待測抗體樣本釋放劑

廣州健侖生物科技有限公司

（廣州健侖生物科技有限公司是集研制開發、銷售、服務于一體的優良企業,公司產品涉及臨床快速診斷試劑、食品安全檢測試劑，違禁品快速檢測，動物疾病防疫檢測試劑，免疫診斷試劑、臨床血液學和體液學檢驗試劑、微生物檢驗試劑、分子生物學檢驗試劑、臨床生化試劑、有機試劑等眾多領域，同時核心代理Panbio、FOCUS、Qiagen、IBL、CORTEZ、Fuller、Inbios、BinaxNOW、LumuQuick、日本富士、日本生研等多家有名診斷產品集團公司產品，致力于為商檢單位、疾病預防控制中心、海關出入境檢疫局、衛生防疫單位,緝毒系統，戒毒中心，檢驗檢疫單位、生化企業、科研院所、醫療機構等機構與行業提供*、高品質的產品服務。此外，本公司還開展食品、衛生、環境、藥品等多方面的第三方檢測服務。）

【產品名稱】樣本釋放劑

【包裝規格】20測試/盒 （溶液I:20×1 Test/瓶；溶液II:20 Test/瓶）         □

50測試/盒 （溶液I:50×1 Test/瓶；溶液II:50 Test/瓶X 1 ）    □

             100測試/盒 （溶液I:100×1 Test/瓶；溶液II:50 Test/瓶X 2）   □

【預期用途】

用于待測致敏紅細胞樣本的預處理，使致敏紅細胞樣本中的待測抗體從與細胞結合的狀態中解離釋放出來。以便于使用體外診斷試劑或儀器對待測抗體進行檢測。

【檢驗原理】

紅細胞上的抗原與血清中抗體在適合條件下發生致敏，這種結合在一定條件下是可逆的。將已致敏的紅細胞懸浮于低pH值的甘氨酸溶液中，抗體蛋白又可以從結合的紅細胞上解離釋放出來。離心取上清解離的放散液，此液中含有從紅細胞表面解離釋放出來的抗體蛋白，經Tris緩沖液調節pH至中性后此上清放散液可用于相關抗體的檢測和鑒定；而解離釋放后的紅細胞經洗滌后可用于血型定型、自身抗體的吸收等。

【主要組成成份】

1.溶液I：主要組分為甘氨酸(C₂H₅NO₂)，氯化鈉(NaCl)。

2.溶液II：主要組分為Tris堿，指示劑。   

【儲存條件及有效期】                  

常溫（10～30℃）儲存，有效期1年。試劑開瓶后在常溫（10～30℃）條件下可儲存6個月。

【樣本要求】

新鮮或2～8℃保存不超過72小時的抗凝血樣。

待測抗體樣本釋放劑

我司還提供其它進口或國產試劑盒：登革熱、瘧疾、西尼羅河、立克次體、無形體、蜱蟲、恙蟲、利什曼原蟲、RK39、漢坦病毒、深林腦炎、流感、A鏈球菌、合胞病毒、腮病毒、乙腦、寨卡、黃熱病、基孔肯雅熱、克錐蟲病、違禁品濫用、肺炎球菌、軍團菌、化妝品檢測、食品安全檢測等試劑盒以及日本生研細菌分型診斷血清、德國SiFin診斷血清、丹麥SSI診斷血清等產品。

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【產品介紹】

二維碼掃一掃

【公司名稱】 廣州健侖生物科技有限公司
【】    楊永漢 
【】 
【騰訊 】 2042552662
【公司地址】 廣州清華科技園創新基地番禺石樓鎮創啟路63號二期2幢101-3室
【企業文化】

這些毛細血管網下行到結節部匯集形成數條垂體門微靜脈，它們下行進入遠側部，再度形成竇狀毛細血管網，稱第二級毛細血管網。垂體門微靜脈及其兩端的毛細血管網共同構成垂體門脈系統（hypophyseal portal system）。遠側部的毛細血管zui后匯集成小靜脈注入垂體周圍的靜脈竇。這是1930年代確立的經典垂體血流模式“自上而下”的概念，闡明了下丘腦控制垂體功能的基本機制。此后又通過新技術的應用和研究，對垂體的血流模式提出了新見解，認為遠側部的血液可輸入神經垂體的漏斗，然后經毛細血管回流入下丘腦；也可流入神經部，再逆向流入漏斗，然后再循環到遠側部或下丘腦，構成整個垂體血流在垂體內的循環流動。[1]  [4-5] 
下丘腦
下丘腦神前區和結節區（弓狀核等）的一些神經元具有內分泌功能，稱為神經內分泌細胞，細胞的軸突伸至垂體漏斗。細胞合成的多種激素經軸突釋放入漏斗處的*級毛細血管網內，繼而經垂體門微靜脈輸至遠側部的第二級毛細血管網。這些激素分別調節遠側部各種腺細胞的分泌活動（圖11－12）。其中對腺細胞分泌起促進作用的激素，稱釋放激素（releasing hormone,RH）。對腺細胞起抑制作用起抑制作用的激素，則稱為釋放抑制激素（release inhibiting hormone,RIH）目前已知的釋放激素有：生長激素釋放激素（GRH）、催乳激素釋放激素（PRH）、促甲狀腺激素釋放激素（TRH）、促性腺激素釋放激素（GnRH）、促腎上腺皮質激素釋放激素（CRH）及黑素細胞刺激素釋放激素（MSRH）等。釋放抑制激素有：生長激素釋放抑制激素（或稱生長抑素，SOM）、催乳激素釋放抑制激素（PIH）和黑素細胞刺激素釋放抑制激素（MSIH）等。由此可見，下丘腦通過所產生的釋放激素和釋放抑制激素，經垂體門脈系統，調節腺垂體內各種細胞的分泌活動；病毒而，將此稱為下丘腦腺垂體系。反之，腺垂體產生的各種激素又可通過垂體血液環流，到達下丘腦，反饋影響其功能活動
傳統認為，垂體前葉僅有少量自主神經纖維，支配前葉內血管的舒縮；而腺細胞的分泌活動則主要受下丘腦各種激素的調節，并無神經的直接支配。
These capillary network down to the nodules converge to form a few pituitary-portal venules, they descend into the distal part of the re-formation of sinusoidal capillary network, said the second capillary network. The hypophyseal portal vein is formed by the pituitary gland microvessels and capillary networks at both ends of the pituitary gland. The distal part of the capillaries converge into a small vein into the periphery of the pituitary sinus. This is the concept of the "top-down" classic pituitary flow model established in the 1930s, illustrating the underlying mechanism by which the hypothalamus controls pituitary function. Then through the application of new technologies and research, put forward new ideas on the pituitary blood flow model, that the distal part of the blood can be fed into the funnel of the pituitary gland and then back into the hypothalamus through the capillaries; can also flow into the nerve, and then Reverse inflow funnel, and then recycle to the distal part or the hypothalamus, constitute the entire pituitary blood flow in the pituitary circulation. [1] [4-5]
Hypothalamus
Some neurons in the hypothalamus prefrontal and nodal regions (arcuate nucleus, etc.) have endocrine functions, called neuroendocrine cells, and axons extend to the pituitary funnel. A variety of hormones synthesized by cells are released into the first capillary network at the funnel and then to the second capillary network of the distal part via the pyloric vein. These hormones regulate the secretory activity of various glandular cells distal (Figure 11-12). Among them, the hormone that promotes the secretion of glandular cells is called releasing hormone (RH). The hormone that inhibits glandular cells is known as release inhibiting hormone (RIH). Known releasing hormones are: growth hormone releasing hormone (GRH), prolactin releasing hormone (PRH), thyrotropin Hormone releasing hormone (TRH), gonadotropin releasing hormone (GnRH), corticotropin releasing hormone (CRH) and melanocyte stimulating hormone releasing hormone (MSRH) and so on. Release inhibitory hormones are: somatostatin (or somatostatin, SOM), prolactin releasing hormone (PIH) and melanocyte stimulating hormone releasing hormone (MSIH) and so on. Thus, the hypothalamus through the release of hormones and release of inhibitory hormone, the pituitary portal system, regulating the secretion of various cells in the pituitary gland activity; the virus, this will be called the hypothalamic pituitary gland system. Conversely, the various hormones produced by the pituitary gland and through the pituitary blood circulation, reaching the hypothalamus, feedback affect its functional activity
Traditionally, there was only a small amount of autonomic nerve fibers in the anterior pituitary, controlling the contraction and contraction of blood vessels in the anterior lobe. The secretory activity of glandular cells was mainly regulated by various hormones in the hypothalamus without any direct control of nerves.