2001
Embryonic ventral mesencephalic grafts to the substantia nigra of MPTP‐treated monkeys: Feasibility relevant to multiple‐target grafting as a therapy for Parkinson's disease
Collier TJ, Sortwell CE, Elsworth JD, Taylor JR, Roth RH, Sladek JR, Redmond DE. Embryonic ventral mesencephalic grafts to the substantia nigra of MPTP‐treated monkeys: Feasibility relevant to multiple‐target grafting as a therapy for Parkinson's disease. The Journal Of Comparative Neurology 2001, 442: 320-330. PMID: 11793337, DOI: 10.1002/cne.10108.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsBrain Tissue TransplantationCell DifferentiationChlorocebus aethiopsDopamineGraft SurvivalHomovanillic AcidImmunohistochemistryMaleNeostriatumNerve RegenerationNeuritesNeuronsParkinsonian DisordersRecovery of FunctionStem Cell TransplantationStem CellsSubstantia NigraTreatment OutcomeTyrosine 3-MonooxygenaseConceptsSubstantia nigraParkinson's diseaseDA neuronsVentral mesencephalonTyrosine hydroxylaseTH-positive fiber densityEmbryonic DA neuronsEmbryonic dopamine neuronsRostral substantia nigraStriatal DA depletionVentral mesencephalic graftsBasal ganglia circuitryBasal ganglia structuresSuboptimal therapeutic outcomesAfrican green monkeysDA modulationGrafted neuronsVM graftsMesencephalic graftsParkinsonian monkeysSN neuronsDA depletionReplacement therapyDA replacementDA levels
1997
Metabolic energy capacity of dopaminergic grafts and the implanted striatum in parkinsonian nonhuman primates as visualized with cytochrome oxidase histochemistry
Collier T, Redmond D, Roth R, Elsworth J, Taylor J, Sladek J. Metabolic energy capacity of dopaminergic grafts and the implanted striatum in parkinsonian nonhuman primates as visualized with cytochrome oxidase histochemistry. Cell Transplantation 1997, 6: 135-140. DOI: 10.1016/s0963-6897(97)00003-1.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsBrain Tissue TransplantationChlorocebus aethiopsCorpus StriatumDopamineElectron Transport Complex IVEnergy MetabolismFetal Tissue TransplantationGestational AgeImmunohistochemistryMesencephalonNeuronsParkinson Disease, SecondaryTyrosine 3-MonooxygenaseConceptsDA neuronsEmbryonic ventral mesencephalic tissueParkinsonian nonhuman primatesStriatum of DATyrosine hydroxylase immunocytochemistryVentral mesencephalic tissueVentral mesencephalic graftsCytochrome oxidase histochemistryCytochrome oxidase stainingMitochondrial enzyme cytochrome oxidaseLocal energy metabolismActive innervationBilateral graftsNeuron contentDopaminergic graftsMesencephalic graftsMesencephalic tissueHost brainBrain metabolismEnzyme cytochrome oxidaseCO stainingTissue transplantsGraftMetabolic activityNonhuman primatesMetabolic Energy Capacity of Dopaminergic Grafts and the Implanted Striatum in Parkinsonian Nonhuman Primates as Visualized with Cytochrome Oxidase Histochemistry
Collier T, Redmond D, Roth R, Elsworth J, Taylor J, Sladek J. Metabolic Energy Capacity of Dopaminergic Grafts and the Implanted Striatum in Parkinsonian Nonhuman Primates as Visualized with Cytochrome Oxidase Histochemistry. Cell Transplantation 1997, 6: 135-140. PMID: 9142445, DOI: 10.1177/096368979700600207.Peer-Reviewed Original ResearchMeSH Keywords1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridineAnimalsBrain Tissue TransplantationChlorocebus aethiopsCorpus StriatumDopamineElectron Transport Complex IVEnergy MetabolismFetal Tissue TransplantationGestational AgeImmunohistochemistryMesencephalonNeuronsParkinson Disease, SecondaryTyrosine 3-MonooxygenaseConceptsDA neuronsEmbryonic ventral mesencephalic tissueParkinsonian nonhuman primatesStriatum of DATyrosine hydroxylase immunocytochemistryVentral mesencephalic tissueVentral mesencephalic graftsBrain energy metabolismCytochrome oxidase histochemistryCytochrome oxidase stainingMitochondrial enzyme cytochrome oxidaseLocal energy metabolismEnergy metabolismActive innervationBilateral graftsNeuron contentDopaminergic graftsMesencephalic graftsMesencephalic tissueHost brainEnzyme cytochrome oxidaseCO stainingTissue transplantsGraftMetabolic activity