创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍发生机制的研究进展

创伤性脑损伤(traumatic brain injury,TBI)也称为脑外伤,其发生率高、死残率高、后遗症多,给患者及家庭造成极大的痛苦和经济负担也给社会带来沉重的负担.TBI的严重后果包括:运动功能缺陷、知觉障碍、认知缺陷、语言障碍、外伤性癫痫、人格改变等,其中认知障碍为最持久和最严重的症状之一,通常表现在注意力和记忆力两方面.研究表明空间记忆缺失发生于各种程度的TBI之后,而有关TBI之后认知障碍的确切机制至今仍不十分清楚.     

创伤性脑损伤后认知障碍研究现状

创伤性脑损伤(traumatic brain injury,TBI)具有较高的发生率,尤其是在当代社会工业和经济高度发达的社会中.TBI后遗症多,残、死率高,不仅给患者本人及其家庭带来了巨大痛苦,也对社会造成了沉重的负担.TBI的严重后果包括:①运动功能缺陷;②知觉障碍;③认知缺陷;④语言障碍;⑤人格改变等.认知障碍为TBI最常见、最持久的后遗症状之一.本文就TBI后认知障碍的研究现状进行简要概述.     

颅脑损伤后神经递质系统变化与认知障碍的研究进展

近年来,颅脑损伤(traumatic brain injury,TBI)的发生率、致残率逐渐增高,随着对脑外伤急性期治疗F段的不断提高,已能大大降低早期的死亡率.然而,它仍是慢性期致残的主要原因,其中认知功能障碍是最持久和最严重的症状之一[1].虽然大部分患者中这些功能在1年后恢复正常,但仍有10％～15％的轻型脑损伤患者存在功能障碍,在中、重型TBI患者中比例更高[2].TBI后认知障碍的确切机制至今仍不十分清楚,研究发现大脑内学习和记忆等认知活动与多种神经递质相关,包括乙酰胆碱(acetylcholine,Ach),去甲肾上腺素,多巴胺(DA),5-羟色胺(5-HT),γ-氨基丁酸,谷氨酸,神经营养因 子等[3].本文就TBI后主要神经递质系统的变化及其与认知障碍的研究进展进行简要综述.     

Association between cognitive impairments and anxiety disorders following traumatic brain injury

This study examined the association between cognitive impairment and anxiety disorders following traumatic brain injury (TBI). Sixty-six participants recruited from a rehabilitation hospital completed the Structured Clinical Interview for the DSM–IV (Diagnostic and Statistical Manual of Mental Disorders–Fourth Edition) and cognitive tests at one year post injury. Prevalence of anxiety disorder was 27.3%. Logistic regression analyses revealed that the attention/working memory, information processing, and executive functions models were significantly associated with anxiety disorder. The memory model was not significant. Processing speed emerged as the strongest model associated with anxiety disorder. The role of cognitive impairment in the etiology of anxiety disorders after TBI is discussed, and treatment implications are explored.     

Correlation of brain-derived neurotrophic factor to cognitive impairment following traumatic brain injury in rats

BACKGROUND: In vitro and in vivo studies have confirmed that brain-derived neurotrophic factor (BDNF) can promote survival and differentiation of cholinergic, dopaminergic and motor neurons, and axonal regeneration. BDNF has neuroprotective effects on the nervous system. OBJECTIVE: To explore changes in BDNF expression and cognitive function in rats after brain injury DESIGN, TIME AND SETTING: The neuropathology experiment was performed at the Second Research Room, Department of Neurosurgery, Fujian Medical University (China) from July 2007 to July 2008. MATERIALS: A total of 72 healthy, male, Sprague Dawley, rats were selected for this study. METHODS: Rat models of mild and moderate traumatic brain injury were created by percussion, according to Feeney's method (n = 24, each group). A bone window was made in rats from the sham operation group (n = 24), but no attack was conducted. MAIN OUTCOME MEASURES: At days 1,2, 4 and 7 following injury, BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was examined by immunohistochemistry (streptavidin-biotin-peroxidase complex method). Changes in rat cognitive function were assessed by the walking test, balance-beam test and memory function detection. RESULTS: Cognitive impairment was aggravated at day 2, and recovered to normal at days 3 and 7 in rats from the mild and moderate traumatic brain injury groups. BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain was increased at 1 day, decreased at day 2, and then gradually increased in the mild and moderate traumatic brain injury groups. BDNF expression was greater in rats from the moderate traumatic brain injury group than in the sham operation and mild traumatic brain injury groups (P < 0.05). CONCLUSION: BDNF expression in the rat frontal lobe cortex, hippocampus and basal forebrain is correlated to cognitive impairment after traumatic brain injury. BDNF has a protective effect on cognitive function in rats following injury