中华神经外科杂志
中華神經外科雜誌
중화신경외과잡지
Chinese Journal of Neurosurgery
2013年
4期
418-422
,共5页
魏乃礼%张弨%王垚%王秀%胡文瀚%张凯%张建国
魏迺禮%張弨%王垚%王秀%鬍文瀚%張凱%張建國
위내례%장초%왕요%왕수%호문한%장개%장건국
脑深部电刺激%伏隔核%肥胖症%多巴胺受体%摄食行为
腦深部電刺激%伏隔覈%肥胖癥%多巴胺受體%攝食行為
뇌심부전자격%복격핵%비반증%다파알수체%섭식행위
Deep brain stimulation%Nucleus accumbens%Obesity%Dopamine receptor%Consumption behavior
目的 探索伏隔核(NAc)脑深部电刺激(DBS)对肥胖大鼠摄食量和NAc多巴胺受体表达水平的影响,为揭示NAc-DBS调控摄食行为的中枢机制提供依据.方法 40只大鼠利用高脂饮食诱导肥胖模型,将成功建模的36只大鼠随机均分核部组和壳部组,分别在NAc的核部和壳部植入刺激电极固定装置,成功植入的大鼠共32只(核部组和壳部组分别16只).每组再随机均分为两个亚组,即DBS组与假刺激组,对DBS组给予连续高频电刺激7d,假刺激组不刺激.观察在此期间各组大鼠的摄食量和摄水量的变化,并利用实时定量PCR技术检测NAc核部与壳部D1和D2受体的表达水平.结果 NAc壳部DBS组大鼠摄食量从第5天开始与假刺激组比较差异有统计学意义(P<0.05),且其D2受体表达较假刺激组上调(P<0.05),而NAc核部电刺激对肥胖大鼠摄食量及D2受体表达影响差异无统计学意义.高频电刺激对肥胖大鼠的摄水量及D1受体表达影响差异无统计学意义.结论 高频电刺激能有效降低肥胖大鼠摄食量,有效刺激靶点为NAc壳部而非核部;具体机制可能与D2受体表达上调有关.
目的 探索伏隔覈(NAc)腦深部電刺激(DBS)對肥胖大鼠攝食量和NAc多巴胺受體錶達水平的影響,為揭示NAc-DBS調控攝食行為的中樞機製提供依據.方法 40隻大鼠利用高脂飲食誘導肥胖模型,將成功建模的36隻大鼠隨機均分覈部組和殼部組,分彆在NAc的覈部和殼部植入刺激電極固定裝置,成功植入的大鼠共32隻(覈部組和殼部組分彆16隻).每組再隨機均分為兩箇亞組,即DBS組與假刺激組,對DBS組給予連續高頻電刺激7d,假刺激組不刺激.觀察在此期間各組大鼠的攝食量和攝水量的變化,併利用實時定量PCR技術檢測NAc覈部與殼部D1和D2受體的錶達水平.結果 NAc殼部DBS組大鼠攝食量從第5天開始與假刺激組比較差異有統計學意義(P<0.05),且其D2受體錶達較假刺激組上調(P<0.05),而NAc覈部電刺激對肥胖大鼠攝食量及D2受體錶達影響差異無統計學意義.高頻電刺激對肥胖大鼠的攝水量及D1受體錶達影響差異無統計學意義.結論 高頻電刺激能有效降低肥胖大鼠攝食量,有效刺激靶點為NAc殼部而非覈部;具體機製可能與D2受體錶達上調有關.
목적 탐색복격핵(NAc)뇌심부전자격(DBS)대비반대서섭식량화NAc다파알수체표체수평적영향,위게시NAc-DBS조공섭식행위적중추궤제제공의거.방법 40지대서이용고지음식유도비반모형,장성공건모적36지대서수궤균분핵부조화각부조,분별재NAc적핵부화각부식입자격전겁고정장치,성공식입적대서공32지(핵부조화각부조분별16지).매조재수궤균분위량개아조,즉DBS조여가자격조,대DBS조급여련속고빈전자격7d,가자격조불자격.관찰재차기간각조대서적섭식량화섭수량적변화,병이용실시정량PCR기술검측NAc핵부여각부D1화D2수체적표체수평.결과 NAc각부DBS조대서섭식량종제5천개시여가자격조비교차이유통계학의의(P<0.05),차기D2수체표체교가자격조상조(P<0.05),이NAc핵부전자격대비반대서섭식량급D2수체표체영향차이무통계학의의.고빈전자격대비반대서적섭수량급D1수체표체영향차이무통계학의의.결론 고빈전자격능유효강저비반대서섭식량,유효자격파점위NAc각부이비핵부;구체궤제가능여D2수체표체상조유관.
Objective To explore the effects of chronic high frequency deep brain stimulation (DBS) of accumben nucleus on food intake and expression of dopamine D1 and D2 receptors and provide evidence for the central mechanism of the effects.Methods 40 rats received high-fat diet to induce obesity and 36 reached the standard of obesity.These rats were randomly even divided in two groups,namely core group and shell group.Stimulating electrode was implanted in the corresponding target.Thirty-two rats survived and were further evenly divided into DBS subgroup and sham DBS subgroup.Rats in the DBS subgroup received continuous high frequency DBS for 7 days.The amount of food and water intake was measured during the period.Seven days later,the rats of all groups were sacrificed to obtain the brain tissue in accumbens nucleus shell and core subregion.The levels of D1 and D2 cDNA were measured using quantitative real time PCR to observe the effect of accumbens nucleus chronic high frequency stimulation on the D1 and D2 receptors expression.Results The amount of food intake began to show significant difference between the NAc shell DBS and sham DBS subgroups from the 5th day (P <0.05).D2 receptor expression was downregulated after 7 days of DBS in the NAc shell group.However,no difference was shown between the NAc core DBS and sham DBS subgroups.The amount of water intake showed no significant difference among the four subgroups.Conclusion The effective target region of high frequency stimulation to decrease the amount of food intake is the NAc shell subregion rather than core subregion.The mechanism involved might be due to upregulation of D2 receptor in the NAc shell subregion.