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Paper Details

Human autologous iPSC-derived dopaminergic progenitors restore motor function in Parkinson's disease models.
J Clin Invest
85
2020
Dopaminergic cells, Human, PD, Parkinson's disease, autologous iPSC-derived dopaminergic progenitors, clinical, degeneration, dopamine, hiPSC, human, human induced pluripotent stem cell, iPSCs, mDA cells, microRNAs, midbrain dopamine (mDA) neurons, neurodegenerative disorder, tumor, undifferentiated cells
Animals, Autografts, Humans, Induced Pluripotent Stem Cells, Male, Motor Activity, Parkinson Disease, Secondary, Rats, Rats, Nude, Recovery of Function, Stem Cell Transplantation
Author NameAffiliation
Young Cha
Young ChaMcLean Hospital, Harvard Medical School
Sanghyeok Ko
Sanghyeok KoMcLean Hospital, Harvard Medical School
Jeha Jeon
Jeha JeonMcLean Hospital, Harvard Medical School
Nayeon Lee
Nayeon LeeMcLean Hospital, Harvard Medical School
Hyemyung Seo
Hyemyung SeoMcLean Hospital, Harvard Medical School
Hyemyung SeoHanyang University
Kyung-Joon Park
In-Hee Lee
In-Hee LeeBoston Children's Hospital
In-Hee Lee
In-Hee LeeBoston Children's Hospital
Claudia Lopes
Claudia LopesMcLean Hospital, Harvard Medical School
Melissa Feitosa
Melissa FeitosaMcLean Hospital, Harvard Medical School
Mar??a Jos?? Luna
Mar??a Jos?? LunaMcLean Hospital, Harvard Medical School
Jin Hyuk Jung
Jin Hyuk JungMcLean Hospital, Harvard Medical School
Jisun Kim
Jisun KimMcLean Hospital, Harvard Medical School
Jisun KimHanyang University
Dabin Hwang
Dabin HwangMcLean Hospital, Harvard Medical School
Bruce M Cohen
Martin H Teicher
Pierre Leblanc
Pierre LeblancMcLean Hospital, Harvard Medical School
Bob S CarterMassachusetts General Hospital, Harvard Medical School
Jeffrey H KordowerRush University Medical Center
Vadim Y Bolshakov
Sek Won Kong
Sek Won KongBoston Children's Hospital
Jeffrey S SchweitzerMassachusetts General Hospital, Harvard Medical School
Kwang-Soo Kim
Kwang-Soo KimMcLean Hospital, Harvard Medical School
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