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动物低氧工作站
产品描述
在生命科学、基础医学及高原生理等研究领域,精确模拟低氧环境对于探究缺氧对动物机体的影响至关重要。低氧工作站正是为此类严谨动物实验而设计的核心设备。
不同于普通低氧实验箱在操作时必须开箱破坏环境,低氧工作站通过其全密闭结构和内置操作手套,实现了革命性的突破。研究者无需打开主腔室,即可通过气密手套在持续、稳定维持目标低氧水平(如1%-21% O₂可调)的环境下,对箱内动物进行各项操作,包括:
Ø日常照料:安全地进行喂食、饮水更换,确保动物长期实验中的基本生存需求。
Ø实验干预:执行精准的给药、注射、手术或生理参数监测(如体温、心率)。
Ø行为观察:在恒定低氧条件下进行动物行为学实验,减少环境波动干扰。
Ø原位采样:直接在低氧环境中采集血液、组织等样本,最大程度避免样本暴露于常氧环境导致的氧化应激或代谢状态改变,保障后续分析数据的真实性。
Ø设备操作:放置或操作小型实验仪器(如微型跑步机、摄像头)。
核心优势:
1、环境稳定性卓越:操作过程“零中断”低氧环境,氧气浓度波动极小(通常<±0.1%),为慢性、长期低氧暴露实验(数天至数月)提供持续、可靠的低氧条件,消除因频繁开箱导致的浓度回升与恢复延迟问题。
2、操作便利性与连续性:无需等待环境恢复,可随时、频繁地进行实验操作,极大提升实验效率和灵活性。
3、减少动物应激:密闭操作减少了光线、噪音和人员活动对动物的直接干扰,有助于获得更接近自然状态的生理反应数据。
4、保障样本真实性:低氧环境下的原位采样和处理,是研究缺氧相关生物标志物、基因表达和代谢产物的关键保障,避免取样后氧化造成的假象。
5、集成环境控制(可选):高级型号可集成精确的温湿度控制系统及CO₂清除装置,为动物提供更舒适、生理状态更稳定的实验环境。
6、洁净度与安全性:密闭设计结合高效过滤系统(HEPA/ULPA),可有效控制微生物污染;同时为操作者提供物理屏障,隔绝潜在过敏原或实验性有害物质。
应用场景
低氧工作站是进行高原适应机制研究、缺血性疾病模型、低氧相关肿瘤研究、低氧与代谢疾病的研究、低氧与心血管疾病的研究、围生期缺血缺氧性脑损伤以及任何要求在稳定低氧环境下进行活体操作或原位取样的动物实验的理想平台。它克服了传统低氧箱的核心局限,为获得严谨、可重复的高质量科研数据奠定了坚实的基础。
技术参数
1. 为动物低氧实验模型的建立提供稳定的低氧环境
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,实验氧浓度的准确,节省气源
3. 触摸屏控制,人性化界面,操作简单
4. 监测参数:温度、湿度、氧气浓度、二氧化碳浓度
5. 控制精度:±0.1%
6. 非色散红外(NDIR)二氧化碳传感器,测量范围:0~5000ppm
7. 进口电化学氧气浓度检测器,测量范围:0-25%vol(可选配0.1-99.0%),线性度好,检测准确、使用寿命长。具有温度补偿机制
8. 温度检测:进口高精度温度传感器
9. 氧气浓度变化动态曲线,直观了解氧气浓度变化的过程
10. 内置紫外灭菌灯,可定时灭菌
11. 具有定时功能,实验完成,自动恢复常氧状态,并伴有声音提示
12. 氧气浓度自动校准:通过控制器对传感器快速校准
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
15. 前面板可徒手拆卸,便于放置设备
可选配功能
1、温度湿度控制功能,控温范围:室温+3~45℃(可选4~45℃),调节精度0.1℃;湿度40~85%RH
2、远程监控:可通过电脑、手机远程监控实验运行状态,具有可夜视红外摄像头
3、二氧化碳吸附装置
4、二氧化碳浓度控制功能,可设定目标浓度,控制范围:0-20.0%,其他范围可选
型号选择
序号 | 名称 | 型号 | 说明 | 单位 |
1 | 动物低氧工作站 | WS-Ox-M | 外尺寸(W×D×H):1010×650×730mm 内尺寸(W×D×H):610×600×540mm 过渡舱尺寸(W×D×H):240×370×260mm 氧气传感器量程:0-25.0% | 台 |
2 | 动物高低氧工作站 | WS-OxHE-M | 外尺寸(W×D×H):1010×650×730mm 内尺寸(W×D×H):610×600×540mm 过渡舱尺寸(W×D×H):240×370×260mm 氧气传感器量程:0.1-99.0% | 台 |
3 | 动物低氧工作站 | WS-Ox-L | 外尺寸(W×D×H):1300×650×730mm 内尺寸(W×D×H):900×600×540mm 过渡舱尺寸(W×D×H):240×370×260mm 氧气传感器量程:0-25.0% | 台 |
4 | 动物高低氧工作站 | WS-OxHE-L | 外尺寸(W×D×H):1300×650×730mm 内尺寸(W×D×H):900×600×540mm 过渡舱尺寸(W×D×H):240×370×260mm 氧气传感器量程:0.1-99.0% | 台 |
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[1]Ma Jinqiu,Wang Chenyun,Sun Yunbo,Pang Lulu,Zhu Siqing,Liu Yijing,Zhu Lin,Zhang Shouguo,Wang Lin,Du Lina. "Comparative study of oral and intranasal puerarin for prevention of brain injury induced by acute high-altitude hypoxia".[J] International Journal of Pharmaceutics,2020,591.
[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.
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[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]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.
[13]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.
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[15]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.
[16]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.
[17]Chen-Yu Jiang,Li-Wei Wu,Yi-Wei Liu,Bei Feng, Lin-Cai Ye,Xu Huang,Yang-Yang He,Yi Shen, Yi-Fan Zhu, Xing-Liang Zhou, Dai-Ji Jiang, Hai-Kun Qi, Hao Zhang, and Yi Yan.Identification of ACKR4 as an immune checkpoint in pulmonary arterial hypertension,[J]Frontiers in Immunology,28 June 2023,Volume 14 - 2023,DOI:10.3389/fimmu.2023.1153573.
[18]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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*此介绍及参数为产品基础信息,可能滞后于产品更新,具体参数请与我司联系。
2025-07-15
次
