Your search keyword '"Kang RH"' showing total 3 results

1. Brain-derived neurotrophic factor gene polymorphisms and mirtazapine responses in Koreans with major depression

Author

Kang, RH, primary, Chang, HS, additional, Wong, ML, additional, Choi, MJ, additional, Park, JY, additional, Lee, HY, additional, Jung, IK, additional, Joe, SH, additional, Kim, L., additional, Kim, SH, additional, Kim, YK, additional, Han, CS, additional, Ham, BJ, additional, Lee, HJ, additional, Ko, YH, additional, and Lee, MS, additional

Published

2009

2. Brain-derived neurotrophic factor gene polymorphisms and mirtazapine responses in Koreans with major depression.

Author

Kang RH, Chang HS, Wong ML, Choi MJ, Park JY, Lee HY, Jung IK, Joe SH, Kim L, Kim SH, Kim YK, Han CS, Ham BJ, Lee HJ, Ko YH, Lee MS, and Lee MS

Subjects

Antidepressive Agents, Tricyclic pharmacology, Brain-Derived Neurotrophic Factor blood, Depressive Disorder, Major genetics, Genotype, Humans, Male, Mianserin pharmacology, Mianserin therapeutic use, Middle Aged, Mirtazapine, Polymorphism, Genetic, Republic of Korea, Severity of Illness Index, Treatment Outcome, Antidepressive Agents, Tricyclic therapeutic use, Brain-Derived Neurotrophic Factor genetics, Depressive Disorder, Major drug therapy, Mianserin analogs & derivatives

Abstract

Brain-derived neurotrophic factor (BDNF) is a candidate molecule for influencing the clinical response to antidepressant treatment. The aims of this study were to determine the relationship between the Val66Met polymorphism in the BDNF gene and the response to mirtazapine in 243 Korean subjects with major depressive disorder (MDD). The reduction in the Hamilton Depression score over the 8-week treatment period was not influenced by BDNF V66M genotypes. A marginal effect of genotype on somatic anxiety score was observed at baseline (P = 0.047 in the dominant model). However, genotype-time interaction had no effect on somatic anxiety score after the 8-week a treatment period. Plasma BDNF levels tended to increase during mirtazapine treatment, although without statistical significance (P = 0.055). After 8 weeks of mirtazapine treatment, plasma BDNF levels were higher in Met allele homozygotes (1499.7 ± 370.6 ng/mL) than in Val allele carriers (649.7 ± 158.5 ng/mL, P = 0.049). Our results do not support the hypothesis that the Val66Met promoter polymorphism in the BDNF gene influences the therapeutic response to mirtazapine in Korean MDD patients. However, our data indicate that this polymorphism results in increased plasma BDNF after mirtazapine treatment.

Published

2010

3. Effect of serotonin receptor 2A gene polymorphism on mirtazapine response in major depression.

Author

Kang RH, Choi MJ, Paik JW, Hahn SW, and Lee MS

Subjects

Antidepressive Agents, Tricyclic pharmacokinetics, Asian People genetics, Asian People statistics & numerical data, Case-Control Studies, Depressive Disorder, Major ethnology, Depressive Disorder, Major metabolism, Female, Genotype, Heterozygote, Humans, Male, Mianserin adverse effects, Mianserin pharmacokinetics, Mianserin therapeutic use, Middle Aged, Mirtazapine, Pharmacogenetics, Receptor, Serotonin, 5-HT2A genetics, Receptor, Serotonin, 5-HT2A metabolism, Receptors, Serotonin metabolism, Sleep drug effects, Sleep genetics, Sleep Initiation and Maintenance Disorders chemically induced, Sleep Initiation and Maintenance Disorders genetics, Sleep Initiation and Maintenance Disorders psychology, Treatment Outcome, Antidepressive Agents, Tricyclic therapeutic use, Depressive Disorder, Major drug therapy, Mianserin analogs & derivatives, Polymorphism, Genetic genetics, Receptors, Serotonin genetics

Abstract

The 5-HTR2A gene is a candidate gene for influencing the clinical response to treatment with antidepressants. The purpose of this study was to determine the relationship between the -1438A/G polymorphism of the 5-HTR2A gene and the response to mirtazapine in a Korean population with major depressive disorder. Mirtazapine was administered for eight weeks to the 101 patients who completed the study, during which we evaluated the clinical outcome using repeated-measures ANCOVA. A main effect of genotype or an effect of genotype-time interactions on the decrease in HAMD score during the eight-week follow-up was not found, which suggests that the 5-HTR2A -1438A/G polymorphism does not affect the clinical outcome to mirtazapine administration. However, significant effects of genotype and allele carriers on the decrease in the sleep score over the eight weeks were found (genotype: F = 4.093, p = 0.017; allele: F = 4.371, p = 0.037), whereas no effect of genotype-time interactions on the decrease in the HAMD score over the eight-week follow-up was found. These observations suggest that the -1438A/G polymorphism on the sleep improvement at each time period revealed significant differences in the sleep scores after two weeks of mirtazapine administration. The sleep scores were lower for carriers of the A+ allele than of the A- allele after two weeks of mirtazapine administration (p = 0.041), which means that the -1438GG genotype is associated with less improvement in sleep, and suggests that the effect of mirtazapine on improving the sleep quality differs with the 5-HTR2A -1438A/G polymorphism within two weeks of mirtazapine treatment. In conclusion, although the -1438A/G polymorphism affects the sleep improvement resulting from the administration of mirtazapine to Korean patients with major depressive disorder, our results do not support the hypothesis that this polymorphism of the 5-HTR2A gene is involved in the therapeutic response to mirtazapine.

Published

2007