Blockage of the habenular nucleus can eliminate dyspnea induced by electrostimulation of the insular cortex

BACKGROUND： The insular cortex and habenular nucleus may be a regulatory center for obstructive sleep apnea syndrome, and dyspnea may be caused by insular cortex activity. The insular cortex is a cortical representation of obstructive sleep apnea syndrome. The habenular nucleus is a station for descending insular cortex activity. OBJECTIVE： Through actively stimulating the rat insular cortex, to observe rat respiratory movement, myoelectric activities of genioglossus, arterial partial pressure of oxygen, partial pressure of carbon dioxide and acidity-alkalinity, and to verify a hypothesis that the insular cortex is a superior-position regulation center, and the habenular nucleus is an inferior-position nervous nuclei of the insular cortex in patients with obstructive sleep apnea syndrome. DESIGN, TIME AND SETTING： The randomized, controlled animal study was performed at the Laboratory of Electrophysiology, Department of Physiology, Norman Bathune College of Medicine, Jilin University, China from September 2004 to June 2008. MATERIALS： We used L-glutamic acid （Dingguo Biological Product Research Center, Beijing, China）, lidocaine hydrochloride （Seventh Pharmacy Co., Ltd., Wuxi, China）, electric stimulator （Nihon Kohden, Japan）, and an AVL-OPTI blood gas analyzer （AVL Scientific Co., Roswell, GA, USA）. METHODS： The insular cortex of healthy adult Wistar rats underwent electrostimulation and L-glutamic acid stimulation to record changes in the myoelectric activity of genioglossus and respiratory movement. Some rats were injected with lidocaine to block the habenular nucleus before electrostimulation or L-glutamic acid stimulation. L-glutamic acid and lidocaine were injected by microelectrodes embedded in nuclear groups. MAIN OUTCOME MEASURES： Myoelectric activities of genioglossus, arterial partial pressure of oxygen, partial pressure of carbon dioxide and acidity-alkalinity were measured following apnea in rats undergoing electrostimulation in the insular cortex and following blockade of the habenular nucleus. RESULTS： Following electrostimulation and L-glutamic acid stimulation, rats developed apnea or respiratory rhythm disorders. Simultaneously, the amplitude of myoelectric activity of the genioglossus was reduced （P 〈 0.01 ）, and the electromyogram integral was decreased （P 〈 0.01）. Arterial blood gas analysis showed arterial blood acidosis, a decrease in pH （P 〈 0.05）, and an increase in the negative value of alkaline reserve （P 〈 0.01）. Lidocaine in the habenular nuclear blocked respiratory and other index changes after insular cortex stimulation. CONCLUSION： Dyspnea induced by stimulating the insular cortex may require the habenular nucleus. Paralysis of the habenular nucleus can completely eliminate insular cortex stimulation-induced dyspnea.

Extracellular Levels of 5HT and 5HIAA Increase after an Inflammatory Process in the Rat’s Insular Cortex

Serotonin (5HT) in the central nervous system has been associated with pain processing and modulation. The insular cortex (IC) plays an important role in the development and perception of the inflammatory and chronic pain. The role of the serotoninergic system in IC has not been completely studied. We used micro-dialysis in freely moving rats to determine the extracellular release of 5HT and its main metabolite (5HIAA) in the IC during an inflammatory process. Results showed an increase of extracellular levels of 5HT and 5HIAA in the IC during carrageenan-induced inflammation and this augmentation correlates with a decrease of behavioral mechanonociceptive response. Furthermore, the exogenous administration of 5HT and 5HIAA in the IC increases the nociceptive response. Our current data imply that the serotoninergic system in the IC participates in the long-term pain process.

Impairment of LTP in insular cortex is correlated to resilience and vulnerability to chronic stress for PTSD

OBJECTIVE Exposure to stressful events can be differently perceived by individuals depending on the level of stress resilience or vulnerability.The neural processes that underlie such clinical y and social y important differences are largely unknown.As insula cortex is important in emotional processing,we have examined whether the changes in synaptic plasticity in the insula cortex involved in stress resilience or vulnerability.METHODS Mice were divided into two groups:control and stress group.Stress group was treated by foot electric shock twice daily(0.8 mA,2 s,ten times in 1 min) in continuous two weeks.Then we used fear conditioning test to detect re-experiencing of traumatic experience,open field test to detect avoidance,pre-pulse inhibition experiment to detect hyper arousal.The changes of synaptic plasticity in the insular cortex were recorded by the multiple channels electrophysiology and whole cell patch.RESULTS According to the behavioral scores,it was divided into resilient and vulnerable group.In the fear conditioning test,the vulnerable group showed the significant freezing time decreased than that of the resilient group(P<0.01).In the open field test,the time that enter the center zone of vulnerable group is increased than that resilient group(P<0.01);In the pre-pulse inhibition experiment,there are not significant difference of PPI value in both groups(P=0.4239).And then electrophysiological experiments are performed to detect the synaptic plasticity of the insular cortex.Compared with the resilient group,the LTP level was decreased(P<0.05) and the mEPSC was increased(P<0.01) in vulnerable group.CONCLUSION The impairment of synaptic plasticity in the insular cortex may be one of the neural mechanisms for the vulnerability to chronic stress.

Activation of Cannabinoid Receptor 1 in GABAergic Neurons in the Rostral Anterior Insular Cortex Contributes to the Analgesia Following Common Peroneal Nerve Ligation

The rostral agranular insular cortex(RAIC)has been associated with pain modulation.Although the endogenous cannabinoid system(eCB)has been shown to regulate chronic pain,the roles of eCBs in the RAIC remain elusive under the neuropathic pain state.Neuropathic pain was induced in C57BL/6 mice by common peroneal nerve(CPN)ligation.The roles of the eCB were tested in the RAIC of ligated CPN C57BL/6J mice,glutamatergic,or GABAergic neuron cannabinoid receptor 1(CB1R)knockdown mice with the whole-cell patch-clamp and pain behavioral methods.The E/I ratio(amplitude ratio between mEPSCs and mIPSCs)was significantly increased in layer V pyramidal neurons of the RAIC in CPN-ligated mice.Depolarization-induced suppression of inhibition but not depolarization-induced suppression of excitation in RAIC layer V pyramidal neurons were significantly increased in CPN-ligated mice.The analgesic effect of ACEA(a CB1R agonist)was alleviated along with bilateral dorsolateral funiculus lesions,with the administration of AM251(a CB1R antagonist),and in CB1R knockdown mice in GABAergic neurons,but not glutamatergic neurons of the RAIC.Our results suggest that CB1R activation reinforces the function of the descending pain inhibitory pathway via reducing the inhibition of glutamatergic layer V neurons by GABAergic neurons in the RAIC to induce an analgesic effect in neuropathic pain.

Insular Cortex is Critical for the Perception, Modulation,and Chronification of Pain

An increasing body of neuroimaging and electrophysiological studies of the brain suggest that the insular cortex（IC） integrates multimodal salient information ranging from sensation to cognitive-affective events to create conscious interoception. Especially with regard to pain experience, the IC has been supposed to participate in both sensory-discriminative and affective-motivational aspects of pain. In this review, we discuss the latest data proposing that subregions of the IC are involved in isolated pain networks： the posterior sensory circuit and the anterior emotional network. Due to abundant connections with other brain areas, the IC is likely to serve as an interface where cross-modal shaping of pain occurs. In chronic pain,however, this mode of emotional awareness and the modulation of pain are disrupted. We highlight some of the molecular mechanisms underlying the changes of the pain modulation system that contribute to the transition from acute to chronic pain in the IC.

Effect of Transcranial Direct Current Stimulation of Motor Cortex versus Insula Cortex on Chronic Post-Mastectomy Pain: Randomized Sham-Controlled Trial

Background: Transcranial direct current stimulation (tDCS) across cortical brain areas appears to improve various forms of pain, yet evidence of tDCS efficiency and ideal stimulation target is lacking. This study aimed to compare the add-on analgesic efficacy of concentric electrode transcranial direct current stimulation (CE-tDCS) stimulation over the primary motor cortex versus the insular cortex on the management of chronic postmastectomy pain. Method: Prospective randomized double-blind sham-controlled study enrolled eighty patients with chronic postmastectomy pain that were randomly assigned to four groups: active motor (AM), sham motor (SM), active insula (AI) and sham insula (SI) group, each received 5 sessions for 20-minute duration with 2 mA tDCS over the targeted area of the contralateral side of pain. Our primary outcome was VAS score, the secondary outcomes were VDS score, LANSS score and depression symptoms by HAM-D scores, assessment was done at 4 time points (prestimulation, after 5th session, 15th day and one month after the last session). Results: Both active tDCS groups (motor and insula) showed reduction of VAS (P Conclusion: Active tDCS stimulation either targeting the primary motor cortex or the insula cortex has add-on analgesic effect for controlling neuropathic chronic post mastectomy pain and the maximum effect was at 15 days after the last session.

γ-氨基丁酸能神经元参与牙髓炎疼痛及伴发焦虑的形态学研究

目的构建小鼠实验性牙髓炎模型,检测痛行为及焦虑样行为,观察岛叶(IC)和内侧前额叶皮层(mPFC)内神经元的激活情况及γ氨基丁酸(GABA)能神经元的活性变化。方法构建实验性牙髓炎模型,采用HE染色观察小鼠牙髓的炎症变化;痛行为学检测牙髓炎疼痛程度;高架十字迷宫实验和旷场实验检测牙髓炎小鼠焦虑样行为。运用GAD 67-GFP基因敲入工具鼠,并结合免疫荧光染色技术,观察IC和mPFC内一种即刻早期基因c-Fos表达的FOS蛋白的分布及与GABA能神经元的共定位情况。结果牙髓炎建模后,HE染色结果显示3 d时炎症发展至根中1/3,7 d至根尖1/3,14 d时牙髓几乎全部坏死。建模后1 d痛阈降低,第7日为痛阈最低点。牙髓炎组旷场实验的中央区探索时间和高架十字迷宫实验的开臂探索时间均显著缩短。牙髓暴露7 d时,IC和mPFC FOS阳性细胞数增多,并观察到FOS与GABA能神经元的共标细胞。结论小鼠牙髓炎疼痛伴发焦虑样行为。在疼痛状态下,IC和mPFC内的神经元激活,GABA能神经元出现活性变化,为GABA能神经元参与牙髓炎疼痛及伴发的负性情绪提供了形态学证据。

Rolandic点-岛叶入路与颞叶皮层入路小骨窗经侧裂开颅术治疗高血压基底节区出血的疗效及预后分析

目的比较Rolandic点-岛叶入路与颞叶皮层入路小骨窗经侧裂开颅术治疗高血压基底节区出血的疗效及预后。方法回顾性分析2020年8月至2021年8月在复旦大学附属华山医院收治的112例高血压基底节区出血患者的临床资料,所有患者均进行小骨窗经侧裂开路手术治疗,根据患者手术入路不同分为A组(Rolandic点-岛叶入路)57例和B组(颞叶皮层入路)55例,比较两组患者的临床疗效、围术期指标、手术前及术后两周的神经因子水平、预后及术后并发症发生情况。结果A组与B组患者的治疗总有效率分别为98.25%、96.36%,差异无统计学意义(P>0.05);A组患者的手术时间、住院时间分别为(3.41±0.60)h、(22.23±4.49)d,明显短于B组的(4.09±1.23)h、(31.08±5.15)d,差异均有统计学意义(P<0.05);A组患者的血肿清除率(术后24h)、术后1周格拉斯哥昏迷量表(GCS)评分分别为94.74%、(11.75±0.69)分,明显高于B组的80.00%、(10.81±0.57)分,差异均具有统计学意义(P<0.05);手术后,两组患者的S-100β蛋白(S-100β)、胶质纤维酸性蛋白(GFAP)、水通道蛋白4(AQP4)水平均降低,且A组患者的上述指标分别为(0.12±0.07)ng/mL、(3.62±0.48)pg/mL、(105.38±14.18)μg/L,明显低于B组的(0.16±0.06)ng/mL、(3.86±0.52)pg/mL、(111.19±12.73)μg/L,差异均具有统计学意义(P<0.05);A组患者的预后优良率为94.74%,明显高于B组的81.82%,差异具有统计学意义(P<0.05);A组与B组术后并发症发生率分别为7.02%、10.91%,差异无统计学意义(P>0.05)。结论与颞叶皮层入路小骨窗经侧裂开颅术比较,Rolandic点-岛叶入路方式可缩短高血压基底节区出血患者手术时间、住院时间,提高血肿清除率,改善神经因子水平,改善预后。

下丘脑室旁核神经元多重神经支配的电镜研究

为了探讨下丘脑神经内分泌的突触调控机制，本文用电镜细胞化学与免疫电镜双标技术相结合的方法，研究了大鼠下丘脑室旁核神经元的多重神经支配。即先用６－ＯＨＤＡ损毁ＣＡ能神经末梢，再于振动切片上用包埋前免疫电镜法，分别以ＤＡＢ和ＴＡＢ为呈色剂先后对肽能（ＯＴ或ＳＰ）神经元和ＧＡＢＡ神经元进行双重标记。电镜观察结果表明：在下丘脑室旁核内存在肽能（ＯＴ、ＳＰ）和氨基酸（ＧＡＢＡ）能神经元及ＣＡ神经末梢；ＯＴ神经元通过轴一树突触接受ＧＡＢＡ和ＣＡ神经支配；ＳＰ神经元通过轴－树突触接受ＣＡ和ＳＰ神经支配；ＧＡＢＡ神经元则可通过轴－树突触接受ＯＴ、ＳＰ、ＣＡ和ＧＡＢＡ等神经支配。本研究首次得到了下丘脑神经元接受多重神经支配的超微结构证据，其意义在于为同时研究下丘脑神经内分泌活动的多种突触调控提供形态学依据。

缰核介导刺激岛叶、杏仁中央核引起的升压反应

目的 :证明缰核 (Hb)是刺激岛叶 (INS)、杏仁中央核 (CeA)所引起的升压效应下行通路的主要中继站之一。方法 :分别电刺激INS、CeA均可引起升压反应 ,在刺激电极的同侧及双侧Hb内微量注射盐酸利多卡因 ,再电刺激INS、CeA观察升压效应。结果 :单侧Hb内注射利多卡因 ,电刺激INS、CeA所引起的升压反应分别降低 36 .9%、39.6 %。双侧Hb内注射利多卡因 ,电刺激INS、CeA所引起的升压反应分别降低 4 1.7%、4 6 .1%。单侧或双侧Hb内微量注射生理盐水或人工脑脊液均不能降低电刺激INS、CeA引起的升压反应。结论 :缰核是介导电刺激岛叶、杏仁中央核引起升压效应下行通路的主要中继站之一。

血管紧张素Ⅱ在岛叶皮层引起的升压反应经缰核、下丘脑传导

研究证明了血管紧张素Ⅱ(AngⅡ)能引起岛叶皮层(INS)的升压反应,也是向缰核(Hb)、下丘脑(Hypot)传递反应的介导物.电刺激INS,或向INS注射AngⅡ,向缰核,下丘脑微量注射AngⅡ拮抗剂鲁莎坦(Losartan 100 ng/ μL)或利多卡因等条件下,从股动脉插管经压力换能器,可以记录动脉血压的变化.电刺激(150～250 μA,3 s)INS可引起升压反应,血压升高绝对值为(2.14±0.64)kPa.向Hb,Hypot单侧或双侧注射盐酸利多卡因(2%,3 μL),使电刺激INS引起的升压明显降低,表明Hb,Hypot是电刺激INS实现升压效应的必经之路.向INS注射AngⅡ(0.3 μL,15 ng,pH 5.0),引起血压升高幅度为2.26 kPa.在Hb单侧注射鲁莎坦,则INS注射AngⅡ的血压上升幅度仅为1.56 kPa,较原升压幅度降低29.42%.向Hb双侧注射鲁莎坦,则INS的升压效应降低42.99%.在Hb单侧或双侧注射等量人工脑脊液不能降低AngⅡ引起的升压效应.

中央杏仁核、外侧下丘脑/穹窿周围区、室旁核均参与岛皮层升压反应

实验用乌拉坦麻醉、箭毒制动、人工呼吸的大鼠。将谷氨酸注入岛皮层（INS）以及将P物质（SP）注入外侧下丘脑／穹窿周围区（LH／PF）或室旁核均引起升压反应。INS-升压反应可被中央杏仁核（AC）内预先注射普鲁卡因或谷氨酸二乙酯（GDEE，谷氨酸拮抗剂）以及LH／PF内注射[D－Pro2，D-Phe7，D－TrP9]（DPDPDT，SP拮抗剂）明显衰减，但LH／PF内GDEE预处理对该反应无明显影响。室旁核内预先注射普鲁卡因或DPDPDT也使INS-升压反应显著减小。鉴于我们的其它工作曾显示LH／PF和室分核都介导AC-升压反应，上述结果提示：INS通过兴奋AC（谷氨酸受体）进而激活LH／PF和室旁核（SP受体），是其升压反应机理的重要组成部分。

电刺激岛叶对大鼠血压及缰核内神经元放电活动的影响

研究证明了缰核(Hb)是刺激岛叶(INS)所引起的升压效应下行通路的主要中继站之一.电刺激INS引起升压反应,在刺激电极的同侧Hb内微量注射盐酸利多卡因,电刺激INS所引起的升压反应降低了36 9%.双侧Hb内微量注射盐酸利多卡因,电刺激INS所引起的升压反应降低了41 7%.单侧或双侧Hb内微量注射生理盐水或人工脑脊液均不能降低电刺激INS所引起的升压反应.在刺激INS前后用微电极记录Hb内心血管调节相关神经元放电活动的变化.电刺激INS后,Hb内心血管调节相关神经元的放电频率明显增加者占58%(21 36),频率明显减少者占14%(5 36),频率无明显变化者占28%(10 36).结果表明:缰核是参与电刺激岛叶引起升压效应的主要下行通路之一.

脑岛叶梗死与ECG异常的关系探讨

目的通过观察急性大脑中动脉供血区脑梗死患者的ECG改变来分析岛叶梗死与ECG的关系。方法回顾性分析280例急性大脑中动脉供血区的非腔隙性脑梗死患者,根据其头MRI弥散相上是否有岛叶受累分为岛叶梗死组和非岛叶梗死组,通过回顾患者入院时的ECG,观察岛叶梗死与ECG异常的关系。结果124例(44%)患者的MRI弥散相上见到岛叶不同程度的梗死,ECG分析发现ST-T异常见于85例岛叶梗死患者和78例无岛叶梗死的患者(P<0.01)。QT间期延长在右侧岛叶梗死更常见。结论岛叶梗死患者的ECG改变主要表现为非特异性的ST-T异常。

电刺激大鼠岛叶对心血管系统的影响

目的观察电刺激大鼠岛叶对其ECG、血压和自主神经系统的影响。方法将54只健康SD大鼠随机分为3组,即岛叶组、假手术(只插针不刺激)组和杏仁核组,另设空白对照组10只。电刺激大鼠岛叶及杏仁核,对比观察ECG、血压及血浆去甲肾上腺素水平的变化情况。结果电刺激大鼠岛叶可引起ECG的复极改变,主要表现为ST段下移,T波倒置及T波低平;还可出现各种心律失常,其发生率为72%,其中以快速性心律失常为主,并有内传导阻滞。刺激大鼠岛叶后出现血压及心率明显升高,与假手术组和杏仁核组相比有显著性差异(P<0.05)。电刺激后岛叶组大鼠的血浆去甲肾上腺素水平明显增高,与刺激前相比有显著性差异(P<0.05),且明显高于杏仁核组、假手术组及对照组(P<0.05)。结论岛叶对心血管系统有着重要的影响,岛叶激活可引起ECG异常复极改变、血压升高、心律紊乱等心脏自主神经活性失调的情况。

不同手术入路治疗早期左侧壳核出血的临床效果

目的探讨不同手术入路治疗高血压性左侧壳核出血的效果。方法选择2003年1月-2009年12月于汕头大学医学院第一附属医院（以下简称＂我院＂）早期急诊行经侧裂-岛叶入路显微手术清除血肿的69例高血压性左侧壳核出血患者作为观察组,选择我院同期行经颞叶皮质入路手术治疗的58例患者作为对照组。观察两组患者血肿清除率、再出血发生率、术后失语情况及术后3个月的预后情况。结果观察组大部分血肿清除率高于对照组[69.6%（48/69）比44.8%（26/58）],再出血发生率低于对照组[10.2%（7/69）比31.0%（18/58）],观察组患者未见完全失语者,无失语率明显高于对照组[71.0%（49/69）比3.5%（2/58）],两组比较差异均有统计学意义（P〈0.05）。术后3个月随访,观察组预后优良率明显高于对照组[63.8%（44/69）比32.8%（19/58）],两组比较差异有统计学意义（P〈0.05）。结论经外侧裂-岛叶入路治疗高血压性壳核出血的效果优于经颞叶皮质入路,其具有血肿清除效果好、止血方便、对脑组织损伤小、对语言功能的影响小等优势,值得临床推广应用。

经侧裂-岛叶显微手术治疗高血压基底节区脑出血的疗效分析

目的分析经侧裂-岛叶显微手术治疗高血压基底节区脑出血的疗效。方法选取广西壮族自治区河池市第三人民医院2008年9月～2010年9月收治的高血压基底节区脑出血患者51例,进行经侧裂-岛叶显微手术治疗,对比治疗前后日常生活能力(ADL)、血肿情况及病死情况等,探讨该疗法的疗效。结果治疗后患者ALD评价明显改善,Ⅲ级及以下由治疗前的29例升至45例;治疗后血肿明显清除,清除率达93.5%;术后共出现15例并发症:肺部感染6例,泌尿系统感染8例,心脏改变(心律失常)1例;患者全部存活,存活率为100.0%。结论经侧裂-岛叶显微手术对高血压基底节区脑出血的血肿有良好的清除效果,并能保护脑部组织,避免神经障碍的发生,值得临床广泛推广。

大鼠臂旁核向岛皮质的直接投射──内脏性传入通路研究之二

用Ｎｉｓｓｌ法显示大鼠臂旁核的细胞构筑，应用辣根过氧化物酶（ＨＲＰ）追踪法探讨了臂旁核各亚核与岛皮质的传入神经联系。将ＨＲＰ注入岛皮质嘴侧部的少颗粒区，在臂旁外侧核的腹侧区和臂旁内侧核的中央区（腰区）见到中等量标记细胞，标记纤维少见，其它亚核的标记细胞少见。将ＨＲＰ注入岛皮质尾侧部的颗粒区，在臂旁外侧核中央区的外侧部和对侧臂分内侧核的外区见到少量标记细胞。将ＨＲＰ注入岛皮质中部，在臂旁核出现的标记细胞分布较广，多位于腰区、臂旁外侧核中央区和双侧臂旁内侧核外区，而在臂分外侧核的外区，仅有少数几个标记细胞；在臂旁核还见到少量标记纤维。上述各区标记细胞形态相似，以圆形和卵圆形为主，直径约１５μｍ。实验证明臂旁核向岛皮质有直接投射，发展了前人的研究，为系统的内脏传入通路的建立提供新的形态学资料。

Role of 5-hydroxytryptamine expression in cerebellar Purkinje cells in obstructive sleep apnea syndrome

In the present study, electrical stimulation to the rat insular cortex induced apnea or respiratory disturbance, reduced amplitude of genioglossal electromyogram, and decreased electromyogram integrals. In addition, arterial blood gas analysis showed arterial blood acidosis, reduced pH values, increased alkali reserve negative values, decreased peripheral blood 5-hydroxytryptamine content, and increased 5-hydroxytryptamine expression in cerebellar Purkinje cells. Following lidocaine injection to block the habenular nucleus, abnormalities in breath, genioglossal electromyogram, and blood gas values disappeared, and peripheral blood 5-hydroxytryptamine content returned to levels prior to electric stimulation. However, 5-hydroxytryptamine expression in cerebellar Purkinje cells remained high. The results suggested that 5-hydroxytryptamine expression in Purkinje cells did not correlate with ventilation function involving insular cortex and habenular nucleus.

经侧裂岛叶与颞叶皮质入路早期手术治疗基底节区高血压脑出血患者的效果比较

目的比较经侧裂岛叶与颞叶皮质入路早期手术治疗基底节区高血压脑出血患者的效果。方法选择手术治疗的基底节区高血压脑出血患者128例,按照手术方式的不同分为对照组和观察组,各64例。所有患者从发病至手术时间小于6 h,对照组行传统经颞叶皮质层入路手术,观察组行经侧裂岛叶入路显微手术,比较2组患者的围术期情况、血肿清除率、术后并发症发生率,并随访6个月比较2组患者的恢复情况。结果观察组患者的手术时间、意识恢复时间均明显少于对照组(P<0.05);观察组患者的血肿清除率、术后7 d GCS评分均明显高于对照组(P<0.05);观察组患者的术后并发症发生率为7.81%,明显低于对照组的20.31%(P<0.05)。术后6个月随访,观察组患者的预后优良率为75.00%,明显高于对照组的46.88%(P<0.05)。结论与经颞叶皮质入路早期手术治疗基底节区高血压脑出血相比,经侧裂岛叶入路手术血肿清除率高,术后并发症少,患者术后恢复效果佳,安全性高,具有临床推广价值。