Accelerated TMS - moving quickly into the future of depression treatment

Comparison between accelerated and standard or sham rTMS in the treatment of depression: A systematic review

Major depressive disorder (MDD) represents a major global health challenge, with a significant proportion of patients being resistant to drug treatment (TRD). Repetitive transcranial magnetic stimulation (rTMS) has shown promise in the treatment of MDD/TRD, with a single stimulation session per day for five days per week over several weeks (the "standard" protocol). The two main paradigms used are high-frequency rTMS and intermittent theta burst stimulation (iTBS) delivered to the left dorsolateral prefrontal cortex (DLPFC). Accelerated TMS (aTMS) protocols aim to make the treatment more effective, or at least more rapidly effective, by delivering more stimulations in a shorter time, which could also facilitate the implementation of the protocols for a larger number of patients. In this systematic literature review, articles comparing in the same study an aTMS protocol to a standard or sham rTMS protocol were retained for analysis. Thus, 23 articles were retained and the analysis focused on the efficacy of aTMS protocols used for the treatment of depression (MDD/TRD) as well as on the impact of various stimulation parameters, such as stimulation pattern, intersession interval, dosage, and methods of cortical targeting. Although some studies did not report significant differences between aTMS and standard or sham protocols, others suggested potential advantages of aTMS, such as twice-daily HF-rTMS of the left DLPFC or more intensive iTBS protocols with a long interval between two sessions and personalized cortical targeting. Our results highlight the influence of the number of sessions or pulses per session (dosage), the duration of the interval between sessions, and the precision of target localization (using image-guided neuronavigation) on therapeutic efficacy. However, limitations in sample size, few independent studies replicating the same methodology, and variability in the clinical profile of treated patients, given different definitions of treatment resistance or the presence of comorbidities, hamper definitive conclusions.

Recent advances in biomimetic nanodelivery systems for the treatment of depression

Depression and cognitive disorders remain major challenges in healthcare, with conventional treatments often facing limitations such as slow onset, side effects, and poor drug delivery to the brain. Biomimetic nanodelivery systems, including nanozymes, cell membrane-based systems, and exosomes, have emerged as promising solutions to these issues. These systems leverage natural biological processes to enhance drug targeting, improve bioavailability, and regulate complex biological pathways. Nanoenzymes, with their catalytic properties, offer antioxidant and anti-inflammatory benefits, while cell membranes and exosomes provide efficient targeting and immune evasion. However, challenges remain, including the immaturity of large-scale production techniques, stability concerns, and incomplete understanding of their mechanisms of action. Moreover, the long-term safety, pharmacokinetics, and toxicity of these systems require further investigation. Despite these obstacles, the potential of biomimetic nanodelivery systems to revolutionize depression treatment is significant. Future research should focus on optimizing their preparation, improving drug targeting and release, and ensuring clinical safety. Multidisciplinary collaboration will be essential for advancing these systems from the laboratory to clinical practice, offering new therapeutic avenues for depression and other neurological disorders.

Churning Better Transcranial Direct Current Stimulation Outcome with Accelerated Protocols: Understanding the Non-linear Dynamics through Metaplasticity

Recent advances in the application of transcranial direct current stimulation in psychiatry include providing about five sessions of stimulation in a short period of time with an inter-session interval of 20 minutes. Such "accelerated" protocols may reduce treatment duration and have differential neurophysiological benefits. In this narrative review, we discuss the potential impact of such protocols on the temporal aspects of metaplasticity of the neurons, non-linear behaviour of the neuronal population and brain criticality. We discuss the potential neurophysiological mechanisms involved and how to translate these mechanisms to specific stimulation parameters like duration of session, inter-session interval and number of sessions in a day. The expected benefits and necessary precautions required for accelerated protocols are also discussed.

Accelerated Theta-Burst Stimulation for Treatment-Resistant Depression: A Randomized Clinical Trial

Importance

Intermittent theta-burst stimulation (iTBS) is an established treatment for treatment-resistant depression (TRD). Sessions conducted more than once daily (ie, accelerated TBS [aTBS]) may enhance antidepressant effects. However, evidence is limited to small trials, and protocols are time-consuming and can require neuroimaging-based targeting.

Objective

To evaluate the efficacy and safety of a pragmatic aTBS protocol for TRD.

Design, Setting, and Participants

This triple-blinded, sham-controlled randomized clinical trial was conducted at a single center in São Paulo, Brazil, from July 2022 to June 2024, with a subsequent open-label phase. Patients aged 18 to 65 years with major depression, experiencing a TRD episode, and with a Hamilton Depression Rating Scale, 17-item (HDRS-17) score of 17 or higher were eligible for inclusion. Exclusion criteria were other psychiatric disorders (except anxiety), neurological conditions, and TBS contraindications.

Interventions

Participants received 45 active or sham stimulation sessions over 15 weekdays, with 3 iTBS sessions (1200 pulses each) per day, spaced 30 minutes apart and targeting the left dorsolateral prefrontal cortex using a craniometric approach. In the open-label phase, additional aTBS sessions were offered to achieve a response (≥50% HDRS-17 score improvement) if needed.

Main Outcomes and Measures

The primary outcome was change in HDRS-17 score at week 5.

Results

Of 431 volunteers screened, 100 participants were enrolled and randomized to either sham or active aTBS. Mean (SD) participant age was 41.7 (8.8) years, and 84 participants (84%) were female. A total of 89 patients completed the study. In the intention-to-treat analysis, the mean change in HDRS-17 scores from baseline to the study end point was 5.57 (95% CI, 3.99-7.16) in the sham group and 9.68 (95% CI, 8.11-11.25) in the active group, corresponding to 31.87% and 54.7% score reductions, respectively, and a medium-to-large effect size (Cohen d, 0.65; 95% CI, 0.29-1.00; P < .001). Response and remission rates were also higher in the active group. Both interventions were well tolerated, but scalp pain was more frequent in the active group than the sham group (17.4% vs 4.4%). During the open-label phase, approximately 75% of patients received additional sessions.

Conclusions and Relevance

In this triple-blinded, sham-controlled randomized clinical trial, a pragmatic aTBS protocol using only 3 iTBS sessions per day and a nonexpensive, non-neuronavigated approach was found to be safe and effective for TRD.

Trial Registration

ClinicalTrials.gov Identifier: NCT05388539.

Transforming mental health care in the Arab World: A scoping review of Arab TMS studies for psychiatric disorders

BACKGROUND

The mental health landscape in the Arab world has undergone significant changes, highlighting the need for innovative treatment methods like Transcranial Magnetic Stimulation (TMS). Historically, mental health was stigmatized and under-addressed, leading to a reliance on traditional remedies.

METHOD

This scoping review utilized the Arksey & O'Malley framework to examine TMS's application, effectiveness, and challenges in treating psychiatric disorders in Arab countries. A comprehensive search was conducted across six databases, and studies published between 2018 and 2024 were included, focusing on various mental health conditions treated with rTMS.

RESULTS

Nineteen studies were reviewed, with findings indicating that TMS is a promising, non-invasive alternative to traditional treatments like electroconvulsive therapy. Benefits included minimal side effects, quick sessions, complementary treatment options, and cumulative therapeutic effects. However, high costs, lack of trained professionals, and social stigma were significant challenges.

DISCUSSION

The integration of rTMS can enhance mental health care in the region. Addressing economic barriers and increasing awareness through public campaigns could improve accessibility and acceptance of rTMS as a viable treatment option.

CONCLUSION

The findings underscore the need for further research, training for healthcare providers, and public awareness campaigns to promote TMS, ultimately contributing to a healthier societal perspective on mental well-being.

Treating Depression With Repetitive Transcranial Magnetic Stimulation: A Clinician's Guide

Transcranial magnetic stimulation (TMS) applies electromagnetic pulses to stimulate cortical neurons. The antidepressant effect of the repetitive application of TMS (rTMS) was first shown nearly three decades ago. The therapeutic potential of TMS has been extensively investigated, mostly in treatment-resistant depression (TRD). Studies have extensively evaluated stimulation parameters, treatment schedules, methods to localize the stimulation target, and different magnetic coil designs engineered for desired stimulation breadth and depth. Several of these stimulation protocols and coils/devices have received U.S. Food and Drug Administration (FDA) clearance for application in TRD and other neuropsychiatric disorders, such as obsessive-compulsive disorder. Some stimulation protocols, while not FDA-cleared, have substantial clinical trial-derived evidence to support their safety and antidepressant efficacy. The proliferation of rTMS translational and clinical research has resulted in the field's advancement. This clinician-oriented review contains an overview of fundamental TMS principles, physiological effects, and studies of rTMS in TRD. Also discussed are two innovations that are increasingly applied in the clinic: theta burst stimulation and accelerated scheduling. A synthesis of the key clinical considerations given to patient assessment and safety, treatment setup, and the minimization and management of adverse effects is provided.

Transcranial Magnetic Stimulation in Ukraine

This Viewpoint describes the author’s experiences teaching transcranial magnetic stimulation in Ukraine.

An Update on the Use of Neuromodulation Strategies in the Treatment of Schizophrenia

The field of neuromodulation has evolved tremendously and now includes a vast array of interventions utilizing different technologies that span electrical, magnetic, and ultrasound forms of stimulation. The evolution of interventions holds the promise of fewer adverse effects and a noninvasive approach, increasing the scale at which these interventions may be offered in hospital and community settings. While the majority of neuromodulation studies have focused on patients with mood disorders, predominantly depression, there is an unmet need for patients with schizophrenia, who are in dire need of novel therapeutic options. Advances in neuroimaging and approaches for examining individual variability and transdiagnostic symptoms may lead to more effective neuromodulation treatments in this patient population. This overview explores the modern landscape of invasive and noninvasive neuromodulation treatments for patients with schizophrenia. It begins with approaches that involve diffuse stimulation of the cortex and subcortex and then reviews more focal stimulation approaches at the cortical and subcortical levels. The authors also reflect on the relationship between our understanding of the neurobiology of schizophrenia and neuromodulation interventions.

Efficacy and safety of accelerated transcranial magnetic stimulation for obsessive-compulsive disorder: A systematic review and meta-analysis

BACKGROUND

Obsessive-Compulsive Disorder (OCD) is a chronic condition with limited treatment options. Standard transcranial magnetic stimulation (TMS) has shown moderate efficacy but requires 6-8 weeks of daily sessions. This review evaluates the efficacy, safety, and feasibility of accelerated TMS (aTMS) protocols for faster treatment response.

METHODS

We systematically searched PubMed, Web of Science, and Embase databases for randomized controlled trials (RCTs) comparing aTMS to placebo or once-daily TMS, conducting a meta-analysis of clinical and tolerability outcomes. The Cochrane Risk of Bias tool and Grading of Recommendations, Assessment, Development, and Evaluations (GRADE) approach were used to evaluate the quality and strength of evidence.

RESULTS

Of 97 screened records, 7 RCTs were included in the review. Six were analyzed quantitatively, showing that aTMS significantly reduced OCD symptoms (SMD 0.63), depressive symptoms (SMD 0.52), and increased response rate (OR 4.28) compared to sham aTMS. Adverse effects were higher in the aTMS group (OR 5.16), though mild, and dropout rates were similar (OR 0.74). At follow-ups, aTMS sustained significant reductions in depressive symptoms (SMD 0.74), but not in OCD or anxiety symptoms. On risk of bias assessment there were "some concerns" for all included studies. GRADE assessment showed moderate certainty for the primary outcome.

CONCLUSION

Accelerated TMS offers promising, faster treatment for OCD and significantly reduces depressive symptoms, though it has no effect on anxiety. Further studies should explore optimal protocols and long-term effects.

Theta Burst Stimulation in Patients With Methamphetamine Use Disorder: A Meta-Analysis and Systematic Review

Novel interventions are urgently needed to treat methamphetamine use disorder (MUD), for which there are no FDA-approved treatments. Previous studies in patients with MUD suggest transcranial magnetic stimulation (TMS) over the left dorsolateral prefrontal cortex (L. dlPFC) decreases craving for methamphetamine. Theta burst stimulation (TBS), which includes intermittent TBS and continuous TBS (cTBS), is increasingly being used for substance use disorders, including MUD. Previous reviews of TMS in MUD performed sub-group meta-analyses of studies that delivered TBS in MUD. However, these meta-analyses included studies with overlapping participant cohorts. Given the absence of prior meta-analyses or reviews examining TBS in MUD using unique participant cohorts, we reviewed randomized controlled trials (RCTs) from three databases (PubMed/Medline, EMBASE, Google Scholar) until September 1, 2024, comparing the impact of TBS versus sham TBS on cue-induced methamphetamine cravings in patients with MUD. We performed a meta-analysis with four eligible RCTs that delivered iTBS. Results suggest iTBS was more effective in reducing cue-induced methamphetamine cravings than sham iTBS (standardized mean difference [SMD] in change = 1.04; 95% CI [0.16, 1.92]). Our systematic review included two additional RCTs that did not have sham comparator arms; one of these demonstrated a significant reduction in methamphetamine craving with accelerated iTBS. Future studies should examine if iTBS can impact clinical outcome measures other than craving, such as methamphetamine use, by measuring return to drug use. It is also pertinent to explore accelerated iTBS and cTBS for MUD and study their effects on relevant biomarkers for MUD.

Exploring Perceptions and Experiences of Patients Undergoing Transcranial Magnetic Stimulation (TMS) for Depression and Adjustment Disorder in Romanian Private Practices

Background and Objectives: Mental health disorders, including major depressive disorder and adjustment disorder with mixed anxiety and depressed mood, present a significant global burden, with early onset and progression leading to substantial individual and social impacts. While pharmacotherapy remains the standard treatment, many patients experience inadequate symptom relief or intolerable side effects. In this context, transcranial magnetic stimulation (TMS) has emerged as a non-invasive, well-tolerated neuromodulation technique offering an alternative treatment option. Although its clinical efficacy is well-documented, limited research exists on patient perceptions, decision-making processes and barriers to TMS utilization in private healthcare settings, particularly in Romania. This study explores patients' experiences with TMS, factors influencing their treatment choices and comparative views on its acceptability relative to pharmacological interventions. Materials and Methods: A qualitative research design was employed, using semi-structured interviews with 20 patients diagnosed with MDD or AD who had undergone TMS therapy as part of two pilot studies which were non-randomized in Romanian private practices. Data were collected via interviews and analyzed thematically to identify patterns in patient perceptions, decision-making factors and treatment experiences. Results: Participants reported predominantly positive perceptions of TMS, citing improvements in mood, anxiety reduction, and enhanced daily functioning. The most common motivations for seeking TMS included dissatisfaction with pharmacotherapy, recommendations from physicians or peers and information obtained via online sources. TMS was perceived as a safer and more tolerable alternative to medication, particularly due to its lack of systemic side effects. However, barriers such as high treatment costs, limited insurance coverage and logistical challenges in accessing TMS services were noted as significant deterrents. Conclusions: The study highlights the strong preference for TMS among patients who seek alternatives to pharmacotherapy, with key motivators including efficacy, tolerability and non-invasiveness. However, systemic barriers to access remain a critical challenge in private healthcare settings. Future research should focus on expanding accessibility, improving patient education and integrating TMS into broader mental healthcare frameworks to optimize treatment outcomes.

Accelerated intermittent theta burst transcranial magnetic stimulation of the dorsolateral prefrontal cortex for chronic knee osteoarthritis pain

OBJECTIVE

This study assessed feasibility, safety, and tolerability of accelerated intermittent theta burst stimulation (aiTBS) with effective connectivity-guidance targeting the left dorsolateral prefrontal cortex (lDLPFC) from the right anterior insular (rAI) in chronic knee osteoarthritis pain.

METHODS

The BoostCPM clinical trial (ISRCTN15404076) was a randomized, sham-controlled, single-blind, parallel-group pilot study in patients with mild-moderate chronic pain. Participants were assigned 2:1 (active: sham) aiTBS for 4 consecutive days (totaling 36,000 pulses) at a daily dose of 9000 pulses (5 sessions of 1800 pulses). Primary outcomes included safety, tolerability, pain-related and affective outcomes, and quantitative sensory testing.

RESULTS

45 participants received active (n = 33) or sham (n = 12) aiTBS. No serious adverse events were recorded, and protocol adherence (tolerability) was 80.6 % and 100 % for active and sham. Follow-up response rate was 78.1 % and overall acceptance/satisfaction was 89 %. Pain relief was observed immediately after treatment and lasted 16 weeks with clinically meaningful reduction of pain burden, but no differences between groups.

CONCLUSIONS

aiTBS with rAI-connected lDLPFC targeting is a safe, well tolerated, feasible, and acceptable intervention in chronic pain patients. However, we found no additional improvements compared to sham.

SIGNIFICANCE

Further studies of aiTBS and lDLPFC targeting for pain relief are warranted.

From lab coats to clinical trials: Evolution and application of electromagnetic fields for ischemic stroke rehabilitation and monitoring

Stroke is a neurovascular disorder which stands as one of the leading causes of death and disability worldwide, resulting in motor and cognitive impairment. Although the treatment approach depends on the time elapsed, the type of stroke and the availability of care centers, common interventions include thrombectomy or the administration of a tissue plasminogen activator (tPA). While these methods restore blood flow, they fall short in helping patients regain lost function. With that, recent years have seen a rise in novel methods, one of which is the use of electromagnetic fields (EMFs). Due to their ability to impact the charges in their vicinity, thereby altering the immune response and cell signaling, EMFs became suitable candidates for stroke rehabilitation. Based on their characteristics, therapeutic EMFs can be categorized into transcranial magnetic stimulation (TMS), transcranial direct current stimulation (tDCS), pulsed (PEMFs) and low frequency (LF-EMFs) electromagnetic fields, among others. In addition to treatment, EMFs are being explored for stroke monitoring, utilizing external EMFs for imaging or recording innate EMFs linked to neural activity. Drawing from research on the effects of EMFs, this review aims to provide a comprehensive overview of the physical principles and molecular mechanisms underlying the action of EMFs, along with a discussion of their application in preclinical studies and clinical trials. Finally, this paper not only addresses the importance of treatment availability and potential side-effects, but also delves into the technical and ethical challenges associated with the use of EMFs, while exploring their prospects and future opportunities.

Structural neural plasticity evoked by rapid-acting antidepressant interventions

A feature in the pathophysiology of major depressive disorder (MDD), a mood disorder, is the impairment of excitatory synapses in the prefrontal cortex. Intriguingly, different types of treatment with fairly rapid antidepressant effects (within days or a few weeks), such as ketamine, electroconvulsive therapy and non-invasive neurostimulation, seem to converge on enhancement of neural plasticity. However, the forms and mechanisms of plasticity that link antidepressant interventions to the restoration of excitatory synaptic function are still unknown. In this Review, we highlight preclinical research from the past 15 years showing that ketamine and psychedelic drugs can trigger the growth of dendritic spines in cortical pyramidal neurons. We compare the longitudinal effects of various psychoactive drugs on neuronal rewiring, and we highlight rapid onset and sustained time course as notable characteristics for putative rapid-acting antidepressant drugs. Furthermore, we consider gaps in the current understanding of drug-evoked in vivo structural plasticity. We also discuss the prospects of using synaptic remodelling to understand other antidepressant interventions, such as repetitive transcranial magnetic stimulation. Finally, we conclude that structural neural plasticity can provide unique insights into the neurobiological actions of psychoactive drugs and antidepressant interventions.

A cell type-specific mechanism driving the rapid antidepressant effects of transcranial magnetic stimulation

Repetitive transcranial magnetic stimulation (rTMS) is an emerging treatment for brain disorders, but its therapeutic mechanism is unknown. We developed a novel mouse model of rTMS with superior clinical face validity and investigated the neural mechanism by which accelerated intermittent theta burst stimulation (aiTBS) - the first rapid-acting rTMS antidepressant protocol - reversed chronic stress-induced behavioral deficits. Using fiber photometry, we showed that aiTBS drives distinct patterns of neural activity in intratelencephalic (IT) and pyramidal tract (PT) projecting neurons in dorsomedial prefrontal cortex (dmPFC). However, only IT neurons exhibited persistently increased activity during both aiTBS and subsequent depression-related behaviors. Similarly, aiTBS reversed stress-related loss of dendritic spines on IT, but not PT neurons, further demonstrating cell type-specific effects of stimulation. Finally, chemogenetic inhibition of dmPFC IT neurons during rTMS blocked the antidepressant-like behavioral effects of aiTBS. Thus, we demonstrate a prefrontal mechanism linking rapid aiTBS-driven therapeutic effects to cell type-specific circuit plasticity.

The emerging field of non-invasive brain stimulation in Alzheimer's disease

Treating cognitive impairment is a holy grail of modern clinical neuroscience. In the past few years, non-invasive brain stimulation is increasingly emerging as a therapeutic approach to ameliorate performance in patients with cognitive impairment and as an augmentation approach in persons whose cognitive performance is within normal limits. In patients with Alzheimer's disease, better understanding of brain connectivity and function has allowed for the development of different non-invasive brain stimulation protocols. Recent studies have shown that transcranial stimulation methods enhancing brain plasticity with several modalities have beneficial effects on cognitive functions. Amelioration has been shown in preclinical studies on behaviour of transgenic mouse models for Alzheimer's pathology and in clinical studies with variable severity of cognitive impairment. While the field is still grappling with issues related to the standardization of target population, frequency, intensity, treatment duration and stimulated region, positive outcomes have been reported on cognitive functions and on markers of brain pathology. Here we review the most encouraging protocols based on repetitive transcranial magnetic stimulation, transcranial direct current stimulation, transcranial alternating current stimulation, visual-auditory stimulation, photobiomodulation and transcranial focused ultrasound, which have demonstrated efficacy to enhance cognitive functions or slow cognitive decline in patients with Alzheimer's disease. Beneficial non-invasive brain stimulation effects on cognitive functions are associated with the modulation of specific brain networks. The most promising results have been obtained targeting key hubs of higher-level cognitive networks, such as the frontal-parietal network and the default mode network. The personalization of stimulation parameters according to individual brain features sheds new light on optimizing non-invasive brain stimulation protocols for future applications.

The effect of once-daily vs. twice-daily intermittent theta burst stimulation on suicidal ideation in treatment-resistant depression

Intermittent theta burst stimulation (iTBS) has demonstrated potential in reducing suicidal ideation (SI) in patients with depression, however, stimulation protocols vary greatly across studies. For this secondary analysis, data from a three-site double-blind, randomized and sham-controlled clinical trial was analyzed to investigate the efficacy of a once-daily versus twice-daily iTBS protocol in the treatment of SI in patients with treatment resistant depression. Secondarily we aimed to explore the associations among SI, anhedonia and quality of life (QOL) measures. The primary outcome for this analysis was SI, which was assessed by computing an average score from four suicidality items on separate depression scales. 158 participants who experienced some degree of SI at baseline were included in the analysis. After 10 days of treatment, 15 (18.3%) participants from the once-daily group and 19 (25%) from the twice-daily group achieved remission from SI which was defined as a SI score of 0. After 30 days of treatment the remission rates were 27 (32.9%) and 30 (39.5%), respectively. There were no significant differences in remission rates between the groups. Moderate correlations between change in SI and change in depressive symptoms were observed. In addition, correlations between change in SI, anhedonia and QOL were observed that remained significant after controlling for change in depressive symptoms. Achieving remission from SI appears to be at least partially correlated to the anti-depressant effect of iTBS. Further studies investigating optimal treatment protocols for the treatment of suicidality with different iTBS schedules are urgently needed. Trial registration Clinicaltrials.gov ID: NCT02729792 ( https://clinicaltrials.gov/ct2/show/NCT02729792 ).

Engineering and Technological Advancements in Repetitive Transcranial Magnetic Stimulation (rTMS): A Five-Year Review

In the past five years, repetitive transcranial magnetic stimulation (rTMS) has evolved significantly, driven by advancements in device design, treatment protocols, software integration, and brain-computer interfaces (BCIs). This review evaluates how these innovations enhance the safety, efficacy, and accessibility of rTMS while identifying key challenges such as protocol standardization and ethical considerations. A structured review of peer-reviewed studies from 2019 to 2024 focused on technological and clinical advancements in rTMS, including AI-driven personalized treatments, portable devices, and integrated BCIs. AI algorithms have optimized patient-specific protocols, while portable devices have expanded access. Enhanced coil designs and BCI integration offer more precise and adaptive neuromodulation. However, challenges remain in standardizing protocols, addressing device complexity, and ensuring equitable access. While recent innovations improve rTMS's clinical utility, gaps in long-term efficacy and ethical concerns persist. Future research must prioritize standardization, accessibility, and robust ethical frameworks to ensure rTMS's sustainable impact.

Repetitive Transcranial Magnetic Stimulation for the Treatment of Depression in a Real-World Setting: Findings from a Cohort Study

BACKGROUND/OBJECTIVES

In the past two decades, significant advancements in neuromodulation techniques have occurred, such as transcranial magnetic stimulation (TMS) for treatment-resistant depression (TRD). According to the assumption that repeated stimulation within a condensed timeframe can yield sustained efficacy, an accelerated protocol may be more effective in reducing time to response. With those premises, this study aimed to evaluate a sample of TRD patients treated with standard repetitive TMS (rTMS) and accelerated rTMS (arTMS).

METHODS

Nine subjects were treated with standard rTMS and 19 with arTMS. Psychometric assessment was made at the baseline and one week, one month, and three months after the treatment. A linear mixed-effect regression was performed along with other appropriate statistical analyses.

RESULTS

A significant improvement over time was observed for both depressive and cognitive symptoms. Moreover, considering the reduction in the Montgomery-Asberg Depression Rating Scale scores, a better treatment response was observed in subjects treated with arTMS (p < 0.05).

CONCLUSIONS

Our findings showed a significant difference between the two protocols in terms of clinical response. Although further studies are needed to confirm the superiority of arTMS, the better cost-effectiveness of this technique should be considered.

Transcutaneous Auricular Vagus Nerve Stimulation Modulating the Brain Topological Architecture of Functional Network in Major Depressive Disorder: An fMRI Study

BACKGROUND

Transcutaneous auricular vagus nerve stimulation (taVNS) is effective in regulating mood and high-level cognition in patients with major depressive disorder (MDD). This study aimed to investigate the efficacy of taVNS treatment in patients with MDD and an altered brain topological organization of functional networks.

METHODS

Nineteen patients with MDD were enrolled in this study. Patients with MDD underwent 4 weeks of taVNS treatments; resting-state functional magnetic resonance imaging (rs-fMRI) data of the patients were collected before and after taVNS treatment. The graph theory method and network-based statistics (NBS) analysis were used to detect abnormal topological organizations of functional networks in patients with MDD before and after taVNS treatment. A correlation analysis was performed to characterize the relationship between altered network properties and neuropsychological scores.

RESULTS

After 4 weeks of taVNS treatment, patients with MDD had increased global efficiency and decreased characteristic path length (Lp). Additionally, patients with MDD exhibited increased nodal efficiency (NE) and degree centrality (DC) in the left angular gyrus. NBS results showed that patients with MDD exhibited reduced connectivity between default mode network (DMN)-frontoparietal network (FPN), DMN-cingulo-opercular network (CON), and FPN-CON. Furthermore, changes in Lp and DC were correlated with changes in Hamilton depression scores.

CONCLUSIONS

These findings demonstrated that taVNS may be an effective method for reducing the severity of depressive symptoms in patients with MDD, mainly through modulating the brain's topological organization. Our study may offer insights into the underlying neural mechanism of taVNS treatment in patients with MDD.

Chronometric TMS-fMRI of personalized left dorsolateral prefrontal target reveals state-dependency of subgenual anterior cingulate cortex effects

Transcranial magnetic stimulation (TMS) applied to a left dorsolateral prefrontal cortex (DLPFC) area with a specific connectivity profile to the subgenual anterior cingulate cortex (sgACC) has emerged as a highly effective non-invasive treatment option for depression. However, antidepressant outcomes demonstrate significant variability among therapy plans and individuals. One overlooked contributing factor is the individual brain state at the time of treatment. In this study we used interleaved TMS-fMRI to investigate the influence of brain state on acute TMS effects, both locally and remotely. TMS was performed during rest and during different phases of cognitive task processing. Twenty healthy participants were included in this study. In the first session, imaging data for TMS targeting were acquired, allowing for identification of individualized targets in the left DLPFC based on highest anti-correlation with the sgACC. The second session involved chronometric interleaved TMS-fMRI measurements, with 10 Hz triplets of TMS administered during rest and at distinct timings during an N-back task. Consistent with prior findings, interleaved TMS-fMRI revealed significant BOLD activation changes in the targeted network. The precise timing of TMS relative to the cognitive states during the task demonstrated distinct BOLD response in clinically relevant brain regions, including the sgACC. Employing a standardized timing approach for TMS using a task revealed more consistent modulation of the sgACC at the group level compared to stimulation during rest. In conclusion, our findings strongly suggest that acute local and remote effects of TMS are influenced by brain state during stimulation. This study establishes a basis for considering brain state as a significant factor in designing treatment protocols, possibly improving TMS treatment outcomes.

Maintenance Repetitive Transcranial Magnetic Stimulation for Major Depressive Disorder: A Meta-analysis

ABSTRACT

Repetitive transcranial magnetic stimulation (rTMS) is an effective therapy for acute treatment of major depressive disorder (MDD). However, the efficacy and optimal strategy of delivering maintenance rTMS beyond acute treatment remains unclear. This meta-analysis aims to quantify the treatment effect of maintenance rTMS therapy in MDD and compares the difference in treatment effect between the fixed and rescue maintenance rTMS protocols. We conducted a meta-analysis of 14 studies (N = 705) comparing depression rating scores before and after maintenance rTMS. Standardized mean scores adjusted for sample size (Hedges g) were used as the effect size. Subgroup analysis was performed to compare the fixed and rescue maintenance rTMS treatment. Maintenance rTMS was associated with a statistically significant improvement in depression scores (standardized mean difference [SMD] = 0.75; confidence interval [CI] = -1.25 to -0.25). The random effects model had the Q value = 142.67 (P < 0.0001) and I2 = 90%, supporting significant heterogeneity among studies. The prediction interval yielded a possible effect size from -2.54 to 1.05. The subgroup analysis showed a stronger treatment effect for rescue maintenance protocol (SMD = -1.17; CI = -2.13 to -0.21) compared to fixed maintenance protocol (SMD = -0.45; CI = -1.00.16). Although not statistically significant (Q-between = 2.56, df-between = 1, P = 0.1096), a large difference in effect size was observed between subgroups. Maintenance rTMS appears to be an effective strategy for maintaining remission and preventing relapse in MDD. Significant heterogeneity among the studies warrants caution in interpreting the results. These findings suggest the need for standard protocols and consensus guidelines for the optimal delivery of maintenance rTMS treatment.

Lack of effects of eight-week left dorsolateral prefrontal theta burst stimulation on white matter macro/microstructure and connection in autism

Whether brain stimulation could modulate brain structure in autism remains unknown. This study explored the impact of continuous theta burst stimulation (cTBS) over the left dorsolateral prefrontal cortex (DLPFC) on white matter macro/microstructure in intellectually able children and emerging adults with autism. Sixty autistic participants were randomized (30 active) and received active or sham cTBS for eight weeks twice per week, 16 total sessions using a double-blind (participant-, rater-, analyst-blinded) design. All participants received high-angular resolution diffusion MR imaging at baseline and week 8. Twenty-eight participants in the active group and twenty-seven in the sham group with good imaging quality entered the final analysis. With longitudinal fixel-based analysis and network-based statistics, we found no significant difference between the active and sham groups in changes of white matter macro/microstructure and connections following cTBS. In addition, we found no association between baseline white matter macro/microstructure and autistic symptom changes from baseline to week 8 in the active group. In conclusion, we did not find a significant impact of left DLPFC cTBS on white matter macro/microstructure and connections in children and emerging adults with autism. These findings need to be interpreted in the context that the current intellectually able cohort in a single university hospital site limits the generalizability. Future studies are required to investigate if higher stimulation intensities and/or doses, other personal factors, or rTMS parameters might confer significant brain structural changes visible on MRI in ASD.

Update on the assessment of resistance to antidepressant treatment: Rationale for the Antidepressant Treatment History Form: Short Form-2 (ATHF-SF2)

All definitions of treatment-resistant depression (TRD) require that patients have experienced insufficient benefit from one or more adequate antidepressant trials. Thus, identifying "failed, adequate trials" is key to the assessment of TRD. The Antidepressant Treatment History Form (ATHF) was one of the first and most widely used instruments that provided objective criteria in making these assessments. The original ATHF was updated in 2018 to the ATHF-SF, changing to a checklist format for scoring, and including specific pharmacotherapy, brain stimulation, and psychotherapy interventions as potentially adequate antidepressant treatments. The ATHF-SF2, presented here, is based on the consensus of the ATHF workgroup about the novel interventions introduced since the last revision and which should/should not be considered effective treatments for major depressive episodes. This document describes the rationale for these choices and, for each intervention, the minimal criteria for determining the adequacy of treatment administration. The Supplementary Material that accompanies this article provide the Scoring Checklist, Data Collection Forms (current episode and composite of previous episodes), and Instruction Manual for the ATHF-SF2.

A cognitive neural circuit biotype of depression showing functional and behavioral improvement after transcranial magnetic stimulation in the B-SMART-fMRI trial

We previously identified a cognitive biotype of depression characterized by treatment resistance, impaired cognitive control behavioral performance and dysfunction in the cognitive control circuit, comprising the dorsolateral prefrontal cortex (dLPFC) and dorsal anterior cingulate cortex (dACC). Therapeutic transcranial magnetic stimulation (TMS) to the left dLPFC is a promising option for individuals whose depression does not respond to pharmacotherapy. Here, 43 veterans with treatment-resistant depression were assessed before TMS, after early TMS and post-TMS using functional magnetic resonance imaging during a Go-NoGo paradigm, behavioral cognitive control tests and symptom questionnaires. Stratifying veterans at baseline based on task-evoked dLPFC-dACC connectivity, we demonstrate that TMS-related improvement in cognitive control circuit connectivity and behavioral performance is specific to individuals with reduced connectivity at baseline (cognitive biotype +), whereas individuals with intact connectivity at baseline (cognitive biotype -) did not demonstrate significant changes. Our findings show that dLPFC-dACC connectivity during cognitive control is both a promising diagnostic biomarker for a cognitive biotype of depression and a response biomarker for cognitive improvement after TMS applied to the dLPFC.

The Clinical Efficacy of Accelerated Deep Repetitive Transcranial Magnetic Stimulation in Depression and Obsessive-Compulsive Disorder: Multi-centric Real-World Observational Data

Background Of late, the interest in accelerated treatment protocols in repetitive transcranial magnetic stimulation (TMS) for the treatment of depression and obsessive-compulsive disorder (OCD) has been gaining momentum. Studies have already found that the patterned theta burst stimulation is non-inferior to the standard high-frequency stimulation in treating depression. The objective of the present study was to evaluate the clinical efficacy of a customized accelerated combination TMS naturalistic setting. Methods Retrospective analysis of pre and post-deep repetitive TMS responses in depression and OCD patients was performed. About 391 Depression and 239 OCD patients' data was analyzed. Customized treatment protocols consisted of twice daily high-frequency stimulations intervened by one theta burst stimulation. The outcome measures were a day six score in depression and a day 10 score in OCD, compared to day one baseline scores. Results The overall response rate in depression was 60.86%, estimated as a >50% reduction in the Hamilton Depression Rating Scale (HAM-D) 21 items score, and 62.76% in OCD, estimated as a >35% reduction in the Yale-Brown Obsessive-Compulsive Scale (Y-BOCS) score. The mean reduction of YBOCS and HAM-D was statistically significant at p<0.0001 (Mann-Whitney U test statistic=9442.5, z=12.66 for YBOCS and 16673.5, z=18.92 for HAM-D). Corresponding effect size estimations revealed Cohen's d value of 1.40 and 1.59, respectively. Conclusions The response rates achieved at day six and day 10 in depression and OCD, respectively, were comparable to previous studies employing standard treatment protocols. The accelerated protocol produced satisfactory short-term clinical outcomes that were effective in the early management of the illness without any serious adverse effects.

Technical Report: Efficacy and Safety of Low-Intensity Transcranial Magnetic Stimulation in the Remission of Depressive Symptoms in Patients With Treatment-Resistant Depression in Mexico

Transcranial magnetic stimulation (TMS) is a non-invasive neuromodulation technique that induces action potentials in the stimulated cortical area and has been approved by the Food and Drug Administration (FDA) for the treatment of major depressive disorder (MDD). The prevalence of MDD in Mexico almost tripled after the COVID-19 pandemic. In this study, we evaluated the safety and therapeutic effects of low-intensity TMS (Li-TMS) - characterized by inducing electric currents below the action potential threshold on the cerebral cortex - in 41 subjects diagnosed with treatment-resistant depression (TRD). A Li-TMS device dispensed repetitive magnetic pulses at 30 mT for 60 minutes during 20 sessions (once daily from Monday to Saturday) with the theta burst pattern. Our results suggest that Li-TMS is a safe therapy with antidepressant effects, demonstrated by the decrease in Beck Depression Inventory (BDI) scores and lessening of depressive symptoms.

A new era of current and future treatment applications of transcranial magnetic stimulation

Background

Transcranial magnetic stimulation (TMS) equipment has advanced dramatically over the years thanks to considerable advancements in signal motors, coils, placement devices, and modeling, optimization, and treatment scheduling programs. In this review, a primary assessment of the impact of transcranial magnetic stimulation (TMS) on seizure course in people with and without epilepsy has been done through search in the Embase, PubMed, Scopus, and Web of Science databases. Other proposed roles of TMS in various studies has been reported. The features of TMS protocols for several potential disorders was assessed and the key TMS findings has been documented starting from 1985 until 2023.

Results

More than 500 papers were found that describe various research populations, TMS techniques, and TMS functions in 16 various medical conditions.

Conclusion

After reviewing recent updates in TMS, further researches are needed to improve the technical part of the used TMS protocols and to have definitive results not experimental one with regard to TMS usage in various psychiatric and neurological disorders.

Accelerated Theta Burst Stimulation: Safety, Efficacy, and Future Advancements

Theta burst stimulation (TBS) is a noninvasive brain stimulation technique that can be used to modulate neural networks underlying psychiatric and neurological disorders. TBS can be delivered intermittently or continuously. The conventional intermittent TBS protocol is approved by the U.S. Food and Drug Administration to treat otherwise treatment-resistant depression, but the 6-week duration limits the applicability of this therapy. Accelerated TBS protocols present an opportunity to deliver higher pulse doses in shorter periods of time, thus resulting in faster and potentially more clinically effective treatment. However, the acceleration of TBS delivery raises questions regarding the relative safety, efficacy, and durability compared with conventional TBS protocols. In this review paper, we present the data from accelerated TBS trials to date that support the safety and effectiveness of accelerated protocols while acknowledging the need for more durability data. We discuss the stimulation parameters that seem to be important for the efficacy of accelerated TBS protocols and possible avenues for further optimization.

Efficacy of accelerated deep transcranial magnetic stimulation wi̇th double cone coi̇l in obsessive-compulsive disorder: A double-blind, placebo-controlled study

High-frequency deep transcranial magnetic stimulation (dTMS) targeting the medial prefrontal cortex (mPFC) and the anterior cingulate cortex (ACC) with an H-coil has received approval from the Food and Drug Administration for the treatment of obsessive-compulsive disorder (OCD). Nevertheless, there is limited evidence regarding the efficacy of a similar procedure performed using a double-cone coil or in an accelerated regimen. In this study, patients in the active TMS group (n = 14) underwent stimulation of the mPFC and ACC twice daily at a frequency of 20 Hz for three weeks, using a double-cone coil. The same procedure was applied to the control group (n = 15) using a placebo coil. Throughout the study, the patients continued their antidepressant and/or antipsychotic treatments at the same dose. Following treatment, the active TMS group exhibited a more significant reduction in Yale-Brown Obsessive-Compulsive Scale scores (pre-treatment: 25.36 ± 5.4, post-treatment: 18.43 ± 6.86) and Hamilton Anxiety Rating Scale scores (pre-treatment: 10.6 ± 3.5, post-treatment: 6.7 ± 2.7) compared to the sham TMS group. However, there was no statistically significant reduction in symmetry-related obsessive-compulsive symptoms in the TMS group compared to the sham TMS group. dTMS applied to the mPFC and ACC, using a double-cone coil at a 20-Hz frequency twice daily for three weeks, was found to be effective as an adjunctive treatment for treatment-resistant OCD.

Elevating the field for applying neuroimaging to individual patients in psychiatry

Although neuroimaging has been widely applied in psychiatry, much of the exuberance in decades past has been tempered by failed replications and a lack of definitive evidence to support the utility of imaging to inform clinical decisions. There are multiple promising ways forward to demonstrate the relevance of neuroimaging for psychiatry at the individual patient level. Ultra-high field magnetic resonance imaging is developing as a sensitive measure of neurometabolic processes of particular relevance that holds promise as a new way to characterize patient abnormalities as well as variability in response to treatment. Neuroimaging may also be particularly suited to the science of brain stimulation interventions in psychiatry given that imaging can both inform brain targeting as well as measure changes in brain circuit communication as a function of how effectively interventions improve symptoms. We argue that a greater focus on individual patient imaging data will pave the way to stronger relevance to clinical care in psychiatry. We also stress the importance of using imaging in symptom-relevant experimental manipulations and how relevance will be best demonstrated by pairing imaging with differential treatment prediction and outcome measurement. The priorities for using brain imaging to inform psychiatry may be shifting, which compels the field to solidify clinical relevance for individual patients over exploratory associations and biomarkers that ultimately fail to replicate.

A Pilot Trial of Stepwise Implementation of Virtual Reality Mindfulness and Accelerated Transcranial Magnetic Stimulation Treatments for Dysphoria in Neuropsychiatric Disorders

Dysphoria is a transdiagnostic symptom that causes considerable suffering. Implementation of established self-care and clinical treatment options, such as mindfulness and transcranial magnetic stimulation (TMS), is typically disjointed for conditions involving dysphoria. There is a need for a rapid progression of accessible treatments that can be efficacious across multiple comorbidities. In a pilot stepwise implementation study to assess feasibility and effectiveness, adult participants with dysphoria (depression, anxiety, PTSD, and/or chronic pain) went through a treatment course of VR mindfulness, then accelerated TMS (accel-TMS) over the left dorsolateral prefrontal cortex (left dlPFC), then accel-TMS over the dorsomedial prefrontal cortex (dmPFC). Participants who did not benefit from one treatment phase progressed to the next until remission or study completion. Twenty-four participants were enrolled with 23 in VR mindfulness (phase 1), 19 in accel-TMS left dlPFC (phase 2A), and 13 in accel-TMS dmPFC (phase 2B). For our primary outcome measure of the short form-36 emotional well-being subscale (paired t-test), no significant change was found in phase 1 (n = 19, p = .226), significant improvement was found in phase 2A (n = 19, p = .038), and no significant change was found in the smaller sample of phase 2B (n = 12, p = .089). Symptom improvement was largely supported by clinician-administered scales, with more significant changes found in accel-TMS left dlPFC and dmPFC. The benefits of VR mindfulness were limited; however, both accel-TMS phases showed a significant impact on secondary measures of depression, anxiety, and PTSD. This stepwise protocol shows promise in providing an approach to rapidly improve symptoms of dysphoria in transdiagnostic populations. This trial is registered with NCT05061745.