scholarly article | Q13442814 |
P2093 | author name string | Ted J Kaptchuk | |
Alvaro Pascual-Leone | |||
Matthew J Burke | |||
P2860 | cites work | Placebo response of non-pharmacological and pharmacological trials in major depression: a systematic review and meta-analysis | Q21143851 |
Non-invasive brain stimulation techniques for chronic pain | Q24197454 | ||
Placebo interventions for all clinical conditions | Q24240916 | ||
Sham device v inert pill: randomised controlled trial of two placebo treatments | Q24537565 | ||
Surgical "placebo" controls | Q24542096 | ||
Safety, ethical considerations, and application guidelines for the use of transcranial magnetic stimulation in clinical practice and research | Q24606718 | ||
Components of placebo effect: randomised controlled trial in patients with irritable bowel syndrome | Q24647883 | ||
A review of chronic pain impact on patients, their social environment and the health care system | Q26740221 | ||
Opioid Abuse in Chronic Pain--Misconceptions and Mitigation Strategies | Q26749305 | ||
Potential Mechanisms Supporting the Value of Motor Cortex Stimulation to Treat Chronic Pain Syndromes | Q26768233 | ||
Placebo effects: from the neurobiological paradigm to translational implications | Q26996428 | ||
A controlled trial of renal denervation for resistant hypertension | Q28236994 | ||
Arthroscopic partial meniscectomy versus sham surgery for a degenerative meniscal tear | Q28304730 | ||
Transplantation of embryonic dopamine neurons for severe Parkinson's disease | Q29617304 | ||
Repetitive Transcranial Magnetic Stimulation for the Acute Treatment of Major Depressive Episodes: A Systematic Review With Network Meta-analysis | Q30239902 | ||
Transcranial magnetic stimulation has no placebo effect on motor learning | Q30429081 | ||
Placebo Response in Repetitive Transcranial Magnetic Stimulation Trials of Treatment of Auditory Hallucinations in Schizophrenia: A Meta-Analysis | Q30711964 | ||
Evidence-based guidelines on the therapeutic use of repetitive transcranial magnetic stimulation (rTMS). | Q30836997 | ||
Use of placebo controls in the evaluation of surgery: systematic review | Q33642698 | ||
Do medical devices have enhanced placebo effects? | Q34003166 | ||
Repetitive transcranial magnetic stimulation for treatment-resistant depression: a systematic review and metaanalysis | Q34013833 | ||
Effects of expectation on placebo-induced dopamine release in Parkinson disease | Q34129314 | ||
A controlled trial of arthroscopic surgery for osteoarthritis of the knee | Q34137992 | ||
An evaluation of internal-mammary-artery ligation by a double-blind technic | Q34246261 | ||
Therapeutic application of transcranial magnetic stimulation in Parkinson's disease: the contribution of expectation | Q34258319 | ||
Challenges of proper placebo control for non-invasive brain stimulation in clinical and experimental applications | Q34358574 | ||
Differential effectiveness of placebo treatments: a systematic review of migraine prophylaxis. | Q34377710 | ||
The expanding evidence base for rTMS treatment of depression | Q34426984 | ||
Transcranial magnetic stimulation: a primer | Q34653682 | ||
An estimate of placebo effect of repetitive transcranial magnetic stimulation in epilepsy | Q34688971 | ||
A randomized trial of vertebroplasty for painful osteoporotic vertebral fractures | Q34995851 | ||
Turning a blind eye: the success of blinding reported in a random sample of randomised, placebo controlled trials | Q35648461 | ||
Safety and efficacy of spinal cord stimulation for the treatment of chronic pain: a 20-year literature review | Q35695987 | ||
Clinical research with transcranial direct current stimulation (tDCS): challenges and future directions | Q35722828 | ||
Placebo effects on human mu-opioid activity during pain | Q35846183 | ||
Transcranial magnetic stimulation of the brain: guidelines for pain treatment research | Q35985652 | ||
Amygdala subregions tied to SSRI and placebo response in patients with social anxiety disorder | Q36174067 | ||
A review and analysis of placebo treatments, placebo effects, and placebo controls in trials of medical procedures when sham is not inert | Q36463345 | ||
A model of placebo response in antidepressant clinical trials | Q36774011 | ||
New insights into the placebo and nocebo responses | Q37230629 | ||
Systematic review of the Hawthorne effect: new concepts are needed to study research participation effects | Q37671448 | ||
A systematic review found no consistent difference in effect between more and less intensive placebo interventions | Q38339707 | ||
The neuroscience of placebo effects: connecting context, learning and health | Q38531270 | ||
From pulses to pain relief: an update on the mechanisms of rTMS-induced analgesic effects. | Q38608221 | ||
Meta-analysis of placebo responses in central neuropathic pain: impact of subject, study, and pain characteristics | Q38640391 | ||
Factors influencing the outcome of deep brain stimulation: Placebo, nocebo, lessebo, and lesion effects | Q38764564 | ||
Thirty years of transcranial magnetic stimulation: where do we stand? | Q39000950 | ||
Randomized, proof-of-principle clinical trial of active transcranial magnetic stimulation in chronic migraine | Q39215871 | ||
The Cognitive Neuroscience of Placebo Effects: Concepts, Predictions, and Physiology | Q39235294 | ||
Motor cortex rTMS restores defective intracortical inhibition in chronic neuropathic pain. | Q39343615 | ||
Motor cortex stimulation in neuropathic pain. Correlations between analgesic effect and hemodynamic changes in the brain. A PET study | Q39344500 | ||
Cost-Effectiveness of Repetitive Transcranial Magnetic Stimulation versus Antidepressant Therapy for Treatment-Resistant Depression | Q40618084 | ||
Placebo and opioid analgesia-- imaging a shared neuronal network | Q42162385 | ||
Activation of the opioidergic descending pain control system underlies placebo analgesia. | Q43285483 | ||
Percutaneous coronary intervention in stable angina (ORBITA): a double-blind, randomised controlled trial. | Q43528174 | ||
The opioid placebo analgesia is mediated exclusively through μ-opioid receptor in rat. | Q43637785 | ||
Hidden administration of drugs | Q46714765 | ||
Arthroscopic subacromial decompression for subacromial shoulder pain (CSAW): a multicentre, pragmatic, parallel group, placebo-controlled, three-group, randomised surgical trial. | Q47208067 | ||
Initial elevation bias in subjective reports. | Q47562873 | ||
A systematic review and meta-analysis on placebo response to repetitive transcranial magnetic stimulation for depression trials | Q47716574 | ||
Placebo effect after prefrontal magnetic stimulation in the treatment of resistant obsessive-compulsive disorder: a randomized controlled trial. | Q48873838 | ||
Application and impact of run-in studies | Q49949467 | ||
A multicenter, prospective, single arm, open label, observational study of sTMS for migraine prevention (ESPOUSE Study). | Q51744500 | ||
Placebo Effects in Medicine | Q60304535 | ||
Activation likelihood estimation meta-analysis of brain correlates of placebo analgesia in human experimental pain | Q60683620 | ||
An empirical evaluation of the placebo run-in | Q72220744 | ||
The efficacy paradox in randomized controlled trials of CAM and elsewhere: beware of the placebo trap | Q74143987 | ||
A double-blind study of the treatment of hypertension | Q78856937 | ||
Single-pulse transcranial magnetic stimulation for acute treatment of migraine with aura: a randomised, double-blind, parallel-group, sham-controlled trial | Q83143841 | ||
P433 | issue | 1 | |
P921 | main subject | placebo | Q269829 |
P304 | page(s) | 12-20 | |
P577 | publication date | 2019-01-08 | |
P1433 | published in | Annals of Neurology | Q564414 |
P1476 | title | Challenges of differential placebo effects in contemporary medicine: The example of brain stimulation | |
P478 | volume | 85 |
Q90742645 | Efficacy and Safety of Transcranial Direct Current Stimulation for Treating Negative Symptoms in Schizophrenia: A Randomized Clinical Trial |
Q91669360 | The Role of Tactile Stimulation for Expectation, Perceived Treatment Assignment and the Placebo Effect in an Experimental Nausea Paradigm |
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