebo.In a randomized,double-blinded,cross-over design,patients repeated the tests after consuming either 75 g or 150 g of CHO(glucose:fructose=2:1).Cardiorespiratory,biochemical,perceptual,and electromyographic(EMG)variables were assessed.Additionally,glucose uptake and lactate appearance were studied in vitro in wild-type and McArdle mouse myotubes cultured with increasing glucose concentrations(0.35,1.00,4.50,and 10.00 g/L).Results:Compared with controls,patients showed the“classical”second-wind phenomenon(after prior disproportionate tachycardia,myalgia,and excess electromyographic activity during submaximal exercise,all p<0.05)and an impaired endurance exercise capacity(-51%ventilatory threshold and55%peak power output,both p<0.001).Regardless of the CHO dose(p<0.05 for both doses compared with the placebo),CHO intake increased blood glucose and lactate levels,decreased fat oxidation rates,and attenuated the second wind in the patients.However,only the higher dose increased ventilatory threshold(+27%,p=0.010)and peak power output(+18%,p=0.007).In vitro analyses revealed no differences in lactate levels across glucose concentrations in wild-type myotubes,whereas a doseresponse effect was observed in McArdle myotubes.Conclusion:CHO intake exerts beneficial effects on exercise capacity in McArdle disease,a condition associated with total muscle glycogen unavailability.Some of these benefits are dose dependent.
文摘Background: Hereditary transthyretin(ATTRv) amyloidosis is an autosomal dominant disease linked to transthyretin gene mutations which cause instability of the transthyretin tetramer. After dissociation and misfolding they reassemble as insoluble fibrils(i.e. amyloid). Apart from the common Val30 Met mutation there is a very heterogeneous group of non-Val30 Met mutations. In some cases, the clinical picture is dominated by a rapidly evolving restrictive and hypertrophic cardiomyopathy. Methods: A case series of four liver recipients with the highly clinically relevant, rare and particularly aggressive Val122 del mutation is presented. Medical and surgical therapeutic options, waiting list policy for ATTRv-amyloidosis, including the need for heart transplantation, and status of heart-liver transplantation are discussed. Results: Three patients needed a staged(1 patient) or simultaneous(2 patients) heart-liver transplant due to rapidly progressing cardiac failure and/or neurologic disability. Domino liver transplantation was impossible in two due to fibrotic hepatic transformation caused by cardiomyopathy. After a follow-up ranging from 3.5 to 9.5 years, cardiac(allograft) function was maintained in all patients, but neuropathy progressed in three patients, one of whom died after 80 months. Conclusions: This is the first report in(liver) transplant literature about the rare Val122 del ATTRv mutation. Due to its aggressiveness, symptomatic patients should be prioritized on the liver and, in cases with cardiomyopathy, heart waiting lists in order to avoid the irreversible neurological and cardiac damage that leads to a rapid lethal outcome.
文摘Along with hereditary myopathies, there are many exogenic (the same a not hereditary) muscle affections due to the pathology of endocrine gland’s functioning. These forms of muscle pathology are called endocrine myopathies. In the cases of thyroid gland hyperfunction (the same a thyrotoxicosis), different regions of neuromuscular system may be involved in the pathological process. Thyrotoxic myopathy (TM) which is a subject of this investigation, occupies one of the first places between thyrotoxic (the same a thyrotoxicosis) neuromuscular affections. Meanwhile, for a long time in literature there was no clarity about the degree of muscle weakness and atrophy to diagnose TM in a patient. It’s because of the fact that the majority of patients complain of increased fatigue and general weakness due to thyrotoxicosis. In present time TM diagnostics is very rare. TM is a phenocopy (the clinical similar) of many neuromuscular diseases. However in literature, the data about peculiarities of clinical picture of TM is almost completely absent, it isn’t known about the frequency of affection of the isolated muscles or muscle groups, the topography of muscle weakness and successive involvement of isolated muscles in the pathological process during different stages of thyrotoxicosis and myopathy. The questions of differential diagnosis with similar neuromuscular disorders are described very poorly. In present article, we accent our attention at the clinical differentiation of the TM with other neuromuscular diseases, namely muscular dystrophy, myasthenia gravis, polymyositis, Addison’s disease, proximal spinal muscular atrophy, steroid myopathy and neurosis. In our opinion, the early diagnosis of TM may help the diagnosis of thyrotoxicosis in patients who have no classical clinical signs of this disease, i.e. in patients with latent thyrotoxicosis.
文摘The classification of central nervous system(CNS)glioma went through a sequence of developments,between 2006 and 2021,started with only histological approach then has been aided with a major emphasis on molecular signatures in the 4^(th) and 5^(th) editions of the World Health Organization(WHO).The recent reformation in the 5th edition of the WHO classification has focused more on the molecularly defined entities with better characterized natural histories as well as new tumor types and subtypes in the adult and pediatric populations.These new subclassified entities have been incorporated in the 5^(th) edition after the continuous exploration of new genomic,epigenomic and transcriptomic discovery.Indeed,the current guidelines of 2021 WHO classification of CNS tumors and European Association of Neuro-Oncology(EANO)exploited the molecular signatures in the diagnostic approach of CNS gliomas.Our current review presents a practical diagnostic approach for diffuse CNS gliomas and circumscribed astrocytomas using histomolecular criteria adopted by the recent WHO classification.We also describe the treatment strategies for these tumors based on EANO guidelines.
文摘Medulloblastoma(MB)is considered the commonest malignant brain tumor in children.Multimodal treatments consisting of surgery,radiation,and chemotherapy have improved patients’survival.Nevertheless,the recurrence occurs in 30%of cases.The persistent mortality rates,the failure of current therapies to extend life expectancy,and the serious complications of non-targeted cytotoxic treatment indicate the need for more refined therapeutic approaches.Most MBs originating from the neurons of external granular layer line the outer surface of neocerebellum and responsible for the afferent and efferent connections.Recently,MBs have been segregated into four molecular subgroups:Wingless-activated(WNT-MB)(Group 1);Sonichedgehog-activated(SHH-MB)(Group 2);Group 3 and 4 MBs.These molecular alterations follow specific gene mutations and disease-risk stratifications.The current treatment protocols and ongoing clinical trials against these molecular subgroups are still using common chemotherapeutic agents by which their efficacy have improved the progression-free survival but did not change the overall survival.However,the need to explore new therapies targeting specific receptors in MB microenvironment became essential.The immune microenvironment of MBs consists of distinctive cellular heterogeneities including immune cells and none-immune cells.Tumour associate macrophage and tumour infiltrating lymphocyte are considered the main principal cells in tumour microenvironment,and their role are still under investigation.In this review,we discuss the mechanism of interaction between MB cells and immune cells in the microenvironment,with an overview of the recent investigations and clinical trials.
文摘Dear Editor,Significant progress has been made in understanding the genetics of amyotrophic lateral sclerosis(ALS),particularly in European populations.However,a substantial proportion of familial ALS(fALS)cases remaingenetically unexplained.Emerging evidence suggests that ALS phenotypes and genetic risk factors may vary across ethnicities and regions.Investigating the genetic architecture of ALS in understudied populations could uncover new pathwaysand mechanisms contributing to motor neuron degeneration.
基金The work is supported by the Italian Ministry of Health(WFR PE-2011-02346818).
文摘The lymphatic system consists of a network of lymph capillaries and vessels deputed to drain the interstitial fluid(containing floating macromolecules,such as nutrients,cellular debris and tissue-infiltrating pathogens)and to transport tissue-patrolling lymphocytes and dendritic cells(DCs)to draining lymph nodes(drLNs).1 Knowledge of the mechanisms associated with cellular transmigration into the lymphatic system could offer the opportunity to manipulate the immune response in a wide range of diseases,such as autoimmune diseases and cancer.2,3 In this research highlight,we discuss a recent study that sheds light on our understanding of the molecules involved in DCs docking to lymphatic endothelial cells,a critical step prior to their subsequent endothelial transmigration into lymphatic vessels.DC docking occurs through the interaction between hyaluronan(hyaluronic acid,HA)molecules on the plasma membrane and lymphatic-vessel endothelial protein(LYVE-1).
