- 產品描述
賈第蟲Giardia ELISA法檢測試劑盒
廣州健侖生物科技有限公司
廣州健侖長期供應各種生物原料,主要代理品牌:美國Seracare、西班牙Certest、美國Fuller、美國NOVABIOS、 Cellabs等等。
Cellabs公司是一個的生物技術公司,總部位于澳大利亞悉尼。專門研發(fā)與生產針對熱帶傳染性疾病的免疫診斷試劑盒。其產品40多個國家和地區(qū)。1998年,Cellabs收購TropBio公司,進一步鞏固其在研制熱帶傳染病、寄生蟲診斷試劑方面的位置。
賈第蟲Giardia ELISA法檢測試劑盒
該公司的Crypto/Giardia Cel IFA是國標*推薦的兩蟲檢測IFA染色試劑、Crypto Cel Antibody Reagent是UK DWI水質安全評估檢測的*抗體。
【Cellabs公司產品介紹】
公司的主要產品有:隱孢子蟲診斷試劑,賈第蟲診斷試劑,瘧疾診斷試劑,衣原體檢測試劑,絲蟲診斷試劑,錐蟲診斷試劑等。Cellabs 的瘧疾ELISA試劑盒成為臨床上的一個重要的診斷工具盒科研上的重要鑒定工具。其瘧疾抗原HRP-2 ELISA檢測試劑盒和瘧疾抗體ELISA檢測試劑盒已經成為醫(yī)學研究所的*試劑盒。Cellabs產品主要包括以下幾種方法學:直接(DFA)和間接(IFA)免疫熒光法,酶聯免疫吸附試驗(ELISA),和膠體金快速測試。所有產品都是按照GMP、CE標志按照ISO13485。
主要產品包括:隱孢子蟲診斷試劑,賈第蟲診斷試劑,瘧疾診斷試劑,衣原體檢測試劑,絲蟲診斷試劑,錐蟲診斷試劑等。
廣州健侖生物科技有限公司與cellabs達成代理協議,歡迎廣大用戶咨詢訂購。
我司還提供其它進口或國產試劑盒:登革熱、瘧疾、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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【Seracare產品介紹】
貨號 | 產品名稱 | 產品描述 | 規(guī)格 | |
免疫熒光試劑盒(IFA kit) | ||||
KR1 | Crypto Cel | 隱孢子蟲(Cryptosporidium)間接免疫熒光檢測試劑 | 50 Test | |
KR2 | Crypto/Giardia Cel | 隱孢子蟲&賈第蟲(Cryptosporidium & Giardia)間接免疫熒光檢測試劑 | 50 Test | |
KG1 | Giardia Cel | 賈第蟲(Giardia)間接免疫熒光檢測試劑 | 50 Test | |
KC1 | Chlamydia Cel | 沙眼衣原體(Chlamydia trachomatis)間接免疫熒光檢測試劑 | 50 Test | |
KC2 | Chlamydia Cel LPS | 衣原體 lipopolysaccharide (LPS)間接免疫熒光檢測試劑 | 50 Test | |
KC3 | Chlamydia Cel Pn | 肺炎衣原體(Chlamydia pneumoniae)間接免疫熒光檢測試劑 | 50 Test | |
KP1 | Pneumo Cel | 卡氏肺孢子蟲(Pneumocystis carinii)間接免疫熒光檢測試劑 | 50 Test | |
KP2 | Pneumo Cel Indirect | 卡氏肺孢子蟲( Pneumocystis carinii)間接免疫熒光檢測試劑 | 50 Test | |
酶免試劑盒 ELISA kit | ||||
KG2 | Giardia CELISA | 賈第蟲(Giardia)ELISA kit | 96 Test | |
KE1 | Entamoeba CELISA Path | 溶組織內阿米巴(Entamoeba histolytica) ELISA kit | 96 Test | |
KF1 & KF2 | Filariasis CELISA | 班氏絲蟲(Wuchereria bancrofti ) ELISA kit |
| |
KM2 | Malaria Antigen (HRP2) CELISA | 惡性瘧原蟲(Plasmodium falciparum) 抗原 ELISA kit | 192 Test | |
KMC3 | Pan Malaria Antibody CELISA | 間日、三日、惡性及卵形瘧疾(Malaria)ELISA IgG kit | 192 Test | |
KT2 | T. cruzi IgG CELISA | 克氏錐蟲(Trypanosoma cruzi) ELISA IgG kit | 192 Test | |
KT3 | Toxocara IgG CELISA | 弓首線蟲(Toxocara canis) ELISA IgG kit | 192 Test | |
KF3 | Filariasis Ab (Bm14) CELISA | 淋巴絲蟲病(lymphatic filariasis) ELISA IgG kit | 480 Test | |
KM7 | Quantimal™ pLDH Malaria CELISA | 瘧疾pLDH抗體檢測 ELISA kit | 96 Test |
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(chuàng)新基地番禺石樓鎮(zhèn)創(chuàng)啟路63號二期2幢101-3室
【企業(yè)文化】
臨床上植物人的呼 吸可以保持平穩(wěn)均勻即是證明。但大腦皮層等上位中樞對呼吸具有調 整作用,在一定限度內可隨意屏氣或加深加快呼吸。大腦皮層對呼吸 的隨意調節(jié)系統(tǒng)與下位腦干的不隨意呼吸調節(jié)系統(tǒng)的下行通路是分開 的。臨床上有時能觀察到自主呼吸和隨意呼吸分離的現象。此時,患 者可通過隨意呼吸或人工呼吸來維持肺通氣。若未進行人工呼吸,一 旦病人入睡,呼吸運動就會停止。神經網是動物界里zui原始的神經系 統(tǒng)。一般認為它基本上是由二極或者多極的神經細胞組成。這些細胞 具有形態(tài)上相似的突起,相互連接形成一個疏松的網,因此稱神經網 。對外界環(huán)境的刺激發(fā)生反應是動物特性之一,神經系統(tǒng)是在動物進 化過程中逐漸演變發(fā)展起來的。它經歷了沒有特殊分化的神經組織, 只是依靠原生質傳導刺激的單細胞動物,到初現神經組織的腔腸動物 的網狀神經系統(tǒng),再由分散的網狀神經系統(tǒng)階段進化為扁蟲的梯形、 環(huán)節(jié)動物的鏈狀神經系統(tǒng),進而到脊索動物出現中空的管狀神經系統(tǒng) ,這是一個從無到有,從分散到集中,從簡單到復雜的演化歷程。由 于感受器集中在頭部,神經管的前端終于發(fā)展成腦。 神經系統(tǒng)的中樞 和周圍部分都來源于胚胎背面外胚層的神經板(neural plate),它 zui初見于人胚第三周長約 1.5mm時。由于神經板周邊部分生長較快, 向背面隆起,隆起之間形成的縱溝稱神經溝(neural groove)。在 胚胎第四周長約2.5mm時,隨著神經溝的不斷加深,兩側的神經板也向 背側正中線包卷、融合,并脫離覆蓋它的外胚層,這樣就形成了神經 管(neural tube),中空的管道稱中央管。管在頭、尾兩端遺留的 孔,分別在胚胎第四周初及第四周之末閉合(圖10—3)。當胚胎在第 四周時,神經管的前端發(fā)育成三個膨大的腦泡,依次稱為前腦 (prosencephalon)、中腦(mesencephalon)和菱腦 (rhombencephalon)。在第四周或胚胎長約3.2mm時,可見兩個向腹 側方向的彎曲,在中腦與菱腦之間的彎曲稱頭曲,菱腦與脊髓之間的 彎曲稱頸曲(圖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).