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Brain Stimulation Therapies for Treatment-Resistant Depression

(PSYCHIATRIC TIMES) - Treatment-resistant depression (TRD), often defined as insufficient response to an appropriate trial of at least 1 antidepressant in patients with depressive illness, is receiving growing attention by clinicians and researchers alike. As Papakostas1 reported last year in Psychiatric Times, some studies indicate that as many as half of patients do not achieve remission of depressive illness using standard therapies. A recent 2-year prospective study of patients with TRD showed that even after 24 months of treatment as usual (medications, psychotherapy, light therapy, or electroconvulsive therapy [ECT]), there was significant morbidity in 90% of patients.2 As discouraging as these figures might seem, the recent development of new neurostimulation techniques for TRD offers some hope for patients who have refractory depression.

Neurostimulation has been defined as a "physical intervention that utilizes application of either electric current or magnetic field to stimulate the brain."3 The most commonly used type of neurostimulation for depression in the United States, ECT has existed for decades. Newer neurostimulation methods, such as vagus nerve stimulation (VNS), repetitive transcranial magnetic stimulation (rTMS), and magnetic seizure therapy (MST), show some promise. What follows is a brief review of these various techniques and the evidence for their use in TRD.

Electroconvulsive therapy

For more than half a century, ECT has been an important treatment for patients with severe psychiatric illness. Current indications for this modality include severe depression (especially with psychotic features), bipolar disorder, schizophrenia, and catatonia. ECT is particularly beneficial when a more rapid improvement in symptoms is indicated. There is also some evidence that ECT may be useful for improving the motor symptoms of Parkinson disease.4

ECT involves the application of an electrical stimulus to the patient's head to intentionally induce seizure activity. Before application of the stimulus, the patient is anesthetized with an ultrabrief agent (usually methohexital) and is given a neuromuscular paralytic agent (usually succinylcholine) to prevent injury caused by muscle convulsions. Anticholinergic agents are sometimes used to reduce the risk of bradycardia that can occur immediately following stimulation and also in the postictal period.5 Because of the nature of the procedure, ECT is usually conducted in a hospital (sometimes in specialized ECT suites) with the aid of an anesthesiologist.

Electrode placement and intensity of the stimulus have significant effects on both the effectiveness of treatment and tolerability. Electrodes are usually placed in the frontotemporal region of the head and there is evidence to indicate that bilateral application may be somewhat better than right unilateral placement at reducing depressive symptoms. However, the greater degree of cognitive impairment with bilateral stimulation may mitigate its overall effectiveness.6

Efficacy data for ECT indicate that as many as 90% of patients may show a positive response to treatment, although this figure has been found to drop to between 50% to 60% for patients in whom multiple medication trials have failed before a trial of ECT.7 Furthermore, there are scant randomized controlled studies looking specifically at the use of ECT in patients with TRD.8 Relapse after successful treatment with ECT is also a problem in patients with TRD, although several treatment options exist when this occurs.

Treatment with nortriptyline and lithium following a positive course of ECT has shown some promise, although there is still a significant rate of relapse.9 Maintenance or continuation ECT is often used to prevent relapse, but few controlled studies exist to support this. A recent randomized, multisite study of continuation ECT (10 total treatments over a 6-month period) compared with treatment with nortriptyline and lithium over the same time for patients who had recently had ECT and met remission criteria showed no significant difference in relapse rates between the 2 modalities.10

Misconceptions about ECT may preclude some patients from using the modality. Media portrayals and several anti-ECT groups have engendered public fear and apprehension of the treatment.11 Physicians in training may also have false impressions about the modality. In a study that looked at medical students' perceptions of ECT, more than half thought ECT causes pain, nearly a quarter thought it causes brain damage, and 40% felt it was misused by psychiatrists.12 Clearly, improved education of the public and medical professionals about ECT is needed.

Vagus nerve stimulation

Approved in 2005 as an adjunctive, long-term treatment for chronic or recurrent depression in patients with a failed response to at least 4 antidepressant treatments, VNS is the only neurostimulation technique other than ECT that is FDA-approved for depression. Before it received approval for psychiatric use, it was used for almost a decade for the treatment of refractory epilepsy.

Stimulation of the brain is accomplished through a small pulse generator that is surgically implanted into subcutaneous tissue in the chest wall with electrodes that are wrapped around the left vagus nerve in the neck. Parameters of stimulation, such as pulse width, current, and frequency are set through a handheld wand that is connected to a personal digital assistant device placed directly over the site of implantation. Electrical impulses are usually delivered from the device about every 5 minutes for durations of 30 seconds.3 While the exact mechanism of the effect of VNS on mood symptoms is unclear, hypotheses include effects on the amygdala, changes in metabolism in limbic structures, and alterations in monoamine levels in the CNS via projections from the vagus nerve to deep brain structures.3,13

Rush and colleagues14 conducted a multisite randomized study of more than 230 patients with TRD to determine whether 10 weeks of active VNS therapy was more efficacious than sham VNS. In the sham condition, the device was implanted, but not turned on after a 2-week postsurgical recovery period. Primary outcome was measured by Hamilton Depression Scale (HAM-D) scores, and response was defined as a more than 50% reduction in HAM-D scores relative to baseline. While 15% in the active group met response criteria com-pared with 10% in the sham group, the difference was not statistically significant, nor were there statistically significant differences in declines in secondary measures, such as the Montgomery-Asberg Depression Rating Scale (MADRS) scores or Clinical Global Improvement (CGI-I) ratings between the 2 groups. The response rate for patients receiving active VNS is similar to the 17.4% response rate of patients with TRD treated with either tranylcypromine or the combination of venlafaxine and mirtazapine in level 4 of the STAR*D trial,15 suggesting that VNS may be no more effective than pharmacological treatment.

In a naturalistic follow-up study of the same patients, those in the active group received 9 more months of VNS therapy, while sham controls had their devices activated and were monitored for a total of 12 months.16 At the end of 12 months of active treatment, both groups showed significant improvement in primary and secondary measures compared with baseline. The usefulness of this study was limited by the lack of a control group.

Adverse effects of VNS are mild and generally tolerable. The most commonly reported adverse effect is a change in the voice that occurs when the vagus nerve is stimulated; dyspnea and neck pain have also been reported. Unlike ECT, with which there is evidence of cognitive impairment following treatments, VNS may actually increase neurocognitive performance in patients with TRD, particularly in those patients who also have improvement in depressive symptoms.17

A major hindrance for patients and clinicians who wish to use VNS may be difficulty in getting coverage from payors for the therapy. The manufacturer (Cyberonics, Inc, Houston) has a company division to help those interested in VNS get approval from their insurer, usually on a case-by-case basis.18 In February 2007, the company was dealt a setback when the Centers for Medicare and Medicaid Services declined Cyberonics' request to expand full coverage for VNS to patients with TRD.19

Repetitive transcranial magnetic stimulation

Stimulation of the brain can also be accomplished by applying a pulsed magnetic field over the exterior of the skull to induce electrical currents that depolarize neurons in the superficial cortex.20 rTMS offers many potential advantages over other neurostimulation techniques in that it can be performed on an outpatient basis; requires no anesthesia or surgical intervention; and can focus its effects on specific brain regions, because magnetic fields are not altered greatly by the high impedance of the skull (a major theoretical benefit over ECT).

The magnetic field is created by a magnetic coil positioned closely over the skull. A course of rTMS typically consists of 20 to 30 treatments over 4 to 6 weeks, with each treatment lasting about 40 minutes, delivering 3000 pulses.21 Patients are able to return to normal activity immediately following treatment, and the most commonly reported adverse effect is a mild headache. Stimulation is usually directed over the left dorsolateral prefrontal cortex, a region with connections to the limbic system, which is believed to play a key role in anxiety and depression.22 While the exact mechanism of its effect on depression is unknown, animal investigations have shown changes in rodent brain chemistry, and early gene induction and imaging studies in humans show that rTMS causes dopamine release from the caudate nucleus and effects in the anterior cingulate gyrus.20

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