The international journal of neuropsychopharmacology
December 29, 2020
Mu-Hong Chen, Wan-Chen Chang, Wei-Chen Lin et al.
28 citations
Depression involves disrupted communication between the frontal cortex and striatum. In 48 patients with treatment-resistant depression, those with lower baseline connectivity in these circuits showed greater symptom improvement after a single low-dose (0.2 mg/kg) ketamine infusion, but not after a higher dose (0.5 mg/kg) or placebo. Reduced connectivity between the superior frontal cortex and striatum predicted treatment response. Patients had weaker frontostriatal connections than healthy controls.
Journal of the Chinese Medical Association : JCMA
October 1, 2024
Mu-Hong Chen, Tung-Ping Su, Ju-Wei Hsu et al.
14 citations
Autism and youth suicide have both become more common, drawing public health concern. The recent revival of psychedelic research in psychiatry offers a possible treatment avenue, because psychedelics affect serotonin and glutamate systems that are involved in both autism and suicide. This systematic review examines global and Taiwan-specific trends in autism and youth suicide prevalence, reviews clinical and preclinical evidence linking autism and suicidality, proposes a neurobiological connection among autism, suicide, and psychedelics, and discusses potential therapeutic uses of psychedelics for these conditions.
Molecular psychiatry
January 1, 2025
Pei-Chi Tu, Wan-Chen Chang, Tung-Ping Su et al.
13 citations
In two clinical trials involving a total of 96 patients with treatment-resistant depression, a single low dose of ketamine altered specific connections between the thalamus and frontal brain regions, measured by resting-state functional MRI three days after infusion. Some thalamocortical connections increased and others decreased in the ketamine groups compared to placebo or midazolam groups. However, these brain connectivity changes were not statistically significantly linked to improvements in depression or suicidal thoughts after correcting for multiple comparisons. The results suggest that while ketamine may modify thalamocortical connectivity, whether these changes underlie its antidepressant and antisuicidal effects remains uncertain and requires further study.
Psychiatry research
March 1, 2025
Tung-Ping Su, Li-Kai Cheng, Pei-Chi Tu et al.
6 citations
A single low-dose infusion of ketamine (0.5 mg/kg) reduced depressive and suicidal symptoms more than a low-dose midazolam infusion in 43 patients with treatment-resistant depression and suicidal ideation. Brain scans showed that ketamine increased network integrity, specifically degree centrality and clustering coefficient in the angular gyrus and degree centrality in the right thalamus. These changes in the thalamus and default-mode network may underlie ketamine's antidepressant effect.
The Journal of clinical psychiatry
July 8, 2024
Wei-Chen Lin, Mu-Hong Chen, Tung-Ping Su et al.
4 citations
A single low-dose infusion of ketamine (0.5 mg/kg) briefly reduces hopelessness and later lowers suicidal ideation in people with treatment-resistant depression and strong suicidal thoughts. In a randomized trial of 84 patients, those receiving ketamine showed significantly less hopelessness four hours after infusion compared with those receiving a control drug (midazolam). Two days after infusion, the ketamine group had more positive and fewer negative suicidal thoughts. The early drop in hopelessness predicted the later antisuicidal effect. The antihopelessness effect lasted only about four hours, while the antisuicidal effect appeared on the second day.
The British journal of psychiatry : the journal of mental science
April 2, 2025
Wei-Chen Lin, Li-Kai Cheng, Tung-Ping Su et al.
2 citations
Dysfunction in the default mode, salience, and frontoparietal networks—the triple network model—may underlie treatment-resistant depression. Analyzing resting-state functional connectivity MRI data from two clinical trials, researchers found that a single low-dose ketamine infusion altered network properties. In one trial, ketamine changed degree centrality and cluster coefficient in the right posterior cingulate cortex (default mode network) and cluster coefficient in the right supramarginal gyrus (salience network), compared to saline. In another trial, ketamine altered characteristic path length in the left posterior cingulate cortex (default mode network) compared to midazolam. A time effect on cluster coefficient in the right dorsolateral prefrontal cortex (frontoparietal network) appeared for both ketamine and saline. These findings suggest the triple-network model helps explain ketamine's antidepressant effects.
Journal of psychopharmacology (Oxford, England)
March 24, 2025
Chung-Feng Kao, Shih-Jen Tsai, Tung-Ping Su et al.
1 citation
Low-dose ketamine, an N-methyl-D-aspartate receptor antagonist, has an antidepressant effect in treatment-resistant depression that may involve multiple monoamine neurotransmitter systems beyond glutamate. In a trial with 65 patients, those receiving 0.5 mg/kg or 0.2 mg/kg ketamine were compared with those receiving normal saline. Genetic analysis of 50 monoamine-related genes found that variants in the cholinergic, dopaminergic, serotonergic, opioid, cannabinoid, and σ1 receptor systems were associated with ketamine's antidepressant effect. The neuroactive ligand-receptor interaction pathway played a key role. The findings suggest that ketamine's effects involve serotonin, dopamine, and other monoamine systems.
Pharmacopsychiatry
December 20, 2024
Mu-Hong Chen, Tung-Ping Su, Wei-Chen Lin et al.
1 citation
Low-grade inflammation (LGI) is linked to poor response to standard antidepressants, but its role in ketamine treatment for treatment-resistant depression (TRD) was unclear. In 167 patients with TRD, 46 had LGI (C-reactive protein ≥3 mg/L) and 121 did not. A single low-dose ketamine infusion improved depressive symptoms only in patients without LGI, showing no significant antidepressant effect in those with LGI. However, ketamine reduced suicidal thoughts in both groups. The placebo response was notably greater in patients with LGI, which may explain the lack of observed ketamine effect in that group. Further research is needed to confirm these findings.
Scientific reports
May 20, 2026
Guan-Jie She, Wei-Chi Li, Chun-Hsiang Chou et al.
Ketamine infusion alters brain activity patterns in people with treatment-resistant depression, specifically in regions involved in sensory-cognitive integration, mood regulation, and cognitive control. In a study of 45 patients, those receiving ketamine showed changes in the timing and shape of hemodynamic responses in the bilateral olfactory cortex and right inferior parietal gyrus, compared to those receiving midazolam. Improvements in suicidal thoughts were linked to changes in the thalamus and superior frontal gyrus. Ketamine responders also had reduced time-to-peak in the left precuneus. These findings suggest ketamine's effects on suicidal ideation may involve neurovascular coupling dynamics.
Pharmacopsychiatry
February 26, 2026
Ping-Chung Wu, Wei-Chen Lin, Tung-Ping Su et al.
A combination of clinical markers better predicts which patients with treatment-resistant depression and suicidal thoughts will respond rapidly and durably to a single low-dose ketamine infusion than any single marker alone. The markers include mild or moderate depression severity, a shorter current episode, no more than four prior antidepressant failures, low or moderate current suicide risk, and a history of suicide attempts. The analysis of 67 patients from previous trials used a decision-tree model to identify these predictors. Clinicians can use these findings to select patients most likely to benefit, though further confirmation is needed.