Local Coverage Determination (LCD)

Transcranial Magnetic Stimulation (TMS)

L37088

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Contractor Information

Contractor Name	Contract Type	Contract Number	Jurisdiction	States
Noridian Healthcare Solutions, LLC	A and B MAC	02101 - MAC A	J - F	Alaska
Noridian Healthcare Solutions, LLC	A and B MAC	02102 - MAC B	J - F	Alaska
Noridian Healthcare Solutions, LLC	A and B MAC	02201 - MAC A	J - F	Idaho
Noridian Healthcare Solutions, LLC	A and B MAC	02202 - MAC B	J - F	Idaho
Noridian Healthcare Solutions, LLC	A and B MAC	02301 - MAC A	J - F	Oregon
Noridian Healthcare Solutions, LLC	A and B MAC	02302 - MAC B	J - F	Oregon
Noridian Healthcare Solutions, LLC	A and B MAC	02401 - MAC A	J - F	Washington
Noridian Healthcare Solutions, LLC	A and B MAC	02402 - MAC B	J - F	Washington
Noridian Healthcare Solutions, LLC	A and B MAC	03101 - MAC A	J - F	Arizona
Noridian Healthcare Solutions, LLC	A and B MAC	03102 - MAC B	J - F	Arizona
Noridian Healthcare Solutions, LLC	A and B MAC	03201 - MAC A	J - F	Montana
Noridian Healthcare Solutions, LLC	A and B MAC	03202 - MAC B	J - F	Montana
Noridian Healthcare Solutions, LLC	A and B MAC	03301 - MAC A	J - F	North Dakota
Noridian Healthcare Solutions, LLC	A and B MAC	03302 - MAC B	J - F	North Dakota
Noridian Healthcare Solutions, LLC	A and B MAC	03401 - MAC A	J - F	South Dakota
Noridian Healthcare Solutions, LLC	A and B MAC	03402 - MAC B	J - F	South Dakota
Noridian Healthcare Solutions, LLC	A and B MAC	03501 - MAC A	J - F	Utah
Noridian Healthcare Solutions, LLC	A and B MAC	03502 - MAC B	J - F	Utah
Noridian Healthcare Solutions, LLC	A and B MAC	03601 - MAC A	J - F	Wyoming
Noridian Healthcare Solutions, LLC	A and B MAC	03602 - MAC B	J - F	Wyoming

LCD Information

Document Information

LCD ID
L37088

LCD Title
Transcranial Magnetic Stimulation (TMS)

Proposed LCD in Comment Period
N/A

Source Proposed LCD
DL37088

Original Effective Date
For services performed on or after 05/14/2018

Revision Effective Date
For services performed on or after 08/20/2023

Revision Ending Date
N/A

Retirement Date
N/A

Notice Period Start Date
07/06/2023

Notice Period End Date
08/19/2023

AMA CPT / ADA CDT / AHA NUBC Copyright Statement

Fee schedules, relative value units, conversion factors and/or related components are not assigned by the AMA, are not part of CPT, and the AMA is not recommending their use. The AMA does not directly or indirectly practice medicine or dispense medical services. The AMA assumes no liability for data contained or not contained herein.

Copyright © 2023, the American Hospital Association, Chicago, Illinois. Reproduced with permission. No portion of the American Hospital Association (AHA) copyrighted materials contained within this publication may be copied without the express written consent of the AHA. AHA copyrighted materials including the UB‐04 codes and descriptions may not be removed, copied, or utilized within any software, product, service, solution or derivative work without the written consent of the AHA. If an entity wishes to utilize any AHA materials, please contact the AHA at 312‐893‐6816.

Making copies or utilizing the content of the UB‐04 Manual, including the codes and/or descriptions, for internal purposes, resale and/or to be used in any product or publication; creating any modified or derivative work of the UB‐04 Manual and/or codes and descriptions; and/or making any commercial use of UB‐04 Manual or any portion thereof, including the codes and/or descriptions, is only authorized with an express license from the American Hospital Association. The American Hospital Association (the "AHA") has not reviewed, and is not responsible for, the completeness or accuracy of any information contained in this material, nor was the AHA or any of its affiliates, involved in the preparation of this material, or the analysis of information provided in the material. The views and/or positions presented in the material do not necessarily represent the views of the AHA. CMS and its products and services are not endorsed by the AHA or any of its affiliates.

Issue

Issue Description

Title and verbiage changes in LCD and article were made to be in sync with other MACs.

CMS National Coverage Policy

Title XVIII of the Social Security Act (SSA) §1862(a)(1)(A). This section allows coverage and payment for only those services that are considered to be medically reasonable and necessary.

Social Security Act:

1862 (a) (1)(A) Medically Reasonable & Necessary

1862 (a) (1)(D) & (E) Investigational or Experimental

Coverage Guidance

Coverage Indications, Limitations, and/or Medical Necessity

Transcranial Magnetic Stimulation (TMS) is a non-invasive method of brain stimulation. The technique involves placement of a small electromagnetic coil over the scalp and applying a rapidly alternating current through the coil wire which produces a magnetic field that passes unimpeded through the brain. Depending on stimulation parameters (frequency, intensity, pulse duration, stimulation site), repetitive TMS (rTMS) to specific cortical regions can either increase or decrease the excitability of the affected brain structures. The procedure is usually carried out in an outpatient setting and does not require anesthesia or analgesia.

When used as an antidepressant therapy, TMS produces a clinical benefit without the systemic side effects attendant with standard oral medications. TMS does not have adverse effects on cognition. Unlike electroconvulsive therapy (ECT), rTMS does not induce amnesia or seizures.

Indications for Coverage

TMS may be covered if prescribed and administered by a licensed physician under direct supervision who is trained and experienced in the use of repetitive transcranial magnetic stimulation. Outpatient rTMS may be indicated for patients with DSM-IV defined Major Depressive Disorder who have failed to benefit from initial treatment of their depression.

Initial Treatment

Left Prefrontal rTMS of the brain is considered medically necessary for use in an adult who has a confirmed diagnosis of severe major depressive disorder (MDD) single or recurrent episode; and

One or more of the following:

Resistance to treatment with psychopharmacologic agents as evidenced by a lack of a clinically significant response to one trial of psychopharmacologic agents in the current depressive episode from at least two different agent classes. Each agent in the treatment trial must have been administered at an adequate course of mono- or poly- drug therapy; or
Inability to tolerate psychopharmacologic agents as evidenced by two trials of psychopharmacologic agents from at least two different agent classes, with distinct side effects; or
History of response to rTMS in a previous depressive episode; or
If patient is currently receiving electro-convulsive therapy, rTMS may be considered reasonable and necessary as a less invasive treatment option.

AND

A trial of an evidence-based psychotherapy known to be effective in the treatment of MDD of an adequate frequency and duration without significant improvement in depressive symptoms as documented by standardized rating scales that reliably measure depressive symptoms.

AND

The order for treatment (or retreatment) is written by a psychiatrist (MD or DO) who has examined the patient and reviewed the record. The physician will have experience in administering TMS therapy. The treatment shall be given under direct supervision of this physician (physician present in the area but does not necessarily personally provide the treatment).

Coverage Limitations

The benefits of TMS use must be carefully considered against the risk of potential side effects in patients with any of the following:

Seizure disorder or any history of seizures (except those induced by ECT or isolated febrile seizures in infancy without subsequent treatment or recurrence); or
Presence of acute or chronic psychotic symptoms or disorders (such as schizophrenia, schizophreniform or schizoaffective disorder) in the current depressive episode; or
Neurological conditions that include epilepsy, cerebrovascular disease, dementia, increased intracranial pressure, history of repetitive or severe head trauma, or primary or secondary tumors in the central nervous system, or
Presence of an implanted magnetic-sensitive medical device located less than or equal to 30 cm from the TMS magnetic coil or other implanted metal items including, but not limited to a cochlear implant, implanted cardiac defibrillator (ICD), pacemaker, Vagus nerve stimulator (VNS), or metal aneurysm clips or coils, staples or stents. (Dental amalgam fillings are not affected by the magnetic field and are acceptable for use with TMS).

All other uses of Transcranial Magnetic Stimulation are considered experimental or investigational and are not allowed reimbursement per Statute XVIII, 1862 (a) (1)(D) & (E).

Retreatment

Retreatment may be considered for patients who met the guidelines for initial treatment and subsequently developed relapse of depressive symptoms if the patient responded to prior treatments as evidenced by a greater than 50% improvement in standard rating scale measurements for depressive symptoms.

All other uses of TMS therapy are considered investigational or experimental and remain non-covered services.

Summary of Evidence

Summary of Evidence for Transcranial Magnetic Stimulation (TMS) for the Treatment of Obsessive-Compulsive Disorder (OCD)

Background

Transcranial Magnetic Stimulation (TMS) is a non-invasive treatment that uses pulsed magnetic fields to induce an electric current in a localized region of the cerebral cortex. An electromagnetic coil placed on the scalp induces focal, patterned current in the brain that temporarily modulates cerebral cortical function. Capacitor discharge provides electrical current in alternating on/off pulses. Stimulation parameters may be adjusted to alter the excitability of the targeted structures in specific cortical regions. TMS parameters include cranial location, stimulation frequency, pattern, duration, intensity, and the state of the brain under the coil.¹

Systematic Review/Meta-Analysis

A number of SR/MA^2-16conclude rTMS demonstrates a range from none to modest effect on the reduction of OCD symptoms but further research is required to determine optimal frequency, total pulses per session, and duration of treatment.

Two recent meta-analyses reviewed rTMS for the treatment of OCD. Ma et al¹² reviewed nine randomized controlled trials (RCTs) with 290 subjects with OCD. Most were selective serotonin reuptake inhibitor (SSRI) resistant. Using undescribed random assignment, 154 were in the active rTMS group and 136 to sham rTMS group. Primary outcome was Yale-Brown Obsessive Compulsive Scale (Y-BOCS) scores and secondary outcome was response rate determined by the RCT’s definition. Study size ranged from 18 to 65. The Y-BOCSs showed improvement when rTMS was added to treatment with medication. There were nine subjects in two studies that did not have SSRI-resistant OCD, but the improvement continued to be shown when these RCTs were excluded from the Y-BCOS analysis. Actual Y-BCOS scores were not provided. It was noted that the active rTMS patients had higher baseline Y-BOSC scores, but numbers were not provided. Response rates were available for eight of the nine trials. Fifty-five of 139 active patients (39.6%) and 27 of the 122 sham patients (22.1%) responded. There was no difference in the drop-out rate between the active 8/207 (3.8%) and sham 7/94 (7.4%) subjects. Mean duration of rTMS treatment was 3.8 weeks with a range of two to six weeks. A sub-group analysis suggested treatment effects were larger at ‘two- and six- weeks’ duration, but lack of data in most of the included studies at four weeks’ length may preclude accurate assessment. Additional limitations include stimulus parameters and follow-up data was not reported. The authors noted that future large–scale studies are needed to assess the long-term effect of rTMS as augmentation and mono-therapy for OCD. No conflicts of interest were reported.

Rehn et al¹³ conducted a systematic review and meta-analysis of rTMS used to treat OCD and focused on whether certain TMS parameters were associated with higher treatment effectiveness. Eighteen RCTs were included, six of which were also included in the Ma et al. study.¹² Selected studies had patients ages 18-75 years with DSM-IV diagnosis of OCD; had randomized rTMS or sham treatment with either single- or double-blinding or parallel or cross-over design; more than five OCD subjects per arm; low-frequency (LF)(</= 1 Hz) or high-frequency (HF)-rTMS (>/=5 Hz) for >/= 5 sessions either as mono- or augmentation strategy; and pre- and post- reporting of Y-BOCS scores. Studies were excluded if patients were starting a new medication at the same time of rTMS. Total number of subjects was 484 with 262 receiving active rTMS and 222 sham rTMS. Study size ranged from 18 to 46. All trials used rTMS as an augmentation therapy with most of the patients having some degree of treatment resistance. The last Y-BOCS measurement obtained was used as the post-treatment score. Pre-and post-treatment Y-BOCS were available from each of the 18 studies, but the actual scores were not provided. Overall, active rTMS was significantly superior to sham rTMS. Cortical targets over the bilateral dorsolateral prefrontal cortex (B-DLPFC), right dorsolateral prefrontal cortex (R-DLPFC), and the supplementary motor area (SMA) yielded significantly superior Y-BOCS scores over sham treatments. Active rTMS directed at the L-DLPFC was not significantly improved over sham rTMS. Six trials had Y-BOCS scores at four weeks or less post-treatment and three had scores 12 weeks post-treatment. Improvements in scores were maintained. The authors stated that the clinical utility of rTMS in the treatment of OCD requires further investigation to discern the most optimal stimulation parameters. No conflicts of interest were reported.

Lusicic et al¹⁷ performed a systematic review on the effect of rTMS and dTMS on different brain targets in OCD. Twenty studies met inclusion criteria with 19 using rTMS and one dTMS. All but one of the rTMS trials are included in the meta-analyses described above. Included brain areas were the dorsolateral prefrontal cortex (DLPFC), supplementary motor area (SMA), orbitofrontal/medial prefrontal cortex (OFC), and anterior cingulate cortex (ACC). Frequency stimulation was low (1 Hz) or high (>/=5 Hz). Treatment duration varied from two to six weeks with follow-up ranging from none to three months. Of 16 studies evaluated, nine had Y-BOCS score reductions with rTMS versus sham while eight showed no significant difference. The authors concluded treatment of OCD with neurostimulation shows promise, but it is yet to be determined how best to optimize the approach using rTMS or dTMS to achieve clinically relevant results.

Randomized Control Trials

RCTs comprised of thirty or fewer subjects were not included in this summary.

Carmi¹⁸ studied forty-one OCD patients who had failed two SRI trials plus cognitive behavioral therapy (CBT). Baseline clinical and electrophysiological measurements, a five-week treatment, and a one-month follow-up were reported. The medial prefrontal cortex (mPFC) and the anterior cruciate cortex (ACC) were targeted. Entrance criteria included an age range of 18-65 years old; a DSM-IV diagnosis of OCD; a score of >/=20 on the Y-BOCS; stable SSRI medications for eight weeks prior to enrollment and unchanged during treatment; and CBT at maintenance phase (if conducted). Exclusion criteria included any other Axis-I psychopathology or a current depressive episode. Randomization to treatment with 1 Hz (LF), 20 Hz (HF) or sham occurred using a computer program. Treatment occurred five times per week for five weeks. Primary and secondary outcomes were Y-BOCS and Clinical Global Impressions of Severity (CGI-S) which were obtained pre-treatment, prior to the second treatment session in weeks two to four, prior to the last treatment session (post-treatment) and at one-week and one-month follow-up beginning with an exposure to personalized obsessive-compulsive cues.

Electroencephalograms (EEGs) during a Stroop task were performed at pre- and post-treatment time-points and analyzed by the condition (congruent or non-congruent) and whether the response was correct or a mistake. Most of the mistakes (93%) were made under incongruent conditions. Individuals who made more than 90% mistakes were excluded from analysis (2 HF and 3 sham). Error-related negativity (ERN) showed an increase in the HF group and a decrease in the sham group with treatment. (An ERN occurs when an individual makes a behavioral error.)

The baseline characteristics of the three groups did not differ. Three of the forty-one participants dropped out, one in the sham group due to schedule conflicts and two from the HF group due to inconvenience. No adverse events occurred beyond headache in three from the HF group and one from sham. Asked to guess the group to which they were assigned, 75% of the LF, 88% of the HF, and 86% indicated they did not know. An interim analysis revealed a near significant effect for HF but not LF. Although no trend was reported in the group and two of the eight had a worsening Y-BOCS score the LF arm of the study was omitted. Completion by 16 HF and 14 sham participants occurred. The percent change in Y-BOCS scores was significant at weeks four and five and a higher proportion of the HF group compared to the sham group (7/16 vs 1/14) reached the predefined response rate (30%) after five weeks. Using the more restrictive criterion of 35%, 5/16 HF and 1/14 sham individuals achieved the higher rate. Significant differences at one week occurred but not at one month follow-up. Similarly, the CGI-I results were significant after treatment and one week but not at four weeks.

The authors concluded the study showed the treatment was safe and effective immediately after treatment but not significant four weeks later. Limitations were noted to be that the study was considered as a pilot and had a small number of subjects; the provocation was not controlled, and the number of pulses differed for the HF and LF groups. A need for further studies was noted. A financial disclosure noted one of the authors is a co-inventor of the TMS H-coils, serves as a consultant for, and has financial interests in Brainsway and the study was partially supported by Brainsway, which produces the deep TMS H-coil systems.

A second study by Carmi et al¹⁹ was a prospective multicenter randomized double-blind placebo-controlled trial following the pilot described immediately above. One hundred patients with OCD and Y-BOCS score >/= 20 between the ages of 22-68 receiving treatment in an outpatient setting were recruited. Subjects were on a therapeutic dosage of a serotonin uptake inhibitor (SRI) for at least two months with limited response; or if not on an SRI, in CBT maintenance therapy with failure to respond adequately. Medications to treat depression were allowed but could not be changed for at least two months before enrollment. Exclusion criteria were any primary axis I disorder other than OCD, severe neurological impairment, and any condition associated with an increased risk for seizures. Patients were randomized 1:1 into an active dTMS or sham group. A three-to-five-minute individualized symptom provocation occurred before each treatment session. The medial prefrontal cortex and anterior cingulate cortex were targeted with 20 Hz dTMS. Patients, operators, and raters were blinded to treatment group. Subjects were queried regarding the group to which they had been assigned after the first treatment with 66% of the active and 69% of the sham group giving an incorrect answer. The treatment phase lasted six weeks with one day for assessment and had three phases – a three-week screening phase, a six-week treatment of five treatments per week, and a four-week follow-up phase.

The primary outcome measure was a change in Y-BOCS score from baseline to post-treatment. A full response was defined as a >/=30% reduction and a partial response as >/=20%. At six weeks post-treatment, the Y-BOCS score significantly decreased in each group with the treatment group considered to have a statistically significant slope of change. At four weeks post-treatment, the treatment group had a statistically significant change in full response but not in the partial response rate. Clinical Global Impression Severity scales (CGI-S) and a modified version of the improvement scale (CGS-I) measurements were made post-treatment. The CGI-I scores were divided into improved (moderately to very much improved) and not improved (minimally to not improved). The active group had 20/41 (49%) compared to 9/43 (21%) reporting feeling moderate to “very much improved’ (P=0.011). The CGS-S scores also showed a significant difference in the treatment group post-treatment. No significant differences between groups were found for the Sheehan Disability Scale or the Hamilton Depression Rating Scale (HAM-D) scores. The drop-out rate was around 12% for each group (6/48 and 6/51). Adverse event rates did not differ between groups. One patient reported suicidal ideation (which was unreported and present before study entry) requiring inpatient treatment after two active dTMS treatments.

Limitations noted by the authors were that the provocations were uncontrolled and functional brain imaging of the mPFC and ACC was not performed. A different mechanism for dTMS compared to pharmaceuticals and CBT was suggested as well as the need to determine which patients might respond to dTMS. Further studies were recommended. Twelve of the fourteen authors reported some financial relationship with Brainsway.

Elbeh et al²⁰ performed a double-blind randomized trial to evaluate the impact of different frequencies of rTMS over right dorsolateral prefrontal cortex (DLPFC) in OCD. 45 subjects with OCD were enrolled and evaluated using: Yale-Brown obsessive-compulsive scale (Y-BOCS), Hamilton Anxiety Rating Scale (HAM-A), and Clinical Global Impression-Severity scale (CGI-S). They were randomized into one of three groups: 1st group received 1 Hz rTMS; 2nd group received 10 Hz rTMS; and 3rd group received sham stimulation all at 100% of the resting motor threshold for 10 sessions. Follow up assessment were after the final treatment and three months later. The group receiving 1 Hz versus 10 Hz groups showed a significant improvement in Y-BOCS and HAM-A scores (P<0.001 and 0.0001 respectively) and significantly larger percentage change in GCI-S, as well as greater clinical benefit than the 10 Hz. The authors conclude that 1 Hz-rTMS, targeting right DLPFC is a promising tool for treatment of OCD.

Dutta et al²¹ conducted a randomized placebo-controlled study to evaluate the effect of novel continuous Theta Burst Stimulation (cTBS) targeting OFC in OCD subjects. Thirty-three patients were randomly allocated to active cTBS (n= 18) or sham (n= 15). Each subject received 10 TBS sessions, 2 per day (total of 1200 pulses: intensive protocol) for 5 days in a week. The Y-BOCS, HAM-D, HAM-A, CGI-S scores were assessed at baseline, after last session and at 2 weeks post-rTMS. They reportedd a significant improvement from pretreatment to two weeks post TBS for obsessions, compulsions, HAM-A, HAM-D, and CGI scores, but when controlled for confounding variables, only HAM-A scores and CGI retained statistical significance. The authors conclude that intensive OFC cTBS (iOFcTBS) in OCD results in clinically significant improvements in anxiety symptoms and global severity, while acknowledging that improvement in anxiety symptoms could be due to “modulations of state dependent dysregulation in OCD.”

Badawy et al²² reported on 60 OCD patients to evaluate rTMS as monotherapy vs. add-on treatment in patients with poor response to SSRIs. Of 40 un-medicated patients, 20 received sham treatment and 20 TMS. An additional 20 patients with poor response to SSRI received rTMS. With two-to-four-week follow-up they found TMS was not effective as monotherapy but was useful as add-on therapy. Study was limited by lack of control for the poor responder group, short follow-up, and small sample size. The authors conclude further studies regarding the site of stimulation, frequency and rate of stimulation, and the number of sessions is needed.

Society Guidance/Technology Analysis

NICE Guidance²³-Transcranial magnetic stimulation for obsessive-compulsive disorder. Recommendations conclude that evidence on the safety of transcranial magnetic stimulation for obsessive-compulsive disorder raises no major safety concerns. However, evidence on its efficacy is inadequate in quantity and quality. Therefore, this procedure should only be used in the context of research.
UpToDate²⁴ - Technique for performing transcranial magnetic stimulation (TMS) mentions for use in patients with major depression. There was no mention of TMS for OCD.
ECRI²⁵- Transcranial Magnetic Stimulation for Treating Adults with Obsessive-compulsive Disorder executive summary evidence was inconclusive based on too few data on outcomes of interest.

Contractor advisory committee (CAC) Meeting Summary

WPS co-hosted a CAC Meeting with multiple other contractors on 9/29/2021. The panelist reviewed the literature that was submitted as part of an LCD reconsideration request to expand the policy to include coverage for OCD. The panel shared the lack of good treatment options for refractory OCD and a priority to develop new and effective treatments. The literature was reviewed and noted to be challenged by small sample sizes, high risk of bias, many studies with lower quality study design (lack of control arm/blinding), short follow-up (4-5 weeks for most studies) with lack of long-term outcome data, and lack of real-world application of the technology. There was a discussion of risk of co-morbid depression and OCD and different coil locations with some potential overlap so brought up the potential impact of treatment for both conditions. One paper reviewed low vs. high frequency showing improvement with high frequency but not low. Another challenge addressed was which region of the brain should be targeted for OCD as the studies varied in the location treated. The panelist felt that there was not clarity regarding the degree of improvement in scores would result in meaningful clinical improvement, but even small change would be significant in refractory OCD. In the study on predictors to response the panel did consider the secondary analysis that those with more severe disease had greater response to treatment. Overall, the panel felt there was potential improvement for OCD with TMS and it appears to be safe, but limitations in literature are substantial as described.

Analysis of Evidence (Rationale for Determination)

The existing literature reporting on TMS for management of OCD is low quality. Limitations include small sample sizes, high risk of bias, lack of high-quality studies and long-term follow-up, and inconsistent results. Studies do suggest a low risk associated with treatment; however long-term data is lacking. There is a trend towards benefit in the meta-analysis and in the randomized control trial suggesting there may be a role in refractory OCD. However, many questions remain in terms of the efficacy, location that the device should be applied, the frequency that should be used, how often treatment should be given and over what duration. For a treatment to be considered medically reasonable and necessary per 1862(a)(1)(A) of The Act²⁶ the treatment must be appropriate, including duration and frequency furnished in accordance with accepted standards of medical practice for the condition. Noridian determines that the existing evidence and lack of accepted standards of medical practice for dTMS for OCD does not meet the requirement of medically reasonable and necessary. Noridian will continue to monitor scientific developments and may adjust this coverage policy in accordance.

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Bibliography

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Liang K, Li H, Bu X, et al. Efficacy and tolerability of repetitive transcranial magnetic stimulation for the treatment of obsessive-compulsive disorder in adults: a systematic review and network meta-analysis. Transl Psychiatry. 2021;11(1):332.
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Ma ZR, Shi LJ. Repetitive transcranial magnetic stimulation (rTMS) augmentation of selective serotonin reuptake inhibitors (SSRIs) for SSRI-resistant obsessive-compulsive disorder (OCD): a meta-analysis of randomized controlled trials. Int J Clin Exp Med. 2014;7(12):4897-4905.
Rehn S, Eslick GD, Brakoulias V. A Meta-Analysis of the Effectiveness of Different Cortical Targets Used in Repetitive Transcranial Magnetic Stimulation (rTMS) for the Treatment of Obsessive-Compulsive Disorder (OCD). Psychiatr Q. 2018;89(3):645-665.
Berlim MT, Neufeld NH, Van den Eynde F. Repetitive transcranial magnetic stimulation (rTMS) for obsessive-compulsive disorder (OCD): an exploratory meta-analysis of randomized and sham-controlled trials. J Psychiatr Res. 2013;47(8):999-1006.
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Fontenelle LF, Coutinho ES, Lins-Martins NM, Fitzgerald PB, Fujiwara H, Yucel M. Electroconvulsive therapy for obsessive-compulsive disorder: a systematic review. J Clin Psychiatry. 2015;76(7):949-957.
Lusicic A, Schruers KR, Pallanti S, Castle DJ. Transcranial magnetic stimulation in the treatment of obsessive-compulsive disorder: current perspectives. Neuropsychiatr Dis Treat. 2018;14:1721-1736.
Carmi L, Alyagon U, Barnea-Ygael N, Zohar J, Dar R, Zangen A. Clinical and electrophysiological outcomes of deep TMS over the medial prefrontal and anterior cingulate cortices in OCD patients. Brain Stimul. 2018;11(1):158-165.
Carmi L, Tendler A, Bystritsky A, et al. Efficacy and Safety of Deep Transcranial Magnetic Stimulation for Obsessive-Compulsive Disorder: A Prospective Multicenter Randomized Double-Blind Placebo-Controlled Trial. Am J Psychiatry. 2019;176(11):931-938.
Elbeh KAM, Elserogy YMB, Khalifa HE, Ahmed MA, Hafez MH, Khedr EM. Repetitive transcranial magnetic stimulation in the treatment of obsessive-compulsive disorders: Double blind randomized clinical trial. Psychiatry Res. 2016;238:264-269.
Dutta P, Dhyani M, Garg S, et al. Efficacy of intensive orbitofrontal continuous Theta Burst Stimulation (iOFcTBS) in Obsessive Compulsive Disorder: A Randomized Placebo Controlled Study. Psychiatry Res. 2021;298:113784.
Badawy AA, El Sawy H. Efficacy of repetitive transcranial magnetic stimulation in the management of obsessive compulsive disorder.
NICE: Transcranial magnetic stimulation for obsessive-compulsive disorder | Interventional Procedures Guidance. 2020; https://www.nice.org.uk/guidance/ipg676/resources/transcranial-magnetic-stimulation-for-obsessivecompulsive-disorder-pdf-1899874288332997. Accessed Nov. 10, 2021.
UpToDate: Technique for performing transcranial magnetic stimulation (TMS). https://www.uptodate.com/contents/technique-for-performing-transcranial-magnetic-stimulation-tms/print?search=Transcranial%20Magnetic%20Stimulation%20&source=search_result&selectedTitle=2~71&usage_type=default&display_rank=2. Accessed Nov. 10, 2021.
ECRI Clinical Evidence Assessment: Transcranial Magnetic Stimulation for Treating Adults with Obsessive-compulsive Disorder. 2021; https://www.ecri.org/components/Hotline/Pages/210287.aspx. Accessed Nov. 11, 2021.
Social Security Administration. Social Security Act §1862. Exclusions From Coverage and Medicare as Secondary Payer. Compilation Of The Social Security Laws 2021; Accessed 3/11/22.

Additional literature reviewed but not cited

Repetitive Transcranial Magnetic - StimulationPosition Statement 79. 2018; https://www.ranzcp.org/news-policy/policy-and-advocacy/position-statements/repetitive-transcranial-magnetic-stimulation. Accessed Nov. 23, 2021.

Hamani C, Pilitsis J, Rughani AI, et al. Deep brain stimulation for obsessive-compulsive disorder: systematic review and evidence-based guideline sponsored by the American Society for Stereotactic and Functional Neurosurgery and the Congress of Neurological Surgeons (CNS) and endorsed by the CNS and American Association of Neurological Surgeons. Neurosurgery. 2014;75(4):327-333; quiz 333.

Reddy JYC, Sundar AS, Narayanaswamy JC, Math SB. Clinical practice guidelines for Obsessive-Compulsive Disorder. Indian J Psychiatry. 2017;59(Suppl 1):S74-S90.

Koran LM, Hanna GL, Hollander E, Nestadt G, Simpson HB. Practice Guideline for the Treatment of Patients with Obessive-Compulsive Disorder. 2007; https://psychiatryonline.org/guidelines. Accessed Nov. 24, 2021.

Katzman MA, Bleau P, Blier P, Chokka P, Kjernisted K, Van Ameringen MJBp. Canadian clinical practice guidelines for the management of anxiety, posttraumatic stress and obsessive-compulsive disorders. 2014;14(1):1-83.

Rossi S, Antal A, Bestmann S, et al. Safety and recommendations for TMS use in healthy subjects and patient populations, with updates on training, ethical and regulatory issues: Expert Guidelines. Clinical Neurophysiology. 2021;132(1):269-306.

Allan CL, Herrmann LL, Ebmeier KP. Transcranial Magnetic Stimulation in Management of Mood Disorders. Neuropsychobiology. 2011;64(3)163-9.

Revision History Information

Revision History Date	Revision History Number	Revision History Explanation	Reasons for Change
08/20/2023	R4	Title and verbiage changes in LCD and article were made to be in sync with other MACs.	Provider Education/Guidance
12/01/2019	R3	Removed and replaced the broken link in Source Number 13 of the Bibliography.	Typographical Error
12/01/2019	R2	The LCD is revised to remove CPT/HCPCS codes in the Keyword Section of the LCD. At this time 21st Century Cures Act will apply to new and revised LCDs that restrict coverage which requires comment and notice. This revision is not a restriction to the coverage determination; and, therefore not all the fields included on the LCD are applicable as noted in this policy.	Other (The LCD is revised to remove CPT/HCPCS codes in the Keyword Section of the LCD. )
12/01/2019	R1	12/01/2019: At this time 21st Century Cures Act will apply to new and revised LCDs that restrict coverage which requires comment and notice. This revision is not a restriction to the coverage determination; and, therefore not all the fields included on the LCD are applicable as noted in this policy. As required by CR 10901, all billing and coding information has been moved to the companion article, this article is linked to the LCD	Provider Education/Guidance Revisions Due To Code Removal

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Transcranial Magnetic Stimulation (TMS)

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