OBJECTIVE: To describe individual changes in the quantity of coronary artery calcification (CAC) measured by electron beam computed tomography (CT) and determine the rate of change in the quantity of CAC during a 3.5-year period. MATERIAL AND METHODS: Eighty-eight consecutive participants (51 men at least 30 years of age and 37 women at least 40 years of age) from a community-based CAC study were invited for a follow-up examination. Established coronary artery disease risk factors were studied at baseline. CAC score was measured by electron beam CT at baseline and follow-up. RESULTS: Of the 88 invited participants, 82 (93%) returned for a follow-up examination. Considerable variation existed among the participants in the extent of CAC score change. On average, CAC score increased over time by an estimated 24% each year (P<0.05). The relative increase in CAC score over time was significantly lower for older than for younger participants but did not vary significantly by sex. CONCLUSION: The ability to recruit follow-up participants in this pilot study and to detect significant change in CAC score over time provides evidence that electron beam CT is useful for studying progression of CAC in a sample and may be a valuable procedure for assessing the effectiveness of clinical interventions designed to retard progression of coronary atherosclerosis.
OBJECTIVE: To describe individual changes in the quantity of coronary artery calcification (CAC) measured by electron beam computed tomography (CT) and determine the rate of change in the quantity of CAC during a 3.5-year period. MATERIAL AND METHODS: Eighty-eight consecutive participants (51 men at least 30 years of age and 37 women at least 40 years of age) from a community-based CAC study were invited for a follow-up examination. Established coronary artery disease risk factors were studied at baseline. CAC score was measured by electron beam CT at baseline and follow-up. RESULTS: Of the 88 invited participants, 82 (93%) returned for a follow-up examination. Considerable variation existed among the participants in the extent of CAC score change. On average, CAC score increased over time by an estimated 24% each year (P<0.05). The relative increase in CAC score over time was significantly lower for older than for younger participants but did not vary significantly by sex. CONCLUSION: The ability to recruit follow-up participants in this pilot study and to detect significant change in CAC score over time provides evidence that electron beam CT is useful for studying progression of CAC in a sample and may be a valuable procedure for assessing the effectiveness of clinical interventions designed to retard progression of coronary atherosclerosis.
Authors: S Möhlenkamp; T R Behrenbeck; H Pump; P Kriener; S Lange; D Baumgart; R M Seibel; D H Grönemeyer; R Erbel Journal: Int J Cardiovasc Imaging Date: 2001-04 Impact factor: 2.357
Authors: Rakesh K Sharma; Rajiv K Sharma; Donald J Voelker; Vibhuti N Singh; Deepak Pahuja; Teresa Nash; Hanumanth K Reddy Journal: Vasc Health Risk Manag Date: 2010-08-09
Authors: Caroline K Kramer; Denise von Mühlen; Jorge L Gross; Gail A Laughlin; Elizabeth Barrett-Connor Journal: Diabetes Care Date: 2008-10-13 Impact factor: 17.152