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Xiaofeng Lan

Key Laboratory of Neurogenetics and Channelopathies of Guangdong Province and the Ministry of Education of China, Guangzhou Medical University, Guangzhou, China.

6 papers in the library · 77 citations · publishing 2021-2025

Papers

Plasma inflammatory cytokines and treatment-resistant depression with comorbid pain: improvement by ketamine

Journal of Neuroinflammation September 15, 2021 Yanling Zhou, Chengyu Wang, Xiaofeng Lan et al. 61 citations

Patients with treatment-resistant depression (TRD) who also experience pain show a higher antidepressant response rate and remission rate after six infusions of ketamine compared to those without pain. Before treatment, levels of inflammatory cytokines GM-CSF and IL-6 were elevated in the pain group. After ketamine, many inflammatory cytokines decreased in the pain group, while only TNF-α decreased in the non-pain group. Changes in IL-6 were linked to improvements in both pain intensity and depressive symptoms. The findings suggest that elevated inflammation contributes to individual differences in TRD patients with and without pain, and ketamine's antidepressant and analgesic effects may involve modulating inflammation.

Functional connectivity of the amygdala subregions and the antidepressant effects of repeated ketamine infusions in major depressive disorder.

European psychiatry : the journal of the Association of European Psychiatrists April 4, 2024 Haiyan Liu, Chengyu Wang, Xiaofeng Lan et al. 7 citations

Abnormal connectivity between a specific amygdala subregion (the left laterobasal amygdala) and the left precuneus in people with major depressive disorder is linked to how well ketamine treatment works. After six doses of ketamine (0.5 mg/kg), differences in connectivity changes between responders and nonresponders appeared in the bilateral centromedial amygdala with the left orbital part of the superior frontal gyrus and in the left laterobasal amygdala with the right middle frontal gyrus. A baseline difference in connectivity between the left laterobasal amygdala and the right superior/middle temporal gyrus predicted the antidepressant effect on Day 13, suggesting that ketamine may improve symptoms by regulating amygdala subregion networks.

Non-improvement predicts subsequent non-response to repeated-dose intravenous ketamine for depression: a re-analysis of a 2-week open-label study in patients with unipolar and bipolar depression.

Translational psychiatry August 6, 2024 Chengyu Wang, Xiaofeng Lan, Weijian Liu et al. 6 citations

Non-improvement after four ketamine infusions, or three consecutive non-improvements after three infusions, reliably predicts overall non-response to a six-dose course of intravenous ketamine for depression. Among 135 individuals with major depressive or bipolar disorder in a current depressive episode, sensitivities for predicting non-response exceeded 90% using these early non-improvement criteria. Those who did not improve by these points showed no significant reduction in depressive symptoms from subsequent infusions. The findings suggest that early non-improvement can guide clinicians to discontinue treatment, avoiding ineffective continued dosing.

The Restoration of Energy Pathways Indicates the Efficacy of Ketamine Treatment in Depression: A Metabolomic Analysis.

CNS neuroscience & therapeutics March 1, 2025 Zerui You, Xiaofeng Lan, Chengyu Wang et al. 1 citation

Ketamine improves depressive symptoms in major depressive disorder by altering energy metabolism, including changes in adenosine triphosphate, adenosine diphosphate (ADP), and pyruvate. The shift in ADP levels strongly correlated with reductions in depression severity scores. Lower baseline levels of free triiodothyronine (FT3) predicted a better response to ketamine, suggesting FT3 may serve as a biological marker for treatment efficacy. These findings come from a study of 40 patients in a discovery cohort and 24 in a validation cohort, using metabolomic analysis of serum samples.

Proteomic patterns associated with ketamine response in major depressive disorders.

Cell biology and toxicology January 10, 2025 Nan Zhou, Xiaolei Shi, Runhua Wang et al. 1 citation

Plasma proteomic analysis of 30 major depressive disorder patients before and after two weeks of ketamine treatment identified six proteins pivotal to the drug's antidepressive effect. Immune-response pathways were activated in association with symptom relief. Three pre-treatment proteins strongly predicted which patients would respond to ketamine, offering a potential blood test to personalize treatment.

Comparison of the Antianhedonic Effects of Repeated-dose Intravenous Ketamine in Older and Younger Adults with Major Depressive Episode.

Current neuropharmacology January 1, 2025 Wei Zheng, Limei Gu, Jianqiang Tan et al. 1 citation

Repeated intravenous ketamine infusions rapidly reduce anhedonia in both younger and older adults with major depressive episodes, but older patients show a weaker response. In a study of 135 patients (116 younger, 19 older) receiving six ketamine infusions over 12 days, anhedonia scores dropped significantly in both age groups within 4 hours of the first infusion, with effects maintained throughout treatment. By day 26, younger patients had lower anhedonia scores than older patients. The antianhedonic response rate was 51.7% in younger patients versus 31.6% in older patients, and remission occurred in 24.1% of younger patients but none of the older patients.