Efficacy Assessment of Cerebral Perfusion Augmentation through Functional Connectivity in an Acute Canine Stroke Model.

AJNR. American journal of neuroradiology Pub Date : 2024-09-09 DOI:10.3174/ajnr.A8320

Chisondi S Warioba, Mira Liu, Sagada Peñano, Timothy J Carroll, Sean Foxley, Gregory Christoforidis

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Abstract

Background and purpose: Ischemic stroke disrupts functional connectivity within the brain's resting-state networks (RSNs), impacting recovery. This study evaluates the effects of norepinephrine and hydralazine (NEH), a cerebral perfusion augmentation therapy, on RSN integrity in a hyperacute canine stroke model.

Materials and methods: Fifteen adult purpose-bred mongrel canines, divided into treatment and control (natural history) groups, underwent endovascular induction of acute middle cerebral artery occlusion (MCAO). Postocclusion, the treatment group received intra-arterial norepinephrine (0.1-1.52 µg/kg/min, adjusted for 25-45 mm Hg above baseline mean arterial pressure) and hydralazine (20 mg). Resting-state fMRI (rs-fMRI) data were acquired with a 3T scanner by using a blood oxygen level dependent-EPI sequence (TR/TE = 1400 ms/20 ms, 2.5 mm slices, 300 temporal positions). Preprocessing included motion correction, spatial smoothing (2.5 mm full width at half maximum), and high-pass filtering (0.01 Hz cutoff). Functional connectivity within RSNs were analyzed through group-level independent component analysis and weighted whole-brain ROI-to-ROI connectome, pre- and post-MCAO.

Results: NEH therapy significantly maintained connectivity post-MCAO in the higher-order visual and parietal RSNs, as evidenced by thresholded statistical mapping (threshold-free cluster enhancement P _corr > .95). However, this preservation was network-dependent, with no significant (P _corr < .95) changes in the primary visual and sensorimotor networks.

Conclusions: NEH demonstrates potential as a proof-of-concept therapy for maintaining RSN functional connectivity after ischemic stroke, emphasizing the therapeutic promise of perfusion augmentation. These insights reinforce the role of functional connectivity as a measurable end point for stroke intervention efficacy, suggesting clinical translatability for patients with insufficient collateral circulation.

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在急性犬脑卒中模型中通过功能连接性评估脑灌注增强的疗效

背景和目的：缺血性中风会破坏大脑静息态网络（RSN）的功能连接，影响恢复。本研究评估了一种脑灌注增强疗法 NEH（去甲肾上腺素和肼屈嗪）对超急性期犬中风模型中 RSN 完整性的影响：15只成年杂种犬分为治疗组和对照组（自然病史），接受急性大脑中动脉闭塞（MCAO）的血管内诱导治疗。闭塞后，治疗组接受动脉内去甲肾上腺素（0.1-1.52 μg/kg/min，按高于基线平均动脉压 25-45 mmHg 调整）和海德拉嗪（20 毫克）治疗。静息态 fMRI 数据由 3.0 T 扫描仪使用 BOLD 敏感 EPI 序列（TR/TE=1400 毫秒/20 毫秒，2.5 毫米切片，300 个时位）采集。预处理包括运动校正、空间平滑（2.5 mm FWHM）和高通滤波（0.01 Hz 截止）。通过组级独立成分分析（ICA）和加权全脑ROI-to-ROI连接组分析了MCAO前后RSN内的功能连接：阈值统计映射（TFCE p-corr > 0.95）表明，NEH疗法能明显维持MCAO后高阶视觉和顶叶RSN的连接性。然而，这种保护是网络依赖性的，初级视觉和感觉运动网络没有明显变化：结论：NEH 作为一种概念验证疗法，具有在缺血性中风后维持 RSN 功能连接的潜力，强调了灌注增强的治疗前景。这些见解强化了功能连接性作为中风干预疗效的可测量终点的作用，表明它可用于侧支循环不足患者的临床治疗：缩写：NEH＝去甲肾上腺素和肼屈嗪；RSN＝静息态网络；ICA＝独立成分分析；rsfMRI＝静息态功能磁共振成像；MCAO＝大脑中动脉闭塞；TFCE＝无阈值集群增强。

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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AJNR. American journal of neuroradiology

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