Malin Parmar

Lund University, Lund, Skåne län, Sweden 
neuroscience, Parkinson's disease, cell therapy
"Malin Parmar"
Mean distance: 15.36 (cluster 32)
BETA: Related publications


You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect.

Adler AF, Cardoso T, Nolbrant S, et al. (2019) hESC-Derived Dopaminergic Transplants Integrate into Basal Ganglia Circuitry in a Preclinical Model of Parkinson's Disease. Cell Reports. 28: 3462-3473.e5
Birtele M, Sharma Y, Kidnapillai S, et al. (2019) Dual modulation of neuron-specific microRNAs and the REST complex promotes functional maturation of human adult induced neurons. Febs Letters
Tiklová K, Björklund ÅK, Lahti L, et al. (2019) Single-cell RNA sequencing reveals midbrain dopamine neuron diversity emerging during mouse brain development. Nature Communications. 10: 581
Parmar M, Torper O, Drouin-Ouellet J. (2018) Cell-based therapy for Parkinson's disease: A journey through decades towards the light side of the Force. The European Journal of Neuroscience
Pircs K, Petri R, Madsen S, et al. (2018) Huntingtin Aggregation Impairs Autophagy, Leading to Argonaute-2 Accumulation and Global MicroRNA Dysregulation. Cell Reports. 24: 1397-1406
Cardoso T, Adler A, Mattsson B, et al. (2018) Target-specific forebrain projections and appropriate synaptic inputs of hESC-derived dopamine neurons grafted to the midbrain of parkinsonian rats. The Journal of Comparative Neurology
Barker RA, Götz M, Parmar M. (2018) New approaches for brain repair-from rescue to reprogramming. Nature. 557: 329-334
Shrigley S, Pircs K, Barker RA, et al. (2018) Simple Generation of a High Yield Culture of Induced Neurons from Human Adult Skin Fibroblasts. Journal of Visualized Experiments : Jove
Avaliani N, Pfisterer U, Heuer A, et al. (2017) Directly Converted Human Fibroblasts Mature to Neurons and Show Long-Term Survival in Adult Rodent Hippocampus. Stem Cells International. 2017: 5718608
Ruetz T, Pfisterer U, Di Stefano B, et al. (2017) Constitutively Active SMAD2/3 Are Broad-Scope Potentiators of Transcription-Factor-Mediated Cellular Reprogramming. Cell Stem Cell. 21: 791-805.e9
See more...