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Publications by Ricardo J. Ferrari
Functional Overloading of Dystrophic Mice Enhances Muscle-Derived Stem Cell Contribution to Muscle Contractile Capacity
Archives of Physical Medicine and Rehabilitation
Physical Therapy
Sports Therapy
Rehabilitation
Sports Science
Related publications
Innervation of Dystrophic Muscle After Muscle Stem Cell Therapy
Muscle and Nerve
Molecular Neuroscience
Neurology
Physiology
Cellular
Nerve Growth Factor Improves the Muscle Regeneration Capacity of Muscle Stem Cells in Dystrophic Muscle
Human Gene Therapy
Molecular Medicine
Genetics
Molecular Biology
Transplantation of Muscle Stem Cell Mitochondria Rejuvenates the Bioenergetic Function of Dystrophic Muscle
Skeletal Muscle Stem Cells From PSC-Derived Teratomas Have Functional Regenerative Capacity
Cell Stem Cell
Molecular Medicine
Genetics
Cell Biology
Mechanobiology in Muscle Fibers of Dystrophic Mice
Biophysical Journal
Biophysics
Muscular Dystrophic (Dy) Mice: Bone-Muscle Imbalance Hypothesis
Proceedings of The Japanese Association of Animal Models for Human Diseases
Potential of Laryngeal Muscle Regeneration Using Induced Pluripotent Stem Cell-Derived Skeletal Muscle Cells
Acta Oto-Laryngologica
Medicine
Otorhinolaryngology
Dietary Nitrate Enhances the Contractile Properties of Human Skeletal Muscle
Exercise and Sport Sciences Reviews
Sports Medicine
Physical Therapy
Sports Science
Orthopedics
Sports Therapy
Rehabilitation
515. Mesenchymal Progenitor Cells (MPCs) Responsible for Fat Accumulation in Dystrophic Muscle May Also Impair the Myofiber Regeneration of Muscle Progenitors in Skeletal Muscle of Dystrophic Mice
Molecular Therapy
Molecular Medicine
Molecular Biology
Pharmacology
Medicine
Genetics
Drug Discovery
