- 产品描述
阿米巴Entamoeba ELISA法诊断试剂盒
广州健仑生物科技有限公司
广州健仑长期供应各种生物原料,主要代理品牌:美国Seracare、西班牙Certest、美国Fuller、美国NOVABIOS、 Cellabs等等。
Cellabs公司是一个的生物技术公司,总部位于澳大利亚悉尼。专门研发与生产针对热带传染性疾病的免疫诊断试剂盒。其产品40多个国家和地区。1998年,Cellabs收购TropBio公司,进一步巩固其在研制热带传染病、寄生虫诊断试剂方面的位置。
阿米巴Entamoeba ELISA法诊断试剂盒
该公司的Crypto/Giardia Cel IFA是国标*推荐的两虫检测IFA染色试剂、Crypto Cel Antibody Reagent是UK DWI水质安全评估检测的*抗体。
【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。
阿米巴Entamoeba ELISA法诊断试剂盒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 |
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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】
交感前运动神经元位于延髓前腹侧外部、延髓前腹侧中部、尾缝核、 脑桥和海马内室旁核,其中位于延髓前腹侧外部的交感前运动神经元 在维持基础血压以及调节血压的时相性中起重要作用。交感前运动神 经元的传出通路下行至*胸椎到第二或第三腰椎脊髓恻角的灰质更 换成交感节前神经元,位于脊髓前侧角的交感节前神经元发出的神经 纤维以三种方式形成神经节:椎旁成对的交感神经链、各种不成对的 远端神经丛和位于靶器官附近的神经节。交感神经节前纤维在脊髓前 角离开脊髓,随脊神经干进入椎旁交感神经节,22对交感神经节成对 排列于脊柱两侧,各神经节间彼此交通形成交感神经链。节前纤维在 交感神经节内再次更换成节后神经元,并发出交感节后纤维随脊神经 直达相应的效应器官。来自颈交感神经链三个神经节的交感神经分布 到头颈部,调节血管张力、瞳孔大小、汗腺和唾液腺分泌以及毛发的 运动。下颈部的交感神经节和*胸椎交感神经节在脊髓两侧各融合 成星状神经节。上交感神经节的节后纤维分别形成心脏、食道和肺脏 交感神经丛。不成对的椎前交感神经节在腹腔和盆腔椎体前形成腹腔 、主动脉、肾动脉和肠系膜上、下交感神经节。腹腔神经节来自于胸5 ~12脊髓侧角,节后交感神经支配肝、脾、胃、肾、胰腺、小肠和近 端结肠。肠系膜上交感神经节的节后交感神经支配远端结肠。来自第6 ~9胸椎神经的交感神经纤维组成大内脏神经,终止于半月神经节,由 此分出神经纤维到腹腔神经节,再分支到胃。交感神经的作用为抑制 胃的运动和减少胃液分泌,并传出痛觉。副交感神经纤维来自左、右 迷走神经,它促进胃的运动,增加胃液分泌,与交感神经的作用是相 对抗的。胃壁黏膜下层和肌层内的神经网是由交感和副交感神经纤维 共同组成,以协调胃运动和分泌功能的相互关系。两个系统的自主神 经经常处于兴奋状态,即是持续性紧张,将一定的神经冲动送到所支 配的器官,这称为持续性支配(tonicinnervati-on)。受颉颃性支 配的器官的兴奋性,依靠两个系统的紧张间的平衡来维持。
The sympathetic premotor neurons are located in the anterior ventral outside of the medulla oblongata, the anterior ventral midmedral, caudate nucleus, pons and the paraventricular nucleus of the hippocampus. The sympathetic premotor neurons located outside the ventral medulla oblongata maintain basal blood pressure and regulate blood pressure. The timeliness plays an important role. The presympathetic neurons of the sympathetic premotor neurons descend to the first thoracic spine to the second or third lumbar spinal cord and the preganglionic neurons in the spinal cord are replaced by nerve fibers emitted from the sympathetic preganglionic neurons in the anterior spinal cord angle. Three ways form the ganglion: parasympathetic paired sympathetic chains, various unpaired distal plexus, and ganglia located near the target organ. The sympathetic preganglionic fibers leave the spinal cord in the anterior horn of the spinal cord and enter the paravertebral sympathetic ganglia with the spinal nerve trunk. Twenty-two pairs of sympathetic ganglia are arranged in pairs on both sides of the spine, and each ganglion communicates with each other to form a sympathetic chain. The preganglionic fibers are replaced again in the sympathetic ganglia and become post-ganglionic neurons, and the sympathetic postganglionic fibers are sent to the corresponding effector organs along with the spinal nerves. Sympathetic nerves from the three ganglia of the cervical sympathetic chain distribute to the head and neck, regulating vascular tone, pupil size, secretion of sweat glands and salivary glands, and hair movement. The sympathetic ganglia of the lower neck and the first thoracic sympathetic ganglion merge into slate ganglion on both sides of the spinal cord. The postganglionic fibers of the upper sympathetic ganglion form the heart, esophagus, and lung sympathetic plexus, respectively. The unpaired presymphysial sympathetic ganglion forms the abdominal cavity, the aorta, the renal artery, and the superior and inferior sympathetic ganglia of the mesentery in the abdominal and pelvic vertebral bodies. The celiac ganglion comes from the thoracic 5 to 12 spinal angles, and the postganglionic sympathetic nerves innervate the liver, spleen, stomach, kidney, pancreas, small intestine, and proximal colon. The postganglionic sympathetic nerves in the superior mesenteric sympathetic ganglion govern the distal colon. The sympathetic nerve fibers from the 6th to 9th thoracic vertebrae constitute large visceral nerves and terminate at the half-moon ganglion. From this, the nerve fibers are divided into the celiac ganglion and then branched into the stomach. The role of sympathetic nerves is to inhibit the movement of the stomach and reduce the secretion of gastric juice, and spread the pain. The parasympathetic nerve fibers come from the left and right vagus nerves. It promotes the movement of the stomach and increases the secretion of gastric juice. It is opposed to the action of sympathetic nerves. The neural network in the submucosa and muscularis of the stomach wall is composed of sympathetic and parasympathetic nerve fibers to coordinate the relationship between gastric motility and secretory function. The autonomous systems of the two systems are often in a state of excitement, that is, continuous tension, which sends certain nerve impulses to the supported organs. This is called tonicinnervati-on. The excitability of organs that are sexually supported depends on the balance between the tensions of the two systems.