Clinical Unit of Neurology, Department of Medicine, Surgery and Health Sciences, Cattinara University Hospital ASUGI, University of Trieste, Trieste, Italy.
Department of Engineering and Architecture, University of Trieste, Trieste, Italy.
Clin Physiol Funct Imaging. 2021 May;41(3):235-244. doi: 10.1111/cpf.12690. Epub 2021 Feb 9.
Hypohydration may be associated with vascular diseases, poor prognosis and worse outcomes in stroke. The underlying mechanisms have not yet been completely investigated, although some studies suggested potential associations with brain perfusion and collaterals status. Despite the potentially different mechanisms promoting serum or urine biomarkers of hypohydration, few studies have investigated both markers separately. A prospective descriptive study was conducted in stroke patients admitted to a stroke unit <4.5 h from symptoms onset. All patients underwent neurological evaluation and whole-brain computed tomography perfusion (CTP) upon admission. Blood and urine samples were immediately collected at admission, and patients were defined as "hypohydrated" (HYP) if blood urea nitrogen-to-creatinine ratio was >15 and "underhydrated" (UND) if urine osmolality was >500 mOsm/kg. CTP images were processed to calculate core, penumbra, their mismatch and total hypoperfused volume. Forty-six patients were included and were grouped according to hydration status. Despite no different NIHSS at baseline, at CTP HYP was independently associated with core-penumbra mismatch (β: -0.157, 95% CI: -0.305 to -0.009; p = .04), while UND was independently associated with the total hypoperfused volume (β: 31.502, 95% CI: 8.522-54.481; p = .01). Using CTP imaging, this study proposes a physiological insight of some possible mechanisms associated with the better outcomes observed in acute stroke patients when properly hydrated. These results suggest different associations between hydration status and CTP parameters depending on serum or urine biomarkers in the hyper-acute phase and encourage the association between hydration status and stroke characteristics.
脱水可能与血管疾病、不良预后和中风转归较差有关。尽管一些研究表明脱水与脑灌注和侧支循环状态之间可能存在关联,但潜在的机制尚未得到完全研究。尽管潜在的不同机制会促进血清或尿液脱水生物标志物的产生,但很少有研究分别对这两种标志物进行研究。本研究对发病后 4.5 小时内入住卒中单元的卒中患者进行了前瞻性描述性研究。所有患者在入院时都进行了神经学评估和全脑 CT 灌注(CTP)检查。入院时立即采集血液和尿液样本,如果血尿素氮/肌酐比值>15,则将患者定义为“脱水”(HYP),如果尿液渗透压>500 mOsm/kg,则将患者定义为“低血容量”(UND)。对 CTP 图像进行处理,以计算核心、半影区及其不匹配和总低灌注体积。共纳入 46 例患者,并根据水合状态进行分组。尽管基线 NIHSS 无差异,但在 CTP 时,HYP 与核心-半影区不匹配独立相关(β:-0.157,95%CI:-0.305 至 -0.009;p = 0.04),而 UND 与总低灌注体积独立相关(β:31.502,95%CI:8.522 至 54.481;p = 0.01)。本研究使用 CTP 成像,提出了一种生理学上的见解,即在急性卒中患者适当水合时,观察到的更好转归可能与某些与脱水相关的机制有关。这些结果表明,在超急性期,根据血清或尿液生物标志物,脱水状态与 CTP 参数之间存在不同的关联,并鼓励将脱水状态与卒中特征联系起来。
