The Ritchie Centre, The Hudson Institute of Medical Research, Melbourne, Australia; Department of Paediatrics, Monash University, Melbourne, Australia.
The Ritchie Centre, The Hudson Institute of Medical Research, Melbourne, Australia; School of Health & Biomedical Sciences, RMIT University, Melbourne, Australia.
Exp Neurol. 2022 Jun;352:114049. doi: 10.1016/j.expneurol.2022.114049. Epub 2022 Mar 17.
Neurovascular coupling leads to an increase in local cerebral blood flow and oxygenation in response to increased neural activity. Reduced cerebral functional responses may predispose to tissue hypoxia when neural activity is increased. Intrauterine inflammation, identified clinically as chorioamnionitis, is a major contributor to the neuropathology arising after preterm birth. The impact of chorioamnionitis on the preterm cerebral functional haemodynamic response is unknown. Previously, we have reported that somatosensory stimulation produces predominantly positive cerebral haemodynamic responses (i.e., increased cerebral oxygenation) in preterm lambs, which are reduced with dopamine treatment. As preterm infants born after chorioamnionitis often suffer from hypotension and are treated with dopamine, we aimed to investigate how chorioamnionitis with and without dopamine treatment affect the cerebral haemodynamic response in preterm lambs.
At 119 days of gestation, intrauterine inflammation was induced by intra-amniotic injection of lipopolysaccharide (LPS) in pregnant ewes. At 126-7 days of gestation (term is ~147 days), these LPS-exposed lambs were delivered and mechanically ventilated. The cerebral functional response was assessed by near infrared spectroscopy as changes in cerebral oxy- and deoxyhaemoglobin (ΔoxyHb, ΔdeoxyHb), following left median nerve stimulation of 1.8, 4.8 and 7.8 s durations without dopamine; and 4.8 and 7.8 s stimulations with intravenous dopamine infusion.
Stimulation for 1.8, 4.8 and 7.8 s durations led to negative functional responses (decreased ΔoxyHb) in 5 (62.5%), 5 (62.5%) and 4 (50%) of 8 preterm lambs respectively, while other lambs showed positive responses (increased ∆oxyHb). Dopamine infusion increased baseline tissue oxygenation index (TOI), oxyHb and total Hb. In lambs with a positive functional response, dopamine decreased the evoked ΔoxyHb response, increasing the overall incidence of negative cerebral haemodynamic responses.
Somatosensory stimulation produced mostly negative responses with decreased cerebral oxygenation in preterm lambs exposed to intrauterine inflammation, contrasting with our previous findings of predominantly positive responses in non-inflamed, control, preterm lambs. Dopamine increased baseline cerebral oxygenation, but further increased the incidence of negative functional responses. Impaired neurovascular coupling leading to intermittent localised tissue hypoxia may therefore contribute to the neuropathy in infants with chorioamnionitis, with the risk of injury exacerbated with dopamine treatment.
神经血管耦联导致局部脑血流和氧合增加,以响应增加的神经活动。当神经活动增加时,脑功能反应的减少可能导致组织缺氧。宫内炎症,临床上表现为绒毛膜羊膜炎,是早产儿出生后神经病理学的主要原因。绒毛膜羊膜炎对早产儿脑功能血流动力学反应的影响尚不清楚。以前,我们已经报道,体感刺激在早产儿羔羊中产生主要为正的脑血流动力学反应(即增加脑氧合),而多巴胺治疗则降低了这种反应。由于患有绒毛膜羊膜炎的早产儿通常患有低血压并接受多巴胺治疗,因此我们旨在研究绒毛膜羊膜炎和无多巴胺治疗如何影响早产儿羔羊的脑血流动力学反应。
在妊娠母羊的羊膜内注射脂多糖(LPS)以诱导宫内炎症,在妊娠 119 天。在妊娠 126-7 天(足月约 147 天),这些 LPS 暴露的羔羊分娩并进行机械通气。通过近红外光谱评估大脑功能反应,作为左正中神经刺激 1.8、4.8 和 7.8 秒而没有多巴胺的情况下的脑氧合血红蛋白(ΔoxyHb)和脱氧血红蛋白(ΔdeoxyHb)的变化;和静脉内多巴胺输注的 4.8 和 7.8 秒刺激。
1.8、4.8 和 7.8 秒的刺激导致 8 只早产羔羊中的 5 只(62.5%)、5 只(62.5%)和 4 只(50%)分别产生负功能反应(减少ΔoxyHb),而其他羔羊则表现出正反应(增加∆oxyHb)。多巴胺输注增加了基线组织氧指数(TOI)、氧合血红蛋白和总血红蛋白。在具有正功能反应的羔羊中,多巴胺降低了诱发的ΔoxyHb 反应,增加了总体负脑血流动力学反应的发生率。
与我们之前在非炎症性对照早产儿羔羊中发现的主要正反应相比,宫内炎症暴露的早产儿羔羊体感刺激主要产生负反应,导致脑氧合减少。多巴胺增加了基线脑氧合,但进一步增加了负功能反应的发生率。因此,导致间歇性局部组织缺氧的神经血管耦合受损可能导致绒毛膜羊膜炎婴儿的神经病变,并且风险随着多巴胺治疗的加剧而增加。
