BAR巴比妥药筛检测试纸

广州健仑生物科技有限公司

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。

我司同时有bzo - bar - coc - thc met - - opi - oxy - mdma - cfp - amp - xtc – bat多联检测卡（胶体金法）

主营品牌：美国NovaBios、美国Cortez、国产创仑等等。

主要用途：筛查违禁品滥用残留、麻醉药残留、兴奋药物残留等等。

检测范围：吗啡、KET、mamp、MDMA、BZO、THC、巴比妥、MTD、BAR、MDMA、AMP、BUP、PCP、TCA、OXY、MET等等。

产品特点：可以根据需求自主订制多联卡。多联卡自由组合，从二联到十五联都可以订制。

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。

如需订购或者了解请以下或

mob： 杨   ： 

【储存条件及有效期】

储存条件：原包装应储存于4～30℃避光干燥处，切忌冷冻。

有效期：24个月。

以下可以自由COMBO多联检测卡：

BAR巴比妥药筛检测试纸

【检测结果示意图】

INTERPRETATION OF RESULTS

更多产品说明可通过下方的进行了解

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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
【】 
【腾讯  】
【公司地址】 广州市清华科技园健新基地番禺石楼镇健启路63号二期2幢101-103室

（adrenaline,epinephrine,AD）是上腺髓质的主要激素，其 生物合成主要是在髓质铬细胞中首先形成去甲上腺素，然后进 一步经苯乙胺-N-甲基转移酶（phenylethanolamine N-methyl  transferase,PNMT）的作用，使去甲上腺素甲基化形成上腺 素，其化学本质为儿茶酚胺。上腺素的一般作用使心脏收缩力上升；心脏、肝、和筋骨的血 管扩张和皮肤、粘膜的血管缩小。在药物上，上腺素在心脏停 止时用来刺激心脏，或是哮喘时扩张气管。上腺素能使心肌收缩力加强、兴奋性增高，传导加速，心输出 量增多。对全身各部分血管的作用，不仅有作用强弱的不同，而 且还有收缩或舒张的不同。对皮肤、粘膜和内脏（如脏）的血 管呈现收缩作用；对冠状动脉和骨骼肌血管呈现扩张作用等。由 于它能直接作用于冠状血管引起血管扩张，改善心脏供血，因此 是一种作用快而强的强心药。上腺素还可松弛支气管平滑肌及 解除支气管平滑肌痉挛。利用其兴奋心脏收缩血管及松弛支气管 平滑肌等作用，可以缓解心跳微弱、血压下降、呼吸困难等症状 。小肠内有两种腺体，即十二指肠腺和肠腺。十二指肠腺又称勃 氏腺，是分布于十二指肠粘膜下层的一种分支管泡状腺。十二指 肠腺分泌碱性液体，内含粘蛋白，其粘稠度很高，主要是防止十 二指肠上皮免受胃酸侵蚀。肠腺又称李氏腺，分布于全部小肠的 粘膜层，它是不分支的直管状腺，其分泌物构成了小肠液的主要 成分。（一）小肠液的性质、成份和作用小肠液是由小肠粘膜中的小肠腺所分泌。呈弱碱性，pH值约为8-9 。成人每日分泌量约1～3L。小肠液边分泌边吸收，这种液体的交 流为小肠内营养物质的吸收提供了媒介。小肠液中除水和电解质外，还含有粘液、免疫蛋白和两种酶：肠 激酶（能激活胰蛋白酶原，见前文）和小肠淀粉酶。过去认为小 肠液中还含有其它各种消化酶，但现已证明，其它各种消化酶并 非小肠腺的分泌物，而是存在于小肠粘膜上皮细胞内。它们是分 解多肽为氨基酸的几种肽酶以及分解双糖为单糖的几种二糖酶。
(adrenaline, epinephrine, AD) is the main hormone of the adrenal medulla, its biosynthesis mainly in the medulla chromocytoma first to form adenosine, and then further by the phenylethylamine-N-methyltransferase (phenylethanolamine) The role of N-methyl transferase (PNMT) is to methylate adenosine to form adenosine. Its chemical nature is catecholamine. The general effect of adenostine increases the contractility of the heart; the expansion of the blood vessels of the heart, liver, and bones, and the shrinkage of blood vessels of the skin and mucous membranes. In drugs, adenosine is used to stimulate the heart when the heart stops, or to expand the trachea when asthma occurs. Adenosine can increase myocardial contractility, increase excitability, accelerate conduction, and increase cardiac output. The role of blood vessels in various parts of the body varies not only in the degree of strength but also in the degree of contraction or relaxation. The blood vessels of the skin, mucous membranes, and viscera (such as viscera) exhibit contraction; the coronary and skeletal muscle vessels exhibit dilational effects. Because it can directly act on the coronary blood vessels to cause blood vessels to dilate and improve blood supply to the heart, it is a kind of quick and strong cardiac drug. Adenosine also relaxes bronchial smooth muscle and relieves bronchial smooth muscle spasm. Using its excitatory systolic blood vessels and relaxing bronchial smooth muscles, it can relieve symptoms such as weak heartbeat, lower blood pressure, and difficulty breathing. There are two kinds of glands in the small intestine, namely duodenal glands and intestinal glands. The duodenal gland, also known as the buccal gland, is a branching tubular gland that is distributed in the submucosa of the duodenum. The duodenal glands secrete alkaline fluids and contain mucin, which is highly viscous and mainly protects the duodenal epithelium from acid attack. The intestinal gland, also known as the Lee's gland, is distributed throughout the mucosal layer of the small intestine. It is a non-branched, straight tubular gland whose secretion constitutes the major component of intestinal fluid. (A) of the nature, composition and role of small intestinal fluid Small intestinal fluid is secreted from the intestinal small bowel glands. It is weakly alkaline and has a pH of about 8-9. Daily adult secretion is about 1 to 3L. The small intestine is secreted while it is secreting. This liquid exchange provides a medium for the absorption of nutrients in the small intestine. In addition to water and electrolytes, the intestinal fluid contains mucus, immune proteins, and two enzymes: enterokinase (which activates trypsinogen, see above) and intestinal amylases. In the past, it was thought that intestinal juices contained various other digestive enzymes. However, it has been demonstrated that other various digestive enzymes are not secretions of the small intestine glands but are present in small intestinal epithelial cells. They are several peptidases that decompose polypeptides into amino acids and several disaccharidases that decompose disaccharides into monosaccharides.