Muscle-derived cells (MDCs) for promoting and enhancing nerve repair and regeneration
First Claim
1. A method of protecting penile nerve during recovery after a radical prostatectomy anastomosis in a human subject in need thereof, comprising:
- injecting a cell suspension of isolated autologous adult human muscle-derived cells (MDCs) into said subject at the urethra or periurethral tissue at the time of the radical prostatectomy anastomosis, wherein said isolated MDCs are injected in an amount effective to protect the penile nerve, wherein the protection of the nerve during recovery treats erectile dysfunction and/or urinary incontinence;
wherein the MDCs are enriched from a muscle cell suspension by plating the suspension into at least two successive cultures so as to eliminate fibroblasts and non-muscle cells and to enrich for an end population of mononucleated MDCs, wherein the enriched end population of mononucleated MDCs comprises myoblasts;
wherein the MDCs are not genetically engineered to express heterologous genes and wherein the MDCs are introduced in an amount of about 105 to 106 cells per cm3 of tissue or organ in a physiologically acceptable medium.
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Accused Products
Abstract
The present invention describes methods involving the use of muscle derived cells (MDCs), preferably obtained from skeletal muscle, to support the innervation and repair of damaged tissues and organs, particularly associated with nerve damage or neuropathy. The invention relates to MDCs for use in methods for promoting or enhancing innervation of nerve cells, particularly in the peripheral nervous system, and their ability to contribute to the development of neuronal tissue when MDCs are introduced at or near a tissue or organ site in need of repair due to injury, damage, disease, or dysfunction. Such methods are useful for the treatment of central and peripheral nervous system disorders and to alleviate, abate, or eliminate the symptoms of neurologic or neurodegenerative diseases in animals, particularly mammals, including humans. The methods are also useful for treating both nerve and muscle tissue following injury, damage, or dysfunction to these tissue types.
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Citations
3 Claims
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1. A method of protecting penile nerve during recovery after a radical prostatectomy anastomosis in a human subject in need thereof, comprising:
injecting a cell suspension of isolated autologous adult human muscle-derived cells (MDCs) into said subject at the urethra or periurethral tissue at the time of the radical prostatectomy anastomosis, wherein said isolated MDCs are injected in an amount effective to protect the penile nerve, wherein the protection of the nerve during recovery treats erectile dysfunction and/or urinary incontinence;
wherein the MDCs are enriched from a muscle cell suspension by plating the suspension into at least two successive cultures so as to eliminate fibroblasts and non-muscle cells and to enrich for an end population of mononucleated MDCs, wherein the enriched end population of mononucleated MDCs comprises myoblasts;
wherein the MDCs are not genetically engineered to express heterologous genes and wherein the MDCs are introduced in an amount of about 105 to 106 cells per cm3 of tissue or organ in a physiologically acceptable medium.- View Dependent Claims (2, 3)
Specification
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- Resources
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Current AssigneeUniversity Of Pittsburgh (University of Pittsburgh of The Commonwealth System of Higher Education)
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Original AssigneeUniversity of Pittsburgh of The Commonwealth System of Higher Education
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InventorsMinnery, Brandon, Capelli, Chistopher C., Chancellor, Michael B., Huard, Johnny
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Primary Examiner(s)WANG, CHANG YU
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Application NumberUS10/832,542Publication NumberTime in Patent Office4,733 DaysField of SearchUS Class CurrentCPC Class CodesA61K 35/12 Materials from mammals; Com...A61K 35/34 Muscles; Smooth muscle cell...A61P 25/00 Drugs for disorders of the ...A61P 25/02 for peripheral neuropathiesC12N 5/0658 Skeletal muscle cells, e.g....
