妓院一钑片免看黄大片,亚洲av无码成人精品国产,亚洲AV综合色区无码专区桃色,免费A级毛片在线播放不收费

來寶網Logo

熱門詞: 進口電動溫度調節閥結構圖|進口電動溫度調節閥數據表進口電動高溫調節閥-德國進口電動高溫法蘭調節閥進口電動蒸汽調節閥-德國進口電動蒸汽調節閥

現在位置首頁>>行業專用> 動物實驗

小鼠 MCAO線栓/Doccol線栓/腦缺血MCAO模型線栓/MCAO栓線

價  格:詢價

產  地:美國更新時間:2020-10-26 11:13

品  牌:Doccol型  號:多種型號匹配15-35g小鼠

狀  態:正常點擊量:1383

400-006-7520
聯系我時,請說明是在上海非利加實業有限公司上看到的,謝謝!

上海非利加實業有限公司

聯 系 人: 上海非利加實業有限公司

電   話: 400-006-7520

傳   真: 400-006-7520

配送方式: 上海自提或三方快遞

聯系我時請說在上海非利加實業有限公司上看到的,謝謝!



      美***Doccol線拴是MCAO模型穩定的保證,可以將腦梗塞體積標準差減少至5%,并避免蛛網膜下腔出血,不需要激光多普勒檢測血流也能獲得極為穩定的結果。 Doccol線拴是***際腦缺血研究中應用***多的線拴,也是Nature,Stroke,J Neurosci 等頂***雜志報道***多的線拴。同時,每只鼠MCAO模型的線栓成本***低僅為10-20元(可重復使用型號,視重復使用次數決定) 。


產品參數

                     Doccol MCAO線拴的選擇

種屬體重(g)推薦型號(可重復用)線號外徑(mm)包被(mm)
小鼠15-20701956PK5Re 7-00.195-6
20-25602156PK5Re 6-00.215-6
25-30602356PK5Re 6-00.235-6
30-35602356PK5Re 6-00.235-6
大鼠200-250403556PK5Re4-00.355-6
250-280403756PK5Re 4-00.375-6
280-330403956PK5Re4-00.395-6
330-400404156PK5Re4-00.415-6
>400404356PK5Re4-00.435-6

注:(1)型號的命名根據線號、外徑、硅膠包被長度、一個包裝中的線拴數量、是否可重復使用確定。如“701956PK5Re”為7號線,0.19mm外徑,硅膠包被長度5-6mm,PK5一個包裝中的數量是5根,Re可重復使用。(2)在美國,絕大多數的實驗者都選用上表推薦的可重復使用型號,即所謂“starter kits”。(3)Re型號重復使用的次數,每位實驗者差別很大,2-10次不等。



產品介紹

Doccol MCAO線拴可以將腦梗塞體積標準差減少至5%

      成功的MCAO模型的腦血流在插入線拴時會有斷崖式下降;在拔出線拴后,激光多普勒檢測的血流會很快恢復(圖A)。采用硬質尼龍魚線線拴,極易戳破血管,造成蛛網膜下腔出血(Subarachnoid hemorrhage,圖B)。手術過程中血管如果被線拴戳破,腦血流不會有斷崖式下降,而是緩慢下降;在拔出線拴后,腦血流也不會恢復。造成腦梗塞體積變異的原因還有,不完全的梗塞血管或線拴移位造成的血流下降程度不均***及提前灌注。因此,線栓的質地是MCAO模型穩定的關鍵。

    對于MCAO模型來說,主要有兩種線拴,無包被的火焰熔燙圓頭線拴及硅膠包被線拴。研究表明(Tsuchiya et al. 2003),無包被的圓頭線拴在MCAO實驗過程中可能導致高達40%的蛛網膜下腔出血,而其標準差可能比平均值的50%還要大。另***項技術文章表明(Shimamura et al. 2006a),硅膠包被線拴要遠好于無包被的圓頭線拴,其結果更為穩定,即使對于沒有經驗的實驗者來說也是如此。而多聚賴氨酸包被的線拴只能增加死亡率,不能減少梗賽體積的變異程度(Huang et al. 1998)。

     Doccol MCAO線拴全部為硅膠包被,圓潤、柔軟、包被均勻,即使在沒有激光多普勒實時檢測的情況,也不會將血管戳破。使用自制的硅膠包被的線拴,大鼠(Schmid-Elsaesser et al. 1998)及小鼠(Shah et al. 2006)的腦梗塞體積的標準差均在30%左右。而使用Doccol MCAO線拴可以得到更好的結果。對于大鼠MCAO模型來說,使用Doccol MCAO線拴得到的結果的標準差可達10%-20% (Ruscher et al.2012;Ishizaka et al.2013;Sakata et al.2012;Candelario-Jalil et al. 2008;Khan et al. 2006;Liu et al. 2006;Shimamura et al. 2006b;Solaroglu et al. 2006;Tsubokawa et al. 2007;Tsubokawa et al. 2006a;Tsubokawa et al. 2006b)。對于小鼠來說,使用Doccol MCAO線拴得到的結果的標準差可達5%-10%(Chen et al.2014; Bae et al.2013; Jin et al.2011; Gu et al.2012; Kleinschnitz et al. 2007; Maysami et al. 2008; Pignataro et al. 2007b; Pignataro et al. 2007c)。



References                                                               

1. Bae ON, Serfozo K, Baek SH, et al. (2013) Safety and efficacy evaluation of carnosine, an endogenous neuroprotective agent for ischemic stroke. Stroke 44(1):205-12.

2. Candelario-Jalil E, Munoz E, Fiebich BL. (2008) Detrimental effects of tropisetron on permanent ischemic stroke in the rat. BMC Neurosci 9:19

3. Chen HZ, Guo S, Li ZZ, et al. (2014) A critical role for interferon regulatory factor 9 in cerebral ischemic stroke.J Neurosci.34(36):11897-912.

4. Huang J, Kim LJ, Poisik A, Pinsky DJ, Connolly ES, Jr. (1998) Does poly-L-lysine coating of the middle cerebral artery occlusion suture improve infarct consistency in a murine model? J Stroke Cerebrovasc Dis 7:296-301

5. Gu L, Xiong X, Zhang H, et al. (2012) Distinctive Effects of T Cell Subsets in Neuronal Injury Induced by Cocultured Splenocytes In Vitro and by In Vivo Stroke in Mice. Stroke 43:1941-1946.

6. Ishizaka S, Horie N, Satoh K, et al. (2013) Intra-arterial Cell Transplantation Provides Timing-Dependent Cell Distribution and Functional Recovery After Stroke. Stroke 44:720-726.

7. Jin R, Song Z, Yu S, et al. (2011) Phosphatidylinositol-3-kinase gamma plays a central role in blood-brain barrier dysfunction in acute experimental stroke.Stroke 42(7):2033-44.

8. Khan M, Jatana M, Elango C, Paintlia AS, Singh AK, Singh I. (2006) Cerebrovascular protection by various nitric oxide donors in rats after experimental stroke. Nitric Oxide 15:114-124

9. Kleinschnitz C, Pozgajova M, Pham M, Bendszus M, Nieswandt B, Stoll G. (2007) Targeting platelets in acute experimental stroke: impact of glycoprotein Ib, VI, and IIb/IIIa blockade on infarct size, functional outcome, and intracranial bleeding. Circulation 115:2323-2330

10. Koizumi J, Yoshida Y, Nakazawa T, Ooneda G. (1986) Experimental studies of ischemic brain edema, I: a new experimental model of cerebral embolism in rats in which recirculation can be introduced in the ischemic area. Jpn J Stroke 8:1-8

11. Liu S, Liu W, Ding W, Miyake M, Rosenberg GA, Liu KJ. (2006) Electron paramagnetic resonance-guided normobaric hyperoxia treatment protects the brain by maintaining penumbral oxygenation in a rat model of transient focal cerebral ischemia. J Cereb Blood Flow Metab 26:1274-1284

12. Longa EZ, Weinstein PR, Carlson S, Cummins R. (1989) Reversible middle cerebral artery occlusion without craniectomy in rats. Stroke 20:84-91

13. Maysami S, Lan JQ, Minami M, Simon RP. (2008) Proliferating progenitor cells: a required cellular element for induction of ischemic tolerance in the brain. J Cereb Blood Flow Metab 28:1104-1113

14. Pignataro G, Simon RP, Boison D. (2007a) Transgenic overexpression of adenosine kinase aggravates cell death in ischemia. J Cereb Blood Flow Metab 27:1-5

15. Pignataro G, Simon RP, Xiong ZG. (2007b) Prolonged activation of ASIC1a and the time window for neuroprotection in cerebral ischaemia. Brain 130:151-158

16. Pignataro G, Studer FE, Wilz A, Simon RP, Boison D. (2007c) Neuroprotection in ischemic mouse brain induced by stem cell-derived brain implants. J Cereb Blood Flow Metab 27:919-927

17. Ruscher K, Kuric E, Wieloch T, et al. (2012) Levodopa Treatment Improves Functional Recovery After Experimental Stroke. Stroke 43:507-513.

18. Sakata H, et al. (2012) Minocycline-Preconditioned Neural Stem Cells Enhance Neuroprotection after Ischemic Stroke in Rats. J Neurosci. 32(10):3462–3473.

19 Schmid-Elsaesser R, Zausinger S, Hungerhuber E, Baethmann A, Reulen HJ. (1998) A critical reevaluation of the intraluminal thread model of focal cerebral ischemia: evidence of inadvertent premature reperfusion and subarachnoid hemorrhage in rats by laser-Doppler flowmetry. Stroke 29:2162-2170

20. Shah ZA, Namiranian K, Klaus J, Kibler K, Dore S. (2006) Use of an optimized transient occlusion   of the middle cerebral artery protocol for the mouse stroke model. J Stroke Cerebrovasc Dis 15:133-138

21. Shimamura N, Matchett G, Tsubokawa T, Ohkuma H, Zhang J. (2006a) Comparison of silicon-coated nylon suture to plain nylon suture in the rat middle cerebral artery occlusion model. J Neurosci Methods 156:161-165

22. Shimamura N, Matchett G, Yatsushige H, Calvert JW, Ohkuma H, Zhang J. (2006b) Inhibition of integrin alphavbeta3 ameliorates focal cerebral ischemic damage in the rat middle cerebral artery occlusion model. Stroke 37:1902-1909

23. Solaroglu I, Tsubokawa T, Cahill J, Zhang JH. (2006) Anti-apoptotic effect of granulocyte-colony stimulating factor after focal cerebral ischemia in the rat. Neuroscience 143:965-974

24. Tsubokawa T, Jadhav V, Solaroglu I, Shiokawa Y, Konishi Y, Zhang JH. (2007) Lecithinized superoxide dismutase improves outcomes and attenuates focal cerebral ischemic injury via antiapoptotic mechanisms in rats. Stroke 38:1057-1062

25. Tsubokawa T, Solaroglu I, Yatsushige H, Cahill J, Yata K, Zhang JH. (2006a) Cathepsin and calpain inhibitor E64d attenuates matrix metalloproteinase-9 activity after focal cerebral ischemia in rats. Stroke 37:1888-1894

26. Tsubokawa T, Yamaguchi-Okada M, Calvert JW, Solaroglu I, Shimamura N, Yata K, Zhang JH. (2006b) Neurovascular and neuronal protection by E64d after focal cerebral ischemia in rats. J Neurosci Res 84:832-840

27. Tsuchiya D, Hong S, Kayama T, Panter SS, Weinstein PR. (2003) Effect of suture size  and carotid clip application upon blood flow and infarct volume after permanent and temporary middle cerebral artery occlusion in mice. Brain Res 970:131-139




猜你喜歡

關于我們客戶服務產品分類法律聲明