中华核医学与分子影像杂志
中華覈醫學與分子影像雜誌
중화핵의학여분자영상잡지
Chinese Journal of Nuclear Medicine and Molecular Imaging
2014年
1期
27-29
,共3页
缪蔚冰%陈少明%郑山%吴晶%彭接权%江志红
繆蔚冰%陳少明%鄭山%吳晶%彭接權%江誌紅
무위빙%진소명%정산%오정%팽접권%강지홍
膳食碳水化合物%心肌%体层摄影术,发射型计算机,单光子%脱氧葡萄糖
膳食碳水化閤物%心肌%體層攝影術,髮射型計算機,單光子%脫氧葡萄糖
선식탄수화합물%심기%체층섭영술,발사형계산궤,단광자%탈양포도당
Dietary carbohydrates%Myocardium%Tomography,emission-computed,single-photon%Deoxyglucose
目的 探讨18F-FDG肿瘤显像前采用低碳水化合物饮食以减少心肌放射性摄取的可行性.方法 选取2011年4月至2012年1月行18F-FDG肿瘤显像患者70例,按完全随机法将其分为对照组(34例)和实验组(36例).对照组显像前一天晚餐为正常饮食,实验组为低碳水化合物饮食.所有患者检查当天空腹,并在注射18F-FDG前抽血检测血糖、血清游离脂肪酸、胰岛素及酮体水平.行双探头符合线路显像,目测分析心肌FDG摄取程度,进行分级评分:0分,不显影;1分,摄取低于肝脏;2分,摄取与肝脏相当;3分,摄取高于肝脏;4分,显著摄取.计算心肌与肝脏放射性摄取比值(H/L).采用两样本t检验、Wilcoxon秩和检验和直线相关分析处理数据.结果 实验组心肌18F-FDG摄取明显低于对照组,H/L分别为0.94±0.57和1.50±1.04,差异有统计学意义(t=-2.75,P<0.05).实验组血清游离脂肪酸和酮体水平[(0.671±0.229) mmol/L、(0.88±0.60) mmol/L]较对照组[(0.547±0.207) mmol/L、(0.57±0.32) mmol/L]显著升高(t=2.38和2.67,均P<0.05);2组血糖和胰岛素水平分别为(5.28±1.06) mmol/L、(35.16±33.70) pmol/L和(5.19±0.78) mmol/L、(41.64±35.13) pmol/L,差异均无统计学意义(t=0.39和-0.79,均P>0.05).心肌摄取18F-FDG程度与血清游离脂肪酸和酮体水平均呈负相关(r=-0.40和-0.33,均P<0.01),但与血糖和胰岛素水平相关性均无统计学意义(r=-0.02和0.13,均P>0.05).结论 18F-FDG肿瘤显像前采用低碳水化合物饮食可以降低心肌对18F-FDG的摄取,从而减少其对周围病灶检出的干扰.
目的 探討18F-FDG腫瘤顯像前採用低碳水化閤物飲食以減少心肌放射性攝取的可行性.方法 選取2011年4月至2012年1月行18F-FDG腫瘤顯像患者70例,按完全隨機法將其分為對照組(34例)和實驗組(36例).對照組顯像前一天晚餐為正常飲食,實驗組為低碳水化閤物飲食.所有患者檢查噹天空腹,併在註射18F-FDG前抽血檢測血糖、血清遊離脂肪痠、胰島素及酮體水平.行雙探頭符閤線路顯像,目測分析心肌FDG攝取程度,進行分級評分:0分,不顯影;1分,攝取低于肝髒;2分,攝取與肝髒相噹;3分,攝取高于肝髒;4分,顯著攝取.計算心肌與肝髒放射性攝取比值(H/L).採用兩樣本t檢驗、Wilcoxon秩和檢驗和直線相關分析處理數據.結果 實驗組心肌18F-FDG攝取明顯低于對照組,H/L分彆為0.94±0.57和1.50±1.04,差異有統計學意義(t=-2.75,P<0.05).實驗組血清遊離脂肪痠和酮體水平[(0.671±0.229) mmol/L、(0.88±0.60) mmol/L]較對照組[(0.547±0.207) mmol/L、(0.57±0.32) mmol/L]顯著升高(t=2.38和2.67,均P<0.05);2組血糖和胰島素水平分彆為(5.28±1.06) mmol/L、(35.16±33.70) pmol/L和(5.19±0.78) mmol/L、(41.64±35.13) pmol/L,差異均無統計學意義(t=0.39和-0.79,均P>0.05).心肌攝取18F-FDG程度與血清遊離脂肪痠和酮體水平均呈負相關(r=-0.40和-0.33,均P<0.01),但與血糖和胰島素水平相關性均無統計學意義(r=-0.02和0.13,均P>0.05).結論 18F-FDG腫瘤顯像前採用低碳水化閤物飲食可以降低心肌對18F-FDG的攝取,從而減少其對週圍病竈檢齣的榦擾.
목적 탐토18F-FDG종류현상전채용저탄수화합물음식이감소심기방사성섭취적가행성.방법 선취2011년4월지2012년1월행18F-FDG종류현상환자70례,안완전수궤법장기분위대조조(34례)화실험조(36례).대조조현상전일천만찬위정상음식,실험조위저탄수화합물음식.소유환자검사당천공복,병재주사18F-FDG전추혈검측혈당、혈청유리지방산、이도소급동체수평.행쌍탐두부합선로현상,목측분석심기FDG섭취정도,진행분급평분:0분,불현영;1분,섭취저우간장;2분,섭취여간장상당;3분,섭취고우간장;4분,현저섭취.계산심기여간장방사성섭취비치(H/L).채용량양본t검험、Wilcoxon질화검험화직선상관분석처리수거.결과 실험조심기18F-FDG섭취명현저우대조조,H/L분별위0.94±0.57화1.50±1.04,차이유통계학의의(t=-2.75,P<0.05).실험조혈청유리지방산화동체수평[(0.671±0.229) mmol/L、(0.88±0.60) mmol/L]교대조조[(0.547±0.207) mmol/L、(0.57±0.32) mmol/L]현저승고(t=2.38화2.67,균P<0.05);2조혈당화이도소수평분별위(5.28±1.06) mmol/L、(35.16±33.70) pmol/L화(5.19±0.78) mmol/L、(41.64±35.13) pmol/L,차이균무통계학의의(t=0.39화-0.79,균P>0.05).심기섭취18F-FDG정도여혈청유리지방산화동체수평균정부상관(r=-0.40화-0.33,균P<0.01),단여혈당화이도소수평상관성균무통계학의의(r=-0.02화0.13,균P>0.05).결론 18F-FDG종류현상전채용저탄수화합물음식가이강저심기대18F-FDG적섭취,종이감소기대주위병조검출적간우.
Objective To evaluate whether low carbohydrate diet before 18F-FDG tumor imaging could reduce myocardial 18F-FDG uptake.Methods From April 2011 to January 2012,70 patients were enrolled in this study.They were randomly divided into control group (34 cases) and test group (36 cases).Patients in control group were on regular diet,while those in test group had low carbohydrate diet in the evening before imaging.Blood samples were taken before injection of 18F-FDG for the measurement of serum glucose,free fatty acid,insulin and ketone body.Whole body 18F-FDG tomography was performed with dualhead coincidence SPECT.The myocardial uptake of FDG was assessed visually and scored as 0 for no uptake,1 for uptake lower than liver,2 for uptake similar to liver,3 for uptake higher than liver,and 4 for remarkable uptake.The ratio of myocardium to liver (H/L) was calculated.Two-sample t test,Wilcoxon rank sum test and linear correlation analysis were performed.Results The myocardial uptake in test group was significantly lower than that in control group with H/L ratios of 0.94±0.57 and 1.50±1.04,respectively(t=-2.75,P<0.05).The concentrations of serum free fatty acid and ketone body in test group were significantly higher than those in control group: (0.671±0.229) mmol/L vs (0.547±0.207) mmol/L and (0.88±0.60) mmol/L vs (0.57±0.32) mmol/L,t=2.38 and 2.67,both P<0.05.The concentrations of glucose and insulin were (5.28±1.06) mmol/L and (35.16±33.70) pmol/L in test group,which showed no significant difference with those in control group ((5.19±0.78) mmol/L and (41.64±35.13) pmol/L,t=0.39 and-0.79,both P>0.05).A negative correlation was found between the myocardial uptake of 18F-FDG and serum free fatty acid/ketone body concentration (r=-0.40,-0.33,both P<0.01),respectively.There was no correlation between the myocardial uptake of 18 F-FDG and glucose/insulin (r =-0.02,0.13,both P>0.05),respectively.Conclusion Low carbohydrate diet before 18F-FDG tumor imaging can reduce myocardial uptake,thus facilitating detection of lesions near the heart.