11 results on '"Lin, Cheng‐Hsien"'
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2. Porous N-doped carbon nanostructure integrated with mesh current collector for Li-ion based energy storage
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Cheng, Heng-Yi, Cheng, Po-Yuan, Chuah, Xui-Fang, Huang, Chun-Lung, Hsieh, Cheng-Ting, Yu, Jiaqi, Lin, Cheng-Hsien, and Lu, Shih-Yuan
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- 2019
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3. Modulation of parietal cytokine and chemokine gene profiles by mesenchymal stem cell as a basis for neurotrauma recovery.
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Lin, Cheng-Hsien, Lin, Willie, Su, Yu-Chin, Cheng-Yo Hsuan, Yogi, Chen, Yu-Chien, Chang, Ching-Ping, Chou, Willy, and Lin, Kao-Chang
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MESENCHYMAL stem cells ,BONE morphogenetic proteins ,STEM cell migration ,BRAIN injuries ,BASIC proteins ,CYBERNETICS - Abstract
Background& Purpose: Following traumatic brain injury (TBI), primary mechanical injury to the brain may cause blood-brain-barrier damage followed by secondary injury, ultimately culminating in cell death. We aimed to test whether one injection of mesenchymal stem cells (MSC) derived from the human umbilical cord can modulate brain cytokine and chemokine gene profiles and attenuate neurological injury in rats with TBI.Methods: One-day post-TBI, the injured rats were treated with one injection of MSC (4 × 106/rat, i.v.). Three days later, immediately after assessment of neurobehavioral function, animals were sacrificed for analysis of neurological injury (evidenced by both brain contusion volume and neurological deficits) and parietal genes encoding 84 cytokines and chemokines in the injured brain by qPCR methods.Results: Three days post-TBI, rats displayed both neurological injury and upgrade of 11 parietal genes in the ipsilateral brain. One set of 8 parietal genes (e.g., chemokine [C-X-C motif] ligand 12, platelet factor 4, interleukin-7, chemokine [C-C motif] ligand (CCL)19, CCL 22, secreted phosphoprotein 1, pro-platelet basic protein 1, and CCL 2) differentially upgraded by TBI was related to pro-inflammatory and/or neurodegenerative processes. Another set of 3 parietal genes up-graded by TBI (e.g., glucose-6-phosphate isomerase, bone morphogenetic protein (BMP) 2, and BMP 4) was related to anti-inflammatory/neuroregenerative events. Administration of MSC attenuated neurological injury, down-regulated these 8 parietal pro-inflammatory genes, and up-regulated these 3 parietal anti-inflammatory genes in the rats with TBI.Conclusion: Our data suggest that modulation of parietal cytokines and chemokines gene profiles by MSC as a basis for neurotrauma recovery. [ABSTRACT FROM AUTHOR]- Published
- 2019
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4. Calycosin-7-O-β-D-glucoside reduces myocardial injury in heat stroke rats.
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Tsai, Cheng-Chia, Wu, Hsing-Hsien, Chang, Ching-Ping, Lin, Cheng-Hsien, and Yang, Hsi-Hsing
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HEAT stroke ,RATS ,ACCIDENTS ,OXIDATIVE stress ,REPERFUSION injury ,ANIMALS ,FEVER ,HERBAL medicine ,CHINESE medicine ,ISOFLAVONES ,DISEASE complications - Abstract
Background/purpose: Calycosin-7-O-β-D-glucoside (CG), a calycosin derivative compound derived from Astragali Radix, has protective effect against ischemia/reperfusion injury as well as bacterial endotoxin-induced vascular cell injury. In the present study, we ascertained whether CG could reduce myocardial injury in heatstroke rats.Methods: Heat stroke was induced by exposing anaesthetized rats to heat stress (43 °C for 70 min). Rats were given an i.p. dose of CG (26.8 mg/ml/kg) or vehicle solution (ml/kg) 15 min before the start of heat stress and immediately after termination of heat stress. Left ventricular performance, myocardial injury markers in the blood, and myocardial damage scores were assessed in heat stroke rats treated with or without CG. Additionally, cardiac levels of oxidative stress and inflammatory status were estimated simultaneously.Results: At the time point of heat stroke onset, compared with normothermic controls, group rats with vehicle solution had significantly decreased survival rate, increased hyperthermia, decreased left ventricular stress markers, and increased cardiac damage scores. Compared with group rats with vehicle solution, group rats with CG had significantly improved survival rate, decreased hyperthermia, decreased cardiac ischemic, inflammatory, and oxidative damage.Conclusion: We thus conclude that myocardial injury can be a pressing need for the design of diagnostic and therapeutic modalities for heat stroke. In particular, our data indicate that CG protects against heat stroke in rats by mitigating myocardial injury. [ABSTRACT FROM AUTHOR]- Published
- 2019
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5. Lower-dosage pembrolizumab as subsequent treatment in pre-treated locally advanced nasopharyngeal carcinoma
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Lin, Cheng-Hsien, Teng, Chieh-Lin J., and Hwang, Wen-Li
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- 2018
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6. Quercetin protects against heat stroke-induced myocardial injury in male rats: Antioxidative and antiinflammatory mechanisms.
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Lin, Xiaojing, Lin, Cheng-Hsien, Zhao, Tingbao, Zuo, Dan, Ye, Zhujun, Liu, Lin, and Lin, Mao-Tsun
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QUERCETIN , *HEAT stroke , *ANTIOXIDANTS , *ANTI-inflammatory agents , *LABORATORY rats - Abstract
Heat stroke is characterized by hyperthermia, systemic inflammation, and multiple organ failure including arterial hypotension. This definition can be fulfilled by a rat model of heat stroke used in the present study. Anesthetized animals were exposed to heat exposure (43 °C for 70 min) and then returned to room temperature (26 °C) for recovery. One hour before heat exposure, an intraperitoneal dose of quercetin (30 mg/kg) or vehicle (normal saline 1 ml/kg) was administered to the experimental groups of rats. Additional injection was administered immediately after the onset of heat stroke. Immediately after the onset of heat stroke. Vehicle-treated rats displayed (i) hyperthermia; (ii) suppressed left ventricular function; (iii) decreased contents of cardiac total antioxiant capacity (e.g., superoxide dismutase, glutathione peroxidase, catalase); (iv) increased contents of cardiac oxidative capacity malondialdehyde and thiobarbituric acid reactive substances; (v) increased cardiac levels of pro-inflammatory cytokines tumor necrosis factor-α and interleukin-6; and (vi) decreased cardiac levels of an anti-inflammatory cytokine interleukin 10. Histopathologic and survival observation provided supportive evidence for biochemical analyses. These heat stroke reactions all can be significantly attenuated by quercetin therapy. Our data suggest that quercetin therapy might improve outcomes of heat stroke in rats by attenuating excessive hyperthermia as well as myocardial injury. The protective effects of quercetin could be attributed to anti-lipid peroxidative, anti-oxidant, and anti-inflammatory properties. [ABSTRACT FROM AUTHOR]
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- 2017
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7. Recovery of neurosurgical high-frequency electroporation injury in the canine brain can be accelerated by 7,8-dihydroxyflavone.
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Sun, Gang, Lin, Cheng-Hsien, Mei, Guiping, Gu, Jia, Fan, Sheng-Fang, Liu, Xiaohong, Liu, Ruoxu, Liu, Xun-Wei, Chen, Xiao-Sen, Zhou, Cheng, Yi, Xueqing, Jin, Peng, Chang, Ching-Ping, and Lin, Xiao-Jing
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BRAIN injuries , *ELECTROPORATION , *ALZHEIMER'S disease , *CEREBRAL edema , *CEREBROSPINAL fluid - Abstract
Although traumatic brain injury (TBI) occurs in a very short time, the biological consequence of a TBI, such as Alzheimer's disease, may last a lifetime. To date, effective interventions are not available to improve recovery from a TBI. Herein we aimed to ascertain whether recovery of neurosurgical high-frequency irreversible electroporation (HFIRE) injury in brain tissues can be accelerated by 7,8-dihydroxyflavone (7,8-DHF). The HFIRE injury was induced in the right parietal cortex of 8 adult healthy and neurologically intact male dogs. Two weeks before HFIRE injury, each dog was administered orally with or without 7,8-DHF (30 mg/kg) once daily for consecutive 2 weeks (n = 4 for each group). The values of blood-brain barrier (BBB) disruption, brain edema, and cerebral infarction volumes were measured. The concentrations of beta-amyloid, interleukin-1β, interleukin-6 and tumor necrosis factor-α in the cerebrospinal fluid were measured biochemically. The BBB disruption, brain edema, infarction volumes, and maximal cross-section area caused by HFIRE injury in canine brain were significantly attenuated by 7,8-DHF therapy (P < 0.0001). Additionally, 7,8-DHF significantly reduced the HFIRE-induced cerebral overproduction of beta-amyloid and proinflammatory cytokines in the cerebrospinal fluid (P < 0.0001) in dogs with HFIRE. Recovery of neurosurgical HFIRE injury in canine brain tissues can be accelerated by 7,8-DHT via ameliorating BBB disruption as well as cerebral overproduction of both beta-amyloid and proinflammatory cytokines. [ABSTRACT FROM AUTHOR]
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- 2023
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8. Myricetin against myocardial injury in rat heat stroke model.
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Lin, Xiaojing, Lin, Cheng-Hsien, Liu, Ruoxu, Li, Chenyi, Jiao, Shuxin, Yi, Xueqing, Walker, M.J., Xu, Xiao-Ming, Zhao, Tingbao, Huang, Po-Chang, and Sun, Gang
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HEAT stroke , *HEAT shock proteins , *MYRICETIN , *WESTERN immunoblotting , *THERMOTHERAPY - Abstract
• Heat stress induces hyperthermia, hypotension, cardiac injury and lethality. • Myricetin preconditioning significantly attenuates these heat stroke reactions. • The beneficial effects of myricetin are significantly abolished by heat shock protein 72 antiody. Heat stroke-induced mortality is rising across the globe. So, the design of prophylactic and/or therapeutic modalities for heat stroke is pressing need. The common plant derived flavonoid exhibits strong anti-oxidant and anti-inflammatory activities; however, its effects in heat stroke remain unknown. The study aimed to investigate the cardioprotective effects of myricetin on heat stroke induced acute myocardial injury as well as lethality in rats and to explore the underlying mechanisms. Myocardial injury was induced by subjecting the anesthetized rats to a high ambient temperature of 43 °C for 70 min. An intragastrical dose of myricetin (5−25 mg/kg body weight) was given to rats once per day for one week prior to the start of heat stress. Heat shock protein 72 antibodies was given intraperitoneally to rats 24 h before the start of heat stress. Myocardial injury severity was estimated by determing myocardial damage scores, myocardial injury indicators, myocardial oxidative and inflammatory factors. Western blot analysis was used for cardiac expression of heat shock protein (HSP)72. Significant (P < 0.05) up-regulation of HSP-72 after chronic administration of myricetin coincided with significant (P < 0.05) reduction in hyperthermia, hypotension, cardiac inflammatory and oxidative damage and lethality. Inhibition of HSP-72 showed a significant (P < 0.05) reversal in the cardiaprotection as well as survival. Our results indicate that myricetin diminishes myocardial injury as well as lethality in heat stroke by up-regulating HSP-72 and show promise as a novel prevention therapeutic for heat stroke. [ABSTRACT FROM AUTHOR]
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- 2020
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9. 7,8-Dihydroxyflavone accelerates recovery of Brown-Sequard syndrome in adult female rats with spinal cord lateral hemisection.
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Lin, Xiaojing, Zhao, Tingbao, Mei, Guiping, Liu, Ruoxu, Li, Chenyi, Wang, Xiaowen, Qu, Zixuan, Lin, Shide, Walker, MJ, Yi, Xueqing, Zhang, Peng, Tseng, Kuang-Wen, Xu, Xiao-Ming, Lin, Cheng-Hsien, and Sun, Gang
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SPINAL cord , *EVOKED potentials (Electrophysiology) , *EFFERENT pathways , *BRAIN-derived neurotrophic factor , *MOTOR neurons , *INTRAOPERATIVE monitoring , *CERVICAL cord , *STRETCH reflex - Abstract
7,8-Dihydroxyflavone (DHF) mimicks the physiological action of brain-derived neurotrophic factor (BDNF). Since local BDNF delivery to the injured spinal cord enhanced diaphragmatic respiratory function, we aimed to ascertain whether DHF might have similar beneficial effects after Brown-Sequard Syndrome in a rat model of spinal cord lateral hemisection (HX) at the 9th thoracic (T9) vertebral level. Three sets of adult female rats were included: sham+vehicle group, T9HX+vehicle group and T9HX+DHF group. On the day of surgery, HX+DHF group received DHF (5 mg/kg) while HX+vehicle group received vehicle. Neurobehavioral function, morphology of motor neurons innervating the tibialis anterior muscle and the transmission in descending motor pathways were evaluated. Adult female rats received T9 HX had paralysis and loss of proprioception on the same side as the injury and loss of pain and temperature on the opposite side. We found that, in this model of Brown-Sequard syndrome, reduced cord dendritic arbor complexity, reduced cord motoneuron numbers, enlarged cord lesion volumes, reduced motor evoked potentials, and cord astrogliosis and microgliosis were noted after T9HX. All of the above-mentioned disorders showed recovery by Day 28 after surgery. Therapy with DHF significantly accelerated the electrophysiological, histological and functional recovery in these T9HX animals. Our data provide a biological basis for DHF as a neurotherapeutic agent to improve recovery after a Brown-Sequard syndrome. Such an effect may be mediated by synaptic plasticity and glia-mediated inflammation in the spared lumbar motoneuron pools to a T9HX. • Spinal cord hemisection induced Brown-Sequard syndrome in rats. • Spinal cord injury altered spinal pyramidal neuron structures. • Spinal cord injury reduced motor evoked potentials and gliosis. • 7,8-Dihydroxyflavone protected against spinal cord injury-induced complications. [ABSTRACT FROM AUTHOR]
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- 2022
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10. Astaxanthin, a carotenoid antioxidant, pretreatment alleviates cognitive deficits in aircraft noised mice by attenuating inflammatory and oxidative damage to the gut, heart and hippocampus.
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Lin, Xiaojing, Bo, Hongjian, Gu, Jia, Yi, Xueqing, Zhang, Peng, Liu, Ruoxu, Li, Haifeng, Sun, Gang, and Lin, Cheng-Hsien
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AIRCRAFT noise , *ASTAXANTHIN , *NOISE-induced deafness , *ENCEPHALITIS , *HIPPOCAMPUS (Brain) , *IMMOBILIZATION stress , *MICE , *HEART - Abstract
We first explore whether aircraft noise (AN) induces cognitive deficit via inducing oxidative damage in multiple vital organs including intestines, hearts and hippocampus tissues. Second, we explore whether the AN-induced cognitive deficits and inflammatory and oxidative damage to multiple organs can be alleviated by Astaxanthin (AX) pretreatment. Cognitive deficits were induced by subjecting the mice to AN 2 h daily for 7 consecutive days. An intragastrical dose of AX emulsifier (at the dose of daily feed intake [6 g] of a mouse three times weekly) was given to mice for consecutive 8 weeks prior to the start of AN. Cognitive functions were evaluated by using passive avoidance apparatus, Y-maze, Morris water maze and novel recognition test. Intestinal permeability was determined by measuring the intestinal clearance of fluorescein-isothiocyante. Evans Blue extravasation assay was used to measure the permeability of blood-brain-barrier. Inflammatory and oxidative damage to multiple organs were determined by measuring several pro-inflammatory cytokines and oxidative stress indicators in intestines; hearts and hippocampus. Mice treated with AN displayed exacerbated stress reactions, cognitive deficits, gut barrier hyperpermeability, increased upload of lipopolysaccharide translocation, systemic pro-inflammatory cytokines overproduction, blood-brain-barrier hyperpermeability, hippocampal neuroinflammation and increased levels of oxidative stress indicators in intestine, heart and hippocampus. All of the above-mentioned disorders caused by AN were significantly (P < 0.05) reversed by AX. Our data indicate that AX pretreatment alleviates cognitive deficits in aircraft noised mice by attenuating inflammatory and oxidative damage to intestines, hearts and hippocampal tissues. [ABSTRACT FROM AUTHOR]
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- 2022
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11. Aircraft noise, like heat stress, causes cognitive impairments via similar mechanisms in male mice.
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Sun, Gang, Lin, Xiaojing, Yi, Xueqing, Zhang, Peng, Liu, Ruoxu, Fu, Bo, Sun, Yating, Li, Jing, Jiao, Shuxin, Tian, Tian, Xu, Xiao-Ming, Tseng, Kuang-Wen, and Lin, Cheng-Hsien
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COGNITION disorders , *AIRCRAFT noise , *MAZE tests , *TROPANES , *MICE , *HYPOTHALAMIC-pituitary-adrenal axis , *WHITE noise - Abstract
To our knowledge, little evidence is available about effects of aircraft noise (AN), a non-chemical stressor, on cognitive function. Again, it is unknown whether or not the heat stress (HS)-induced cognitive deficits can be exacerbated by AN. The adult male mice were assigned to four groups: group 1 mice exposed to non-HS (24–26 °C 2 h daily for 4 consecutive days) and white noise (WN) (2 h daily for 4 consecutive days), group 2 mice exposed to WN and HS (32–34 °C 2 h daily for 4 consecutive days), group 3 mice exposed to AN and non-HS (2 h daily for 4 consecutive days) and group 4 mice exposed to AN and HS (2 h daily for consecutive 4 days). Cognitive function were determined by passive avoidance, Y-maze, Morris water maze, and novel object recognition tests. Gut barrier and blood-brain-barrier (BBB) permeability, upload of lipopolysaccharide (LPS) translocation, systemic and central inflammation, and stress reactions were examined. Heat stressed mice displayed both increased stress reactions and learning and memory loss. Heat stress also caused gut barrier hyperpermeability, increased upload of LPS translocation, systemic inflammation, BBB disruption and hippocampal neuroinflammation. Aircraft noise stressed mice did not display systemic inflammation but caused gut barrier hyperpermeability, increased upload of LPS translocation, increased stress reactions, BBB disruption, hippocampal neuroinflammation and cognitive deficits. Aircraft noise exposure further exacerbated the heat stress-induced cognitive deficits and its complications. Our data suggest that AN, like HS, causes cognitive impairments via similar mechanisms in male mice. [Display omitted] • Heat or aircraft noise induced learning and memory loss in mice. • Heat-induced cognitive deficits can be potentiated by aircraft noise. • Heat or aircraft noise induced gut barrier and blood-brain-barrier disruption and neuroinflammation. • Hypothalamic-pituitary-adrenal axis responses were stimulated by heat or aircraft noise. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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