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Magnetothermal nanoparticle technology alleviates parkinsonian-like symptoms in mice

Sarah Hescham, Po‐Han Chiang, Danijela Gregureć, Junsang Moon, Michael G. Christiansen, Ali Jahanshahi, Huajie Liu, Dekel Rosenfeld, Arnd Pralle, Polina Anikeeva, Yasin Temel

2021Nature Communications127 citationsDOIOpen Access PDF

Abstract

Deep brain stimulation (DBS) has long been used to alleviate symptoms in patients suffering from psychiatric and neurological disorders through stereotactically implanted electrodes that deliver current to subcortical structures via wired pacemakers. The application of DBS to modulate neural circuits is, however, hampered by its mechanical invasiveness and the use of chronically implanted leads, which poses a risk for hardware failure, hemorrhage, and infection. Here, we demonstrate that a wireless magnetothermal approach to DBS (mDBS) can provide similar therapeutic benefits in two mouse models of Parkinson's disease, the bilateral 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and in the unilateral 6-hydroxydopamine (6-OHDA) model. We show magnetothermal neuromodulation in untethered moving mice through the activation of the heat-sensitive capsaicin receptor (transient receptor potential cation channel subfamily V member 1, TRPV1) by synthetic magnetic nanoparticles. When exposed to an alternating magnetic field, the nanoparticles dissipate heat, which triggers reversible firing of TRPV1-expressing neurons. We found that mDBS in the subthalamic nucleus (STN) enables remote modulation of motor behavior in healthy mice. Moreover, mDBS of the STN reversed the motor deficits in a mild and severe parkinsonian model. Consequently, this approach is able to activate deep-brain circuits without the need for permanently implanted hardware and connectors.

Topics & Concepts

Deep brain stimulationSubthalamic nucleusTRPV1NeuromodulationNeuroscienceParkinson's diseaseMedicineLocal field potentialTransient receptor potential channelStimulationReceptorPsychologyDiseaseInternal medicineNeurological disorders and treatmentsNeuroscience and Neural EngineeringTranscranial Magnetic Stimulation Studies
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