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塔望科技提供全系列的动物实验用低/高氧控制产品,包括恒定浓度控制的低氧动物箱、高氧动物箱、可编程的间歇氧浓度控制系统、带缓冲舱的低氧箱等。整套低氧/高氧实验箱装置主要由氧气控制器和动物实验箱两部分组成。另可提供多种不同的气体控制器,满足不同实验O2、CO2、NO、CO、O3等气体浓度控制的需求。
ProOx-100动物间歇低氧实验系统是一款多功能的氧浓度控制系统,用户可以自定义设置氧气浓度变化的步骤,可实现恒定持续低氧、间歇低氧、急性缺氧、慢性间歇低氧、阶梯式氧浓度变化、周期性氧浓度控制等。所有的设置通过控制主机触摸屏完成,人性化设计,操作简便。
ProOx-100动物间歇低氧实验系统监测指标全面,动物低氧舱内具有集成化的传感器模块,内置温度、湿度、氧气、二氧化碳传感器。可以实时监测动物低氧舱内的环境。系统通过闭环反馈控制,根据动物低氧舱内的氧浓度实时反馈控制,使动物实验低氧数据更准确,避免了控制型浓度输出和低氧舱内浓度不一致的情况。ProOx-100动物间歇低氧实验系统具有优良的控制性能,持续低氧实验时,氧浓度的误差为0.1%。
ProOx-100动物间歇低氧实验系统提供不同尺寸的动物低氧箱,默认低氧箱可放置1个大鼠笼(或2个小鼠笼),同时提供大号规格,可容纳2个大鼠笼和4个大鼠笼。如需其它规格,可提供定制。
如需高氧实验,请选择型号ProOx-100HE。
ProOx-100动物间歇低氧实验系统多功能控制
可进行间歇低氧实验(CIH)、急性缺氧实验、慢性缺氧实验、高氧/低氧交替实验
ProOx-100动物间歇低氧实验系统产品特点及参数:
1. 为动物低氧、高氧实验模型的建立提供合适的气体环境
2. 按照设定气体浓度自动配比气体,维持恒定的氧气浓度环境。无需在箱体外混合比例气体,确保实验氧浓度的准确,节省气源
3. 低氧箱采用进口透明 PMMA材质,坚固耐用
4. 7英寸大屏触摸屏控制,人性化界面,操作简单
5. 具有多功能可编程控制器:动态控制,实现多种氧浓度控制方式,可进行急性缺氧实验、慢性缺氧实验、间歇式低氧等实验
6. 监测参数:温度、湿度、氧气O2浓度、二氧化碳浓度
7. 非色散红外(NDIR)二氧化碳传感器,测量范围:0~5000ppm测量精度:±30ppm
8. 进口电化学氧气O2浓度检测器,测量范围:0-25%vol,测量分辨率:0.01%,线性度好,检测准确、使用寿命长。具有温度补偿机制
9. 温度检测:进口高精度数字铂电阻温度传感器
10. 氧气浓度变化动态曲线,直观了解氧气浓度变化的过程
11. 氧气浓度自动校准:通过控制器对传感器快速校准
12. 湿度传感器和除湿设计,能有效的降低动物实验过程中呼吸产生的水汽对动物的影响
13. 特有的气体混合及循环机制,保证箱体内气体浓度的均一
14. 高性能电磁阀,性能稳定,超长寿命
ProOx-100动物间歇低氧实验系统的应用领域
睡眠呼吸暂停综合症、心肌缺血缺氧、脑缺血损伤、肺动脉高压、高原反应、肿瘤、呼吸疾病、造血功能等多种领域的动物建模研究。
规格型号
名称 |
型号 |
功能 |
参考容纳动物数量 |
备注 |
动物间歇低氧实验系统 |
ProOx-100 |
多功能控制氧浓度 |
大鼠:5-10只 小鼠:20-30只 |
可直接放1个大鼠笼、或2个小鼠笼 |
动物间歇低氧实验系统 |
ProOx-100-N |
多功能控制氧浓度 具有恒温功能 |
适合新生鼠 新生鼠10-20只 |
恒温功能,适合新生鼠 舱体小 |
动物间歇低氧实验系统 |
ProOx-100-D |
多功能控制氧浓度 |
大鼠:12-20只 小鼠:40-60只 |
可直接放2个大鼠笼、或4个小鼠笼 |
动物间歇低氧实验系统 |
ProOx-100-T |
多功能控制氧浓度 |
大鼠:20-30只 小鼠:60-90只 |
系统自带动物专用鼠笼 |
动物间歇低氧实验系统 |
ProOx-100-MC |
多功能控制氧浓度 双通道独立控制 |
|
可选大鼠笼或小鼠笼 |
豪华工具套装 |
Kit-NV |
|
|
适合持续一个月间歇低氧的应用 |
备注
所有动物低氧系统均可选择温度控制功能,维持低氧舱内温度恒定
可选配光源控制,作为动物提供适合饲养的光源及模拟昼夜节律控制
使用客户名单
相关文献
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[2]Guijuan Chen,Kang Cheng,Yun Niu,Li Zhu,Xueting Wang."Epicatechin gallate prevents inflammatory response in hypoxia-activated microglia and cerebral edema by inhibiting NF-κB signaling" . [J]. Archives of Biochemistry and Biophysics ,Volume 729, 109393;
[3]Yapeng,LuPanpanChang,WangwangDing,JiangpeiBian,DanWang,XuetingWang,QianqianLuo,XiaomeiWu,LiZhu."Pharmacological inhibition of mitochondrial division attenuates simulated high-altitude exposure-induced cerebral edema in mice: Involvement of inhibition of the NF-κB signaling pathway in glial cells". [J]. European Journal of Pharmacology,Volume 929,2022,175137
[4]Jun-Yu Wei, Miao-Yue Hu, Xiu-Qi Chen, Feng-Ying Lei, Jin-Shuang Wei, Jie Chen, Xuan-Kai Qin & Yuan-Han Qin ."Rosiglitazone attenuates hypoxia-induced renal cell apoptosis by inhibiting NF-κB signaling pathway in a PPARγ-dependent manner" . [J]. European Journal of Pharmacology,Renal Failure, 44:1, 2056-2065
[5]Yilan Wang, Zherui Shen, Caixia Pei, Sijing Zhao, Nan Jia, Demei Huang, Xiaomin Wang, Yongcan Wu, Shihua Shi, Yacong He, Zhenxing Wang,"Eleutheroside B ameliorated high altitude pulmonary edema by attenuating ferroptosis and necroptosis through Nrf2-antioxidant response signaling" . [J]. Biomedicine & Pharmacotherapy, Volume 156, 2022,113982
[6]Fang Zhao, Yan Meng, Yue Wang, Siqi Fan, Yu Liu,Xiangfeng Zhang, Chenyang Ran, Hongxin Wang and Meili Lu. "Protective effect of Astragaloside IV on chronic intermittent hypoxia-induced vascular endothelial dysfunction through the calpain-1/SIRT1/AMPK signaling pathway" .[J]. Frontiers in Pharmacology,10.3389/fphar.2022.920977
[7]Xu Y, Kong X, Li J, Cui T, Wei Y, Xu J, Zhu Y , Zhu X. “Mild Hypoxia Enhances the Expression of HIF and VEGF and Triggers the Response to Injury in Rat Kidneys.” [J]. Front. Physiol. 12:690496. doi: 10.3389/fphys.2021.690496
[8]Liang Xie, Qinhan Wu, Weiping Hu, Xu Wu, Guiling Xiang, Shengyu Hao, Han Guo, Shanqun Li. “Impact of histaminergic H3 receptor antagonist on hypoglossal nucleus in chronic intermittent hypoxia conditions.” [J]. Psychopharmacology.
[9]Li Huang, Tianyou Li, Min Zhou, Mengyan Deng, Lidong Zhang, Long Yi, Jundong Zhu, Xiaohui Zhu, Mantian Mi. “Hypoxia Improves Endurance Performance by Enhancing Short Chain Fatty Acids Production via Gut Microbiota Remodeling.” [J]. Front. Microbiol. 12:820691
[10]Yanhong Pei a b, Lifei Huang c, Tong Wang c, Qinhan Yao a, Yanrong Sun a, Yan Zhang a, Xiaomei Yang a, Jiliang Zhai d, Lihua Qin a, Jiajia Xue c, Xing Wang c, Hongquan Zhang a b, Junhao Yan."Bone marrow mesenchymal stem cells loaded into hydrogel/nanofiber composite scaffolds ameliorate ischemic brain injury. materialstoday ADVANCES, Volume 17, March 2023, 100349.
[11]Zhang, C., Sun, Y., Guo, Y. et al. “JMJD1C promotes smooth muscle cell proliferation by activating glycolysis in pulmonary arterial hypertension. “[J].Cell Death Discov. 9, 98 (2023).
[12]Chenyu Xu, Jun Xu, Chunfang Zou, Qian Li, Shan Mao, Ying Shi, Yan Tan, Wei Gu, Liang Ye. "Chronic Intermittent Hypoxia Regulates CaMKII-Dependent MAPK Signaling to Promote the Initiation of Abdominal Aortic Aneurysm." [J]. Hindawi, Oxidative Medicine and Cellular Longevity Volume 2021, Article ID 2502324, 15 pages
[13]Jing Zhang, Jian-Zhong Jiang, Jun Xu, Chen-Yu Xu, Shan Mao, Ying Shi, Wei Gu, Chun-Fang Zou, Yue-Ming Zhao, Liang Ye. "Identification of Novel Biomarkers for Abdominal Aortic Aneurysm Promoted by Obstructive Sleep Apnea." [J]. Elsevier Inc. This is an open access article under the CC BY-NC-ND license
[14]Zhang Q, Xu L, Bai Y, Chen P, Xing M, Cai F, Wu Y, Song W. “Intermittent hypoxia-induced enhancement of sociability and working memory associates with CNTNAP2 upregulation.” [J]. Front. Mol. Neurosci. 16:1155047.
[15]Chen Zhang, Yue Sun, Yingying Guo, Jingjing Xu, Haiyan Zhao. “JMJD1C promotes smooth muscle cell proliferation by activating glycolysis in pulmonary arterial hypertension.” [J]. Cell Death Discovery (2023) 9:98.
[16]Ailin Yang, Lifei Guo, Yanfang Zhang, Chenjin Qiao, Yijin Wang, Jiaying Li, Min Wang, Jinliang Xing, Fei Li, Lele Ji, Haitao Guo, Ru Zhang,MFN2-mediated mitochondrial fusion facilitates acute hypobaric hypoxia-induced cardiac dysfunction by increasing glucose catabolism and ROS production,Biochimica et Biophysica Acta (BBA) - General Subjects,Volume 1867, Issue 9,2023,130413,ISSN 0304-4165
[17]Eleutheroside E from pre-treatment of Acanthopanax senticosus (Rupr. etMaxim.) Harms ameliorates high-altitude-induced heart injury by regulating NLRP3 …N Jia, Z Shen, S Zhao, Y Wang, C Pei, D Huang… - International …, 2023 - Elsevier… The rats were placed in a hypobaric hypoxia chamber (ProOx-830, Tow-Int Tech, Shanghai,China) to mimic the environment of high-altitude hypobaric hypoxic. After the rats were …
[18]Nan Jia, Zherui Shen, Sijing Zhao, Yilan Wang, Caixia Pei, Demei Huang, Xiaomin Wang, Yongcan Wu, Shihua Shi, Yacong He, Zhenxing Wang,Eleutheroside E from pre-treatment of Acanthopanax senticosus (Rupr.etMaxim.) Harms ameliorates high-altitude-induced heart injury by regulating NLRP3 inflammasome-mediated pyroptosis via NLRP3/caspase-1 pathway,International Immunopharmacology,Volume 121,2023,110423,ISSN 1567-5769
[19]AUTHOR=Long Yanrong, Chen Hongbin, Deng Junchao, Ning Junjie, Yang Pengbo, Qiao Lina, Cao Zhongwei ,TITLE=Deficiency of endothelial FGFR1 alleviates hyperoxia-induced bronchopulmonary dysplasia in neonatal mice ,JOURNAL=Frontiers in Pharmacology VOLUME=13 YEAR=2022 DOI=10.3389/fphar.2022.1039103 ,The chamber contained a continuous oxygen monitoring system (ProOX-100HE, TOW-INTTECH)
[20]Haimei Lun, Ruochuan Liu, Qiao Hu, Yaoli Liu, Lisi Wei, Xia Liu, Dan Wu, Shangyong Zhu,Contrast Enhanced Ultrasonography of Kidney in Chronic Intermittent Hypoxia Rat Model,[J]Journal of Ultrasound in Medicine,2022-12-07 ,DOI:10.1002/jum.16147
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