Abstract: Composition containing Nicotinamide and vitamin B6 are provided. The composition may be an oral nutritional composition, for example a nutritional supplement, an oral nutritional supplement, a food product, a food for special medical purpose (FSMP). The composition can be administered to an individual in need thereof for treating muscle injury, and/or promoting muscle repair, improving skeletal muscle regeneration, maintaining or increasing skeletal muscle function and/or skeletal muscle mass in an individual with muscle injury.

Abstract: A composition contains Nicotinamide and Vitamin B6, for example pyridoxine. The composition may be an oral nutritional composition, for example an infant formula, a follow up formula, a nutritional supplement, an oral nutritional supplement, a food product. The composition can be administered to an individual in need thereof for promoting muscle growth and/or for maintaining and/or increasing muscle function and/or muscle mass in infants and children. For example, the composition can be useful for increasing muscle function and/or muscle mass by modulating muscle stem cells.

Abstract: A composition contains Nicotinamide and pyridoxine. The composition may be an oral nutritional composition, for example a nutritional supplement, an oral nutritional supplement, a food product, a food for special medical purpose (FSMP). The composition can be administered to an individual in need thereof orally or intravenously for preventing and/or treating sarcopenia, physical frailty, a loss of and/or improving skeletal muscle mass, lean muscle mass, skeletal muscle strength and/or skeletal muscle function.

Abstract: Composition containing Nicotinamide and vitamin B6 are provided. The composition may be an oral nutritional composition, for example a nutritional supplement, an oral nutritional supplement, a food product, a food for special medical purpose (FSMP). The composition can be administered to an individual in need thereof for preventing and/or treating precachexia and/or cachexia, and/or promoting muscle repair, and/or improving skeletal muscle regeneration, and/or maintaining or increasing skeletal muscle function and/or skeletal muscle mass in an individual with cachexia or precachexia.

Abstract: A compound having the formula (1), (2), (3), or (4), or combinations thereof, for use to maintain or increase muscle function and/or mass in a subject, and/or prevent or reduce muscle wasting in a subject, wherein R1, R2? R3, R4, R5 and R6 are independently, a long chain fatty acid having between 16 and 20 carbons.

Abstract: The present invention relates to LSD1 inhibitors and their uses as skeletal muscle hypertrophy inducers as well as to promote skeletal muscle regeneration, to prevent skeletal muscle atrophy, or in the treatment or prevention of a disease or injury resulting in loss of skeletal muscle tissue and/or muscle weakness. It further relates to the non-therapeutic use of such compounds to increase muscle mass, muscle strength and/or muscle performance in a subject.

Abstract: The present invention relates to novel depside dimeric compounds for improving skeletal muscle plasticity regeneration to maintain or increase muscle function and/or muscle mass by modulating muscle stem cells. For example, the present invention is useful for subjects to promote muscle repair and/or subjects suffering from precachexia, cachexia, sarcopenia, myopathy, dystrophy and/or recovery after muscle injury or surgery.

Abstract: The present invention relates to novel depside trimeric compounds for improving skeletal muscle plasticity regeneration to maintain or increase muscle function and/or muscle mass by modulating muscle stem cells. For example, the present invention is useful for subjects to promote muscle repair and/or subjects suffering from precachexia, cachexia, sarcopenia, myopathy, dystrophy and/or recovery after muscle injury or surgery.

Abstract: The present invention relates to novel polymethoxyflavone compounds for improving skeletal muscle plasticity regeneration to maintain or increase muscle function and/or muscle mass by modulating muscle stem cells. For example, the present invention is useful for subjects to promote muscle repair and/or subjects suffering from precachexia, cachexia, sarcopenia, myopathy, dystrophy and/or recovery after muscle injury or surgery.

Abstract: The present invention relates to novel Raf-1 kinase inhibitor compounds for improving skeletal muscle regeneration to maintain or increase muscle function and/or muscle mass by modulating muscle stem cells. For example, the present invention is useful for subjects to promote muscle repair and/or subjects suffering from precachexia, cachexia, sarcopenia, myopathy, dystrophy and/or recovery after muscle injury or surgery.

Abstract: The present invention relates to novel SRC inhibitor compounds for improving skeletal muscle regeneration to maintain or increase muscle function and/or muscle mass by modulating muscle stem cells. For example, the present invention is useful for subjects to promote muscle repair and/or subjects suffering from precachexia, cachexia, sarcopenia, myopathy, dystrophy and/or recovery after muscle injury or surgery.

Abstract: The invention relates to a method for high throughput screening compounds by using a plurality of automated cell based assays assessing skeletal muscle cells contractility, morphology, and metabolism, in order to predict the efficacy of said compound on a panel of applications linked with muscle physiological and pathophysiological processes, comprising: (i) providing an in vitro culture of myotubes, wherein the in vitro myotubes culture is obtained by the following method: providing a cell culture device allowing the culture of myoblasts or myotubes, depositing said cells from a human donor or human group of donors, in good health or affected by a muscle related disorder, from primary cells, a cell line, an isogenic cell line or differentiated stem cells recapitulating a muscle disorder, on said culture device by using a method allowing the spatial control of cell culture, culturing said cells during a determined incubation time so as to promote a spatially controlled myotube culture; (ii) adding at least on

Abstract: The present invention relates to ALK5 inhibitors and their uses as skeletal muscle hypertrophy inducers as well as to promote skeletal muscle regeneration, to prevent skeletal muscle atrophy, or in the treatment or prevention of a disease or injury resulting in loss of skeletal muscle tissue and/or muscle weakness. It further relates to the non-therapeutic use of such compounds to increase muscle mass, muscle strength and/or muscle performance in a subject.

Abstract: The present invention relates to skeletal muscle hypertrophy inducers as well as their uses to promote skeletal muscle regeneration, to prevent skeletal muscle atrophy, or in the treatment or prevention of a disease or injury resulting in loss of skeletal muscle tissue and/or muscle weakness. It further relates to the non-therapeutic use of such compounds to increase muscle mass, muscle strength and/or muscle performance in a subject.

Abstract: The present invention relates to LSD/ inhibitors and their uses as skeletal muscle hypertrophy inducers as well as to promote skeletal muscle regeneration, to prevent skeletal muscle atrophy, or in the treatment or prevention of a disease or injury resulting in loss of skeletal muscle tissue and/or muscle weakness. It further relates to the non-therapeutic use of such compounds to increase muscle mass, muscle strength and/or muscle performance in a subject.

Abstract: The invention relates to a method for high throughput screening compounds by using a plurality of automated cell based assays assessing skeletal muscle cells contractility, morphology, and metabolism, in order to predict the efficacy of said compound on a panel of applications linked with muscle physiological and pathophysiological processes, comprising: (i) providing an in vitro culture of myotubes, wherein the in vitro myotubes culture is obtained by the following method: providing a cell culture device allowing the culture of myoblasts or myotubes, depositing said cells from a human donor or human group of donors, in good health or affected by a muscle related disorder, from primary cells, a cell line, an isogenic cell line or differentiated stem cells recapitulating a muscle disorder, on said culture device by using a method allowing the spatial control of cell culture, culturing said cells during a determined incubation time so as to promote a spatially controlled myotube culture; (ii) adding at least on