目的建立稳定的犬额叶脑出血模型。
Objective To establish a stable model of intracerebral hemorrhage in the frontal lobes of dog.
目的在实验性脑出血模型基础上实施微创血肿抽吸术并对其进行评估。
Objective to establish and evaluate minimal invasive hematoma aspiration on the experimental intracerebral hemorrhage models.
治疗组和非治疗组采用兔自体血注射制作脑出血模型,对照组注射生理盐水。
The cerebral hemorrhage model was made by injection of self-body blood, and the control group was made by injection of saline.
脑出血模型自建立至今已有近40年时间,模型制作方法及研究方向均有巨大的变化。
Cerebral hemorrhage model has been built for about 40 years, in which the method of establishing model and study direction have been changed greatly till now.
动物实验方面,采用胶原酶合肝素复制大鼠脑出血模型。测定大鼠脑含水量、血浆生化等指标。
In experiment, the rat models of AICH was created by collagenase with heparin, the brain water content and plasma biochemical index were observed.
目的建立稳定、制作过程创伤小的大鼠脑出血模型,研究其行为、脑组织水肿及组织结构的变化。
Objective To make a model of intracerebral hemorrhage(ICH) in rats and to study the changes in the behavior, brain edema and tissue structure during the absorption of the hematoma.
结论自体血立体定向脑内注入法建立的犬额叶脑出血模型稳定、可靠,其中注血部位、注血量、注血速度以及注血方式是影响模型成功与否的关键所在。
Conclusion Injecting fresh self-blood into the frontal lobes was very stable and reliable. The successful keys of setting up model were the region, volume, speed and way of injection.
大鼠模型脑出血后脑组织的改变包括血肿周围存在不同程度的水肿、炎性细胞浸润、神经元坏死及胶质细胞和血管增生。
The brain tissue changes in mouse model with brain hemorrhage, included dropsy in different degree, inflammatory cell infiltrate, nerve cell necrosis and vascular proliferation as well as gliacyte.
接近临床脑出血的理想动物模型尚待进一步研究。
The ideal animal models that resemble to clinical intracerebral hemorrhage still need to be further developed.
结论在脑出血的基础上给予慢性不可预见的温和应激,能建立较理想的脑出血后抑郁动物模型。
Conclusion It is an ideal method for establishing the animal model of post-encephalorrhagia depression to give chronic unpredictable mild stress to rats on the basis of cerebral hemorrhage.
在这项研究中,我们询问米诺环素是否可以防止大鼠实验性卒中模型tPA相关的脑出血和扩大再灌注窗。
In this study, we ask whether minocycline can prevent tPA-associated cerebral hemorrhage and extend the reperfusion window in an experimental stroke model in rats.
目的:观察中药复方制剂仙脉通胶囊的对大鼠脑出血水肿模型行为学及相关细胞因子的影响,并讨论其作用机制。
Objective: to observe the effect of compound preparation cents Naomaitong capsule edema in rat model of cerebral hemorrhage and related behavioral effects of cytokines, and discuss its mechanism.
结论该模型是研究实验性脑出血后脑水肿较为理想的模型,重复性好、易于制备。
Conclusions the model is ideal to study the edema formation after ICH and easily to repeat and make.
脑出血动物模型有助于我们对自发性脑出血病理生理学的认识。
The animal models of spontaneous intracerebral hemorrhage are helpful in further understanding of the pathophysiology of spontaneous intracerebral hemorrhage.
方法采用犬脑内注入非肝素化的自体动脉血建立实验性脑出血动物模型。
Methods The experimental ICH model was established by injection of non-heparinized arterial blood into canine brain.
目的:探讨脑出血后抑郁动物模型脑内单胺神经递质5 -羟色胺、去甲肾上腺素、酪氨酸羟化酶的变化,研究中药颐脑解郁方对脑出血后抑郁的干预机理。
Objective: to observed the change of 5-ht, ne, th in rat brain of post hemorrhaged depression and the function of traditional medicine YINAOJIEYU to the rat of post hemorrhaged depression.
方法在双肾双夹法复制肾血管性高血压模型的基础上,以胶原酶加肝素脑内注射诱发脑出血,建立高血压性脑出血大鼠模型。
Methods On the base of renovascular hypertensive rats (RHR) model, the hypertensive cerebral hemorrhage rat model was induced by injecting collagenase and heparin into the brain.
方法在双肾双夹法复制大鼠高血压模型的基础上,用胶原酶加肝素联合注射入大鼠尾状核复制脑出血所致脑心综合征模型。
Methods: Based on the rat's hypertension model made by clipping both kidneys, we made a CCS model by infusing collagenase and heparin into the rat's caudate nucleus.
目的:通过头穴透刺对脑出血大鼠模型治疗的实验研究,探讨针刺对脑水肿调控因素影响的机制。
Objective: To research the influence of control factor in rats with brain edema after acute intracerebral hemorrhage treated by scalp penetration acupuncture.
大黄早期应用可降低脑出血动物模型血清和脑组织中NSE的含量,进一步提示大黄能减轻动物模型脑出血急性期的神经细胞损伤。
The experiment indicates that rhubarb can relieve brain hydrops, lower plasma NSE and the NSE content in the brain tissue, improving blood rheology.
动物模型制作采用自体动脉血注入大白鼠尾状核,造成脑出血卒中动物模型。
Animal model creation adoption is from the artery blood infuse into white rat's caudal nucleus, and result in the apoplexy the inside of animal model, 0.
动物模型制作采用自体动脉血注入大白鼠尾状核,造成脑出血卒中动物模型。
Animal model creation adoption is from the artery blood infuse into white rat's caudal nucleus, and result in the apoplexy the inside of animal model, 0.
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