四川医学
四川醫學
사천의학
SICHUAN MEDICAL JOURNAL
2014年
12期
1619-1621
,共3页
急性脑梗死%脑灌注成像%体层摄影术%X 线计算机
急性腦梗死%腦灌註成像%體層攝影術%X 線計算機
급성뇌경사%뇌관주성상%체층섭영술%X 선계산궤
acute cerebral infarction%cerebral perfusion imaging%tomograthy%X-ray computed
目的:探讨急性脑梗死患者多层螺旋 CT 灌注成像特点,及其与临床预后的关系。方法选择符合标准的患者40例,行 CT 灌注成像检查,计算脑血流量(CBF)、脑血容量(CBV)、平均通过时间(MTT)及峰值时间(TTP);分别在入院时和治疗后14d 采用美国国立卫生研究院卒中量表(NIHSS)评价临床神经功能缺损,计算缺血脑组织的可恢复比率(PRR)和神经功能恢复比率。结果脑梗死病灶中心 CBV 及 CBF 最低,健侧最高,而缺血半暗带居中,差异有统计学意义(P <0.05);脑梗死病灶中心 MTT 及 TTP 最高,健侧最低,而缺血半暗带居中,差异有统计学意义(P <0.05)。 PRR 与患者入院时 NIHSS 评分无相关性(r =-0.227,P >0.05);PRR 与患者治疗14d 时 NIHSS 评分存在负相关性(r =-0.340, P <0.05);PRR 与患者神经功能恢复比率存在正相关性(r =0.467,P <0.05)。结论多层螺旋 CT 灌注成像可以反映急性脑梗死病灶及其周围血液动力学变化,PRR 与神经功能恢复密切相关,可以为临床治疗提供可靠的理论依据。
目的:探討急性腦梗死患者多層螺鏇 CT 灌註成像特點,及其與臨床預後的關繫。方法選擇符閤標準的患者40例,行 CT 灌註成像檢查,計算腦血流量(CBF)、腦血容量(CBV)、平均通過時間(MTT)及峰值時間(TTP);分彆在入院時和治療後14d 採用美國國立衛生研究院卒中量錶(NIHSS)評價臨床神經功能缺損,計算缺血腦組織的可恢複比率(PRR)和神經功能恢複比率。結果腦梗死病竈中心 CBV 及 CBF 最低,健側最高,而缺血半暗帶居中,差異有統計學意義(P <0.05);腦梗死病竈中心 MTT 及 TTP 最高,健側最低,而缺血半暗帶居中,差異有統計學意義(P <0.05)。 PRR 與患者入院時 NIHSS 評分無相關性(r =-0.227,P >0.05);PRR 與患者治療14d 時 NIHSS 評分存在負相關性(r =-0.340, P <0.05);PRR 與患者神經功能恢複比率存在正相關性(r =0.467,P <0.05)。結論多層螺鏇 CT 灌註成像可以反映急性腦梗死病竈及其週圍血液動力學變化,PRR 與神經功能恢複密切相關,可以為臨床治療提供可靠的理論依據。
목적:탐토급성뇌경사환자다층라선 CT 관주성상특점,급기여림상예후적관계。방법선택부합표준적환자40례,행 CT 관주성상검사,계산뇌혈류량(CBF)、뇌혈용량(CBV)、평균통과시간(MTT)급봉치시간(TTP);분별재입원시화치료후14d 채용미국국립위생연구원졸중량표(NIHSS)평개림상신경공능결손,계산결혈뇌조직적가회복비솔(PRR)화신경공능회복비솔。결과뇌경사병조중심 CBV 급 CBF 최저,건측최고,이결혈반암대거중,차이유통계학의의(P <0.05);뇌경사병조중심 MTT 급 TTP 최고,건측최저,이결혈반암대거중,차이유통계학의의(P <0.05)。 PRR 여환자입원시 NIHSS 평분무상관성(r =-0.227,P >0.05);PRR 여환자치료14d 시 NIHSS 평분존재부상관성(r =-0.340, P <0.05);PRR 여환자신경공능회복비솔존재정상관성(r =0.467,P <0.05)。결론다층라선 CT 관주성상가이반영급성뇌경사병조급기주위혈액동역학변화,PRR 여신경공능회복밀절상관,가이위림상치료제공가고적이론의거。
Objective To investigate the characteristics of multi-slice spiral CT perfusion imaging in patients with acute cerebral infarction and its relationship with clinical prognosis. Methods Forty patients who met the inclusion criteria were selected to undergo CT perfusion imaging,and their cerebral blood flows ( CBFs),cerebral blood volumes ( CBVs),mean transit times (MTTs) and transit time peaks (TTPs) were calculated. Clinical neurologic impairment was assessed with the National Institutes of Health Stroke Scale (NIHSS) and the potential recuperation ratio (PRR) of the ischemic brain tissue and the neural functional recovery ratio were calculated on admission and at day 14 after treatment,respectively. Results CBV and CBF were lowest in cen-tral cerebral infarction lesions,highest contralaterally and median in the ischemic penumbra,and the difference was statistically sig-nificant (P < 0. 05). MTT and TTP werehighest in central cerebral infarction lesions,lowest contralaterally and median in the is-chemic penumbra,and the difference was statistically significant (P < 0. 05). PRR was independent of patients’ NIHSS scores on admission (r = - 0. 227,P > 0. 05),negatively dependent of those at day 14 after treatment (r = - 0. 340,P < 0. 05) and positive-ly dependent of patient’s neural functional recovery ratio (r = 0. 467,P < 0. 05). Conclusion Multi-slice spiral CT perfusion im-aging can reflecthemodynamic changes in acute cerebral infarction lesions and their perihemodynamic changes. PRR is closely de-pendent of the neural functional recovery. It can serve as a reliable theoretical basis for clinical treatment.
