The Accuracy of the Assessment of Normal Fetal Intestinal Echogenicity – Electro-Optical Densitometry versus the Ultrasonographer’s Eye

Caspi, B.; Blickstein, Isaac; Appelman, Zvi

doi:10.1159/000294842

Cited by 19 publications

(16 citation statements)

References 9 publications

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“…Our group evaluated fetal bowel echogenicity using a comparison to an "internal standard" of five fetal tissues. 7 Densitometry again clearly established the inability of the sonographer to assess qualitatively the true density of the sonographic image.…”

mentioning

confidence: 89%

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Quantitative assessment of sonographic image echogenicity by transmission densitometry: fetal liver model

Blickstein

1993

Journal of Ultrasound in Medicine

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A mathematical method is proposed to compare density values of different sonographs of the same tissue. Two transformations were needed: (1) calibration of the gray scale according to the maximal range of scanning for a given tissue, and (2) comparison of the effect of two time‐compensated gains on the difference in density and standardizing this effect to an arbitrary gain. To verify these relationships, 12 fetal livers were scanned at 38 weeks' gestation, at three different gains corresponding to the optimal gain and to the minimal and maximal gains that allowed a clear image to be obtained. After the mathematical transformations, the initially completely different densities were nearly identical (t‐test: P = 0.9998; Wilcoxon test: P > 0.5; Pearson's R = 0.8933). This method permits an accurate quantitative assessment of the echogenicity of any parenchymatous organ.

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confidence: 89%

“…7 The purpose of the current study is to establish a mathe-matical transformation that may allow quantitative densitometry of sonographic images.…”

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confidence: 99%

Quantitative assessment of sonographic image echogenicity by transmission densitometry: fetal liver model

Blickstein

1993

Journal of Ultrasound in Medicine

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“…All the above were performed in 7 patients. In 10 patients, images were created at three low-contrast 2-D postprocessing curves (2,3,4) and at three high-contrast 2-D postprocessing curves (5,6,7) while all other parameters were kept constant. A hard copy of each image was produced by the AGFA matrix mini daylight processor (Mortsel, Belgium).…”

Section: Aterials and M Ethodsmentioning

confidence: 99%

“…The fetal liver area was measured ten times at random locations through a 3-mm hole, and a mean den sity was calculated. Although the entire surface density of the fetal liver was not measured, several random densitometries through a large measuring hole adeqately represent the mean surface transmis sion density [2].…”

Section: Aterials and M Ethodsmentioning

confidence: 99%

“…An observer's interpretation of tissue echogenicity is dependent, among other things, on image density [1], Sig nificant interobserver variations in echogenicity assess ment are expected due to the inability of the naked human eye to accurately assess differences in image density [2][3][4], In contrast to human vision, objective densitometry, by measuring image density, can accurately differentiate subtle differences in tissue echogenicity [3][4].…”

Section: Introductionmentioning

confidence: 99%

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Computed Sonography: Requiem to Echogenicity Assessment?

Blickstein

Smith‐Levitin

Gurewitsch

et al. 1997

Gynecol Obstet Invest

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We studied the influence of changes in gain settings, log compression, persistence, preprocessing, and postprocessing on image density in the fetal liver model. Each parameter was studied while the others were held constant. The image density was objectively measured by electrooptical transmission densitometry using a transparent film output. Neither the persistence nor the preprocessing levels significantly changed image density. Postprocessing of sonographic images produced significant differences (p < 0.02) in mean image density of most of the various postprocessing curves and is a serious confounder of tissue echogenicity assessment. The data reconfirmed that there is a linear relationship (r = ––0.94 to ––0.997) between image density and gain setting. However, each log compression setting significantly changed (p < 0.0000001) this relationship, obviating possible image density calibration. Our data suggest that manipulation of image parameters by computed sonographic technology obviates accurate echogenicity assessment.

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Hyperechoic fetal bowel: The perinatal consequences

et al. 1994

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A number of publications have reported an association between the finding of hyperechoic fetal bowel on prenatal sonogram and disorders such as aneuploidy and cystic fibrosis. To define more precisely the significance of this finding, we systematically reviewed the published material on the subject. Based on a total of 357 reported cases, we documented a high prevalence of cystic fibrosis (25.6 per cent) and chromosome abnormality (12.4 per cent) associated with increased bowel echogenicity in the fetus. High rates of intrauterine growth retardation (14.9 per cent), fetal demise (9.0 per cent), and prematurity (15.3 per cent) were also found. The data were obtained from a population at high a priori risk for aneuploidy and included fetuses at 1 in 4 risk for cystic fibrosis reported in two studies. This increased the bias towards an adverse outcome. The rate of complications when a hyperechoic abdomen is noted in a low-risk fetal population has so far not been delineated. Although the high frequency of complications found is of concern and warrants investigation, extrapolation of these risk figures to a fetal population at low a priori risk may not be appropriate.

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The Accuracy of the Assessment of Normal Fetal Intestinal Echogenicity – Electro-Optical Densitometry versus the Ultrasonographer’s Eye

Cited by 19 publications

References 9 publications

Quantitative assessment of sonographic image echogenicity by transmission densitometry: fetal liver model

Quantitative assessment of sonographic image echogenicity by transmission densitometry: fetal liver model

Computed Sonography: Requiem to Echogenicity Assessment?

Hyperechoic fetal bowel: The perinatal consequences

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