中华核医学杂志
中華覈醫學雜誌
중화핵의학잡지
CHINESE JOURNAL OF NUCLEAR MEDICINE
2010年
6期
367-371
,共5页
赵骏%徐龙宝%万仁明%范光磊%刘剑文%黄曙新
趙駿%徐龍寶%萬仁明%範光磊%劉劍文%黃曙新
조준%서룡보%만인명%범광뢰%류검문%황서신
冠状动脉疾病%体层摄影术,发射型计算机,单光子%体层摄影术,X线计算机%MIBI
冠狀動脈疾病%體層攝影術,髮射型計算機,單光子%體層攝影術,X線計算機%MIBI
관상동맥질병%체층섭영술,발사형계산궤,단광자%체층섭영술,X선계산궤%MIBI
Coronary disease%Tomography,emission-computed,single-photon%Tomography,X-ray computed%MIBI
目的 对比分析心肌灌注显像(MPI)与64层螺旋CT(MSCT)对冠状动脉疾病(CAD)的诊断价值.方法 对52例可疑和确诊CAD患者(疑诊43例,确诊9例)进行MPI检查,并均在1个月内行冠状动脉造影(CAG)和64层MSCT检查.MPI结果分析采用17节段5分制,获得运动负荷显像灌注总积分和静息显像灌注总积分,两者差值大于1为心肌缺血,判断为阳性.MSCT结果主要以冠状动脉或其主要分支中至少有1支血管管腔狭窄≥50%判定为阳性.以CAG结果为诊断CAD的"金标准".采用SPSS 13.0软件,用Kappa值检验2种方法结果的一致性,两样本率的比较采用配对资料x2检验.结果 MPI和MSCT诊断CAD的灵敏度、特异性、阳性预测值、阴性预测值及准确性分别为86.7%(26/30)、77.3%(17/22)、83.9%(26/31)、81.0%(17/21)、82.7%(43/52)和83.3%(25/30)、86.4%(19/22)、89.3%(25/28)、79.2%(19/24)、84.6%(44/52);MPI和MSCT对病变血管检出的灵敏度、特异性、阳性预测值、阴性预测值及准确性分别是74.5%(38/51)、81.0%(85/105)、65.5%(38/58)、86.7%(85/98)、78.8%(123/156)和90.2%(46/51)、88.6%(93/105)、79.3%(46/58)、94.9%(93/98)、89.1%(139/156),2种方法诊断CAD和病变血管差异均无统计学意义(x2=0.44和0.21,P均>0.05).MSCT评价病变血管轻度、中度和高度狭窄的灵敏度分别为76.5%(13/17),78.3%(18/23)和89.6%(43/48).MPI和MSCT诊断CAD的效能相近,Kappa值为0.64(<0.75).25例2种方法均阳性患者,96.0%(24/25)确诊为CAD;18例均阴性的患者,83.3%(15/18)可排除CAD.结论 MPI和MSCT均为筛选、诊断CAD的重要无创检查手段,但信息互补,不可替换.
目的 對比分析心肌灌註顯像(MPI)與64層螺鏇CT(MSCT)對冠狀動脈疾病(CAD)的診斷價值.方法 對52例可疑和確診CAD患者(疑診43例,確診9例)進行MPI檢查,併均在1箇月內行冠狀動脈造影(CAG)和64層MSCT檢查.MPI結果分析採用17節段5分製,穫得運動負荷顯像灌註總積分和靜息顯像灌註總積分,兩者差值大于1為心肌缺血,判斷為暘性.MSCT結果主要以冠狀動脈或其主要分支中至少有1支血管管腔狹窄≥50%判定為暘性.以CAG結果為診斷CAD的"金標準".採用SPSS 13.0軟件,用Kappa值檢驗2種方法結果的一緻性,兩樣本率的比較採用配對資料x2檢驗.結果 MPI和MSCT診斷CAD的靈敏度、特異性、暘性預測值、陰性預測值及準確性分彆為86.7%(26/30)、77.3%(17/22)、83.9%(26/31)、81.0%(17/21)、82.7%(43/52)和83.3%(25/30)、86.4%(19/22)、89.3%(25/28)、79.2%(19/24)、84.6%(44/52);MPI和MSCT對病變血管檢齣的靈敏度、特異性、暘性預測值、陰性預測值及準確性分彆是74.5%(38/51)、81.0%(85/105)、65.5%(38/58)、86.7%(85/98)、78.8%(123/156)和90.2%(46/51)、88.6%(93/105)、79.3%(46/58)、94.9%(93/98)、89.1%(139/156),2種方法診斷CAD和病變血管差異均無統計學意義(x2=0.44和0.21,P均>0.05).MSCT評價病變血管輕度、中度和高度狹窄的靈敏度分彆為76.5%(13/17),78.3%(18/23)和89.6%(43/48).MPI和MSCT診斷CAD的效能相近,Kappa值為0.64(<0.75).25例2種方法均暘性患者,96.0%(24/25)確診為CAD;18例均陰性的患者,83.3%(15/18)可排除CAD.結論 MPI和MSCT均為篩選、診斷CAD的重要無創檢查手段,但信息互補,不可替換.
목적 대비분석심기관주현상(MPI)여64층라선CT(MSCT)대관상동맥질병(CAD)적진단개치.방법 대52례가의화학진CAD환자(의진43례,학진9례)진행MPI검사,병균재1개월내행관상동맥조영(CAG)화64층MSCT검사.MPI결과분석채용17절단5분제,획득운동부하현상관주총적분화정식현상관주총적분,량자차치대우1위심기결혈,판단위양성.MSCT결과주요이관상동맥혹기주요분지중지소유1지혈관관강협착≥50%판정위양성.이CAG결과위진단CAD적"금표준".채용SPSS 13.0연건,용Kappa치검험2충방법결과적일치성,량양본솔적비교채용배대자료x2검험.결과 MPI화MSCT진단CAD적령민도、특이성、양성예측치、음성예측치급준학성분별위86.7%(26/30)、77.3%(17/22)、83.9%(26/31)、81.0%(17/21)、82.7%(43/52)화83.3%(25/30)、86.4%(19/22)、89.3%(25/28)、79.2%(19/24)、84.6%(44/52);MPI화MSCT대병변혈관검출적령민도、특이성、양성예측치、음성예측치급준학성분별시74.5%(38/51)、81.0%(85/105)、65.5%(38/58)、86.7%(85/98)、78.8%(123/156)화90.2%(46/51)、88.6%(93/105)、79.3%(46/58)、94.9%(93/98)、89.1%(139/156),2충방법진단CAD화병변혈관차이균무통계학의의(x2=0.44화0.21,P균>0.05).MSCT평개병변혈관경도、중도화고도협착적령민도분별위76.5%(13/17),78.3%(18/23)화89.6%(43/48).MPI화MSCT진단CAD적효능상근,Kappa치위0.64(<0.75).25례2충방법균양성환자,96.0%(24/25)학진위CAD;18례균음성적환자,83.3%(15/18)가배제CAD.결론 MPI화MSCT균위사선、진단CAD적중요무창검사수단,단신식호보,불가체환.
Objective To compare the diagnostic value of myocardial perfusion imaging (MPI) and 64 multi-slice spiral CT (64-MSCT) for coronary artery disease (CAD). Methods Fifty-two patients with suspected or known CAD were included in the study. Each patient underwent both stress and rest MPI,MSCT as well as conventional coronary angiography (CAG) within 1 month. The stress and rest MPI were scored by a 5-grade criteria (0 ~ 4) based on 17 coronary artery segments. The difference between summed stress and rest scores > 1 was defined as myocardial ischemia. Stenosis in one main vessel or one main branch of the main vessel ≥50% was defined as myocardial ischemia by MSCT. CAG was used as the reference for comparison. Statistical analysis was performed using SPSS 13. 0 software. Kappa value was used to test the accordance of MPI and MSCT results. X2 test was used to evaluate the difference between MPI and MSCT results. Results The patient-based sensitivity, specificity, positive and negative predictive values and accuracy of MPI and MSCT for the diagnosis of CAD were 86.7% (26/30), 77.3% ( 17/22),83.9% (26/31), 81.0% ( 17/21), 82.7% (43/52) and 83.3% ( 25/30), 86.4% ( 19/22), 89.3%( 25/28), 79.2% ( 19/24), 84.6% (44/52), respectively. The vessel-based sensitivity, specificity, positive and negative predictive values and accuracy of MPI and MSCT were 74.5% (38/51), 81.0% (85/105 ), 65.5% (38/58), 86.7% ( 85/98), 78.8% ( 123/156 ) and 90.2% (46/51 ), 88.6% ( 93/105 ),79.3 % (46/58), 94.9% (93/98), 89.1% ( 139/156), respectively. There was no statistically significant difference between MPI and MSCT for either patient or lesion-based diagnosis (X2 =0.44, 0.21, both P >0.05 ). 96.0% (24/25) patients with both abnormal MPI and MSCT positive were valified by CAG while 83.3% (15/18) patients with both MPI and MSCT negative were excluded by CAG. Conclusions Both MPI and MSCT are reliable diagnostic modalities for CAD. They also provide complementary diagnostic value to each other.