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Control of breathing by raphe obscurus serotonergic neurons in mice.缰核内 5-羟色胺能神经元对小鼠呼吸的控制。
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Raphe modulation of the pre-Bötzinger complex respiratory bursts in in vitro medullary half-slice preparations of neonatal mice.体外培养新生鼠延髓半片标本中脑桥呼吸簇放电的中缝调制。
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The close relationship between life-threatening breathing disorders and urine storage dysfunction in multiple system atrophy.多系统萎缩中危及生命的呼吸障碍与尿液存储功能障碍之间的密切关系。
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The role of medullary serotonin (5-HT) neurons in respiratory control: contributions to eupneic ventilation, CO2 chemoreception, and thermoregulation.延髓5-羟色胺(5-HT)神经元在呼吸控制中的作用:对平静呼吸、二氧化碳化学感受和体温调节的贡献。
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路易体痴呆中脑桥呼吸神经元的变性。

Degeneration of brainstem respiratory neurons in dementia with Lewy bodies.

作者信息

Presti Michael F, Schmeichel Ann M, Low Phillip A, Parisi Joseph E, Benarroch Eduardo E

机构信息

Department of Neurology.

Department of Neurology ; Division of Anatomical Pathology, Mayo Clinic, Rochester, MN.

出版信息

Sleep. 2014 Feb 1;37(2):373-8. doi: 10.5665/sleep.3418.

DOI:10.5665/sleep.3418
PMID:24501436
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3900631/
Abstract

BACKGROUND

Respiratory dysfunction, including sleep disordered breathing, is characteristic of multiple system atrophy (MSA) and may reflect degeneration of brainstem respiratory nuclei involved in respiratory rhythmogenesis and chemosensitivity, including the pre-Bötzinger complex (preBötC), nucleus raphe pallidus (RPa), and nucleus raphe obscurus (ROb). However, impaired ventilatory responses to hypercapnia have also been reported in dementia with Lewy bodies (DLB), suggesting that these nuclei may also be affected in DLB.

OBJECTIVES

To determine whether there is involvement of the preBötC, RPa, and ROb in DLB.

DESIGN

We applied stereological methods to analyze sections immunostained for neurokinin-1 receptor and tryptophan hydroxylase in neuropathologically confirmed cases of DLB, MSA, and controls.

RESULTS

Reduction of neuronal density occurred in all three nuclei in DLB, as well as in MSA. The magnitude of neuronal depletion in ROb was similar in DLB and MSA (49% versus 56% respectively, compared to controls, P < 0.05), but neuronal loss in the preBötC and RPa was less severe in DLB than in MSA (40% loss in preBötC of DLB, P < 0.05 and 68% loss in MSA, P < 0.0001, compared to controls; 46% loss in RPa of DLB, P < 0.05 and 73% loss in MSA P < 0.0001, compared to controls).

CONCLUSIONS

Medullary respiratory nuclei are affected in dementia with Lewy bodies but less severely than in multiple system atrophy. This may help explain differences in the frequency of sleep disordered breathing in these two disorders.

摘要

背景

呼吸功能障碍,包括睡眠呼吸紊乱,是多系统萎缩(MSA)的特征,可能反映参与呼吸节律产生和化学感受性的脑干呼吸核团的退变,包括前包钦格复合体(preBötC)、中缝苍白核(RPa)和中缝隐核(ROb)。然而,路易体痴呆(DLB)患者也有对高碳酸血症的通气反应受损的报道,提示这些核团在DLB中也可能受到影响。

目的

确定preBötC、RPa和ROb在DLB中是否受累。

设计

我们应用体视学方法分析经神经病理学确诊的DLB、MSA病例及对照者中免疫染色为神经激肽-1受体和色氨酸羟化酶的切片。

结果

DLB和MSA的所有三个核团中神经元密度均降低。DLB和MSA中ROb的神经元缺失程度相似(分别为49%和56%,与对照相比,P<0.05),但DLB中preBötC和RPa的神经元丢失比MSA轻(DLB的preBötC丢失40%,P<0.05,MSA丢失68%,P<0.0001,与对照相比;DLB的RPa丢失46%,P<0.05,MSA丢失73%,P<0.0001,与对照相比)。

结论

路易体痴呆患者的延髓呼吸核团受累,但程度比多系统萎缩轻。这可能有助于解释这两种疾病中睡眠呼吸紊乱频率的差异。