Exploring magneto-electric nanoparticles (MENPs): a platform for implanted deep brain stimulation
Author:
Publisher
Medknow
Subject
Developmental Neuroscience
Reference16 articles.
1. Guduru R, Liang P, Hong J, Rodzinski A, Hadjikhani A, Horstmyer J, Levister E, Khizroev S (2015) Magnetoelectric ‘spin’ on stimulating the brain. Nanomedicine (Lond) 10:2051-2061.
2. He L, Sun Z, Li J, Zhu R, Niu B, Tam KL, Xiao Q, Wang W, Tsui CY, Hong Lee VW, So KF, Xu Y, Ramakrishna S, Zhou Q, Chiu K (2021) Electrical stimulation at nanoscale topography boosts neural stem cell neurogenesis through the enhancement of autophagy signaling. Biomaterials 268:120585.
3. Kaushik A, Jayant RD, Nikkhah-Moshaie R, Bhardwaj V, Roy U, Huang Z, Ruiz A, Yndart A, Atluri V, El-Hage N, Khalili K, Nair M (2016) Magnetically guided central nervous system delivery and toxicity evaluation of magneto-electric nanocarriers. Sci Rep 6:25309.
4. Kaushik A, Nikkhah-Moshaie R, Sinha R, Bhardwaj V, Atluri V, Jayant RD, Yndart A, Kateb B, Pala N, Nair M (2017) Investigation of ac-magnetic field stimulated nanoelectroporation of magneto-electric nano-drug-carrier inside CNS cells. Sci Rep 7:45663.
5. Kaushik A, Rodriguez J, Rothen D, Bhardwaj V, Jayant RD, Pattany P, Fuentes B, Chand H, Kolishetti N, El-Hage N, Khalili K, Kenyon NS, Nair M (2019a) MRI-guided, noninvasive delivery of magneto-electric drug nanocarriers to the brain in a nonhuman primate. ACS Appl Bio Mater 2:4826-4836.
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