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Transcranial Magnetic Stimulation: Scientific Underpinnings and Practical Applications Jon Draud, MS, MD Clinical Professor of Psychiatry University of Tennessee College of Medicine Memphis, Tennessee Medical Director of Psychiatry Pain Management Group Trust Point Psychiatric Hospital St. Thomas Rutherford Hospital Medical Director and Principal Draud Sudbury Psychiatric Solutions Private Practice Adult and Adolescent Psychiatry Nashville, Tennessee

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Page 1: Transcranial Magnetic Stimulation - Amazon S3FINALs.pdf · Transcranial Magnetic Stimulation: Scientific Underpinnings and Practical Applications. Jon Draud, MS, MD. Clinical Professor

Transcranial Magnetic Stimulation:Scientific Underpinnings and Practical Applications

Jon Draud, MS, MDClinical Professor of PsychiatryUniversity of Tennessee College of MedicineMemphis, TennesseeMedical Director of PsychiatryPain Management GroupTrust Point Psychiatric Hospital St. Thomas Rutherford Hospital

Medical Director and PrincipalDraud Sudbury Psychiatric SolutionsPrivate PracticeAdult and Adolescent PsychiatryNashville, Tennessee

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Disclosure• The faculty have been informed of their responsibility to disclose to the

audience if they will be discussing off-label or investigational use(s) of drugs, products, and/or devices (any use not approved by the US Food and Drug Administration).

• Applicable CME staff have no relationships to disclose relating to the subject matter of this activity.

• This activity has been independently reviewed for balance.

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Developed in collaboration with the Clinical TMS Society.

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The Biology of Depression

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The Brain as an Electrochemical Organ• Despite the predominance of pharmaceutical agents for the treatment of

depression, the monoamine transmitters are only part of the picture of dysfunction when there is Depression

• Sophisticated forms of brain imaging—such as positron emission tomography (PET), single-photon emission computed tomography (SPECT), and functional magnetic resonance imaging (fMRI)—are permitting scientists to understand the working brain

• This technology is leading towards understanding which brain regions regulate mood. Areas such as the prefrontal cortex, cingulate cortex, amygdala, the thalamus, and the hippocampus are important in the brain illness that is depression

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Major Depression is a Brain Disease

PFC = prefrontal cortex.Mark S. George, MD. Images acquired at the National Institute of Mental Health (NIMH, Bethesda, MD), 1994.

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Higgins ES, George MS. The Neuroscience of Clinical Psychiatry: The Pathophysiology of Behavior and Mental Illness. Philadelphia, PA: Lippincott; 2007: Chapter 18

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STAR*D Study Demonstrated Decreased Remission with Each Treatment Failure

STAR*D = Sequenced Treatment Alternatives to Relieve Depression; HAM-D = Hamilton Rating Scale for Depression. Trivedi MH, et al. Am J Psychiatry. 2006;163(1):28-40. Rush AJ, et al. Am J Psychiatry. 2006;163(11):1905-1917. Fava M, et al. Am J Psychiatry. 2006;163(7):1161-1172. McGrath PJ, et al. Am J Psychiatry. 2006;163(9):1531-1541.

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STAR*D Study Demonstrated Decreased Remission with Each Treatment Failure

TMS = transcranial magnetic stimulation.Trivedi MH, et al. Am J Psychiatry. 2006;163(1):28-40. Rush AJ, et al. Am J Psychiatry. 2006;163(11):1905-1917. Fava M, et al. Am J Psychiatry. 2006;163(7):1161-1172. McGrath PJ, et al. Am J Psychiatry. 2006;163(9):1531-1541.

TMS Indicated Here

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Antidepressant Medications• Antidepressants get patients to remission about one-third of the time

• Most recent meta-analysis shows that antidepressants have an Effect Size approximately 0.311

• We understand that different medications have different mechanisms of actions that can be beneficial for some patients

• With medication combinations and the development of pharmacogenomic testing, we are likely improving these outcomes

• Unfortunately, many patients still do not respond to medications or do not tolerate the side effects associated with the medications

Cipriani A, et al. Lancet. 2018;391(10128):1357-1366.

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Typical Medication Side Effects• Increased or decreased sleep• Changes in energy and fatigue• Blurred vision• Dry mouth• Weight changes• Appetite changes• Sexual dysfunction• Vital sign changes: Blood pressure

and pulse• Gastrointestinal distress: Nausea,

vomiting, diarrhea, constipation

Stahl SM. Stahl’s Essential Psychopharmacology: Neuroscientific Basis and Practical Applications. Third Edition. New York, NY: Cambridge University Press; 2008.

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STAR*D Data Support Need for Other Treatment Options

Trivedi MH, et al. Am J Psychiatry. 2006;163(1):28-40. Fava M, et al. Am J Psychiatry. 2006;163(7):1161-1172.

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TMS is NOT ECT• TMS is not a replacement for ECT, but is a different modality and should

likely be used earlier in the course of care

• ECT is still best for MDD with psychotic features, acute suicidality, or catatonia

• Some patients who fail ECT respond to TMS and vice versa

• Head-to-head trials comparing ECT and TMS have not been completed with double-blind due to the challenge of creating “double-dummy” sham design

• “It is well established that, regardless of continuation treatment, relapse following ECT concentrates heavily in the weeks immediately following ECT termination, indicating that ECT has little intrinsic durability of benefit.”

ECT = electroconvulsive therapy; MDD = major depressive disorder.Sackeim HA. Brain Stimul. 2016;9(3):313-319.

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Transcranial Magnetic Stimulation: Mechanism of Action

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Science Behind TMS: 1831 Michael Faraday• The physical principles of

electromagnetism were discovered in 1831 by Michael Faraday, who observed that a pulse of electric current passing through wire coil generates a magnetic field

• The rate of change (flux) of this magnetic field determines the induction of a secondary current in a nearby conductor that is placed in a perpendicular plane

Faraday M. Experimental Research in Electricity. Volume 1. London: Quaritch; 1839:1-15. Barker AT. J Clin Neurophysiol. 1991;8(1):26-37. Barker AT, et al. Lancet. 1985;11(8437):1106-1107.

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TMS Physics: Faraday’s LawMagnetic Field Passes through Scalp and Skull UnimpededCortical Neurons Act as Conductors, Like Copper WirePulsed Magnetic Field Induces Current in Neurons

Faraday M. Experimental Research in Electricity. Volume 1. London: Quaritch; 1839:1-15. Barker AT. J Clin Neurophysiol. 1991;8(1):26-37. Barker AT, et al. Lancet. 1985;11(8437):1106-1107.

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TMS Directly Depolarizes Cortical Neurons to Produce an Action Potential

Sequence of Effects of TMS Pulsed Magnetic Fields: • Induces a local electric current in the

superficial cortex• Depolarizes neurons (change in charge

differential across the membrane)• Elicits an action potential (neuron fires)• Release of chemical neurotransmitters at

synapse• Propagation of signal to other brain

regions and structures

Post A, et al. J Psychiatr Res. 2001;35(4):193-215.

Neuron

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Anderson RJ, et al. Clin Neurophysiol. 2016;127(11):3394-3405.

TMS Coil

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Targeted Effects on Mood Circuits in the Brain

Kito S, et al. J Neuropsychiatry Clin Neurosci. 2008;20(1):74-80.

TMS CoilL

L

R

R

Dorsolateral prefrontal cortex

Anterior cingulate cortex

Activation of fronto-cingulate brain circuit following a course of TMS applied to the left dorsolateral prefrontal cortex in patients

with MDD

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Biological and Behavioral Effects of TMS• Effects Seen after Chronic Exposure (Repeated TMS Applications):

– Specific outcome is dependent upon stimulation parameters– Changes in blood flow and metabolism at the stimulation site– Alteration of monoamine concentrations– β-receptor, serotonin-receptor modulation– Evidence of induction of neurogenesis genes (eg, BDNF upregulation) – Plasticity-like actions (ie, LTD/LTP-like effects)– Local GABA and glutamate effects – Increase in gray matter volume and hippocampal volume – Changes in connectivity/activity of neural circuitry, eg, DLPFC-anterior

cingulate cortexBDNF = brain-derived neurotrophic factor; LTD = long-term depression; LTP = long-term potentiation; GABA = gamma-aminobutyric acid. Lisanby SH, et al. Depress Anxiety. 2000;12(3):178-187. Kim EJ, et al. Neurosci Lett. 2006;405(1-2):79-83. Shajahan PM, et al. Prog Neuropsychopharmacol Biol Psychiatry. 2002;26(5):945-954. Teneback CC, et al. J Neuropsychiatry Clin Neurosci. 1999;11(4):426-435. Epstein CM, et al. Neurology. 1990;40(4):666-670. George MS, et al. Neuroreport. 1995;6(14):1853-1856.

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Other Theory of TMS Mechanism of Action

• MDD is marked by disturbances in brain functional connectivity, thalamocortical dysrhythmia. This connectivity is modulated by rhythmic oscillations of brain electrical activity. A recent study confirmed and measured the dysrhythmias by computer models

• TMS entrains and resets thalamocortical oscillators, normalizes regulation, and facilitates re-emergence of intrinsic cerebral rhythms, and through this mechanism of action restores normal brain function

Vanneste S, et al. Nat Commun. 2018;9(1):1103. Leuchter AF, et al. Front Hum Neurosci. 2013;7:37.

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Transcranial Magnetic Stimulation: what to expect from treatment

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Brand names are included in this slide for participant clarification purposes only. No product promotion should be inferred.

NeuroStar TMS Therapy® System

MagstimTMS System

Nexstim® TMS Device

Cloud TMS™NeuoSoft System

Brainsway® TMS Device

Magventure MagVitaTMS Therapy® System

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TMS Therapy Session• Patient is awake and alert

– No anesthesia or sedation needed

• No negative effects on thinking and memory– After treatment, patients can

drive or return to work • Some patients experience

headache or mild to moderate pain or discomfort at or near the treatment area

• None of the side effects typical with antidepressant medications

TMS Coil

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TMS: Contraindications• Only absolute contraindication is non-removable metallic objects in or around

the head– Conductive, ferromagnetic, or other magnetic sensitive metals that are

implanted or are non-removable within 30 cm of figure-8 treatment coil

• Other concerns– Implanted electrodes/stimulators– Deep brain stimulator– Aneurysm clips or coils– Cochlear implants– Intracranial stents– Bullet or other metal fragments– Vagus nerve stimulators (per package insert vs practical implementation)

Hadley D, et al. J ECT. 2011;27(1):18-25. Philip NS, et al. Brain Stimul. 2014;7(4):608-612. Schrader LM, et al. Clin Neurophysiol. 2005;116(10):2501-2504.

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TMS Therapy is a Well-Tolerated Antidepressant: list of most common adverse events with all coils (incidence > 5%)

510(k) applications for Neuronetics and Brainsway devices.

TMS Side Effects:

Scalp/head pain at treatment site

Headache

No Systemic Side Effects:

Weight gain Nausea Dry mouth Weight loss Nervousness/anxiety Sweating

Appetite changes Sexual side effects Tremor

Constipation Impotence FatigueDiarrhea Weakness Treatment

discontinuation symptoms

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Time Course for Most Common Adverse Events with Figure-8 TMS Coil

Janicak PG, et al. J Clin Psychiatry. 2008;69(2):222-232.

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Serious Adverse Events That Have Been Studied

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Hearing Loss• Small proportion of adult humans have experienced transient increases in

auditory thresholds• Permanent threshold shift in single patient who did not wear ear plugs and

stimulated with H-coil• Majority of studies where hearing protection was used report no change in

hearing after TMS• Recommendations:

– Patients and TMS technicians are required to use ear plugs that meet a minimum standard of 30 dB protection

Loo C, et al. Biol Psychiatry. 2001;49(7):615-623. Zangen A, et al. Clin Neurophysiol. 2005;116(4):775-9. Folmer RL, et al. Acta OtolaryngolSuppl. 2006;(556):96-101. Rossi S, et al. J Neurol Neurosurg Psychiatry. 2007;78(8):857-863. Janicak PG, et al. J Clin Psychiatry. 2008;69(2):222-232.

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Treatment-Emergent Mania• Study reviewed 10 of 53 TMS studies involving both patients with depression

and bipolar disorder– Early pooled data reported treatment-emergent mania was 0.84% for

active treatment group and 0.73% for sham group– This difference was not statistically different– The switch rate for unipolar patients was 0.34%– The switch rate for bipolar patients was 3.1%

Xia G, et al. Int J Neuropsychopharmacol. 2008;11(1):119-130.

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Emergence of Suicidal Ideation: Multicenter Study

• Treatment-emergent disease exacerbation– Population with increased severity of clinical condition– Most commonly reported event

• 1.9% with sham; 0.6% active TMS• One non-lethal overdose in sham treatment group

Janicak PG, et al. J Clin Psychiatry. 2008;69(2):222-232.

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TMS and Seizures• Seizure is the most serious side effect associated with TMS. The

risk of seizures is 0.1% per treatment course.

Sack AT, et al. Brain Res Brain Res Rev. 2003;43(1):41-56. Dumontheil I. Dev Cogn Neurosci. 2014;10:57-76.

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TMS and Seizures (cont’d)

• Most cases associated with TMS were prior to the publication of the TMS safety guidelines in 1998

• Considering the large number of healthy individuals and patients who have undergone TMS sessions since 1998 and the small number of seizures reported, the risk of TMS to induce seizures could be considered very low

• The risk is less than or comparable to risk of seizure associated with antidepressant medications

Wassermann EM. Electroencephalogr Clin Neurophysiol. 1998;108(1):1-16. George MS, et al. Curr Opin Psychiatry. 2013;26(1):13-18.

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Transcranial Magnetic Stimulation: what to expect from treatment

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Large-Scale Randomized Controlled Trials• 4 large-scale studies (sample sizes > 100); 3 studies – patients off

medications and 1 study – patients on medications concurrently– 2 large multicenter industry supported trials that lead to FDA

approval for 2 devices– NIH-funded study with dosage parameters similar to those in

the industry-sponsored study, but with sham design enhancements

– European study of the augmentation effects of TMS when used in combination with pharmacotherapy

O’Reardon JP, et al. Biol Psychiatry. 2007;62(11):1208-1216. Levkovitz Y, et al. World Psychiatry. 2015;14(1):64-73. George MS, et al. Arch Gen Psychiatry. 2010;67(5):507-516. Herwig U, et al. Br J Psychiatry. 2007;191:441-448.

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Evidence for Efficacy of TMS for MDD• 30+ clinical trials in adults• Numerous meta-analyses• Greater effects in more recent

studies– Longer duration of treatment – Increase intensity – Increase pulse number

• Most recent – 34 individual trials– 1383 patients – TMS more effective than sham

TMS– Large effect size = 0.55.

Slotema CW, et al. J Clin Psychiatry. 2010;71(7):873-884.

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Multisite Naturalistic Observational Study of TMS for MDD: Acute Treatment Outcomes and 1-Year Follow-Up

Carpenter LL, et al. Depress Anxiety. 2012;29(7):587-596. Dunner DL, et al. J Clin Psychiatry. 2014;75(12):1394-1401.

Study Goal: Define real world outcomes associated with TMS Therapy across a broad spectrum of patients and

practitioners

42 Sites: Comprised of institutions and private

practice

307 Patients: Unipolar, non-psychotic MDD patients in

acute phase

Acute Phase Long-term OutcomesTreatment course driven by

patient clinical response Measured at 3, 6, 9, and 12 months

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Study Patients Had Significant Morbidity

Carpenter LL, et al. Depress Anxiety. 2012;29(7):587-596.

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Comparison of End of Acute Treatment Clinical Status: Clinician- and Patient-Assessed Outcomes

CGI = Clinical Global Impressions; PHQ-9 = 9-Item Patient Health Questionnaire; LOCF = last observation carried forward.Carpenter LL, et al. Depress Anxiety. 2012;29(7):587-596.

58.0%

01020304050607080

Baseline End of Treatment

56.4%

01020304050607080

Baseline End ofTreatment

Clinician Rating(CGI-Severity of Illness)

Patient Rating(PHQ-9 Scale)

LOCF Analysis of intent-to-treat populationMarkedly ill or worse Moderately ill Mildly ill or better

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Remission is Possible with TMS Therapy: 1 in 2 Patients Respond, 1 in 3 Achieve Remission

Carpenter LL, et al. Depress Anxiety. 2012;29(7):587-596. Avery DH, et al. J Clin Psychiatry. 2008;69(3):441-451. George MS, et al. Arch Gen Psychiatry. 2010;67(5):507-516.

58.0% 56.4%

37.1%28.7%

0

10

20

30

40

50

60

70Pe

rcen

t of P

atie

nts

(N=3

07)

Responders (CGI-S ≤ 3, PHQ-9 < 10) Remitters (CGI-S ≤ 2, PHQ-9 < 5)

LOCF Analysis of Intention-to-Treat Population

Clinician Rating(CGI-Severity of Illness)

Patient Rating(PHQ-9 Scale)

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Long-Term Phase Results (12 Months)

Outcomes measured 1 year following acute treatment

• Physician directed standard of care• 36.2% of patients received TMS

reintroduction• Average # of TMS treatment days

during year = 16

Dunner DL, et al. J Clin Psychiatry. 2014;75(12):1394-1401.

44%

0

10

20

30

40

50

60

70

Perc

ent o

f Pat

ient

sN

=257

Clinician Rating(CGI-Severity of Illness)

Patient Rating(PHQ-9 Scale)

Responders (CGI-S ≤3, PHQ-9 <10) Remitters (CGI-S ≤2, PHQ-9 <5)

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Why are Real World Results Better than Clinical Trial Results?

• Combination Strategies– Well-tolerated with many

medications• Psychotherapy• Engagement in Life

– Intensive Outpatient Program• Routine• Interaction• Engaging with People who

Care

Rossi S, et al. J Neurol Neurosurg Psychiatry. 2007;78(8):857-863. Arns M, et al. Brain Stimul. 2012;5(4):569-576.

Bio

Psychological Social

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Maintenance TMS• No approved maintenance protocol• TMS is consistently effective for recapturing prior level of response when

introduced in the face of symptom relapse“It is notable that … TMS reintroduction was successful in rescuing most patients with threshold deterioration and returning them to their prior level of depressive symptom relief.”Important observation given:• There’s a chronic and relapsing nature of pharmacoresistant major

depression• Absence of definitive data suggesting that retreatment with previously

effective medications is capable of doing the sameThe results provide support for long-term treatment strategy that incorporates retreatment with TMS for patients who showed positive response to an initial acute course.

Philip NS, et al. Brain Stimul. 2016;9(2):251-257.

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Who may be candidates for TMS?

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Why Do We Need to Consider TMS as a Treatment Option?

• Depression is a common mental disorder. Globally, more than 300 million people of all ages suffer from depression

• Depression is the leading cause of disability worldwide, and is a major contributor to the global burden of disease

• Approximately 50% of individuals diagnosed, seek help• More than 30% do NOT receive adequate treatment from

medication or psychotherapy; they need options!

World Health Organization. March 22, 2018. www.who.int/news-room/fact-sheets/detail/depression. Accessed June 15, 2018.

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Who is Right for TMS?

McIntyre RS, et al. J Clin Psychiatry. 2017;78(6):703-713.

Indicated for:• TMS is indicated for the treatment of MDD in adult patients who

have failed to receive satisfactory improvement from prior antidepressant medications at or above the minimal effective dose and duration in the current episode

Best Practices:• In recurrent episode• Multiple medication attempts, yet still symptomatic• Prescribed a complex drug regimen • Experience frequent side effects from medication

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TMS Insurance Coverage• TMS has coverage in every state for MDD

• Covered by all major private insurance companies

• Covered by Medicare in every state

• Coverage policies vary, but most typically require a failure of 3 to 6 antidepressant medications from different classes and Psychotherapy

Over 300 Million Covered Lives

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Conclusion• TMS is a focal non-invasive form of brain stimulation based on

principles of electromagnetic induction of current that has been well-established for nearly 200 years

• TMS is a safe and effective treatment of moderate to severe MDD and research supporting its efficacy in treatment of other mental and neurological disorders

• TMS is well-tolerated and without risks of systemic side effects• TMS should be considered a treatment option for patients with

MDD who do not benefit sufficiently from antidepressant medications

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Where to Learn MoreTextbooks • George MS, Belmaker RH. Transcranial Magnetic Stimulation in Clinical

Psychiatry. Arlington, VA: American Psychiatric Publishing, Inc.; 2007.• Bermudes RA, et al (Eds). Transcranial Magnetic Stimulation: Clinical

Applications for Psychiatric Practice. Arlington, VA: American Psychiatric Publishing, Inc.; 2018.

Consensus Statements • McClintock SM, et al. Consensus Recommendations for the Clinical Application

of Repetitive Transcranial Magnetic Stimulation (rTMS) in the Treatment of Depression. J Clin Psychiatry. 2018 Jan/Feb;79(1).

• Perera T, et al. The Clinical TMS Society Consensus Review and Treatment Recommendations for TMS Therapy for Major Depressive Disorder. Brain Stimul. 2016;9(3):336-346.

• Lefaucheur JP, et al. Evidence-based guidelines on the therapeutic use of repetitive transcranial magnetic stimulation (rTMS). Clin Neurophysiol. 2014;125(11):2150-2206.

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Educational CoursesUniversity-based training courses• Medical University of South Carolina• Berenson-Allen Center for Noninvasive Stimulation• Duke University Medical Center