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MYOCARDIAL TISSUE FRACTION - CORRECTION FOR PARTIAL VOLUME EFFECTS AND MEASURE OF TISSUE VIABILITY
Tekijät: IIDA H, RHODES CG, DESILVA R, YAMAMOTO Y, ARAUJO LI, MASERI A, JONES T
Kustantaja: SOC NUCLEAR MEDICINE INC
Julkaisuvuosi: 1991
Journal: Journal of Nuclear Medicine
Tietokannassa oleva lehden nimi: JOURNAL OF NUCLEAR MEDICINE
Lehden akronyymi: J NUCL MED
Vuosikerta: 32
Numero: 11
Aloitussivu: 2169
Lopetussivu: 2175
Sivujen määrä: 7
ISSN: 0161-5505
Tiivistelmä
We have compared two independent methods of correcting the systematic underestimation in measurements of myocardial radiotracer concentration due to wall motion and small transmural wall thickness in cardiac PET studies. The first technique was based on measurement of the tissue fraction by fitting O-15-labeled water dynamic PET data. The other technique involved the subtraction of the (CO)-O-15-blood volume scan from the transmission data, producing an image of extravascular density. In normal myocardial regions, both values were observed to be about 60% of myocardial tissue density. The tissue fraction was approximately 10% larger than the extravascular density in normal tissue regions. The ratio of alpha/D(ev) indicates the proportion of the total extravascular tissue for a given ROl that is perfusable by water-independent of the partial volume effect. This ratio was confirmed to be the expected value in normal tissue regions but was reduced in regions of infarction. The use of O-15-water, (CO)-O-15 and transmission data may aid in the differentiation between perfusable and nonperfusable tissue in the infarcted myocardium.
We have compared two independent methods of correcting the systematic underestimation in measurements of myocardial radiotracer concentration due to wall motion and small transmural wall thickness in cardiac PET studies. The first technique was based on measurement of the tissue fraction by fitting O-15-labeled water dynamic PET data. The other technique involved the subtraction of the (CO)-O-15-blood volume scan from the transmission data, producing an image of extravascular density. In normal myocardial regions, both values were observed to be about 60% of myocardial tissue density. The tissue fraction was approximately 10% larger than the extravascular density in normal tissue regions. The ratio of alpha/D(ev) indicates the proportion of the total extravascular tissue for a given ROl that is perfusable by water-independent of the partial volume effect. This ratio was confirmed to be the expected value in normal tissue regions but was reduced in regions of infarction. The use of O-15-water, (CO)-O-15 and transmission data may aid in the differentiation between perfusable and nonperfusable tissue in the infarcted myocardium.
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