Search

Your search keyword '"OKUN, MICHAEL S."' showing total 2,958 results
Start Over Author "OKUN, MICHAEL S."
2,958 results on '"OKUN, MICHAEL S."'

1. Identification of Parkinson’s disease PACE subtypes and repurposing treatments through integrative analyses of multimodal data

Author

Su, Chang, Hou, Yu, Xu, Jielin, Xu, Zhenxing, Zhou, Manqi, Ke, Alison, Li, Haoyang, Xu, Jie, Brendel, Matthew, Maasch, Jacqueline R. M. A., Bai, Zilong, Zhang, Haotan, Zhu, Yingying, Cincotta, Molly C., Shi, Xinghua, Henchcliffe, Claire, Leverenz, James B., Cummings, Jeffrey, Okun, Michael S., Bian, Jiang, Cheng, Feixiong, and Wang, Fei

Published
2024
Full Text
View/download PDF

5. Future directions in psychiatric neurosurgery: Proceedings of the 2022 American Society for Stereotactic and Functional Neurosurgery meeting on surgical neuromodulation for psychiatric disorders

Author

Hitti, Frederick L, Widge, Alik S, Riva-Posse, Patricio, Malone, Donald A, Okun, Michael S, Shanechi, Maryam M, Foote, Kelly D, Lisanby, Sarah H, Ankudowich, Elizabeth, Chivukula, Srinivas, Chang, Edward F, Gunduz, Aysegul, Hamani, Clement, Feinsinger, Ashley, Kubu, Cynthia S, Chiong, Winston, Chandler, Jennifer A, Carbunaru, Rafael, Cheeran, Binith, Raike, Robert S, Davis, Rachel A, Halpern, Casey H, Vanegas-Arroyave, Nora, Markovic, Dejan, Bick, Sarah K, McIntyre, Cameron C, Richardson, R Mark, Dougherty, Darin D, Kopell, Brian H, Sweet, Jennifer A, Goodman, Wayne K, Sheth, Sameer A, and Pouratian, Nader

Subjects
Biomedical and Clinical Sciences, Rehabilitation, Neurosciences, Brain Disorders, Good Health and Well Being, Humans, United States, Neurosurgery, Deep Brain Stimulation, Neurosurgical Procedures, Mental Disorders, Psychosurgery, Deep brain stimulation, Treatment resistant depression, Obsessive compulsive disorder, Tourette syndrome, Neuromodulation, Medical and Health Sciences, Neurology & Neurosurgery, Biomedical and clinical sciences, Health sciences
Abstract

ObjectiveDespite advances in the treatment of psychiatric diseases, currently available therapies do not provide sufficient and durable relief for as many as 30-40% of patients. Neuromodulation, including deep brain stimulation (DBS), has emerged as a potential therapy for persistent disabling disease, however it has not yet gained widespread adoption. In 2016, the American Society for Stereotactic and Functional Neurosurgery (ASSFN) convened a meeting with leaders in the field to discuss a roadmap for the path forward. A follow-up meeting in 2022 aimed to review the current state of the field and to identify critical barriers and milestones for progress.DesignThe ASSFN convened a meeting on June 3, 2022 in Atlanta, Georgia and included leaders from the fields of neurology, neurosurgery, and psychiatry along with colleagues from industry, government, ethics, and law. The goal was to review the current state of the field, assess for advances or setbacks in the interim six years, and suggest a future path forward. The participants focused on five areas of interest: interdisciplinary engagement, regulatory pathways and trial design, disease biomarkers, ethics of psychiatric surgery, and resource allocation/prioritization. The proceedings are summarized here.ConclusionThe field of surgical psychiatry has made significant progress since our last expert meeting. Although weakness and threats to the development of novel surgical therapies exist, the identified strengths and opportunities promise to move the field through methodically rigorous and biologically-based approaches. The experts agree that ethics, law, patient engagement, and multidisciplinary teams will be critical to any potential growth in this area.

Published
2023

6. Double blind, nonrandomized crossover study of active recharge biphasic deep brain stimulation for primary dystonia

Author

Wong, Joshua K, Lopes, Janine Melo Lobo Jofili, Hu, Wei, Wang, Anson, Au, Ka Loong Kelvin, Stiep, Tamara, Frey, Jessica, Toledo, Jon B, Raike, Robert S, Okun, Michael S, and Almeida, Leonardo

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Brain Disorders, Rare Diseases, Neurodegenerative, Assistive Technology, Bioengineering, Neurosciences, Clinical Trials and Supportive Activities, Dystonia, Clinical Research, Rehabilitation, Humans, Cross-Over Studies, Deep Brain Stimulation, Dystonic Disorders, Globus Pallidus, Pilot Projects, Treatment Outcome, Deep brain stimulation, Active recharge, Globus pallidus, Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences, Biological psychology
Abstract

BackgroundDeep brain stimulation (DBS) of the globus pallidus interna (GPi) is an effective therapy for select patients with primary dystonia. DBS programming for dystonia is often challenging due to variable time to symptomatic improvement or stimulation induced side effects (SISE) such as capsular or optic tract activation which can prolong device optimization.ObjectiveTo characterize the safety and tolerability of active recharge biphasic DBS (bDBS) in primary dystonia and to compare it to conventional clinical DBS (clinDBS).MethodsTen subjects with primary dystonia and GPi DBS underwent a single center, double blind, nonrandomized crossover study comparing clinDBS versus bDBS. The testing occurred over two-days. bDBS and clinDBS were administered on separate days and each was activated for 6 h. Rating scales were collected by video recording and scored by four blinded movement disorders trained neurologists.ResultsThe bDBS paradigm was safe and well-tolerated in all ten subjects. There were no persistent SISE reported. The mean change in the Unified Dystonia Rating Scale after 4 h of stimulation was greater in bDBS when compared to clinDBS (-6.5 vs 0.3, p

Published
2023

7. Proceedings of the 10th annual deep brain stimulation think tank: Advances in cutting edge technologies, artificial intelligence, neuromodulation, neuroethics, interventional psychiatry, and women in neuromodulation

Author

Wong, Joshua K, Mayberg, Helen S, Wang, Doris D, Richardson, R Mark, Halpern, Casey H, Krinke, Lothar, Arlotti, Mattia, Rossi, Lorenzo, Priori, Alberto, Marceglia, Sara, Gilron, Ro’ee, Cavanagh, James F, Judy, Jack W, Miocinovic, Svjetlana, Devergnas, Annaelle D, Sillitoe, Roy V, Cernera, Stephanie, Oehrn, Carina R, Gunduz, Aysegul, Goodman, Wayne K, Petersen, Erika A, Bronte-Stewart, Helen, Raike, Robert S, Malekmohammadi, Mahsa, Greene, David, Heiden, Petra, Tan, Huiling, Volkmann, Jens, Voon, Valerie, Li, Luming, Sah, Pankaj, Coyne, Terry, Silburn, Peter A, Kubu, Cynthia S, Wexler, Anna, Chandler, Jennifer, Provenza, Nicole R, Heilbronner, Sarah R, San Luciano, Marta, Rozell, Christopher J, Fox, Michael D, de Hemptinne, Coralie, Henderson, Jaimie M, Sheth, Sameer A, and Okun, Michael S

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Psychology, Bioengineering, Neurosciences, Assistive Technology, Depression, Rehabilitation, Mental Health, Mental health, deep brain stimulation, artificial intelligence, neuroethics, Parkinson's disease, dystonia, interventional psychiatry, adaptive DBS, epilepsy, Parkinson’s disease, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology
Abstract

The deep brain stimulation (DBS) Think Tank X was held on August 17-19, 2022 in Orlando FL. The session organizers and moderators were all women with the theme women in neuromodulation. Dr. Helen Mayberg from Mt. Sinai, NY was the keynote speaker. She discussed milestones and her experiences in developing depression DBS. The DBS Think Tank was founded in 2012 and provides an open platform where clinicians, engineers and researchers (from industry and academia) can freely discuss current and emerging DBS technologies as well as the logistical and ethical issues facing the field. The consensus among the DBS Think Tank X speakers was that DBS has continued to expand in scope however several indications have reached the "trough of disillusionment." DBS for depression was considered as "re-emerging" and approaching a slope of enlightenment. DBS for depression will soon re-enter clinical trials. The group estimated that globally more than 244,000 DBS devices have been implanted for neurological and neuropsychiatric disorders. This year's meeting was focused on advances in the following areas: neuromodulation in Europe, Asia, and Australia; cutting-edge technologies, closed loop DBS, DBS tele-health, neuroethics, lesion therapy, interventional psychiatry, and adaptive DBS.

Published
2023

8. Genome-Wide Association Study Points to Novel Locus for Gilles de la Tourette Syndrome

Author

Barr, Cathy L., Batterson, James R., Berlin, Cheston, Budman, Cathy L., Coppola, Giovanni, Cox, Nancy J., Darrow, Sabrina, Dion, Yves, Freimer, Nelson B., Grados, Marco A., Greenberg, Erica, Hirschtritt, Matthew E., Huang, Alden Y., Illmann, Cornelia, King, Robert A., Kurlan, Roger, Leckman, James F., Lyon, Gholson J., Malaty, Irene A., McMahon, William M., Neale, Benjamin M., Okun, Michael S., Osiecki, Lisa, Robertson, Mary M., Rouleau, Guy A., Sandor, Paul, Singer, Harvey S., Smit, Jan H., Sul, Jae Hoon, Androutsos, Christos, Basha, Entela, Farkas, Luca, Fichna, Jakub, Janik, Piotr, Kapisyzi, Mira, Karagiannidis, Iordanis, Koumoula, Anastasia, Nagy, Peter, Puchala, Joanna, Szejko, Natalia, Szymanska, Urszula, Tsironi, Vaia, Apter, Alan, Ball, Juliane, Bodmer, Benjamin, Bognar, Emese, Buse, Judith, Vela, Marta Correa, Fremer, Carolin, Garcia-Delgar, Blanca, Gulisano, Mariangela, Hagen, Annelieke, Hagstrøm, Julie, Madruga-Garrido, Marcos, Pellico, Alessandra, Ruhrman, Daphna, Schnell, Jaana, Silvestri, Paola Rosaria, Skov, Liselotte, Steinberg, Tamar, Gloor, Friederike Tagwerker, Turner, Victoria L., Weidinger, Elif, Alexander, John, Aranyi, Tamas, Buisman, Wim R., Buitelaar, Jan K., Driessen, Nicole, Drineas, Petros, Fan, Siyan, Forde, Natalie J., Gerasch, Sarah, van den Heuvel, Odile A., Jespersgaard, Cathrine, Kanaan, Ahmad S., Möller, Harald E., Nawaz, Muhammad S., Nespoli, Ester, Pagliaroli, Luca, Poelmans, Geert, Pouwels, Petra J.W., Rizzo, Francesca, Veltman, Dick J., van der Werf, Ysbrand D., Widomska, Joanna, Zilhäo, Nuno R., Brown, Lawrence W., Cheon, Keun-Ah, Coffey, Barbara J., Fernandez, Thomas V., Gilbert, Donald L., Hong, Hyun Ju, Ibanez-Gomez, Laura, Kim, Eun-Joo, Kim, Young Key, Kim, Young-Shin, Koh, Yun-Joo, Kook, Sodahm, Kuperman, Samuel, Leventhal, Bennett L., Maras, Athanasios, Murphy, Tara L., Shin, Eun-Young, Song, Dong-Ho, Song, Jungeun, State, Matthew W., Visscher, Frank, Wang, Sheng, Zinner, Samuel H., Tsetsos, Fotis, Topaloudi, Apostolia, Jain, Pritesh, Yang, Zhiyu, Yu, Dongmei, Kolovos, Petros, Tumer, Zeynep, Rizzo, Renata, Hartmann, Andreas, Depienne, Christel, Worbe, Yulia, Müller-Vahl, Kirsten R., Cath, Danielle C., Boomsma, Dorret I., Wolanczyk, Tomasz, Zekanowski, Cezary, Barta, Csaba, Nemoda, Zsofia, Tarnok, Zsanett, Padmanabhuni, Shanmukha S., Buxbaum, Joseph D., Grice, Dorothy, Glennon, Jeffrey, Stefansson, Hreinn, Hengerer, Bastian, Yannaki, Evangelia, Stamatoyannopoulos, John A., Benaroya-Milshtein, Noa, Cardona, Francesco, Hedderly, Tammy, Heyman, Isobel, Huyser, Chaim, Mir, Pablo, Morer, Astrid, Mueller, Norbert, Munchau, Alexander, Plessen, Kerstin J., Porcelli, Cesare, Roessner, Veit, Walitza, Susanne, Schrag, Anette, Martino, Davide, Tischfield, Jay A., Heiman, Gary A., Willsey, A. Jeremy, Dietrich, Andrea, Davis, Lea K., Crowley, James J., Mathews, Carol A., Scharf, Jeremiah M., Georgitsi, Marianthi, Hoekstra, Pieter J., and Paschou, Peristera

Published
2024
Full Text
View/download PDF

11. Proceedings of the Ninth Annual Deep Brain Stimulation Think Tank: Advances in Cutting Edge Technologies, Artificial Intelligence, Neuromodulation, Neuroethics, Pain, Interventional Psychiatry, Epilepsy, and Traumatic Brain Injury.

Author

Wong, Joshua K, Deuschl, Günther, Wolke, Robin, Bergman, Hagai, Muthuraman, Muthuraman, Groppa, Sergiu, Sheth, Sameer A, Bronte-Stewart, Helen M, Wilkins, Kevin B, Petrucci, Matthew N, Lambert, Emilia, Kehnemouyi, Yasmine, Starr, Philip A, Little, Simon, Anso, Juan, Gilron, Ro'ee, Poree, Lawrence, Kalamangalam, Giridhar P, Worrell, Gregory A, Miller, Kai J, Schiff, Nicholas D, Butson, Christopher R, Henderson, Jaimie M, Judy, Jack W, Ramirez-Zamora, Adolfo, Foote, Kelly D, Silburn, Peter A, Li, Luming, Oyama, Genko, Kamo, Hikaru, Sekimoto, Satoko, Hattori, Nobutaka, Giordano, James J, DiEuliis, Diane, Shook, John R, Doughtery, Darin D, Widge, Alik S, Mayberg, Helen S, Cha, Jungho, Choi, Kisueng, Heisig, Stephen, Obatusin, Mosadolu, Opri, Enrico, Kaufman, Scott B, Shirvalkar, Prasad, Rozell, Christopher J, Alagapan, Sankaraleengam, Raike, Robert S, Bokil, Hemant, Green, David, and Okun, Michael S

Subjects
adaptive DBS, artificial intelligence, deep brain stimulation, epilepsy, interventional psychiatry, neuroethics, pain, traumatic brain injury, Rehabilitation, Epilepsy, Neurodegenerative, Assistive Technology, Bioengineering, Brain Disorders, Neurosciences, Neurological, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

DBS Think Tank IX was held on August 25-27, 2021 in Orlando FL with US based participants largely in person and overseas participants joining by video conferencing technology. The DBS Think Tank was founded in 2012 and provides an open platform where clinicians, engineers and researchers (from industry and academia) can freely discuss current and emerging deep brain stimulation (DBS) technologies as well as the logistical and ethical issues facing the field. The consensus among the DBS Think Tank IX speakers was that DBS expanded in its scope and has been applied to multiple brain disorders in an effort to modulate neural circuitry. After collectively sharing our experiences, it was estimated that globally more than 230,000 DBS devices have been implanted for neurological and neuropsychiatric disorders. As such, this year's meeting was focused on advances in the following areas: neuromodulation in Europe, Asia and Australia; cutting-edge technologies, neuroethics, interventional psychiatry, adaptive DBS, neuromodulation for pain, network neuromodulation for epilepsy and neuromodulation for traumatic brain injury.

Published
2022

12. WarpDrive: Improving spatial normalization using manual refinements

Author

Oxenford, Simón, Ríos, Ana Sofía, Hollunder, Barbara, Neudorfer, Clemens, Boutet, Alexandre, Elias, Gavin J.B., Germann, Jurgen, Loh, Aaron, Deeb, Wissam, Salvato, Bryan, Almeida, Leonardo, Foote, Kelly D., Amaral, Robert, Rosenberg, Paul B., Tang-Wai, David F., Wolk, David A., Burke, Anna D., Sabbagh, Marwan N., Salloway, Stephen, Chakravarty, M. Mallar, Smith, Gwenn S., Lyketsos, Constantine G., Okun, Michael S., Anderson, William S., Mari, Zoltan, Ponce, Francisco A., Lozano, Andres, Neumann, Wolf-Julian, Al-Fatly, Bassam, and Horn, Andreas

Published
2024
Full Text
View/download PDF

13. Genome-Wide Association Study Meta-Analysis of 9619 Cases With Tic Disorders

Author

Yu, Dongmei, Sul, Jae Hoon, Tsetsos, Fotis, Nawaz, Muhammad S., Huang, Alden Y., Zelaya, Ivette, Illmann, Cornelia, Osiecki, Lisa, Darrow, Sabrina M., Hirschtritt, Matthew E., Greenberg, Erica, Muller-Vahl, Kirsten R., Stuhrmann, Manfred, Dion, Yves, Rouleau, Guy, Aschauer, Harald, Stamenkovic, Mara, Schlögelhofer, Monika, Sandor, Paul, Barr, Cathy L., Grados, Marco, Singer, Harvey S., Nöthen, Markus M., Hebebrand, Johannes, Hinney, Anke, King, Robert A., Fernandez, Thomas V., Barta, Csaba, Tarnok, Zsanett, Nagy, Peter, Depienne, Christel, Worbe, Yulia, Hartmann, Andreas, Budman, Cathy L., Rizzo, Renata, Lyon, Gholson J., McMahon, William M., Batterson, James R., Cath, Danielle C., Malaty, Irene A., Okun, Michael S., Berlin, Cheston, Woods, Douglas W., Lee, Paul C., Jankovic, Joseph, Robertson, Mary M., Gilbert, Donald L., Brown, Lawrence W., Coffey, Barbara J., Dietrich, Andrea, Hoekstra, Pieter J., Kuperman, Samuel, Zinner, Samuel H., Luðvigsson, Pétur, Sæmundsen, Evald, Thorarensen, Ólafur, Atzmon, Gil, Barzilai, Nir, Wagner, Michael, Moessner, Rainald, Ophoff, Roel, Pato, Carlos N., Pato, Michele T., Knowles, James A., Roffman, Joshua L., Smoller, Jordan W., Buckner, Randy L., Willsey, Jeremy A., Tischfield, Jay A., Heiman, Gary A., Stefansson, Hreinn, Stefansson, Kári, Posthuma, Danielle, Cox, Nancy J., Pauls, David L., Freimer, Nelson B., Neale, Benjamin M., Davis, Lea K., Paschou, Peristera, Coppola, Giovanni, Mathews, Carol A., Scharf, Jeremiah M., Agee, Michelle, Auton, Adam, Bell, Robert K., Bryc, Katarzyna, Elson, Sarah L., Fontanillas, Pierre, Furlotte, Nicholas A., Hicks, Barry, Huber, Karen E., Jewett, Ethan M., Jiang, Yunxuan, Kleinman, Aaron, Lin, Keng-Han, Litterman, Nadia K., McCreight, Jey C., McIntyre, Matthew H., McManus, Kimberly F., Mountain, Joanna L., Noblin, Elizabeth S., Northover, Carrie A.M., Pitts, Steven J., Poznik, G. David, Sathirapongsasuti, J. Fah, Shelton, Janie F., Shringarpure, Suyash, Tung, Joyce Y., Vacic, Vladimir, Wang, Xin, Strom, Nora I., Halvorsen, Matthew W., Grove, Jakob, Ásbjörnsdóttir, Bergrún, Luðvígsson, Pétur, de Schipper, Elles, Bäckmann, Julia, Andrén, Per, Tian, Chao, Als, Thomas Damm, Nissen, Judith Becker, Meier, Sandra M., Bybjerg-Grauholm, Jonas, Hougaard, David M., Werge, Thomas, Børglum, Anders D., Hinds, David A., Rück, Christian, Mataix-Cols, David, Stefánsson, Hreinn, Stefansson, Kari, Crowley, James J., and Mattheisen, Manuel

Published
2024
Full Text
View/download PDF

14. Double blind randomized controlled trial of deep brain stimulation for obsessive-compulsive disorder: Clinical trial design.

Author

McLaughlin, Nicole CR, Dougherty, Darin D, Eskandar, Emad, Ward, Herbert, Foote, Kelly D, Malone, Donald A, Machado, Andre, Wong, William, Sedrak, Mark, Goodman, Wayne, Kopell, Brian H, Issa, Fuad, Shields, Donald C, Abulseoud, Osama A, Lee, Kendall, Frye, Mark A, Widge, Alik S, Deckersbach, Thilo, Okun, Michael S, Bowers, Dawn, Bauer, Russell M, Mason, Dana, Kubu, Cynthia S, Bernstein, Ivan, Lapidus, Kyle, Rosenthal, David L, Jenkins, Robert L, Read, Cynthia, Malloy, Paul F, Salloway, Stephen, Strong, David R, Jones, Richard N, Rasmussen, Steven A, and Greenberg, Benjamin D

Subjects
Deep brain stimulation, Neurosurgery, Obsessive-compulsive disorder, Psychiatry
Abstract

Obsessive-compulsive disorder (OCD), a leading cause of disability, affects ~1-2% of the population, and can be distressing and disabling. About 1/3 of individuals demonstrate poor responsiveness to conventional treatments. A small proportion of these individuals may be deep brain stimulation (DBS) candidates. Candidacy is assessed through a multidisciplinary process including assessment of illness severity, chronicity, and functional impact. Optimization failure, despite multiple treatments, is critical during screening. Few patients nationwide are eligible for OCD DBS and thus a multi-center approach was necessary to obtain adequate sample size. The study was conducted over a six-year period and was a NIH-funded, eight-center sham-controlled trial of DBS targeting the ventral capsule/ventral striatum (VC/VS) region. There were 269 individuals who initially contacted the sites, in order to achieve 27 participants enrolled. Study enrollment required extensive review for eligibility, which was overseen by an independent advisory board. Disabling OCD had to be persistent for ≥5 years despite exhaustive medication and behavioral treatment. The final cohort was derived from a detailed consent process that included consent monitoring. Mean illness duration was 27.2 years. OCD symptom subtypes and psychiatric comorbidities varied, but all had severe disability with impaired quality of life and functioning. Participants were randomized to receive sham or active DBS for three months. Following this period, all participants received active DBS. Treatment assignment was masked to participants and raters and assessments were blinded. The final sample was consistent in demographic characteristics and clinical features when compared to other contemporary published prospective studies of OCD DBS. We report the clinical trial design, methods, and general demographics of this OCD DBS sample.

Published
2021

16. Synaptic processes and immune-related pathways implicated in Tourette syndrome.

Author

Tsetsos, Fotis, Yu, Dongmei, Sul, Jae Hoon, Huang, Alden Y, Illmann, Cornelia, Osiecki, Lisa, Darrow, Sabrina M, Hirschtritt, Matthew E, Greenberg, Erica, Muller-Vahl, Kirsten R, Stuhrmann, Manfred, Dion, Yves, Rouleau, Guy A, Aschauer, Harald, Stamenkovic, Mara, Schlögelhofer, Monika, Sandor, Paul, Barr, Cathy L, Grados, Marco A, Singer, Harvey S, Nöthen, Markus M, Hebebrand, Johannes, Hinney, Anke, King, Robert A, Fernandez, Thomas V, Barta, Csaba, Tarnok, Zsanett, Nagy, Peter, Depienne, Christel, Worbe, Yulia, Hartmann, Andreas, Budman, Cathy L, Rizzo, Renata, Lyon, Gholson J, McMahon, William M, Batterson, James R, Cath, Danielle C, Malaty, Irene A, Okun, Michael S, Berlin, Cheston, Woods, Douglas W, Lee, Paul C, Jankovic, Joseph, Robertson, Mary M, Gilbert, Donald L, Brown, Lawrence W, Coffey, Barbara J, Dietrich, Andrea, Hoekstra, Pieter J, Kuperman, Samuel, Zinner, Samuel H, Wagner, Michael, Knowles, James A, Jeremy Willsey, A, Tischfield, Jay A, Heiman, Gary A, Cox, Nancy J, Freimer, Nelson B, Neale, Benjamin M, Davis, Lea K, Coppola, Giovanni, Mathews, Carol A, Scharf, Jeremiah M, Paschou, Peristera, Tourette Association of America International Consortium for Genetics, Darrow, Sabrina, Kurlan, Roger, Leckman, James F, Smit, Jan H, and Gilles de la Tourette GWAS Replication Initiative

Subjects
Tourette Association of America International Consortium for Genetics, Gilles de la Tourette GWAS Replication Initiative, Tourette International Collaborative Genetics Study, Psychiatric Genomics Consortium Tourette Syndrome Working Group, Neurons, Humans, Tourette Syndrome, Genotype, Genome-Wide Association Study, Mental Health, Genetics, Neurosciences, Human Genome, Brain Disorders, Biotechnology, Neurodegenerative, 2.1 Biological and endogenous factors, Clinical Sciences, Public Health and Health Services, Psychology
Abstract

Tourette syndrome (TS) is a neuropsychiatric disorder of complex genetic architecture involving multiple interacting genes. Here, we sought to elucidate the pathways that underlie the neurobiology of the disorder through genome-wide analysis. We analyzed genome-wide genotypic data of 3581 individuals with TS and 7682 ancestry-matched controls and investigated associations of TS with sets of genes that are expressed in particular cell types and operate in specific neuronal and glial functions. We employed a self-contained, set-based association method (SBA) as well as a competitive gene set method (MAGMA) using individual-level genotype data to perform a comprehensive investigation of the biological background of TS. Our SBA analysis identified three significant gene sets after Bonferroni correction, implicating ligand-gated ion channel signaling, lymphocytic, and cell adhesion and transsynaptic signaling processes. MAGMA analysis further supported the involvement of the cell adhesion and trans-synaptic signaling gene set. The lymphocytic gene set was driven by variants in FLT3, raising an intriguing hypothesis for the involvement of a neuroinflammatory element in TS pathogenesis. The indications of involvement of ligand-gated ion channel signaling reinforce the role of GABA in TS, while the association of cell adhesion and trans-synaptic signaling gene set provides additional support for the role of adhesion molecules in neuropsychiatric disorders. This study reinforces previous findings but also provides new insights into the neurobiology of TS.

Published
2021

17. Patient, Caregiver, and Decliner Perspectives on Whether to Enroll in Adaptive Deep Brain Stimulation Research.

Author

Outram, Simon, Muñoz, Katrina A, Kostick-Quenet, Kristin, Sanchez, Clarissa E, Kalwani, Lavina, Lavingia, Richa, Torgerson, Laura, Sierra-Mercado, Demetrio, Robinson, Jill O, Pereira, Stacey, Koenig, Barbara A, Starr, Philip A, Gunduz, Aysegul, Foote, Kelly D, Okun, Michael S, Goodman, Wayne K, McGuire, Amy L, Zuk, Peter, and Lázaro-Muñoz, Gabriel

Subjects
aDBS, altruism, decision-making, interviews, quality of life, research, study design, symptoms, Aging, Behavioral and Social Science, Clinical Research, No Poverty, Neurosciences, Psychology, Cognitive Sciences
Abstract

This research study provides patient and caregiver perspectives as to whether or not to undergo adaptive deep brain stimulation (aDBS) research. A total of 51 interviews were conducted in a multi-site study including patients undergoing aDBS and their respective caregivers along with persons declining aDBS. Reasons highlighted for undergoing aDBS included hopes for symptom alleviation, declining quality of life, desirability of being in research, and altruism. The primary reasons for not undergoing aDBS issues were practical rather than specific to aDBS technology, although some persons highlighted a desire to not be the first to trial the new technology. These themes are discussed in the context of "push" factors wherein any form of surgical intervention is preferable to none and "pull" factors wherein opportunities to contribute to science combine with hopes and/or expectations for the alleviation of symptoms. We highlight the significance of study design in decision making. aDBS is an innovative technology and not a completely new technology. Many participants expressed value in being part of research as an important consideration. We suggest that there are important implications when comparing patient perspectives vs. theoretical perspectives on the choice for or against aDBS. Additionally, it will be important how we communicate with patients especially in reference to the complexity of study design. Ultimately, this study reveals that there are benefits and potential risks when choosing a research study that involves implantation of a medical device.

Published
2021

18. Corrigendum: Proceedings of the Eighth Annual Deep Brain Stimulation Think Tank: Advances in Optogenetics, Ethical Issues Affecting DBS Research, Neuromodulatory Approaches for Depression, Adaptive Neurostimulation, and Emerging DBS Technologies.

Author

Vedam-Mai, Vinata, Deisseroth, Karl, Giordano, James, Lazaro-Munoz, Gabriel, Chiong, Winston, Suthana, Nanthia, Langevin, Jean-Philippe, Gill, Jay, Goodman, Wayne, Provenza, Nicole R, Halpern, Casey H, Shivacharan, Rajat S, Cunningham, Tricia N, Sheth, Sameer A, Pouratian, Nader, Scangos, Katherine W, Mayberg, Helen S, Horn, Andreas, Johnson, Kara A, Butson, Christopher R, Gilron, Ro'ee, de Hemptinne, Coralie, Wilt, Robert, Yaroshinsky, Maria, Little, Simon, Starr, Philip, Worrell, Greg, Shirvalkar, Prasad, Chang, Edward, Volkmann, Jens, Muthuraman, Muthuraman, Groppa, Sergiu, Kühn, Andrea A, Li, Luming, Johnson, Matthew, Otto, Kevin J, Raike, Robert, Goetz, Steve, Wu, Chengyuan, Silburn, Peter, Cheeran, Binith, Pathak, Yagna J, Malekmohammadi, Mahsa, Gunduz, Aysegul, Wong, Joshua K, Cernera, Stephanie, Hu, Wei, Wagle Shukla, Aparna, Ramirez-Zamora, Adolfo, Deeb, Wissam, Patterson, Addie, Foote, Kelly D, and Okun, Michael S

Subjects
DBS, adaptive DBS, neuroethics, neuroimaging, novel hardware, optogenetics, Assistive Technology, Bioengineering, Depression, Mental Health, Brain Disorders, Rehabilitation, Neurosciences, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

[This corrects the article DOI: 10.3389/fnhum.2021.644593.].

Published
2021

19. Proceedings of the Eighth Annual Deep Brain Stimulation Think Tank: Advances in Optogenetics, Ethical Issues Affecting DBS Research, Neuromodulatory Approaches for Depression, Adaptive Neurostimulation, and Emerging DBS Technologies.

Author

Vedam-Mai, Vinata, Deisseroth, Karl, Giordano, James, Lazaro-Munoz, Gabriel, Chiong, Winston, Suthana, Nanthia, Langevin, Jean-Philippe, Gill, Jay, Goodman, Wayne, Provenza, Nicole R, Halpern, Casey H, Shivacharan, Rajat S, Cunningham, Tricia N, Sheth, Sameer A, Pouratian, Nader, Scangos, Katherine W, Mayberg, Helen S, Horn, Andreas, Johnson, Kara A, Butson, Christopher R, Gilron, Ro'ee, de Hemptinne, Coralie, Wilt, Robert, Yaroshinsky, Maria, Little, Simon, Starr, Philip, Worrell, Greg, Shirvalkar, Prasad, Chang, Edward, Volkmann, Jens, Muthuraman, Muthuraman, Groppa, Sergiu, Kühn, Andrea A, Li, Luming, Johnson, Matthew, Otto, Kevin J, Raike, Robert, Goetz, Steve, Wu, Chengyuan, Silburn, Peter, Cheeran, Binith, Pathak, Yagna J, Malekmohammadi, Mahsa, Gunduz, Aysegul, Wong, Joshua K, Cernera, Stephanie, Hu, Wei, Wagle Shukla, Aparna, Ramirez-Zamora, Adolfo, Deeb, Wissam, Patterson, Addie, Foote, Kelly D, and Okun, Michael S

Subjects
DBS, adaptive DBS, neuroethics, neuroimaging, novel hardware, optogenetics, Depression, Bioengineering, Mental Health, Neurosciences, Rehabilitation, Brain Disorders, Assistive Technology, Neurological, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

We estimate that 208,000 deep brain stimulation (DBS) devices have been implanted to address neurological and neuropsychiatric disorders worldwide. DBS Think Tank presenters pooled data and determined that DBS expanded in its scope and has been applied to multiple brain disorders in an effort to modulate neural circuitry. The DBS Think Tank was founded in 2012 providing a space where clinicians, engineers, researchers from industry and academia discuss current and emerging DBS technologies and logistical and ethical issues facing the field. The emphasis is on cutting edge research and collaboration aimed to advance the DBS field. The Eighth Annual DBS Think Tank was held virtually on September 1 and 2, 2020 (Zoom Video Communications) due to restrictions related to the COVID-19 pandemic. The meeting focused on advances in: (1) optogenetics as a tool for comprehending neurobiology of diseases and on optogenetically-inspired DBS, (2) cutting edge of emerging DBS technologies, (3) ethical issues affecting DBS research and access to care, (4) neuromodulatory approaches for depression, (5) advancing novel hardware, software and imaging methodologies, (6) use of neurophysiological signals in adaptive neurostimulation, and (7) use of more advanced technologies to improve DBS clinical outcomes. There were 178 attendees who participated in a DBS Think Tank survey, which revealed the expansion of DBS into several indications such as obesity, post-traumatic stress disorder, addiction and Alzheimer's disease. This proceedings summarizes the advances discussed at the Eighth Annual DBS Think Tank.

Published
2021

20. Participant perceptions of changes in psychosocial domains following participation in an adaptive deep brain stimulation trial

Author

Merner, Amanda R., Kostick-Quenet, Kristin, Campbell, Tiffany A., Pham, Michelle T., Sanchez, Clarissa E., Torgerson, Laura, Robinson, Jill, Pereira, Stacey, Outram, Simon, Koenig, Barbara A., Starr, Philip A., Gunduz, Aysegul, Foote, Kelly D., Okun, Michael S., Goodman, Wayne, McGuire, Amy L., Zuk, Peter, and Lázaro-Muñoz, Gabriel

Published
2023
Full Text
View/download PDF

21. Letter: Evaluation and Surgical Treatment of Functional Neurosurgery Patients With Implanted Deep Brain Stimulation and Vagus Nerve Stimulation Pulse Generators During the COVID-19 Pandemic

Author

Gross, Robert E, Buetefisch, Cathrin M, Miocinovic, Svjetlana, Bullinger, Katie L, Okun, Michael S, Ostrem, Jill L, Foote, Kelly D, and Starr, Phillip A

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Neurology & Neurosurgery, Clinical sciences, Biological psychology
Published
2020

22. Recommendations for Deep Brain Stimulation Device Management During a Pandemic

Author

Miocinovic, Svjetlana, Ostrem, Jill L, Okun, Michael S, Bullinger, Katie L, Riva-Posse, Patricio, Gross, Robert E, and Buetefisch, Cathrin M

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Neurodegenerative, Clinical Research, Rehabilitation, Depression, Bioengineering, Neurosciences, Epilepsy, Rare Diseases, Dystonia, Brain Disorders, Assistive Technology, Parkinson's Disease, Prevention, Mental Health, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Neurological, Betacoronavirus, COVID-19, Coronavirus Infections, Deep Brain Stimulation, Disease Management, Equipment Contamination, Humans, Implantable Neurostimulators, Pandemics, Parkinson Disease, Pneumonia, Viral, Practice Guidelines as Topic, SARS-CoV-2, coronavirus, battery depletion, telemedicine, DBS withdrawal, Biochemistry and Cell Biology
Abstract

Most medical centers are postponing elective procedures and deferring non-urgent clinic visits to conserve hospital resources and prevent spread of COVID-19. The pandemic crisis presents some unique challenges for patients currently being treated with deep brain stimulation (DBS). Movement disorder (Parkinson's disease, essential tremor, dystonia), neuropsychiatric disorder (obsessive compulsive disorder, Tourette syndrome, depression), and epilepsy patients can develop varying degrees of symptom worsening from interruption of therapy due to neurostimulator battery reaching end of life, device malfunction or infection. Urgent intervention to maintain or restore stimulation may be required for patients with Parkinson's disease who can develop a rare but potentially life-threatening complication known as DBS-withdrawal syndrome. Similarly, patients with generalized dystonia can develop status dystonicus, patients with obsessive compulsive disorder can become suicidal, and epilepsy patients can experience potentially life-threatening worsening of seizures as a result of therapy cessation. DBS system infection can require urgent, and rarely emergent surgery. Elective interventions including new implantations and initial programming should be postponed. For patients with existing DBS systems, the battery status and electrical integrity interrogation can now be performed using patient programmers, and employed through telemedicine visits or by phone consultations. The decision for replacement of the implantable pulse generator to prevent interruption of DBS therapy should be made on a case-by-case basis taking into consideration battery status and a patient's tolerance to potential therapy disruption. Scheduling of the procedures, however, depends heavily on the hospital system regulations and on triage procedures with respect to safety and resource utilization during the health crisis.

Published
2020

23. Proceedings of the Seventh Annual Deep Brain Stimulation Think Tank: Advances in Neurophysiology, Adaptive DBS, Virtual Reality, Neuroethics and Technology

Author

Ramirez-Zamora, Adolfo, Giordano, James, Gunduz, Aysegul, Alcantara, Jose, Cagle, Jackson N, Cernera, Stephanie, Difuntorum, Parker, Eisinger, Robert S, Gomez, Julieth, Long, Sarah, Parks, Brandon, Wong, Joshua K, Chiu, Shannon, Patel, Bhavana, Grill, Warren M, Walker, Harrison C, Little, Simon J, Gilron, Ro’ee, Tinkhauser, Gerd, Thevathasan, Wesley, Sinclair, Nicholas C, Lozano, Andres M, Foltynie, Thomas, Fasano, Alfonso, Sheth, Sameer A, Scangos, Katherine, Sanger, Terence D, Miller, Jonathan, Brumback, Audrey C, Rajasethupathy, Priya, McIntyre, Cameron, Schlachter, Leslie, Suthana, Nanthia, Kubu, Cynthia, Sankary, Lauren R, Herrera-Ferrá, Karen, Goetz, Steven, Cheeran, Binith, Steinke, G Karl, Hess, Christopher, Almeida, Leonardo, Deeb, Wissam, Foote, Kelly D, and Okun, Michael S

Subjects
Neurosciences, Rehabilitation, Bioengineering, Assistive Technology, deep brain stimulation, stereoelectroencephalography, depression, Parkinson's disease, tremor, optogenetics, local field potentials, neuroethics, Parkinson’s disease, Psychology, Cognitive Sciences, Experimental Psychology
Abstract

The Seventh Annual Deep Brain Stimulation (DBS) Think Tank held on September 8th of 2019 addressed the most current: (1) use and utility of complex neurophysiological signals for development of adaptive neurostimulation to improve clinical outcomes; (2) Advancements in recent neuromodulation techniques to treat neuropsychiatric disorders; (3) New developments in optogenetics and DBS; (4) The use of augmented Virtual reality (VR) and neuromodulation; (5) commercially available technologies; and (6) ethical issues arising in and from research and use of DBS. These advances serve as both "markers of progress" and challenges and opportunities for ongoing address, engagement, and deliberation as we move to improve the functional capabilities and translational value of DBS. It is in this light that these proceedings are presented to inform the field and initiate ongoing discourse. As consistent with the intent, and spirit of this, and prior DBS Think Tanks, the overarching goal is to continue to develop multidisciplinary collaborations to rapidly advance the field and ultimately improve patient outcomes.

Published
2020

24. Secondary Worsening Following DYT1 Dystonia Deep Brain Stimulation: A Multi-country Cohort

Author

Tsuboi, Takashi, Cif, Laura, Coubes, Philippe, Ostrem, Jill L, Romero, Danilo A, Miyagi, Yasushi, Lozano, Andres M, De Vloo, Philippe, Haq, Ihtsham, Meng, Fangang, Sharma, Nutan, Ozelius, Laurie J, Shukla, Aparna Wagle, Cauraugh, James H, Foote, Kelly D, and Okun, Michael S

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Neurosciences, Bioengineering, Rehabilitation, Dystonia, Rare Diseases, Neurodegenerative, Assistive Technology, Clinical Research, DYT1, dystonia, deep brain stimulation, globus pallidus internus, pallidum, Psychology, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology
Abstract

Objective: To reveal clinical characteristics of suboptimal responses to deep brain stimulation (DBS) in a multi-country DYT1 dystonia cohort. Methods: In this multi-country multi-center retrospective study, we analyzed the clinical data of DYT1 patients who experienced suboptimal responses to DBS defined as 30% postoperatively; however, secondary worsening of dystonia commenced between 6 months and 3 years following DBS. The improvement at the last follow-up was less than 30% despite optimally-placed leads, a trial of multiple programming settings, and additional DBS surgeries in all patients. The on-/off-stimulation comparison at the long-term follow-up demonstrated beneficial effects of DBS despite missing the threshold of 30% improvement over baseline. Conclusion: Approximately 8% of patients represent a more aggressive phenotype of DYT1 dystonia characterized by younger age at onset, faster disease progression, and cranial involvement, which seems to be associated with long-term suboptimal responses to DBS (e.g., secondary worsening). This information could be useful for both clinicians and patients in clinical decision making and patient counseling before and following DBS implantations. Patients with this phenotype may have different neuroplasticity, neurogenetics, or possibly distinct neurophysiology.

Published
2020

25. Interactive mobile application for Parkinson's disease deep brain stimulation (MAP DBS): An open-label, multicenter, randomized, controlled clinical trial

Author

Duffley, Gordon, Szabo, Aniko, Lutz, Barbara J., Mahoney-Rafferty, Emily C., Hess, Christopher W., Ramirez-Zamora, Adolfo, Zeilman, Pamela, Foote, Kelly D., Chiu, Shannon, Pourfar, Michael H., Goas Cnp, Clarisse, Wood, Jennifer L., Haq, Ihtsham U., Siddiqui, Mustafa S., Afshari, Mitra, Heiry, Melissa, Choi, Jennifer, Volz, Monica, Ostrem, Jill L., San Luciano, Marta, Niemann, Nicki, Billnitzer, Andrew, Savitt, Daniel, Tarakad, Arjun, Jimenez-Shahed, Joohi, Aquino, Camila C., Okun, Michael S., and Butson, Christopher R.

Published
2023
Full Text
View/download PDF

27. Deep brain stimulation for obsessive–compulsive disorder: a crisis of access

Author

Visser-Vandewalle, Veerle, Andrade, Pablo, Mosley, Philip E., Greenberg, Benjamin D., Schuurman, Rick, McLaughlin, Nicole C., Voon, Valerie, Krack, Paul, Foote, Kelly D., Mayberg, Helen S., Figee, Martijn, Kopell, Brian H., Polosan, Mircea, Joyce, Eileen M., Chabardes, Stephan, Matthews, Keith, Baldermann, Juan C., Tyagi, Himanshu, Holtzheimer, Paul E., Bervoets, Chris, Hamani, Clement, Karachi, Carine, Denys, Damiaan, Zrinzo, Ludvic, Blomstedt, Patric, Naesström, Matilda, Abosch, Aviva, Rasmussen, Steven, Coenen, Volker A., Schlaepfer, Thomas E., Dougherty, Darin D., Domenech, Philippe, Silburn, Peter, Giordano, James, Lozano, Andres M., Sheth, Sameer A., Coyne, Terry, Kuhn, Jens, Mallet, Luc, Nuttin, Bart, Hariz, Marwan, and Okun, Michael S.

Published
2022
Full Text
View/download PDF

28. Image-based analysis and long-term clinical outcomes of deep brain stimulation for Tourette syndrome: a multisite study

Author

Johnson, Kara A, Fletcher, P Thomas, Servello, Domenico, Bona, Alberto, Porta, Mauro, Ostrem, Jill L, Bardinet, Eric, Welter, Marie-Laure, Lozano, Andres M, Baldermann, Juan Carlos, Kuhn, Jens, Huys, Daniel, Foltynie, Thomas, Hariz, Marwan, Joyce, Eileen M, Zrinzo, Ludvic, Kefalopoulou, Zinovia, Zhang, Jian-guo, Meng, Fan-gang, Zhang, ChenCheng, Ling, Zhipei, Xu, Xin, Yu, Xinguang, Smeets, Anouk YJM, Ackermans, Linda, Visser-Vandewalle, Veerle, Mogilner, Alon Y, Pourfar, Michael H, Almeida, Leonardo, Gunduz, Aysegul, Hu, Wei, Foote, Kelly D, Okun, Michael S, and Butson, Christopher R

Subjects
Biomedical and Clinical Sciences, Neurosciences, Clinical Sciences, Rehabilitation, Assistive Technology, Brain Disorders, Clinical Research, Tourette Syndrome, Neurodegenerative, Bioengineering, Adolescent, Adult, Atlases as Topic, Cohort Studies, Compulsive Behavior, Deep Brain Stimulation, Female, Globus Pallidus, Humans, Internal Capsule, Intralaminar Thalamic Nuclei, Magnetic Resonance Imaging, Male, Middle Aged, Nucleus Accumbens, Obsessive Behavior, Retrospective Studies, Severity of Illness Index, Thalamus, Tomography, X-Ray Computed, Treatment Outcome, Young Adult, globus pallidus, neuromodulation, obsessive-compulsive behavior, thalamus, tics, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences
Abstract

BackgroundDeep brain stimulation (DBS) can be an effective therapy for tics and comorbidities in select cases of severe, treatment-refractory Tourette syndrome (TS). Clinical responses remain variable across patients, which may be attributed to differences in the location of the neuroanatomical regions being stimulated. We evaluated active contact locations and regions of stimulation across a large cohort of patients with TS in an effort to guide future targeting.MethodsWe collected retrospective clinical data and imaging from 13 international sites on 123 patients. We assessed the effects of DBS over time in 110 patients who were implanted in the centromedial (CM) thalamus (n=51), globus pallidus internus (GPi) (n=47), nucleus accumbens/anterior limb of the internal capsule (n=4) or a combination of targets (n=8). Contact locations (n=70 patients) and volumes of tissue activated (n=63 patients) were coregistered to create probabilistic stimulation atlases.ResultsTics and obsessive-compulsive behaviour (OCB) significantly improved over time (p0.05). The median time was 13 months to reach a 40% improvement in tics, and there were no significant differences across targets (p=0.84), presence of OCB (p=0.09) or age at implantation (p=0.08). Active contacts were generally clustered near the target nuclei, with some variability that may reflect differences in targeting protocols, lead models and contact configurations. There were regions within and surrounding GPi and CM thalamus that improved tics for some patients but were ineffective for others. Regions within, superior or medial to GPi were associated with a greater improvement in OCB than regions inferior to GPi.ConclusionThe results collectively indicate that DBS may improve tics and OCB, the effects may develop over several months, and stimulation locations relative to structural anatomy alone may not predict response. This study was the first to visualise and evaluate the regions of stimulation across a large cohort of patients with TS to generate new hypotheses about potential targets for improving tics and comorbidities.

Published
2019

29. Interrogating the Genetic Determinants of Tourette’s Syndrome and Other Tic Disorders Through Genome-Wide Association Studies

Author

Yu, Dongmei, Sul, Jae Hoon, Tsetsos, Fotis, Nawaz, Muhammad S, Huang, Alden Y, Zelaya, Ivette, Illmann, Cornelia, Osiecki, Lisa, Darrow, Sabrina M, Hirschtritt, Matthew E, Greenberg, Erica, Muller-Vahl, Kirsten R, Stuhrmann, Manfred, Dion, Yves, Rouleau, Guy, Aschauer, Harald, Stamenkovic, Mara, Schlögelhofer, Monika, Sandor, Paul, Barr, Cathy L, Grados, Marco, Singer, Harvey S, Nöthen, Markus M, Hebebrand, Johannes, Hinney, Anke, King, Robert A, Fernandez, Thomas V, Barta, Csaba, Tarnok, Zsanett, Nagy, Peter, Depienne, Christel, Worbe, Yulia, Hartmann, Andreas, Budman, Cathy L, Rizzo, Renata, Lyon, Gholson J, McMahon, William M, Batterson, James R, Cath, Danielle C, Malaty, Irene A, Okun, Michael S, Berlin, Cheston, Woods, Douglas W, Lee, Paul C, Jankovic, Joseph, Robertson, Mary M, Gilbert, Donald L, Brown, Lawrence W, Coffey, Barbara J, Dietrich, Andrea, Hoekstra, Pieter J, Kuperman, Samuel, Zinner, Samuel H, Luðvigsson, Pétur, Sæmundsen, Evald, Thorarensen, Ólafur, Atzmon, Gil, Barzilai, Nir, Wagner, Michael, Moessner, Rainald, Ophoff, Roel, Pato, Carlos N, Pato, Michele T, Knowles, James A, Roffman, Joshua L, Smoller, Jordan W, Buckner, Randy L, Willsey, A Jeremy, Tischfield, Jay A, Heiman, Gary A, Stefansson, Hreinn, Stefansson, Kári, Posthuma, Danielle, Cox, Nancy J, Pauls, David L, Freimer, Nelson B, Neale, Benjamin M, Davis, Lea K, Paschou, Peristera, Coppola, Giovanni, Mathews, Carol A, and Scharf, Jeremiah M

Subjects
Mental Health, Prevention, Brain Disorders, Human Genome, Neurosciences, Neurodegenerative, Serious Mental Illness, Tourette Syndrome, Genetics, Aetiology, 2.1 Biological and endogenous factors, Case-Control Studies, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Multifactorial Inheritance, Polymorphism, Single Nucleotide, Risk Factors, Severity of Illness Index, Tic Disorders, fms-Like Tyrosine Kinase 3, Tourette Association of America International Consortium for Genetics, the Gilles de la Tourette GWAS Replication Initiative, the Tourette International Collaborative Genetics Study, and the Psychiatric Genomics Consortium Tourette Syndrome Working Group, Child Psychiatry, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry
Abstract

ObjectiveTourette's syndrome is polygenic and highly heritable. Genome-wide association study (GWAS) approaches are useful for interrogating the genetic architecture and determinants of Tourette's syndrome and other tic disorders. The authors conducted a GWAS meta-analysis and probed aggregated Tourette's syndrome polygenic risk to test whether Tourette's and related tic disorders have an underlying shared genetic etiology and whether Tourette's polygenic risk scores correlate with worst-ever tic severity and may represent a potential predictor of disease severity.MethodsGWAS meta-analysis, gene-based association, and genetic enrichment analyses were conducted in 4,819 Tourette's syndrome case subjects and 9,488 control subjects. Replication of top loci was conducted in an independent population-based sample (706 case subjects, 6,068 control subjects). Relationships between Tourette's polygenic risk scores (PRSs), other tic disorders, ascertainment, and tic severity were examined.ResultsGWAS and gene-based analyses identified one genome-wide significant locus within FLT3 on chromosome 13, rs2504235, although this association was not replicated in the population-based sample. Genetic variants spanning evolutionarily conserved regions significantly explained 92.4% of Tourette's syndrome heritability. Tourette's-associated genes were significantly preferentially expressed in dorsolateral prefrontal cortex. Tourette's PRS significantly predicted both Tourette's syndrome and tic spectrum disorders status in the population-based sample. Tourette's PRS also significantly correlated with worst-ever tic severity and was higher in case subjects with a family history of tics than in simplex case subjects.ConclusionsModulation of gene expression through noncoding variants, particularly within cortico-striatal circuits, is implicated as a fundamental mechanism in Tourette's syndrome pathogenesis. At a genetic level, tic disorders represent a continuous spectrum of disease, supporting the unification of Tourette's syndrome and other tic disorders in future diagnostic schemata. Tourette's PRSs derived from sufficiently large samples may be useful in the future for predicting conversion of transient tics to chronic tic disorders, as well as tic persistence and lifetime tic severity.

Published
2019

30. Proceedings of the Sixth Deep Brain Stimulation Think Tank Modulation of Brain Networks and Application of Advanced Neuroimaging, Neurophysiology, and Optogenetics

Author

Ramirez-Zamora, Adolfo, Giordano, James, Boyden, Edward S, Gradinaru, Viviana, Gunduz, Aysegul, Starr, Philip A, Sheth, Sameer A, McIntyre, Cameron C, Fox, Michael D, Vitek, Jerrold, Vedam-Mai, Vinata, Akbar, Umer, Almeida, Leonardo, Bronte-Stewart, Helen M, Mayberg, Helen S, Pouratian, Nader, Gittis, Aryn H, Singer, Annabelle C, Creed, Meaghan C, Lazaro-Munoz, Gabriel, Richardson, Mark, Rossi, Marvin A, Cendejas-Zaragoza, Leopoldo, D’Haese, Pierre-Francois, Chiong, Winston, Gilron, Ro’ee, Chizeck, Howard, Ko, Andrew, Baker, Kenneth B, Wagenaar, Joost, Harel, Noam, Deeb, Wissam, Foote, Kelly D, and Okun, Michael S

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Neurosciences, Psychology, Assistive Technology, Rehabilitation, Neurodegenerative, Brain Disorders, Bioengineering, Neurological, deep brain stimulation, neuromodulation, epilepsy, Parkinson's disease, tremor, optogenetics, Tourette syndrome, temporal dispersion, Parkinson’s disease, Cognitive Sciences, Biological psychology
Abstract

The annual deep brain stimulation (DBS) Think Tank aims to create an opportunity for a multidisciplinary discussion in the field of neuromodulation to examine developments, opportunities and challenges in the field. The proceedings of the Sixth Annual Think Tank recapitulate progress in applications of neurotechnology, neurophysiology, and emerging techniques for the treatment of a range of psychiatric and neurological conditions including Parkinson's disease, essential tremor, Tourette syndrome, epilepsy, cognitive disorders, and addiction. Each section of this overview provides insight about the understanding of neuromodulation for specific disease and discusses current challenges and future directions. This year's report addresses key issues in implementing advanced neurophysiological techniques, evolving use of novel modulation techniques to deliver DBS, ans improved neuroimaging techniques. The proceedings also offer insights into the new era of brain network neuromodulation and connectomic DBS to define and target dysfunctional brain networks. The proceedings also focused on innovations in applications and understanding of adaptive DBS (closed-loop systems), the use and applications of optogenetics in the field of neurostimulation and the need to develop databases for DBS indications. Finally, updates on neuroethical, legal, social, and policy issues relevant to DBS research are discussed.

Published
2019

34. Anticholinergic Medication Burden and Cognitive Subtypes in Parkinson's Disease without Dementia.

Author

Santos, Lauren G, Kenney, Lauren E, Ray, Alyssa, Paredes, Alfredo, Ratajska, Adrianna M, Eversole, Kara, Patel, Bhavana, Rawls, Ashley E, Okun, Michael S, and Bowers, Dawn

Subjects
PARKINSON'S disease, COGNITION, COGNITIVE ability, EXECUTIVE function, CHI-squared test
Abstract

Objective Cognitive changes are heterogeneous in Parkinson's disease (PD). This study compared whether anticholinergic burden drives differences in cognitive domain performance and empirically-derived PD-cognitive phenotypes. Method A retrospective chart review contained participants (n  = 493) who had idiopathic PD without dementia. Participants' medications were scored (0–3) and summed based on the anticholinergic cognitive burden scale (ACBS). We examined the ACBS' relationship to five cognitive domain composites (normative z-scores) and three (K-means clustering based) cognitive phenotypes: cognitively intact, low executive function (EF), and predominately impaired EF/memory. Analyses included Spearman correlations, analysis of covariance, and Pearson chi-squared test. Results Overall, phenotypes did not differ in anticholinergic burden, and (after false-discovery-rate corrections) no cognitive domains related. When comparing those above and below the clinically relevant ACBS cutoff (i.e. score ≥3), no significant phenotype or domain differences were found. Conclusions Anticholinergic medication usage did not drive cognitive performance in a large clinical sample of idiopathic PD without dementia. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

35. Glucagon‐Like Peptide‐1 Receptor Agonists and Risk of Parkinson's Disease in Patients with Type 2 Diabetes: A Population‐Based Cohort Study.

Author

Tang, Huilin, Lu, Ying, Okun, Michael S., Donahoo, William T., Ramirez‐Zamora, Adolfo, Wang, Fei, Huang, Yu, Armstrong, Melissa, Svensson, Mikael, Virnig, Beth A., DeKosky, Steven T., Bian, Jiang, and Guo, Jingchuan

Abstract

Background: Previous studies have suggested that glucagon‐like peptide‐1 receptor agonists (GLP‐1RAs) may have a disease‐modifying effect in the development of Parkinson's disease (PD), but population studies yielded inconsistent results. Objective: The aim was to compare the risk of PD associated with GLP‐1RAs compared to dipeptidyl peptidase 4 inhibitors (DPP4i) among older adults with type 2 diabetes (T2D). Methods: Using U.S. Medicare administrative data from 2016 to 2020, we conducted a population‐based cohort study comparing the new use of GLP‐1RA with the new use of DPP4i among adults aged ≥66 years with T2D. The primary endpoint was a new diagnosis of PD. A stabilized inverse probability of treatment weighting (sIPTW)–adjusted Cox proportional hazards regression model was employed to estimate the hazard ratio (HR) and 95% confidence intervals (CI) for PD between GLP‐1RA and DPP4i users. Results: This study included 89,074 Medicare beneficiaries who initiated either GLP‐1RA (n = 30,091) or DPP4i (n = 58,983). The crude incidence rate of PD was lower among GLP‐1RA users than DPP4i users (2.85 vs. 3.92 patients per 1000 person‐years). An sIPTW‐adjusted Cox model showed that GLP‐1RA users were associated with a 23% lower risk of PD than DPP4i users (HR, 0.77; 95% CI, 0.63–0.95). Our findings were largely consistent across different subgroup analyses such as sex, race, and molecular structure of GLP‐1RA. Conclusion: Among Medicare beneficiaries with T2D, the new use of GLP‐1RAs was significantly associated with a decreased risk of PD compared to the new use of DPP4i. © 2024 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

36. Gaps and Controversies in Catatonia as a Movement Disorder.

Author

Lenka, Abhishek, Perera, Vishal M., Espay, Alberto J., Pontone, Gregory M., and Okun, Michael S.

Abstract

The term "catatonia" was introduced by German psychiatrist Karl Kahlbaum in 1874. Although historically tied to schizophrenia, catatonia exhibits a diverse range of phenotypes and has been observed in various medical and neuropsychiatric conditions. Its intrinsic movement characteristics and association with hypokinetic and hyperkinetic phenomenologies place catatonia within the purview of movement disorders. Despite the presence of catatonia in psychiatry literature for over 150 years, many gaps and controversies persist regarding its etiopathogenesis, phenomenology, diagnostic criteria, and treatment. The current versions of the International Classification of Diseases (ICD‐11) and the Diagnostic and Statistical Manual of Mental Disorders (DSM‐5) require clinicians to identify any three signs of 15 (ICD‐11) or 12 (DSM‐5) for the diagnosis of catatonia. Catalepsy and waxy flexibility are the only motor features with high specificity for the diagnosis. We highlight the gaps and controversies in catatonia as a movement disorder, emphasize the lack of a clear definition, and discuss the inconsistencies in the description of various catatonic signs. We propose the exploration of a bi‐axial classification framework similar to that used for dystonia and tremor to encourage the evaluation of underlying etiologies and to guide therapeutic decisions to improve the outcome of these patients. © 2024 International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

39. Advanced diffusion imaging to track progression in Parkinson’s disease, multiple system atrophy, and progressive supranuclear palsy

Author

Mitchell, Trina, Wilkes, Bradley J., Archer, Derek B., Chu, Winston T., Coombes, Stephen A., Lai, Song, McFarland, Nikolaus R., Okun, Michael S., Black, Mieniecia L., Herschel, Ellen, Simuni, Tanya, Comella, Cynthia, Afshari, Mitra, Xie, Tao, Li, Hong, Parrish, Todd B., Kurani, Ajay S., Corcos, Daniel M., and Vaillancourt, David E.

Published
2022
Full Text
View/download PDF

40. Physiological effects of subthalamic nucleus deep brain stimulation surgery in cervical dystonia

Author

Shukla, Aparna Wagle, Ostrem, Jill L, Vaillancourt, David E, Chen, Robert, Foote, Kelly D, and Okun, Michael S

Subjects
Biomedical and Clinical Sciences, Neurosciences, Bioengineering, Rehabilitation, Dystonia, Rare Diseases, Neurodegenerative, Assistive Technology, Clinical Research, Neurological, Adult, Aged, Case-Control Studies, Deep Brain Stimulation, Female, Humans, Male, Middle Aged, Motor Cortex, Subthalamic Nucleus, Torticollis, Transcranial Magnetic Stimulation, Young Adult, dystonia, electrical stimulation, magnetic stimulation, physiology, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Clinical sciences
Abstract

BACKGROUND:Subthalamic nucleus deep brain stimulation (STN DBS) surgery is clinically effective for treatment of cervical dystonia; however, the underlying physiology has not been examined. We used transcranial magnetic stimulation (TMS) to examine the effects of STN DBS on sensorimotor integration, sensorimotor plasticity and motor cortex excitability, which are identified as the key pathophysiological features underlying dystonia. METHODS:TMS paradigms of short latency afferent inhibition (SAI) and long latency afferent inhibition (LAI) were used to examine the sensorimotor integration. Sensorimotor plasticity was measured with paired associative stimulation paradigm, and motor cortex excitability was examined with short interval intracortical inhibition and intracortical facilitation. DBS was turned off and on to record these measures. RESULTS:STN DBS modulated SAI and LAI, which correlated well with the acute clinical improvement. While there were no changes seen in the motor cortex excitability, DBS was found to normalise the sensorimotor plasticity; however, there was no clinical correlation. CONCLUSION:Modulation of sensorimotor integration is a key contributor to clinical improvement with acute stimulation of STN. Since the motor cortex excitability did not change and the change in sensorimotor plasticity did not correlate with clinical improvement, STN DBS demonstrates restricted effects on the underlying physiology. CLINICAL TRIAL REGISTRATION:NCT01671527.

Published
2018

41. Evolving Applications, Technological Challenges and Future Opportunities in Neuromodulation: Proceedings of the Fifth Annual Deep Brain Stimulation Think Tank

Author

Ramirez-Zamora, Adolfo, Giordano, James J, Gunduz, Aysegul, Brown, Peter, Sanchez, Justin C, Foote, Kelly D, Almeida, Leonardo, Starr, Philip A, Bronte-Stewart, Helen M, Hu, Wei, McIntyre, Cameron, Goodman, Wayne, Kumsa, Doe, Grill, Warren M, Walker, Harrison C, Johnson, Matthew D, Vitek, Jerrold L, Greene, David, Rizzuto, Daniel S, Song, Dong, Berger, Theodore W, Hampson, Robert E, Deadwyler, Sam A, Hochberg, Leigh R, Schiff, Nicholas D, Stypulkowski, Paul, Worrell, Greg, Tiruvadi, Vineet, Mayberg, Helen S, Jimenez-Shahed, Joohi, Nanda, Pranav, Sheth, Sameer A, Gross, Robert E, Lempka, Scott F, Li, Luming, Deeb, Wissam, and Okun, Michael S

Subjects
Biological Psychology, Biomedical and Clinical Sciences, Neurosciences, Psychology, Brain Disorders, Parkinson's Disease, Bioengineering, Rare Diseases, Assistive Technology, Rehabilitation, Neurodegenerative, Neurological, deep brain stimulation, neuromodulation, epilepsy, Parkinson's disease, tremor, obsessive compulsive disorder, tourette syndrome, memory, Cognitive Sciences, Biological psychology
Abstract

The annual Deep Brain Stimulation (DBS) Think Tank provides a focal opportunity for a multidisciplinary ensemble of experts in the field of neuromodulation to discuss advancements and forthcoming opportunities and challenges in the field. The proceedings of the fifth Think Tank summarize progress in neuromodulation neurotechnology and techniques for the treatment of a range of neuropsychiatric conditions including Parkinson's disease, dystonia, essential tremor, Tourette syndrome, obsessive compulsive disorder, epilepsy and cognitive, and motor disorders. Each section of this overview of the meeting provides insight to the critical elements of discussion, current challenges, and identified future directions of scientific and technological development and application. The report addresses key issues in developing, and emphasizes major innovations that have occurred during the past year. Specifically, this year's meeting focused on technical developments in DBS, design considerations for DBS electrodes, improved sensors, neuronal signal processing, advancements in development and uses of responsive DBS (closed-loop systems), updates on National Institutes of Health and DARPA DBS programs of the BRAIN initiative, and neuroethical and policy issues arising in and from DBS research and applications in practice.

Published
2018

44. Optimal deep brain stimulation sites and networks for stimulation of the fornix in Alzheimer’s disease

Author

Ríos, Ana Sofía, Oxenford, Simón, Neudorfer, Clemens, Butenko, Konstantin, Li, Ningfei, Rajamani, Nanditha, Boutet, Alexandre, Elias, Gavin J. B., Germann, Jurgen, Loh, Aaron, Deeb, Wissam, Wang, Fuyixue, Setsompop, Kawin, Salvato, Bryan, Almeida, Leonardo Brito de, Foote, Kelly D., Amaral, Robert, Rosenberg, Paul B., Tang-Wai, David F., Wolk, David A., Burke, Anna D., Salloway, Stephen, Sabbagh, Marwan N., Chakravarty, M. Mallar, Smith, Gwenn S., Lyketsos, Constantine G., Okun, Michael S., Anderson, William S., Mari, Zoltan, Ponce, Francisco A., Lozano, Andres M., and Horn, Andreas

Published
2022
Full Text
View/download PDF

45. Immunophenotyping Tracks Motor Progression in Parkinson’s Disease Associated with a TH Mutation

Author

Gopinath, Adithya, primary, Ramirez-Zamora, Adolfo, additional, Franks, Stephen, additional, Riaz, Tabish, additional, Smith, Aidan, additional, Dizon, Glen, additional, Hornstein, Lauryn, additional, Follett, Jordan, additional, Swartz, Camille, additional, Bravo, Jonathan, additional, Kugelmann, E. Lee, additional, Farrer, Matthew, additional, Okun, Michael S., additional, and Khoshbouei, Habibeh, additional

Published
2024
Full Text
View/download PDF

46. Definition of Implanted Neurological Device Abandonment

Author

Okun, Michael S., primary, Marjenin, Timothy, additional, Ekanayake, Jinendra, additional, Gilbert, Frederic, additional, Doherty, Sean P., additional, Pilkington, Jack, additional, French, Jennifer, additional, Kubu, Cynthia, additional, Lázaro-Muñoz, Gabriel, additional, Denison, Timothy, additional, and Giordano, James, additional

Published
2024
Full Text
View/download PDF

50. Preface

Author

Jankovic, Joseph, primary, Hallett, Mark, additional, Okun, Michael S., additional, Comella, Cynthia, additional, and Fahn, Stanley, additional

Published
2022
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results