Journals

2021

  • Mandali, A., Gillan, C., & Voon, V. (2021). Compulsiveness Drives Evidence Accumulation During Ambiguity (Research Square).

  • Mandali, A., Tsurumi, K., Popa, T., & Voon, V. (2021). Replicable effect of cortical-paired associative stimulation on response inhibition as a function of age. Brain Stimulation: Basic, Translational, and Clinical Research in Neuromodulation, 14(4), 788-789.

  • Mandali, A., Manssuer, L., Zhao, Y., Zhang, C., Wang, L., Ding, Q., ... & Voon, V. (2021). Acute time-locked alpha frequency subthalamic stimulation reduces negative emotional bias in Parkinson’s disease. Biological Psychiatry: Cognitive Neuroscience and Neuroimaging, 6(5), 568-578.

  • Mandali, A., Sethi, A., Cercignani, M., Harrison, N. A., & Voon, V. (2021). Shifting uncertainty intolerance: methylphenidate and attention-deficit hyperactivity disorder. Translational Psychiatry, 11(1), 1-9.

  • Li, J*., Weidacker, K*., Mandali, A*., Zhang, Y., Whiteford, S., Ren, Q., ... & Voon, V. (2021). Impulsivity and craving in subjects with opioid use disorder on methadone maintenance treatment. Drug and Alcohol Dependence, 219, 108483. (* co-first authors)

2020

  • Voon, V., Grodin, E., Mandali, A., Morris, L., Doñamayor, N., Weidacker, K., ... & Momenan, R. (2020). Addictions NeuroImaging Assessment (ANIA): Towards an integrative framework for alcohol use disorder. Neuroscience & Biobehavioral Reviews, 113, 492-506.

2019

  • Mandali, A., Weidacker, K., Kim, S. G., & Voon, V. (2019). The ease and sureness of a decision: evidence accumulation of conflict and uncertainty. Brain, 142(5), 1471-1482.

  • VRN Muddapu, Mandali A, VS Chakravarthy, S Ramaswamy , A computational model of loss of dopaminergic cells in Parkinson’s disease due to glutamate-induced excitotoxicity, Frontiers in Neural Circuits 13, 11 .

2018

  • Chakravarthy V, Balasubramani PP, Mandali A, Jahanshahi M, Moustafa, A The many facets of Dopamine: Towards an integrative theory of the role of Dopamine in managing the body’s energy resources, Physiology & Behavior, Volume 195, 15 October 2018, Pages 128-141

2016

  • Mandali, A., & Chakravarthy, V. S.. Probing the Role of Medication, DBS Electrode Position, and Antidromic Activation on Impulsivity Using a Computational Model of Basal Ganglia. Frontiers in Human Neuroscience, 10, 450. http://doi.org/10.3389/fnhum.2016.00450

  • Mandali, A., Chakravarthy, V. S., Rajan, R., Sarma, S., & Kishore, A. Electrode Position and Current Amplitude Modulate Impulsivity after Subthalamic Stimulation in Parkinsons Disease—A Computational Study. Frontiers in Physiology, 7, 585. http://doi.org/10.3389/fphys.2016.00585

2015

  • Mandali A, Rengaswamy M, Chakravarthy VS, Moustafa AA. A spiking Basal Ganglia model of synchrony, exploration and decision making. Frontiers in Neuroscience. 2015;9:191. doi:10.3389/fnins.2015.00191.

Conferences

Talks

  • Mandali, A , Sethi A, Harrison NA and Voon V, Effect of Methylphenidate on risk preference in Attention Deficit Hyperactivity Disorder, BNPA Annual Meeting, March 2019

  • Mandali, A and V.S Chakravarthy. Exploring the role of DBS electrode position and antidromic activation on impulsivity - a computational model, ACCS, India 2016

  • Mandali, A. and V.S. Chakravarthy. A computational basal ganglia model to assess the role of STN-DBS on Impulsivity in Parkinson's disease. Oral Presentation at (IJCNN), International Joint Conference on Neural Networks. 2015. IEEE

Posters

  • A Mandali, V Voon, Dissociating conflict and uncertainty, an evidence accumulation model, Annual Society for Neuroscience meeting, San Diego, 2018

  • A Mandali, K Tsurumi & V Voon. Cortical paired associative stimulation influences response inhibition by modulating cortico-subcortical networks. TRiBS, Shanghai, 2018

  • Kohl, S, Hannah R, Lorenzo R, C Nord, A Mandali, J Rothwell, V Voon. F274. Paired Associative Stimulation Influences Response Inhibition: Cortico-Cortical and Cortico-Subcortical Networks, Biological Psychiatry , Volume 83 , Issue 9 , S345 - S346, 2018

  • Muralidharan V, Mandali A, Balasubramani PP, Hima Mehta, Chakravarthy VS, A scalable cortico- basal ganglia model to understand the neural dynamics of targeted reaching, OCNS 2016

  • Mandali A, Chakravarthy VS. A spiking network model of basal ganglia to study the effect of dopamine medication and STN-DBS during probabilistic learning task. BMC Neuroscience. 2015;16 (Suppl 1):P25. doi:10.1186/1471-2202-16-S1-P25.

  • Mandali, A, V S Chakravarthy, A. Kishore, Studying the role of STN-DBS on Impulsivity using a spiking neuron network model of Basal Ganglia, Poster Presentation at the 1st International Brain Stimulation Conference, 2 - 4 March, 2015, Singapore.

Book Chapters

  • Mandali, A., Dharshini, S. A. P., & Chakravarthy, V. S. (2018). Go-Explore-NoGo (GEN) Paradigm in Decision Making—A Multimodel Approach. In Computational Neuroscience Models of the Basal Ganglia (pp. 153-166). Springer, Singapore.

  • Mandali, A., & Chakravarthy, V. S. (2018). Studying the Effect of Dopaminergic Medication and STN–DBS on Cognitive Function Using a Spiking Basal Ganglia Model. In Computational Neuroscience Models of the Basal Ganglia (pp. 197-214). Springer, Singapore.

  • Mandali, A., Chakravarthy, V. S., & Moustafa, A. A. (2018). The Molecular, Cellular, and Systems-Level Structure of the Basal Ganglia. In Computational Neuroscience Models of the Basal Ganglia (pp. 5-19). Springer, Singapore.

  • Mandali, A., & Chakravarthy, V. S. (2018). Synchronization and Exploration in Basal Ganglia—A Spiking Network Model. In Computational Neuroscience Models of the Basal Ganglia(pp. 97-112). Springer, Singapore.

  • Muralidharan, V., Mandali, A., Balasubramani, P. P., Mehta, H., Chakravarthy, V. S., & Jahanshahi, M. (2018). A Cortico-Basal Ganglia Model to Understand the Neural Dynamics of Targeted Reaching in Normal and Parkinson’s Conditions. In Computational Neuroscience Models of the Basal Ganglia (pp. 167-195). Springer, Singapore.

  • Moustafa, A. A., Mandali, A., Balasubramani, P. P., & Chakravarthy, V. S. (2018). The Motor, Cognitive, Affective, and Autonomic Functions of the Basal Ganglia. In Computational Neuroscience Models of the Basal Ganglia (pp. 21-39). Springer, Singapore.

  • Mandali, A, Moustafa, A.A and VS Chakravarthy, A neuro-computational model of Pallidal vs. Subthalamic Deep Brain Stimulation Effect on synchronization at Tremor frequency in Parkinson’s disease, Handbook of Multi-scale Models of Brain Disorders