【Cellabs公司产品介绍】
公司的主要产品有：隐孢子虫诊断试剂，贾第虫诊断试剂，疟疾诊断试剂，衣原体检测试剂，丝虫诊断试剂，锥虫诊断试剂等。Cellabs 的疟疾ELISA试剂盒成为临床上的一个重要的诊断工具盒科研上的重要鉴定工具。其疟疾抗原HRP-2 ELISA检测试剂盒和疟疾抗体ELISA检测试剂盒已经成为医学研究所的*试剂盒。Cellabs产品主要包括以下几种方法学：直接（DFA）和间接（IFA）免疫荧光法，酶联免疫吸附试验（ELISA），和胶体金快速测试。所有产品都是按照GMP、CE标志按照ISO13485。

主要产品包括：隐孢子虫诊断试剂，贾第虫诊断试剂，疟疾诊断试剂，衣原体检测试剂，丝虫诊断试剂，锥虫诊断试剂等。

广州健仑生物科技有限公司与cellabs达成代理协议，欢迎广大用户咨询订购。

我司还提供其它进口或国产试剂盒：登革热、疟疾、流感、A链球菌、合胞病毒、腮病毒、乙脑、寨卡、黄热病、基孔肯雅热、克锥虫病、违禁品滥用、肺炎球菌、军团菌、化妆品检测、食品安全检测等试剂盒以及日本生研细菌分型诊断血清、德国SiFin诊断血清、丹麦SSI诊断血清等产品。

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【Seracare产品介绍】

货号	产品名称		产品描述	规格
免疫荧光试剂盒（IFA kit)
KR1	Crypto Cel	隐孢子虫（Cryptosporidium）间接免疫荧光检测试剂		50 Test
KR2	Crypto/Giardia Cel	隐孢子虫&贾第虫（Cryptosporidium & Giardia）间接免疫荧光检测试剂		50 Test
KG1	Giardia Cel	贾第虫（Giardia）间接免疫荧光检测试剂		50 Test
KC1	Chlamydia Cel	沙眼衣原体(Chlamydia trachomatis)间接免疫荧光检测试剂		50 Test
KC2	Chlamydia Cel LPS	衣原体 lipopolysaccharide (LPS)间接免疫荧光检测试剂		50 Test
KC3	Chlamydia Cel Pn	肺炎衣原体（Chlamydia pneumoniae）间接免疫荧光检测试剂		50 Test
KP1	Pneumo Cel	卡氏肺孢子虫（Pneumocystis carinii）间接免疫荧光检测试剂		50 Test
KP2	Pneumo Cel Indirect	卡氏肺孢子虫（ Pneumocystis carinii)间接免疫荧光检测试剂		50 Test
酶免试剂盒 ELISA kit
KG2	Giardia CELISA		贾第虫(Giardia）ELISA kit	96 Test
KE1	Entamoeba CELISA Path		溶组织内阿米巴(Entamoeba histolytica) ELISA kit	96 Test
KF1 & KF2	Filariasis CELISA		班氏丝虫(Wuchereria bancrofti ) ELISA kit
KM2	Malaria Antigen (HRP2) CELISA		恶性疟原虫(Plasmodium falciparum) 抗原 ELISA kit	192 Test
KMC3	Pan Malaria Antibody CELISA		间日、三日、恶性及卵形疟疾（Malaria）ELISA IgG kit	192 Test
KT2	T. cruzi IgG CELISA		克氏锥虫(Trypanosoma cruzi) ELISA IgG kit	192 Test
KT3	Toxocara IgG CELISA		弓首线虫(Toxocara canis) ELISA IgG kit	192 Test
KF3	Filariasis Ab (Bm14) CELISA		淋巴丝虫病(lymphatic filariasis) ELISA IgG kit	480 Test
KM7	Quantimal™ pLDH Malaria CELISA		疟疾pLDH抗体检测 ELISA kit	96 Test

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【公司名称】 广州健仑生物科技有限公司
【】杨永汉
【】
【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101-3室
【企业文化】

临床上植物人的呼吸可以保持平稳均匀即是证明。但大脑皮层等上位中枢对呼吸具有调整作用，在一定限度内可随意屏气或加深加快呼吸。大脑皮层对呼吸的随意调节系统与下位脑干的不随意呼吸调节系统的下行通路是分开的。临床上有时能观察到自主呼吸和随意呼吸分离的现象。此时，患者可通过随意呼吸或人工呼吸来维持肺通气。若未进行人工呼吸，一旦病人入睡，呼吸运动就会停止。神经网是动物界里zui原始的神经系统。一般认为它基本上是由二极或者多极的神经细胞组成。这些细胞具有形态上相似的突起，相互连接形成一个疏松的网，因此称神经网。对外界环境的刺激发生反应是动物特性之一，神经系统是在动物进化过程中逐渐演变发展起来的。它经历了没有特殊分化的神经组织，只是依靠原生质传导刺激的单细胞动物，到初现神经组织的腔肠动物的网状神经系统，再由分散的网状神经系统阶段进化为扁虫的梯形、环节动物的链状神经系统，进而到脊索动物出现中空的管状神经系统，这是一个从无到有，从分散到集中，从简单到复杂的演化历程。由于感受器集中在头部，神经管的前端终于发展成脑。神经系统的中枢和周围部分都来源于胚胎背面外胚层的神经板（neural plate），它 zui初见于人胚第三周长约 1.5mm时。由于神经板周边部分生长较快，向背面隆起，隆起之间形成的纵沟称神经沟（neural groove）。在胚胎第四周长约2.5mm时，随着神经沟的不断加深，两侧的神经板也向背侧正中线包卷、融合，并脱离覆盖它的外胚层，这样就形成了神经管（neural tube），中空的管道称中央管。管在头、尾两端遗留的孔，分别在胚胎第四周初及第四周之末闭合（图10—3）。当胚胎在第四周时，神经管的前端发育成三个膨大的脑泡，依次称为前脑（prosencephalon）、中脑（mesencephalon）和菱脑（rhombencephalon）。在第四周或胚胎长约3.2mm时，可见两个向腹侧方向的弯曲，在中脑与菱脑之间的弯曲称头曲，菱脑与脊髓之间的弯曲称颈曲（图10—4A）。
Clinically, the vegetative respiration can be maintained evenly and evenly. However, the upper center of the cerebral cortex has a regulating effect on respiration, and within a certain limit, it can breathe freely or deepen and accelerate breathing. The system of random adjustment of the respiratory function of the cerebral cortex is separate from the downstream pathway of the involuntary respiratory regulation system of the inferior brain stem. Occasionally spontaneous breathing and random breathing can be observed clinically. At this point, the patient can maintain lung ventilation by casual breathing or artificial respiration. If no artificial respiration is performed, respiratory motion will cease once the patient falls asleep. The neural network is the most primitive neural system in the animal kingdom. It is generally thought that it consists essentially of bipolar or multipolar neurons. These cells have morphologically similar protrusions that connect to each other to form a loose net, hence the neural network. The response to external environmental stimuli is one of animal characteristics. The nervous system evolved during the animal's evolution. It undergoes neural tissue without special differentiation. It relies solely on unicellular animals stimulated by protoplasmic conduction to the reticular nervous system of the coelenterate that emerged in the nervous tissue, and then evolved from the dispersed reticular nervous system stage to the ladder of the flatworm. The chain-like nervous system of the annelids, and thus the hollow tubular nerve system of the spinal cord animals, is an evolutionary process from scratch, from dispersion to concentration, from simple to complex. Since the susceptor is concentrated in the head, the front of the neural tube finally develops into a brain. Both the central and peripheral parts of the nervous system are derived from the neural plate of the embryo's dorsal ectoderm, which was originally found on the third week of human embryos at approximay 1.5 mm. As the peripheral part of the nerve plate grows faster and bulges to the back, the longitudinal groove formed between the bulges is called a neural groove. When the fourth week of the embryo is about 2.5 mm in length, as the nerve groove continues to deepen, the nerve plates on both sides are also wrapped and merged into the dorsal midline, and are detached from the ectoderm covering it, thus forming a neural tube (neural) Tube) The hollow tube is called the central tube. The holes left in the head and tail of the tube are closed at the beginning of the fourth week of the embryo and at the end of the fourth week (Fig. 10-3). When the embryo was in the fourth week, the front of the neural tube developed into three enlarged brains, which were called prosencephalon, mesencephalon and rhombencephalon. At the fourth week or when the embryo is about 3.2 mm in length, two curves in the ventral direction are seen. The curvature between the midbrain and the rhomboid is called the head curve, and the curvature between the rhinocerebous and the spinal cord is called the neck curve (Figure 10). —4A).

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