Carbon Dioxide, Oxygen, and Ammonia Levels in Mouse and Rat Disposable IVC Removed from Mechanical Ventilation.

IF 1.2 3区 农林科学 Q3 VETERINARY SCIENCES Journal of the American Association for Laboratory Animal Science Pub Date : 2022-09-01 Epub Date: 2022-08-31 DOI:10.30802/AALAS-JAALAS-22-000028
Rose A Keenan, Renee N Rogers, Caroline B Winn
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Abstract

Maintenance of an appropriate microenvironment for rodents used in research is of paramount importance because changes in environmental parameters such as O₂ and humidity can influence animal health and welfare and potentially alter research results. Here we evaluated the microenvironment of mouse and rat disposable cages after removal from mechanical ventilation in order to guide recommendations for their use. Cages with sealed IVC lids, unsealed lids (partially ajar), and lids without the exhaust filter (for rats) or static lids (for mice) were removed from the ventilated rack and were thereafter monitored CO₂, O₂, and NH₃ levels. For mice, effects were investigated under both standard (set point of 72°F/22°C) and thermoneutral (set point of 82°F/28°C) temperatures. When IVC with sealed lids and group-housed C57BL/6J male mice were removed from ventilation under standard temperatures, CO₂ started at 6,600 ± 265 ppm at 0 h and rose to 42,500 ± 7,263 ppm at 1 h, with mice showing a visibly elevated respiratory rate in 1 of the 3 cages; CO₂ stabilized at 26,150 ± 3,323 ppm at 8 h. In contrast, CO₂ levels in cages with single mice were stable after 1 h (1,350 ± 409 ppm at 0 h, 9,367 ± 802 ppm at 1 h, and 8,333 ± 1,115 ppm at 8 h). Findings were similar at thermoneutral temperatures: sealed group-housed mice cages started at 3,617 ± 475 ppm at 0 h and rose to 39,333 ± at 5,058 ppm at 1 h, whereas sealed cages with 1 mouse started at 1,117 ± 247 ppm at 0 h and were 7,500 ± 1,997 ppm at 8 h. IVC with sealed lids and pair-housed Crl:CD(SD) female rats rose to 48,000 ± 2,828 ppm CO₂ and over 70% humidity within 1 h. By 3 h, IVC with sealed lids and singly housed rats had 40,167 ± 5,132 ppm CO₂, and rats were displaying a visually elevated respiratory rate. O₂ levels had an inverse relationship with CO₂ levels. Removing the rat lid exhaust filter was not helpful. However, leaving the IVC lid ajar ameliorated the rise in CO₂ and fall in O₂ for both species. Therefore, IVC with sealed lids and group-housed mice should not be removed from ventilation more than 1 to 2 h; IVC containing pair- or singly-housed rats IVC should not be removed for more than 1 or 3 h, respectively. Whenever possible, such cages should be fitted with static lids, left partially ajar and monitored, or replaced on ventilation.

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从机械通气中取出的小鼠和大鼠一次性 IVC 中的二氧化碳、氧气和氨含量。
为用于研究的啮齿类动物维持适当的微环境至关重要,因为环境参数(如氧气和湿度)的变化会影响动物的健康和福利,并有可能改变研究结果。在此,我们评估了小鼠和大鼠一次性笼子脱离机械通风后的微环境,以便为其使用提供指导建议。将带有密封 IVC 盖、非密封盖(部分打开)、无排气过滤器盖(大鼠)或静态盖(小鼠)的笼子从通风架上取下,然后监测 CO₂、O₂ 和 NH₃ 的水平。对于小鼠,研究了标准温度(设定点为 72°F/22°C)和中温温度(设定点为 82°F/28°C)下的影响。在标准温度下,将带密封盖的 IVC 和分组饲养的 C57BL/6J 雄性小鼠从通风中移出,二氧化碳浓度在 0 小时时为 6,600 ± 265 ppm,在 1 小时时升至 42,500 ± 7,263 ppm,3 个笼子中有 1 个笼子中的小鼠呼吸频率明显升高;在 8 小时时,二氧化碳浓度稳定在 26,150 ± 3,323 ppm。相比之下,单只小鼠笼中的 CO₂ 水平在 1 小时后保持稳定(0 小时为 1,350 ± 409 ppm,1 小时为 9,367 ± 802 ppm,8 小时为 8,333 ± 1,115 ppm)。在恒温条件下的结果也类似:密封的分组饲养小鼠笼在 0 小时内的浓度为 3,617 ± 475 ppm,1 小时后上升到 39,333 ± 5,058 ppm,而有 1 只小鼠的密封笼在 0 小时内的浓度为 1,117 ± 247 ppm,8 小时后为 7,500 ± 1,997 ppm。带密封盖的 IVC 和配对饲养的 Crl:CD(SD) 雌性大鼠在 1 小时内 CO₂ 升至 48,000 ± 2,828 ppm,湿度超过 70%。O₂ 水平与 CO₂ 水平成反比。移除大鼠盖子上的排气过滤器无济于事。不过,让 IVC 盖子保持开启状态可改善两种动物 CO₂ 的上升和 O₂ 的下降。因此,盖子密封的 IVC 和群居小鼠不应通风超过 1 到 2 小时;装有成对或单只大鼠 IVC 的 IVC 不应通风超过 1 或 3 小时。在可能的情况下,此类笼子应安装静态盖子,保持部分开启并进行监控,或在通风时进行更换。
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来源期刊
CiteScore
3.10
自引率
35.30%
发文量
122
审稿时长
6-12 weeks
期刊介绍: The Journal of the American Association for Laboratory Animal Science (JAALAS) serves as an official communication vehicle for the American Association for Laboratory Animal Science (AALAS). The journal includes a section of refereed articles and a section of AALAS association news. All signed articles, including refereed articles and book reviews, editorials, committee reports, and news and commentary, reflect the individual views of the authors and are not official views of AALAS. The mission of the refereed section of the journal is to disseminate high-quality, peer-reviewed information on animal biology, technology, facility operations, management, and compliance as relevant to the AALAS membership. JAALAS accepts research reports (data-based) or scholarly reports (literature-based), with the caveat that all articles, including solicited manuscripts, must include appropriate references and must undergo peer review.
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