Relative Insensitivity of densitometric stenosis measurement to lumen edge determination

Relative Insensitivity of densitometric stenosis measurement to lumen edge determination

Coronary artery stenosis measurement from coronary arteri is dependent on lumen edge determination. In theory, dependence may be minimized by densitometric integration of the entire lumen as compared with densitometric determination of edges alone coupled with calculation of lumen size by geometric...

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Veröffentlicht in:Journal of the American College of Cardiology 1990-06, Vol.15 (7), p.1570-1577
Hauptverfasser: Herrold, Edmund M., Goldberg, Harvey L., Borer, Jeffrey S., Wong, Kenneth, Moses, Jeffrey W.
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Sprache:eng
Schlagworte:
Angiography
Biological and medical sciences
Cardiology. Vascular system
Constriction, Pathologic - diagnosis
Coronary Disease - diagnosis
Coronary Disease - diagnostic imaging
Coronary heart disease
Densitometry - methods
Densitometry - standards
Heart
Humans
Mathematics
Medical sciences
Models, Cardiovascular
Sensitivity and Specificity
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container_end_page 1577
container_issue 7
container_start_page 1570
container_title Journal of the American College of Cardiology
container_volume 15
creator Herrold, Edmund M.
Goldberg, Harvey L.
Borer, Jeffrey S.
Wong, Kenneth
Moses, Jeffrey W.
description Coronary artery stenosis measurement from coronary arteri is dependent on lumen edge determination. In theory, dependence may be minimized by densitometric integration of the entire lumen as compared with densitometric determination of edges alone coupled with calculation of lumen size by geometric formulas. To assess the impact of approximations of lumen border position when densitometric and geometric methodare employed, external, intermediate and internal borders were defined and used with each method to calculate lumennarrowing from images of contrast-filled, asymmetrically stenotic model vessels and from clinically generated coronary arterio-grams. Actual cross-sectional narrowing of models correlated almost perfectly with densitometric narrowing for each of the three border criteria (external: r = 0.99, n = 192; intermediate: r = 0.99, n = 192; internal: r = 0.99, n =192). Lumen narrowing calculated by assuming a circular lumen geometry with a diameter equal to the distance between these identical borders correlated less well with true am namwing (external: r = 0.79, n = 192; intermediate: r = 0.83, n = 192; Internal: r = 0.70, n = 192); the residual variance of the densitometric regression was significantly less than that of the geometric regression for each o the three border criteria (external: 0.13 versus 372, p < 0.001; intermediate: 7.39 versus 315, < 0.001; internal: 7.13 versus 531, p < 0.001). When severity of each of 21 stenotic coronary artery lesions was assessed from clinical arterlograms, the mean of the three densitometric estimations of stenosis obtained by using these border definitions correlated well with the mean of the three geometric estimations obtained by using the identical borders (r = 0.00, n = 21). However, the variance about the mean densitometric measurement of stenosis was significantly less than that about the mean geometric measurement of stenosis (4.24 versus 91.57, p < 0.005). Although no absolute measurement of actual coronary artery stenosis severity exists for comparison, the lower variability of the densitometric compared with the geometric approach supports the conclusion that densitometry is relatively less sensitive to imprecise border positioning than are geometric methods. Together with the model vessel results, these findings suggest that densitometry provides more precise measurement of stenosis than does geometric analysis when applied to clinical coronary arteriograms.
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In theory, dependence may be minimized by densitometric integration of the entire lumen as compared with densitometric determination of edges alone coupled with calculation of lumen size by geometric formulas. To assess the impact of approximations of lumen border position when densitometric and geometric methodare employed, external, intermediate and internal borders were defined and used with each method to calculate lumennarrowing from images of contrast-filled, asymmetrically stenotic model vessels and from clinically generated coronary arterio-grams. Actual cross-sectional narrowing of models correlated almost perfectly with densitometric narrowing for each of the three border criteria (external: r = 0.99, n = 192; intermediate: r = 0.99, n = 192; internal: r = 0.99, n =192). Lumen narrowing calculated by assuming a circular lumen geometry with a diameter equal to the distance between these identical borders correlated less well with true am namwing (external: r = 0.79, n = 192; intermediate: r = 0.83, n = 192; Internal: r = 0.70, n = 192); the residual variance of the densitometric regression was significantly less than that of the geometric regression for each o the three border criteria (external: 0.13 versus 372, p &lt; 0.001; intermediate: 7.39 versus 315, &lt; 0.001; internal: 7.13 versus 531, p &lt; 0.001). When severity of each of 21 stenotic coronary artery lesions was assessed from clinical arterlograms, the mean of the three densitometric estimations of stenosis obtained by using these border definitions correlated well with the mean of the three geometric estimations obtained by using the identical borders (r = 0.00, n = 21). However, the variance about the mean densitometric measurement of stenosis was significantly less than that about the mean geometric measurement of stenosis (4.24 versus 91.57, p &lt; 0.005). Although no absolute measurement of actual coronary artery stenosis severity exists for comparison, the lower variability of the densitometric compared with the geometric approach supports the conclusion that densitometry is relatively less sensitive to imprecise border positioning than are geometric methods. 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In theory, dependence may be minimized by densitometric integration of the entire lumen as compared with densitometric determination of edges alone coupled with calculation of lumen size by geometric formulas. To assess the impact of approximations of lumen border position when densitometric and geometric methodare employed, external, intermediate and internal borders were defined and used with each method to calculate lumennarrowing from images of contrast-filled, asymmetrically stenotic model vessels and from clinically generated coronary arterio-grams. Actual cross-sectional narrowing of models correlated almost perfectly with densitometric narrowing for each of the three border criteria (external: r = 0.99, n = 192; intermediate: r = 0.99, n = 192; internal: r = 0.99, n =192). Lumen narrowing calculated by assuming a circular lumen geometry with a diameter equal to the distance between these identical borders correlated less well with true am namwing (external: r = 0.79, n = 192; intermediate: r = 0.83, n = 192; Internal: r = 0.70, n = 192); the residual variance of the densitometric regression was significantly less than that of the geometric regression for each o the three border criteria (external: 0.13 versus 372, p &lt; 0.001; intermediate: 7.39 versus 315, &lt; 0.001; internal: 7.13 versus 531, p &lt; 0.001). When severity of each of 21 stenotic coronary artery lesions was assessed from clinical arterlograms, the mean of the three densitometric estimations of stenosis obtained by using these border definitions correlated well with the mean of the three geometric estimations obtained by using the identical borders (r = 0.00, n = 21). However, the variance about the mean densitometric measurement of stenosis was significantly less than that about the mean geometric measurement of stenosis (4.24 versus 91.57, p &lt; 0.005). Although no absolute measurement of actual coronary artery stenosis severity exists for comparison, the lower variability of the densitometric compared with the geometric approach supports the conclusion that densitometry is relatively less sensitive to imprecise border positioning than are geometric methods. Together with the model vessel results, these findings suggest that densitometry provides more precise measurement of stenosis than does geometric analysis when applied to clinical coronary arteriograms.</description><subject>Angiography</subject><subject>Biological and medical sciences</subject><subject>Cardiology. Vascular system</subject><subject>Constriction, Pathologic - diagnosis</subject><subject>Coronary Disease - diagnosis</subject><subject>Coronary Disease - diagnostic imaging</subject><subject>Coronary heart disease</subject><subject>Densitometry - methods</subject><subject>Densitometry - standards</subject><subject>Heart</subject><subject>Humans</subject><subject>Mathematics</subject><subject>Medical sciences</subject><subject>Models, Cardiovascular</subject><subject>Sensitivity and Specificity</subject><issn>0735-1097</issn><issn>1558-3597</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1990</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kNFLHDEQxkNR9Dz7H1TYByn2YW2y2WSTF6EctgqCR7HQt5DLzpaU3cRmsoL_vTnvuMfCwMww3_cx_Aj5xOg1o0x-pR0XNaO6u9L0i25Uo-r1B7JgQqiaC90dkcVBckrOEP9SSqVi-oScNEwprdSC_P4Jo83-Bar7gBDQl9nn1yoOVf--xgly8q7CDCGix2oCi3OCCUKucqzGuUwV9H-gGDKkyYeSF8M5OR7siPBx35fk1_fbp9Vd_fD443717aF2XMlcD5oNHRuk2lDlaNPK1vLSrROdZQw4hY4CB8mkEFLZDbUDp7x3YBlvrdN8ST7vcp9T_DcDZjN5dDCONkCc0XS600xIUYTtTuhSREwwmOfkJ5teDaNmC9RsaZktLaOpeQdq1sV2sc-fNxP0B9OeYLlf7u8WnR2HZIPzeJBJ3Ta81JLc7GRQWLx4SAadh-Cg9wlcNn30___jDQJ0k4U</recordid><startdate>19900601</startdate><enddate>19900601</enddate><creator>Herrold, Edmund M.</creator><creator>Goldberg, Harvey L.</creator><creator>Borer, Jeffrey S.</creator><creator>Wong, Kenneth</creator><creator>Moses, Jeffrey W.</creator><general>Elsevier Inc</general><general>Elsevier Science</general><scope>6I.</scope><scope>AAFTH</scope><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>19900601</creationdate><title>Relative Insensitivity of densitometric stenosis measurement to lumen edge determination</title><author>Herrold, Edmund M. ; Goldberg, Harvey L. ; Borer, Jeffrey S. ; Wong, Kenneth ; Moses, Jeffrey W.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c386t-f91f71f68b08c02464a3c02ac57a11e30e70e3e6165568ab0af303dcea134ac93</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1990</creationdate><topic>Angiography</topic><topic>Biological and medical sciences</topic><topic>Cardiology. Vascular system</topic><topic>Constriction, Pathologic - diagnosis</topic><topic>Coronary Disease - diagnosis</topic><topic>Coronary Disease - diagnostic imaging</topic><topic>Coronary heart disease</topic><topic>Densitometry - methods</topic><topic>Densitometry - standards</topic><topic>Heart</topic><topic>Humans</topic><topic>Mathematics</topic><topic>Medical sciences</topic><topic>Models, Cardiovascular</topic><topic>Sensitivity and Specificity</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Herrold, Edmund M.</creatorcontrib><creatorcontrib>Goldberg, Harvey L.</creatorcontrib><creatorcontrib>Borer, Jeffrey S.</creatorcontrib><creatorcontrib>Wong, Kenneth</creatorcontrib><creatorcontrib>Moses, Jeffrey W.</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Journal of the American College of Cardiology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Herrold, Edmund M.</au><au>Goldberg, Harvey L.</au><au>Borer, Jeffrey S.</au><au>Wong, Kenneth</au><au>Moses, Jeffrey W.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Relative Insensitivity of densitometric stenosis measurement to lumen edge determination</atitle><jtitle>Journal of the American College of Cardiology</jtitle><addtitle>J Am Coll Cardiol</addtitle><date>1990-06-01</date><risdate>1990</risdate><volume>15</volume><issue>7</issue><spage>1570</spage><epage>1577</epage><pages>1570-1577</pages><issn>0735-1097</issn><eissn>1558-3597</eissn><coden>JACCDI</coden><abstract>Coronary artery stenosis measurement from coronary arteri is dependent on lumen edge determination. In theory, dependence may be minimized by densitometric integration of the entire lumen as compared with densitometric determination of edges alone coupled with calculation of lumen size by geometric formulas. To assess the impact of approximations of lumen border position when densitometric and geometric methodare employed, external, intermediate and internal borders were defined and used with each method to calculate lumennarrowing from images of contrast-filled, asymmetrically stenotic model vessels and from clinically generated coronary arterio-grams. Actual cross-sectional narrowing of models correlated almost perfectly with densitometric narrowing for each of the three border criteria (external: r = 0.99, n = 192; intermediate: r = 0.99, n = 192; internal: r = 0.99, n =192). Lumen narrowing calculated by assuming a circular lumen geometry with a diameter equal to the distance between these identical borders correlated less well with true am namwing (external: r = 0.79, n = 192; intermediate: r = 0.83, n = 192; Internal: r = 0.70, n = 192); the residual variance of the densitometric regression was significantly less than that of the geometric regression for each o the three border criteria (external: 0.13 versus 372, p &lt; 0.001; intermediate: 7.39 versus 315, &lt; 0.001; internal: 7.13 versus 531, p &lt; 0.001). When severity of each of 21 stenotic coronary artery lesions was assessed from clinical arterlograms, the mean of the three densitometric estimations of stenosis obtained by using these border definitions correlated well with the mean of the three geometric estimations obtained by using the identical borders (r = 0.00, n = 21). However, the variance about the mean densitometric measurement of stenosis was significantly less than that about the mean geometric measurement of stenosis (4.24 versus 91.57, p &lt; 0.005). Although no absolute measurement of actual coronary artery stenosis severity exists for comparison, the lower variability of the densitometric compared with the geometric approach supports the conclusion that densitometry is relatively less sensitive to imprecise border positioning than are geometric methods. Together with the model vessel results, these findings suggest that densitometry provides more precise measurement of stenosis than does geometric analysis when applied to clinical coronary arteriograms.</abstract><cop>New York, NY</cop><pub>Elsevier Inc</pub><pmid>2188988</pmid><doi>10.1016/0735-1097(90)92828-P</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects Angiography
Biological and medical sciences
Cardiology. Vascular system
Constriction, Pathologic - diagnosis
Coronary Disease - diagnosis
Coronary Disease - diagnostic imaging
Coronary heart disease
Densitometry - methods
Densitometry - standards
Heart
Humans
Mathematics
Medical sciences
Models, Cardiovascular
Sensitivity and Specificity
title Relative Insensitivity of densitometric stenosis measurement to lumen edge determination
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