corticosterone and Depressive Disorder studies

Depressive Disorder: An affective disorder manifested by either a dysphoric mood or loss of interest or pleasure in usual activities. The mood disturbance is prominent and relatively persistent.

Research Excerpts

Excerpt	Relevance	Reference
" This study utilized a translational animal model of maternal depression (based on giving high levels of corticosterone (CORT, 40 mg/kg, s."	7.91	Developmental outcomes after gestational antidepressant treatment with sertraline and its discontinuation in an animal model of maternal depression. ( Brummelte, S; Kott, JM; Mooney-Leber, SM, 2019)
" Therefore, we tested this hypothesis in the depression model of chronic administration of corticosterone (CORT) in mice and treated the animals daily with liraglutide (5 or 20 nmol/kg ip."	7.88	Liraglutide attenuates the depressive- and anxiety-like behaviour in the corticosterone induced depression model via improving hippocampal neural plasticity. ( Birong, L; Christian, H; Feiyu, S; Le, W; Weina, H; Yuhu, N, 2018)
" The corticosterone rat model was developed to understand the influence of stress on depression-like symptomatology."	7.88	Depression-like behaviors induced by chronic corticosterone exposure via drinking water: Time-course analysis. ( Cui, SY; Cui, XY; Ding, H; Hu, X; Liu, YT; Ye, H; Zhang, YH; Zhao, HL, 2018)
" Herein, we have described a mouse model of a depression-like and insulin-resistant (DIR) state induced by the co-treatment of high-fat diet (HFD) and corticosterone (CORT)."	7.80	Depression-like behaviors in mice subjected to co-treatment of high-fat diet and corticosterone are ameliorated by AICAR and exercise. ( Ji, L; Li, H; Liu, W; Zhai, X, 2014)
"BACKGROUND Depression is a common disorder linked with high levels of chronicity, psycho-social and physical problems, and suicide."	5.51	Antidepressive Effects of Taraxacum Officinale in a Mouse Model of Depression Are Due to Inhibition of Corticosterone Levels and Modulation of Mitogen-Activated Protein Kinase Phosphatase-1 (Mkp-1) and Brain-Derived Neurotrophic Factor (Bdnf) Expression. ( Duan, H; Gao, C; Guo, B; Kong, S; Li, D; Liang, X, 2019)
"Depression is commonly associated with hypothalamic-pituitary adrenal (HPA) axis dysfunction that primarily manifests as aberrant glucocorticoid secretion."	5.48	Differential effects of imipramine and CORT118335 (Glucocorticoid receptor modulator/mineralocorticoid receptor antagonist) on brain-endocrine stress responses and depression-like behavior in female rats. ( Balmer, NJ; Caldwell, JL; Estrada, CM; Ghisays, V; Nguyen, ET; Solomon, MB; Streicher, J, 2018)
" At the end of dosing schedule, neurobehavioral tests were conducted; followed by mechanistic evaluation through biochemical analysis, RTPCR and western blot in serum and hippocampus."	5.48	Antidepressant activity of vorinostat is associated with amelioration of oxidative stress and inflammation in a corticosterone-induced chronic stress model in mice. ( Js, IC; Kv, A; Lahkar, M; Madhana, RM; Naidu, VGM; Sinha, S, 2018)
"Comorbid depression was induced by five inescapable foot-shocks (2mA, 2ms duration) at 10s intervals on days 1, 5, 7, and 10."	5.46	Metformin and ascorbic acid combination therapy ameliorates type 2 diabetes mellitus and comorbid depression in rats. ( Kumar, M; Nayak, PK; Shivavedi, N; Tej, GNVC, 2017)
"Depression is a common psychopathological disorders."	5.43	Zinc and imipramine reverse the depression-like behavior in mice induced by chronic restraint stress. ( Ding, Q; Huang, J; Li, H; Mo, F; Shen, H; Shen, Z; Tian, X; Wang, X, 2016)
" This study investigated antidepressant-like effects and possible underlying mechanisms of Lactobacillus paracasei PS23 (PS23), live or heat-killed, in a mouse model of corticosterone-induced depression using fluoxetine as standard drug."	3.91	Antidepressant-like activities of live and heat-killed Lactobacillus paracasei PS23 in chronic corticosterone-treated mice and possible mechanisms. ( Cheng, YF; Hsu, CC; Liao, CL; Tsai, YC; Wang, S; Wei, CL; Wu, CC; Yen, JT, 2019)
" We then measured the body weight and performed the sucrose preference test, forced swimming test (FST) and open field test to detect the effects of stress on anhedonia and activity."	3.91	DNA methylation of the Tacr2 gene in a CUMS model of depression. ( Fu, L; Liu, Z; Wan, Q; Wang, G; Xiang, D; Xiao, J; Xiao, L; Yao, L; Zhu, F, 2019)
" This study utilized a translational animal model of maternal depression (based on giving high levels of corticosterone (CORT, 40 mg/kg, s."	3.91	Developmental outcomes after gestational antidepressant treatment with sertraline and its discontinuation in an animal model of maternal depression. ( Brummelte, S; Kott, JM; Mooney-Leber, SM, 2019)
" Also, they displayed higher levels of blood serum corticosterone, as well as decreased body weight."	3.88	Vicarious Social Defeat Stress Induces Depression-Related Outcomes in Female Mice. ( Alipio, JB; Braren, SH; Castillo, SA; Flores-Ramirez, FJ; Garcia-Carachure, I; Hernandez, MA; Iñiguez, SD; Lobo, MK; Riggs, LM; Sanchez, DO; Serrano, PA, 2018)
" Therefore, we tested this hypothesis in the depression model of chronic administration of corticosterone (CORT) in mice and treated the animals daily with liraglutide (5 or 20 nmol/kg ip."	3.88	Liraglutide attenuates the depressive- and anxiety-like behaviour in the corticosterone induced depression model via improving hippocampal neural plasticity. ( Birong, L; Christian, H; Feiyu, S; Le, W; Weina, H; Yuhu, N, 2018)
" The corticosterone rat model was developed to understand the influence of stress on depression-like symptomatology."	3.88	Depression-like behaviors induced by chronic corticosterone exposure via drinking water: Time-course analysis. ( Cui, SY; Cui, XY; Ding, H; Hu, X; Liu, YT; Ye, H; Zhang, YH; Zhao, HL, 2018)
" MEC prevented CRS-induced depressive-like behavior via increasing sucrose preference, body weight, and forced swim test (FST) struggling and swimming while reducing immobility in FST and hypothalamic-pituitary-adrenal (HPA) axis hyperactivity (adrenal gland weight and serum corticosterone)."	3.81	Behavioral effects of nicotinic antagonist mecamylamine in a rat model of depression: prefrontal cortex level of BDNF protein and monoaminergic neurotransmitters. ( Aboul-Fotouh, S, 2015)
" Herein, we have described a mouse model of a depression-like and insulin-resistant (DIR) state induced by the co-treatment of high-fat diet (HFD) and corticosterone (CORT)."	3.80	Depression-like behaviors in mice subjected to co-treatment of high-fat diet and corticosterone are ameliorated by AICAR and exercise. ( Ji, L; Li, H; Liu, W; Zhai, X, 2014)
"We investigated the effect of two well characterized preclinical animal models of depression - repeated injections of corticosterone (CORT) and repeated restraint stress - on markers of GABAergic and glutamatergic activity in the hippocampus and amygdala."	3.79	Altered GABAergic and glutamatergic activity within the rat hippocampus and amygdala in rats subjected to repeated corticosterone administration but not restraint stress. ( Caruncho, HJ; Kalynchuk, LE; Lussier, AL; Romay-Tallón, R, 2013)
"On the basis of CMS-induced changes of sucrose intake, a reliable measure for anhedonia, rats were divided into "resilient" and "anhedonic" groups."	3.78	Chronic mild stress-induced depression-like symptoms in rats and abnormalities in catecholamine uptake in small arteries. ( Aalkjaer, C; Boedtkjer, DB; Bouzinova, EV; Broegger, T; Matchkov, VV; Møller-Nielsen, N; Wiborg, O, 2012)
"Developmental deficits in GABAergic inhibition in the forebrain cause behavioral and endocrine abnormalities and selective antidepressant drug responsiveness indicative of anxious-depressive disorders such as melancholic depression, which are frequently characterized by HPA axis hyperactivity and greater efficacy of desipramine versus fluoxetine."	3.76	gamma-Aminobutyric acid-type A receptor deficits cause hypothalamic-pituitary-adrenal axis hyperactivity and antidepressant drug sensitivity reminiscent of melancholic forms of depression. ( Andrews, AM; Earnheart, JC; Lal, R; Luellen, BA; Luscher, B; Shen, Q, 2010)
" We found that subjecting animals to the chronic stress protocol for 20days resulted in performance deficits in the shuttle-box task and several physiological effects, such as an abnormal adrenal gland weight to body weight (AG/B) ratio and increased thickness of the adrenal cortex as well as elevated serum corticosterone levels and reduced glucocorticoid receptor (GR) mRNA expression."	3.73	Curcumin reverses the effects of chronic stress on behavior, the HPA axis, BDNF expression and phosphorylation of CREB. ( Jiang, W; Ku, B; Li, X; Ma, X; Tie, L; Xu, Y; Yao, H, 2006)
" Experimentally, the chronic administration of corticosterone (CORT) in rodents has been reported to promote depressive-like behaviors."	1.72	Protective effect of Myrcia pubipetala Miq. against the alterations in oxidative stress parameters in an animal model of depression induced by corticosterone. ( Alberton, MD; Barauna, SC; de Lima, DD; Lopes, BG; Magro, DDD; Rocha, FE; Shuster, AL; Wayszceyk, S, 2022)
"BACKGROUND Depression is a common disorder linked with high levels of chronicity, psycho-social and physical problems, and suicide."	1.51	Antidepressive Effects of Taraxacum Officinale in a Mouse Model of Depression Are Due to Inhibition of Corticosterone Levels and Modulation of Mitogen-Activated Protein Kinase Phosphatase-1 (Mkp-1) and Brain-Derived Neurotrophic Factor (Bdnf) Expression. ( Duan, H; Gao, C; Guo, B; Kong, S; Li, D; Liang, X, 2019)
" Furthermore, chronic administration of corticosterone significantly increased Dkk-1 expression, decreased the phosphorylation of Ser9 of GSK-3β, and resulted in the impairment of hippocampal learning and memory."	1.48	Modulation of GSK-3β/β-Catenin Signaling Contributes to Learning and Memory Impairment in a Rat Model of Depression. ( Dong, L; Hui, J; Jiang, D; Mao, X; Pu, M; Shi, G; Wu, J; Xi, G; Zhang, J; Zhou, X; Zou, J, 2018)
" At the end of dosing schedule, neurobehavioral tests were conducted; followed by mechanistic evaluation through biochemical analysis, RTPCR and western blot in serum and hippocampus."	1.48	Antidepressant activity of vorinostat is associated with amelioration of oxidative stress and inflammation in a corticosterone-induced chronic stress model in mice. ( Js, IC; Kv, A; Lahkar, M; Madhana, RM; Naidu, VGM; Sinha, S, 2018)
"Agmatine is an endogenous neuromodulator that has been shown to have beneficial effects in the central nervous system, including antidepressant-like effects in animals."	1.48	Antidepressant and pro-neurogenic effects of agmatine in a mouse model of stress induced by chronic exposure to corticosterone. ( Azevedo, DP; Brocardo, PS; Fraga, DB; Gil-Mohapel, J; Melleu, FF; Neis, VB; Olescowicz, G; Rodrigues, ALS; Rosa, PB, 2018)
"Depression is commonly associated with hypothalamic-pituitary adrenal (HPA) axis dysfunction that primarily manifests as aberrant glucocorticoid secretion."	1.48	Differential effects of imipramine and CORT118335 (Glucocorticoid receptor modulator/mineralocorticoid receptor antagonist) on brain-endocrine stress responses and depression-like behavior in female rats. ( Balmer, NJ; Caldwell, JL; Estrada, CM; Ghisays, V; Nguyen, ET; Solomon, MB; Streicher, J, 2018)
"Comorbid depression was induced by five inescapable foot-shocks (2mA, 2ms duration) at 10s intervals on days 1, 5, 7, and 10."	1.46	Metformin and ascorbic acid combination therapy ameliorates type 2 diabetes mellitus and comorbid depression in rats. ( Kumar, M; Nayak, PK; Shivavedi, N; Tej, GNVC, 2017)
" This study aimed to investigate the effects of mirtazapine (MIRT) alone and combined with alpha-lipoic acid (ALA) against corticosterone (CORT) induced behavioral and oxidative alterations."	1.46	Brain antioxidant effect of mirtazapine and reversal of sedation by its combination with alpha-lipoic acid in a model of depression induced by corticosterone. ( de Oliveira, AA; de Sousa, CNS; de Sousa, LC; Honório Júnior, JER; Macedo, D; Maes, M; Medeiros, IDS; Oliveira, TQ; Patrocínio, CFV; Vasconcelos, GS; Vasconcelos, SMM, 2017)
" First, we demonstrated that chronic administration of live PS128 showed no adverse effects on physical health."	1.43	Alteration of behavior and monoamine levels attributable to Lactobacillus plantarum PS128 in germ-free mice. ( Chou, GT; Chuang, HL; Huang, YT; Liu, WH; Tsai, YC; Wang, S; Wu, CC, 2016)
" Interestingly, C-K showed antidepressant-like activities similar to that of Rb3, and Rg3 displayed antidepressant-like effects at lower dosage and faster time, indicating it has better effects than Rb3, whereas Rh2 and PPD failed to show any effect."	1.43	Antidepressant-like effects of ginsenosides: A comparison of ginsenoside Rb3 and its four deglycosylated derivatives, Rg3, Rh2, compound K, and 20(S)-protopanaxadiol in mice models of despair. ( Li, Z; Lou, C; Yang, H; Zhang, H; Zhong, Z; Zhou, Z, 2016)
"Sulforaphane (SFN) is a natural compound with antioxidative, anti-inflammatory and neuroprotective activities."	1.43	Sulforaphane produces antidepressant- and anxiolytic-like effects in adult mice. ( Gao, Q; Gao, Y; Liang, Y; Ma, Y; Shi, H; Wang, X; Wu, S; Xi, Y; Zhao, P, 2016)
"Depression is a common psychopathological disorders."	1.43	Zinc and imipramine reverse the depression-like behavior in mice induced by chronic restraint stress. ( Ding, Q; Huang, J; Li, H; Mo, F; Shen, H; Shen, Z; Tian, X; Wang, X, 2016)
" Furthermore, acute treatment of NPFFR2 agonists in wild-type (WT) mice enhanced the activity of the HPA axis, and chronic administration resulted in depressive and anxiety-like behaviors."	1.43	Chronic activation of NPFFR2 stimulates the stress-related depressive behaviors through HPA axis modulation. ( Chang, CC; Chen, JC; Chen, TC; Day, YJ; Huang, GJ; Lin, YT; Liu, TY; Yang, CY; Yu, YL, 2016)
"Anhedonia was evaluated using the sucrose preference test (SPT), and behavioural despair was evaluated using the forced swim test (FST) and tail suspension test (TST)."	1.42	Depressive-like behaviours and decreased dendritic branching in the medial prefrontal cortex of mice with tumors: A novel validated model of cancer-induced depression. ( Frey, BN; Nashed, MG; Seidlitz, EP; Singh, G, 2015)
"Post-traumatic stress disorder (PTSD) is a condition which can develop from exposure to a severe traumatic event such as those occurring during wars or natural disasters."	1.40	Moderate treadmill exercise rescues anxiety and depression-like behavior as well as memory impairment in a rat model of posttraumatic stress disorder. ( Alkadhi, K; Allam, F; Dao, AT; Li, L; Patki, G; Salim, S; Solanki, N, 2014)
"These results reflect hypersomnia by intrusion of NREM sleep during the active period as well as a decrease in sleep/wake continuity."	1.40	NREM sleep hypersomnia and reduced sleep/wake continuity in a neuroendocrine mouse model of anxiety/depression based on chronic corticosterone administration. ( Adrien, J; David, DJ; Escourrou, P; Guiard, BP; Guilloux, JP; Hache, G; Le Dantec, Y, 2014)
"Treatment with baicalin (10, 20, 40 mg/kg) prevented these abnormalities induced by CMS."	1.39	Chronic treatment with baicalin prevents the chronic mild stress-induced depressive-like behavior: involving the inhibition of cyclooxygenase-2 in rat brain. ( Jiao, S; Li, J; Li, YC; Shen, JD; Wang, R; Yi, LT, 2013)
"Pneumococcal meningitis is a severe infectious disease of the central nervous system, associated with acute inflammation and might cause damage to the host, such as deafness, blindness, seizure, and learning deficits."	1.38	Imipramine reverses depressive-like parameters in pneumococcal meningitis survivor rats. ( Barichello, T; Cipriano, AL; Comim, CM; Costa, CS; Generoso, JS; Milioli, G; Moreira, AP; Quevedo, J; Teixeira, AL; Vilela, MC, 2012)
" Pharmacokinetic studies performed on these groups indicated that urinary free cortisol and cortisol-to-cortisone ratios can be treated as biomarkers of stress and depressive disorders."	1.37	Simultaneous determination of urinary cortisol, cortisone and corticosterone in parachutists, depressed patients and healthy controls in view of biomedical and pharmacokinetic studies. ( Bączek, T; Konieczna, L; Kowalski, P; Olędzka, I; Plenis, A, 2011)
"Rosiglitazone treatment (6 or 12 mg/kg, orally) significantly reduced plasma corticosterone levels in rats."	1.35	Antidepressant-like effects of rosiglitazone, a PPARγ agonist, in the rat forced swim and mouse tail suspension tests. ( Al-Rasheed, NM; Eissa Ahmed, AA, 2009)
"Corticosterone levels were elevated in CMS-treated animals relative to the singly housed control groups, but exposure to a subsequent stressor was not influenced by the stress history."	1.32	Evaluation of the effects of chronic mild stressors on hedonic and physiological responses: sex and strain compared. ( Baker, SL; Barbagallo, LS; Bielajew, C; Kentner, AC; Konkle, AT; Merali, Z, 2003)
"In corticosterone-treated rats, neurogenesis was decreased by 75%."	1.31	Electroconvulsive seizures increase hippocampal neurogenesis after chronic corticosterone treatment. ( Bengzon, J; Ekdahl, CT; Hellsten, J; Mohapel, P; Tingström, A; Wennström, M, 2002)

Timeframe	Studies, this research(%)	All Research%
pre-1990	21 (9.86)	18.7374
1990's	8 (3.76)	18.2507
2000's	33 (15.49)	29.6817
2010's	145 (68.08)	24.3611
2020's	6 (2.82)	2.80

Trial	Phase	Enrollment	Study Type	Start Date	Status
Effects of Probiotic Bacteria on Brain Structure and Function and on Psychological Variables[NCT03478527]		59 participants (Actual)	Interventional	2018-01-08	Completed
Pioglitazone as an Adjunct for Moderate to Severe Depressive Disorder[NCT01109030]	Phase 2/Phase 3	50 participants (Actual)	Interventional	2010-04-30	Completed
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Article	Year
Behavioral and neurobiological consequences of prolonged glucocorticoid exposure in rats: relevance to depression. Progress in neuro-psychopharmacology & biological psychiatry, 2010, Jun-30, Volume: 34, Issue:5 Topics: Adult; Animals; Anxiety; Behavior, Animal; Brain; Cognition; Corticosterone; Depressive Disorder; Di	2010
Aldosterone increases earlier than corticosterone in new animal models of depression: is this an early marker? Journal of psychiatric research, 2012, Volume: 46, Issue:11 Topics: Aldosterone; Animals; Biomarkers; Corticosterone; Depressive Disorder; Disease Models, Animal; Femal	2012
The effect of thymectomy and IL-1 on memory: implications for the relationship between immunity and depression. Brain, behavior, and immunity, 2002, Volume: 16, Issue:5 Topics: Animals; Corticosterone; Cytokines; Depressive Disorder; Disease Models, Animal; Dopamine; Hormone A	2002
The role of childhood trauma in the neurobiology of mood and anxiety disorders: preclinical and clinical studies. Biological psychiatry, 2001, Jun-15, Volume: 49, Issue:12 Topics: Adrenocorticotropic Hormone; Adult; Animals; Anxiety Disorders; Anxiety, Separation; Brain; Child; C	2001
The dexamethasone suppression test and depression. Approaches to the use of a laboratory test in psychiatry. Neurologic clinics, 1988, Volume: 6, Issue:1 Topics: Adrenocorticotropic Hormone; Antidepressive Agents; Corticosterone; Corticotropin-Releasing Hormone;	1988

corticosterone and Depressive Disorder

Research Excerpts

Research

Studies (213)

Authors

Clinical Trials (2)

Trial Overview

Reviews

Trials

Other Studies

Authors	Studies
Lee, JE	1
Park, SY	1
Han, PL	4
Shuster, AL	1
Rocha, FE	1
Wayszceyk, S	1
de Lima, DD	1
Barauna, SC	1
Lopes, BG	1
Alberton, MD	1
Magro, DDD	1
Lee, EH	1
Park, JY	3
Kwon, HJ	1
Lovelock, DF	1
Deak, T	1
Jiang, N	1
Lv, JW	1
Wang, HX	1
Lu, C	1
Wang, Q	1
Xia, TJ	1
Bao, Y	1
Li, SS	1
Liu, XM	1
Schelder-Marzzani, SH	1
Dias, P	1
Freiberger, V	1
Ventura, L	1
Silva, BB	1
Dutra, ML	1
Bobinski, F	1
Schlindwein, AD	1
Cassol, OJ	1
Comim, CM	2
Kim, A	1
Jung, HG	1
Kim, YE	1
Kim, SC	1
Lee, SG	1
Hwang, EM	1
Juneja, A	1
Barenboim, L	1
Jacobson, L	3
Bullich, S	1
Delcourte, S	1
Haddjeri, N	1
Guiard, BP	2
Dávila-Hernández, A	1
González-González, R	1
Guzmán-Velázquez, S	1
Hernández Hernández, OT	1
Zamudio, SR	1
Martínez-Mota, L	1
Lebedeva, KA	1
Caruncho, HJ	2
Kalynchuk, LE	3
Egeland, M	1
Guinaudie, C	1
Du Preez, A	1
Musaelyan, K	1
Zunszain, PA	1
Fernandes, C	1
Pariante, CM	1
Thuret, S	1
Oliveira, TQ	1
de Sousa, CNS	1
Vasconcelos, GS	2
de Sousa, LC	1
de Oliveira, AA	1
Patrocínio, CFV	1
Medeiros, IDS	1
Honório Júnior, JER	1
Maes, M	2
Macedo, D	2
Vasconcelos, SMM	1
Qiuxia, Z	1
Xinlong, M	1
Yilong, Y	1
Hui, Z	1
Yali, W	1
Xiaoquan, Y	1
Lei, W	1
Jiahui, C	1
Haiyan, Z	1
Lui, E	1
Salim, M	1
Chahal, M	1
Puri, N	1
Marandi, E	1
Quadrilatero, J	1
Satvat, E	1
Thakare, VN	1
Aswar, MK	1
Kulkarni, YP	1
Patil, RR	1
Patel, BM	1
Abuelezz, SA	1
Hendawy, N	1
Wang, SS	1
Mu, RH	1
Li, CF	1
Dong, SQ	1
Geng, D	1
Liu, Q	1
Yi, LT	2
Shivavedi, N	1
Kumar, M	1
Tej, GNVC	1
Nayak, PK	1
Olescowicz, G	1
Neis, VB	1
Fraga, DB	1
Rosa, PB	1
Azevedo, DP	1
Melleu, FF	1
Brocardo, PS	1
Gil-Mohapel, J	1
Rodrigues, ALS	1
Brkic, Z	1
Francija, E	1
Petrovic, Z	1
Franic, D	1
Lukic, I	1
Mitic, M	1
Adzic, M	1
Nguyen, ET	1
Caldwell, JL	1
Streicher, J	1
Ghisays, V	1
Balmer, NJ	1
Estrada, CM	1
Solomon, MB	1
Iñiguez, SD	2
Flores-Ramirez, FJ	1
Riggs, LM	2
Alipio, JB	1
Garcia-Carachure, I	1
Hernandez, MA	1
Sanchez, DO	1
Lobo, MK	1
Serrano, PA	1
Braren, SH	1
Castillo, SA	1
Han, M	1
Ban, JJ	1
Bae, JS	1
Shin, CY	1
Lee, DH	1
Chung, JH	1
Hooper, A	1
Paracha, R	1
Maguire, J	1
Xie, X	1
Shen, Q	2
Ma, L	1
Chen, Y	1
Zhao, B	1
Fu, Z	1
Ayuob, NN	1
El Wahab, MGA	1
Ali, SS	1
Abdel-Tawab, HS	1
Zhao, Y	1
Lin, Z	1
Chen, L	1
Ouyang, L	1
Gu, L	1
Chen, F	1
Zhang, Q	1
Takai, Y	1
Kawai, M	1
Ogo, T	1
Ichinose, T	1
Furuya, S	1
Takaki, N	1
Tone, Y	1
Udo, H	1
Furuse, M	2
Yasuo, S	1
Kv, A	1
Madhana, RM	1
Js, IC	1
Lahkar, M	1
Sinha, S	1
Naidu, VGM	1
Wang, JM	1
Pei, LX	1
Zhang, YY	1
Cheng, YX	1
Niu, CL	1
Cui, Y	1
Feng, WS	1
Wang, GF	1
Godoy, LD	1
Umeoka, EHL	1
Ribeiro, DE	1
Santos, VR	1
Antunes-Rodrigues, J	1
Joca, SRL	1
Garcia-Cairasco, N	1
Bogi, E	1
Belovicová, K	1
Ujhazy, E	1
Mach, M	1
Koprdova, R	1
Zilava, L	1
Garafová, A	1
Jezova, D	2
Dubovicky, M	1
Zhang, YP	1
Wang, HY	1
Zhang, C	2
Liu, BP	1
Peng, ZL	1
Li, YY	1
Liu, FM	1
Song, C	4
Kott, JM	2
Mooney-Leber, SM	2
Li, J	3
Brummelte, S	2
Hui, J	1
Zhang, J	2
Pu, M	1
Zhou, X	1
Dong, L	1
Mao, X	1
Shi, G	1
Zou, J	1
Wu, J	1
Jiang, D	1
Xi, G	1
Weina, H	1
Yuhu, N	1
Christian, H	1
Birong, L	1
Feiyu, S	1
Le, W	1
He, XY	1
Chen, JL	1
Xiang, H	1
Gao, Y	2
Tian, JS	1
Qin, XM	1
Du, GH	1
Houwing, DJ	1
Ramsteijn, AS	1
Riemersma, IW	1
Olivier, JDA	1
Abd El-Fattah, AA	1
Fahim, AT	1
Sadik, NAH	1
Ali, BM	1
Huang, X	1
Xiaokaiti, Y	1
Yang, J	1
Pan, J	1
Li, Z	2
Luria, V	1
Li, Y	1
Song, G	1
Zhu, X	1
Zhang, HT	1
O'Donnell, JM	1
Xu, Y	2
Ding, H	1
Cui, XY	1
Cui, SY	1
Ye, H	1
Hu, X	1
Zhao, HL	1
Liu, YT	1
Zhang, YH	1
Ishikawa, T	1
Okano, M	1
Minami, A	1
Tsunekawa, H	1
Satoyoshi, H	1
Tsukamoto, Y	1
Takahata, K	1
Muraoka, S	1
Lam, VYY	1
Raineki, C	1
Wang, LY	1
Chiu, M	1
Lee, G	1
Ellis, L	1
Yu, W	1
Weinberg, J	1
Kumar, A	2
Dogra, S	1
Sona, C	1
Umrao, D	1
Rashid, M	1
Singh, SK	1
Wahajuddin, M	1
Yadav, PN	1
Bekhbat, M	1
Howell, PA	1
Rowson, SA	1
Kelly, SD	1
Tansey, MG	1
Neigh, GN	1
Seo, MK	1
Lee, JG	1
Park, SW	1
Kinlein, SA	1
Phillips, DJ	1
Keller, CR	1
Karatsoreos, IN	1
Liu, W	4
Liu, J	2
Huang, Z	1
Cui, Z	1
Li, L	2
Qi, Z	1
Gao, C	2
Kong, S	1
Guo, B	1
Liang, X	1
Duan, H	1
Li, D	2
Wei, CL	1
Wang, S	2
Yen, JT	1
Cheng, YF	1
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Liu, L	2
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