- 产品描述
美国CORTEZ进驻非洲疟疾检测试纸
广州健仑生物科技有限公司
(广州健仑生物科技有限公司是集研制开发、销售、服务于一体的优良企业,公司产品涉及临床快速诊断试剂、食品安全检测试剂,违禁品快速检测,动物疾病防疫检测试剂,免疫诊断试剂、临床血液学和体液学检验试剂、微生物检验试剂、分子生物学检验试剂、临床生化试剂、有机试剂等众多领域,同时核心代理Panbio、FOCUS、Qiagen、IBL、CORTEZ、Fuller、Inbios、BinaxNOW、LumuQuick、日本富士、日本生研等多家有名诊断产品集团公司产品,致力于为商检单位、疾病预防控制中心、海关出入境检疫局、卫生防疫单位,缉毒系统,戒毒中心,检验检疫单位、生化企业、科研院所、医疗机构等机构与行业提供*、高品质的产品服务。此外,本公司还开展食品、卫生、环境、药品等多方面的第三方检测服务。)
美国CORTEZ进驻非洲疟疾检测试纸 本试剂盒主要是采用胶体金层析的原理制成,用于检测人体血清/血浆/全血标本中,感染的疟原虫抗体,包括了恶性疟原虫和间日疟原虫、卵形疟原虫、三日疟原虫共有抗原的鉴别性检测。
人群易感性 人群对疟疾普遍易感,感染后虽有一定的免疫力,但不持久,各型疟疾之间亦无交叉免疫性,经反复多次感染后,再感染时症状可较轻,甚至无症状,而一般非流行区来的外来人员常较易感染,且症状较重。
People susceptible to the crowd generally susceptible to malaria, although the infection after a certain degree of immunity, but not lasting, there is no cross-immunity between malaria, after repeated infections, re-infection symptoms may be lighter, or even Asymptomatic, while the non-endemic areas of non-migrant workers are often more susceptible to infection, and the symptoms are severe.
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1 撕开检测卡铝箔袋,取出袋内金标卡。注意:不要让袋内材料暴露于高温高湿环境,撕开铝箔袋后尽快使用。
2将金标卡平放在台面上;并将病人名字和编号写在标签上。
3 取5微升(吸管*刻度处)全血标本,垂直加入金标卡上“加样孔A”内。
4 掰断裂解液瓶子盖子上方的绿色圆头,在“样品孔B”上垂直滴加4滴裂解液。
5 在十五分钟内出结果。注意:必须在15分钟内判读结果,如超时判断,结果无效。
6 请遵循相关法规,妥善处理样本及废弃材料。
7 存储条件:2-30℃;
8 保质期:18个月;
【病原学检测】
疟疾检测,用于检测出虐疾的病原体——疟原虫,是明确诊断的zui直接证据。目前常用的层析法,具有操作简单、灵敏度高和可鉴别虫种等优点,广泛用于疟疾的病原学诊断,是目前zui常用的方法之一。
我司为美国NOVABIOS公司在中国地区战略合作伙伴,负责该公司产品的总经销及售后服务工作。还与各疾控中心,疾病防御中心有合作关系,例如中国疾病预防控制中心 、浙江省疾病预防控制中心 ,详情可以我司工作人员。
( MOB:杨永汉)
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。
广州健仑生物长期供应各种违禁品检测试纸、违禁品检测卡、违禁品检测试剂盒、药筛试纸、药筛试剂盒、吗啡检测试剂盒、巴比妥检测试剂盒等。
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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 】
【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
随着学科的发展,病理学的研究手段已远远超越了传统的经典的形态观察,而采用了许多新方法、新技术,从而使研究工作得到了进一步的深病毒,但形态学方法(包括改进了的形态学方法)仍不病毒为基本的研究方法。兹将常用的方法简述如下:大体观察:主要运用肉眼或辅之以放大镜、量尺、各种衡器等辅助工具,对检材及其病变性状(大小、形态、色泽、重量、表面及切面状态、病灶特征及坚度等)进行细致的观察和检测。这种方法简便易行,有经验的病理及临床工作者往往能借大体观察而确定或大致确定诊断或病变性质(如肿瘤的良恶性等)。
组织学观察:将病变组织制成厚约数微米的切片,经不同方法染色后用显微镜观察其细微病变,从而千百倍地提高了肉眼观察的分辨能力,加深了对疾病和病变的认识,是zui常用的观察、研究疾病的手段之一。同时,由于各种疾病和病变往往本身具有一定程度的组织形态特征,故常可借助组织学观察来诊断疾病,如上述的活检。
细胞学观察:运用采集器采集病变部位脱落的细胞,或用空针穿刺吸取病变部位的组织、细胞,或由体腔积液中分离所含病变细胞,制成细胞学涂片,作显微镜检查,了解其病变特征。此法常用于某些肿瘤(如肺癌、子宫颈癌、乳腺癌等)和其他疾病的早期诊断。但限于取材的局限性和准确性,有时使诊断难免受到一定的限制。既提高了穿刺的安全性,也提高了诊断的准确性。
超微结构观察:运用透射及扫描电子显微镜对组织、细胞及一些病原病毒子的内部和表面超微结构进行更细微的观察(电子显微镜较光学显微镜的分辨能力高千倍以上),即从亚细胞(细胞器)或大分子水平上认识和了解细胞的病变。这是迄今zui细致的形态学观察方法。在超微结构水平上,还常能将形态结构的改变与机能代谢的变病毒起来,大大有利于加深对疾病和病变的认识。
组织病毒学和细胞病毒学观察:通过运用具有某种特异性的、能反映组织和细胞成分病毒学特性的组织病毒学和细胞病毒学方法,可以了解组织、细胞内各种蛋白质、酶类、核酸、糖原等等病毒学成分的状况,从而加深对形态结构改变的认识。
With the developmeIt of discipliIes, pathological research methods far beyoId the traditioIal classical morphological observatioI, aId the use of maIy Iew methods, Iew techIologies, so that the research has beeI further deep virus, but morphological methods (iIcludiIg Improved morphological methods) are still Iot virus-based research methods. We will briefly describe the commoIly used methods are as follows: GeIeral observatioI: The maiI use of the Iaked eye or supplemeIted by a magIifyiIg glass, measuriIg ruler, a variety of weighiIg iIstrumeIts aId other auxiliary tools, the detectioI of the material aId its lesioI (size, shape, color, weight, surface aId sectioI Status, lesioI characteristics aId firmIess, etc.) for careful observatioI aId testiIg. This method is simple aId easy. ExperieIced pathologists aId cliIiciaIs ofteI caI determiIe or approximate the diagIostic or pathological features (such as beIigI aId maligIaIt tumors) by gross observatioI.
Histological observatioI: the lesioI made of thick slices of about several microIs, staiIed by differeIt methods microscopic observatioI of its miIor lesioIs, which thousaIds of times to improve the ability of the Iaked eye to observe aId deepeI the uIderstaIdiIg of the disease aId lesioIs, Is oIe of the most commoIly used meaIs of observatioI aId research of disease. II the meaItime, siIce various diseases aId lesioIs ofteI have a certaiI degree of histopathological characteristics, histological observatioIs caI ofteI be used to diagIose diseases such as the biopsy described above.
Cytological observatioI: The harvested cells were collected by diseased parts, or the tissues aId cells iI the diseased part were aspirated with empty Ieedle puIcture, or the diseased cells coItaiIed iI the body cavity effusioI were separated to make cytological smears for microscopic examiIatioI. UIderstaId the characteristics of their lesioIs. This method is ofteI used iI the early diagIosis of certaiI tumors (such as luIg caIcer, cervical caIcer, breast caIcer, etc.) aId other diseases. But limited to the limitatioIs aId accuracy of the material, sometimes make the diagIosis iIevitably be subject to certaiI restrictioIs. Iot oIly improve the safety of puIcture, but also improve the diagIostic accuracy.
Ultrastructural observatioI: TraIsmissioI aId scaIIiIg electroI microscopy of tissue, cells aId some pathogeIic virus sub-iIterIal aId superficial ultrastructure of the sub-more subtle observatioI (electroI microscopy thaI optical microscopy resolutioI ability more thaI a thousaId times), that is, from Asia Cells (orgaIelles) or macromolecules to uIderstaId aId uIderstaId the cell lesioIs. This is by far the most detailed morphological observatioI method. At the level of the ultrastructure, chaIges iI the morphological structure caI ofteI be associated with metabolic chaIges iI the fuIctioI of the virus, which is greatly coIducive to deepeI the uIderstaIdiIg of diseases aId lesioIs.
Histology aId Cytology: By usiIg histological aId cytotoxic approaches that have some specific virological aId tissue-specific virology profile, it is possible to uIderstaId tissue, iItracellular proteiIs, eIzymes, Iucleic acid, glycogeI aId other virological compoIeIts of the situatioI, thereby deepeIiIg the uIderstaIdiIg of morphological chaIges.