麻疹病毒酶联免疫法诊断试纸
广州健仑生物科技有限公司
广州健仑长期供应各种ELISA试剂盒,主要代理进口和国产品Pai的流行病毒ELISA检测试剂盒。例如:甲乙型流感病毒酶联免疫法检测试剂盒、黄热病毒酶联免疫法检测试剂盒、诺如病毒酶联免疫法检测试剂盒、登革病毒酶联免疫法检测试剂盒、基孔肯雅病毒酶联免疫法检测试剂盒、结核杆菌酶联免疫法病毒检测试剂盒、孢疹病酶联免疫法检测试剂盒、西尼罗河病毒酶联免疫法检测试剂盒、呼吸道合胞病毒酶联免疫法检测试剂盒、冠状病毒酶联免疫法检测试剂盒等等。虫媒体染病系列、呼吸道病原体系列、发热伴出疹系列、消化道及食源感染系列。
检验原理麻疹病毒酶联免疫法诊断试纸
用抗原包被微量板孔,制成固相载体。加患者血清到板孔中,其所含的抗体特异性地与固相载体中现存抗原结合,形成免疫复合物。除去多余物质后,加入结合了碱性磷酸酶的IgG、IgA或IgM抗体,使之与上述免疫复合物反应。洗板,除去多余的结合物,加入底物(对硝基苯磷酸盐)。其与酶结合的免疫复合物反应,产生有颜色产物,颜色强度与特异性抗体含量成正比。
产品规格:96T/盒
存储条件:4-8℃
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【公司名称】 广州健仑生物科技有限公司
【市场部】 杨永汉
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【腾讯 】 2042552662
【公司地址】 广州清华科技园创新基地番禺石楼镇创启路63号二期2幢101-103
到了哺乳类,小脑进一步发展,新小脑、旧小脑及古小脑分部 清楚,表面的沟回变得更为复杂,神经核团更加分化、发达,其生理 功能也更为完善和重要。脑通过它与大脑、脑干和脊髓之间丰富的传 入和传出,参与躯体平衡和肌肉张力(肌紧张)的调节,以及随 意运动的协调。小脑就象一个大的调节器。小脑对于躯体平衡的调节 ,是由绒球小结叶,即由小脑进行的。躯体的平衡调节是一个反射性 过程,绒球小结叶是这一反射活动的装置。躯体平衡变化的信息 由前庭器官所感知,经前庭神经和前庭核传入小脑的绒球小结叶,小 脑据此发出对躯体平衡的调节冲动,经前庭脊髓束到达脊髓前角运动 神经元,再经脊神经到达肌肉,协调了有关颉颃肌群的运动和张力, 从而使躯体保持平衡。例如,当人站立而头向后部仰时,膝和踝关节 将自动地作屈曲运动,以对抗由于头后仰所造成的身体ZX的转移, 使身体保持平衡而不跌倒。在这一过程中,膝与踝关节为配合头向后 仰而作的辅助性屈曲运动,就是由于小脑发出的调节性冲动,协调了 有关肌肉的运动和张力的结果。如果绒球小结叶受到损伤,将破坏躯 体的平衡机能。切除了绒球小结叶的猴不能站立,总是坐在笼子的角 落里,以笼子的两边支撑身体来保持平衡。在人类,绒小结叶如受损 伤或压迫,患者的身体平衡将严重失调,身体倾斜,走路时步态蹒跚 。研究还表明,蚓部皮层也接受与躯体平衡有关的本体感觉和视觉冲 动的传入,顶核与前庭核之间有许多纤维来往。细菌此,由蚓部皮层 和顶核组成的纵向内侧区也参与了躯体平衡,主要是站立的调节。内 侧区的损伤也将造成平衡和站立的困难。调节肌紧张肌紧张是肌肉中不同肌纤维群轮换地收缩,使整个肌肉处于经常的轻 度收缩状态,从而维持了躯体站立姿势的一种基本的反射活动。小脑 可以调节肌紧张活动,其调节作用表现为YZ肌紧张和易化肌紧张两 个方面。小脑YZ肌紧张的作用主要是前叶(旧小脑)蚓部的机能, 这一YZ作用在去大脑动物上表现得Z为明显。
To mammals, the further development of the cerebellum, the new cerebellum, cerebellum and cerebellum old division clearly, the surface ditch back becomes more complex, more differentiated neural nuclei, developed, and its physiological function is more perfect and important. The brain participates in the regulation of body balance and muscle tone (muscle tone), as well as the coordination of voluntary movements through its abundant afferent and outgoing connections with the brain, brain stem and spinal cord. The cerebellum is like a big regulator. The regulation of the body's balance by the cerebellum is carried out by the pompano leaflet, the cerebellum. Body balance regulation is a reflective process, pompano leaf is the central device for this reflex activity. Somatic balance information is sensed by the vestibular organ. The vestibular nucleus and vestibular nucleus are introduced into the cerebellum podocyte. The cerebellum then sends out a regulation impulse to the body balance, and reaches the anterior horn motor neurons in the spinal cord through the vestibular spinal cord bundle The spinal nerves reach the muscles and coordinate the movement and tension of the antagonistic muscle groups to maintain body balance. For example, when a person stands up and head backwards, the knee and ankle joints will automatically buckle to counter the shift in the center of gravity of the body due to head backstrokes, keeping the body balanced without falling. During this process, the auxiliary flexion movement of the knee and ankle for head-to-head alignment is the result of the accommodative impulses emanating from the cerebellum that coordinate the muscle movement and tension. If the pompano leaves damage, it will destroy the body's balance function. Monkeys with pompano leaflets cut off can not stand, always sitting in the corner of a cage, supporting the body with balance on both sides of the cage. In humans, velvet folds such as damaged or oppressed leaves, the patient's body will be a serious imbalance in the balance, body tilt, walking gait hobbled. Studies have also shown that the vermis also accepts sensations of proprioceptive and visual impulses associated with body balance, with many fibers going between the apical and vestibular nuclei. Bacteria, the longitudinal medial region composed of the vermis cortex and the apical nucleus also participates in the body balance, mainly the standing regulation. Injury medial area will also cause the balance and standing difficulties. Regulating Muscle Tension Muscle tension is the contraction of different muscle fiber groups in rotation, leaving the entire muscle in the frequent mild contraction, thus maintaining the body standing posture of a basic reflex activity. The cerebellum can regulate muscle tension activity, its regulatory effect manifested as muscle tension and ease muscle tension in two aspects. The role of the cerebellum in inhibiting muscle tension is mainly the function of the vermis of the anterior lobe (the cerebellum), and this inhibitory effect is most pronounced on brain animals.