1. Reflex respiratory responses to unilateral and bilateral changes of lung volume have been studied in anaesthetized paralysed, open-chest dogs.2. The two lungs were separately ventilated by two phrenic-driven respirators via a specially designed double-lumen tube. Respiratory motor output was measured from the phrenic motoneurone activity recorded from the C5 root. Expiratory lung volumes were set by the use of expiratory threshold loads (e.t.l.s).3. The reflex changes of expiratory time (te) were used to study the summation of left and right expiratory lung volume information. Changes in the peak amplitude of the phrenic `integral' (Phr) and inspiratory time (ti) were used to assess summation of left and right tidal volume information.4. Summation in the reflex responses to bilateral lung volume changes was estimated by comparing the measured responses to these manoeuvres with the sum of the component unilaterally evoked responses. If simple addition were present, response (measured)/response (predicted) would equal 1.0 Mutual facilitation would give a value higher than this; mutual inhibition, a lower value.5. The responses of te to changes of e.t.l. on the right side were always greater than for changes confined to the left, and in each animal the response of te to bilateral changes of e.t.l. were greater than for either of the unilaterally evoked responses. In six out of eight animals this was shown to be due to simple addition of the responses evoked from the two lungs individually. In the remaining two animals, slight mutual inhibition was seen.6. The tidal volume VT was changed in one or both lungs. During the bilateral VT changes, the volumes were changed simultaneously, either in the same direction (`same' VT changes) or in one direction in one lung and in the opposite direction in the other (`opposite' VT changes).7. In the bilateral `same' VT changes, mutual facilitation was seen in the response of Phr; Phr (measured)/Phr (predicted) = 1.60 ± 0.42 (s.d.), n = 8. There was only slight facilitation in the response of ti; ti (measured)/ti (predicted) = 1.18 ± 0.17, n = 8.8. With the bilateral `opposite' VT changes, responses of ti and Phr were markedly and significantly reduced compared to those for the bilateral `same' VT changes. During these manoeuvres significant mutual inhibition was seen in the response of ti, and the predicted responses of Phr in general could not be correlated with the measured response.9. The responses of the phrenic `integrals' were the same in both right and left phrenic nerves.10. Unilateral vagotomy abolished both the responses of Phr and ti to ipsilateral VT changes in the range ± 100% of control VT, and also the response of te to ipsilateral expiratory volume changes.
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机译:1.在麻醉麻痹的开胸犬中研究了对单侧和双侧肺容积变化的反射呼吸反应。两个肺分别由两个驱动的呼吸器通过专门设计的双腔管进行通气。根据从C5根记录的the运动神经元活性来测量呼吸运动输出。通过使用呼气阈负荷(e.t.l.s)设置呼气肺量3。呼气时间(te)的反射变化用于研究左右呼气肺容积信息的总和。利用`积分值(Phr)和吸气时间(ti)的变化来评估左右潮气量信息的总和。4。通过将测量到的对这些动作的反应与单侧诱发反应的总和进行比较,可以估计对双侧肺体积变化的反射反应的总和。如果存在简单的加法,则响应(测量的)/响应(预测的)将等于1.0。相互促进的值将大于此值。相互抑制,数值较低5。 te对e.t.l.变化的响应右边的总是大于限制在左边的变化,并且在每只动物中,te对e.t.l的双边变化的反应。大于任一单方面引起的反应。在八分之六的动物中,这被证明是由于简单地增加了分别来自两个肺部的反应所致。在其余的两只动物中,观察到轻微的相互抑制。6。一或两个肺的潮气量VT发生了变化。在双侧VT改变期间,体积同时改变,要么在同一方向(“相同” VT变化),要么在一个方向上在一个肺中改变,而在另一方向则在相反方向(“相反” VT变化)。7。在双边“相同”的VT变化中,Phr的反应是相互促进的。 Phr(实测值)/ Phr(预测值)= 1.60±0.42(标准差),n = 8。 ti(实测)/ ti(预测)= 1.18±0.17,n = 8.8。与双边“相同”的 V T变化相比,随着双边“相反”的VT变化,ti和Phr的反应显着降低。在这些演习过程中, t i 的响应出现了显着的相互抑制作用,Phr的预测响应通常与实测响应无关。9。左右神经的and“积分”反应是相同的。10。单侧迷走神经切断术消除了Phr和 t i 对同侧 V T 变化在±100%范围内的反应控制 V T ,以及 t e 对同侧呼气量变化的响应。
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