Breathing and Oxygen Carrying Capacity in Ts65Dn and Down Syndrome.

IF 5.1 Q2 CELL BIOLOGY
Function (Oxford, England) Pub Date : 2023-10-06 eCollection Date: 2023-01-01 DOI:10.1093/function/zqad058
Lara R DeRuisseau, Candace N Receno, Caitlin Cunningham, Melissa L Bates, Morgan Goodell, Chen Liang, Brianna Eassa, Jessica Pascolla, Keith C DeRuisseau
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Abstract

Individuals with Down syndrome (Ds) are at increased risk of respiratory infection, aspiration pneumonia, and apnea. The Ts65Dn mouse is a commonly used model of Ds, but there have been no formal investigations of awake breathing and respiratory muscle function in these mice. We hypothesized that breathing would be impaired in Ts65Dn vs. wild-type (WT), and would be mediated by both neural and muscular inputs. Baseline minute ventilation was not different at 3, 6, or 12 mo of age. However, VT/Ti, a marker of the neural drive to breathe, was lower in Ts65Dn vs. WT and central apneas were more prevalent. The response to breathing hypoxia was not different, but the response to hypercapnia was attenuated, revealing a difference in carbon dioxide sensing, and/or motor output in Ts65Dn. Oxygen desaturations were present in room air, demonstrating that ventilation may not be sufficient to maintain adequate oxygen saturation in Ts65Dn. We observed no differences in arterial PO2 or PCO2, but Ts65Dn had lower hemoglobin and hematocrit. A retrospective medical record review of 52,346 Ds and 52,346 controls confirmed an elevated relative risk of anemia in Ds. We also performed eupneic in-vivo electromyography and in-vitro muscle function and histological fiber typing of the diaphragm, and found no difference between strains. Overall, conscious respiration is impaired in Ts65Dn, is mediated by neural mechanisms, and results in reduced hemoglobin saturation. Oxygen carrying capacity is reduced in Ts65Dn vs. WT, and we demonstrate that individuals with Ds are also at increased risk of anemia.

Ts65Dn和唐氏综合征的呼吸和携氧能力。
唐氏综合征(Ds)患者患呼吸道感染、吸入性肺炎和呼吸暂停的风险增加。Ts65Dn小鼠是一种常用的Ds模型,但尚未对这些小鼠的清醒呼吸和呼吸肌功能进行正式研究。我们假设Ts65Dn与野生型(WT)相比,呼吸会受到损害,并且可能由神经和肌肉输入介导。3、6、12月龄时的基线分钟通气无差异。然而,与WT相比,Ts65Dn患者的VT/Ti(神经驱动呼吸的标志)较低,中枢性呼吸暂停更为普遍。对呼吸缺氧的反应没有差异,但对高碳酸血症的反应减弱,这表明Ts65Dn在二氧化碳感知和/或运动输出方面存在差异。室内空气中存在氧饱和度,表明通风可能不足以维持Ts65Dn中足够的氧饱和度。我们观察到动脉PO2或PCO2没有差异,但Ts65Dn的血红蛋白和红细胞压积较低。对52,346例d组和52,346例对照组的回顾性医疗记录回顾证实了d组贫血的相对风险升高。我们还进行了膈肌的体内肌电图和体外肌肉功能和组织学纤维分型,发现菌株之间没有差异。总的来说,Ts65Dn中有意识呼吸受损,是由神经机制介导的,并导致血红蛋白饱和度降低。与WT相比,Ts65Dn的携氧能力降低,我们证明了Ds个体也有更高的贫血风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.70
自引率
0.00%
发文量
0
审稿时长
3 weeks
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