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World Journal of Surgery

Published in:

01-07-2010

Mammographic Determination of Breast Volume by Elliptical Cone Estimation

Authors: James T. K. Fung, Sharon W. W. Chan, Annie N. K. Chiu, Polly S. Y. Cheung, S. H. Lam

Published in: World Journal of Surgery | Issue 7/2010

Abstract

Background

We propose a new breast volume calculation method, treating the breast as an elliptical cone on craniocaudal and medial–lateral-oblique mammograms. This study aims to compare the accuracy and reproducibility of this proposed calculation method to the old Katariya method, which calculates breast volume as a circular cone on the craniocaudal mammogram only.

Materials and methods

From January 2005 to December 2006, 83 mastectomy patients with recorded breast weight and available preoperative mammographic films were included in the present study. Two surgeons independently measured breast height and width on the preoperative craniocaudal and medial–lateral-oblique mammograms. Breast volume was calculated as a circular cone in the craniocaudal view, and as an elliptical cone in both the craniocaudal and the medial–lateral-oblique mammograms. The accuracy of each method was determined and compared by linear regression analyses. Interobserver variability was assessed by bivariate correlation.

Results

The most accurate formula for calculating breast volume was the one that assumed the elliptical cone projection. The mean error of estimated breast volume using the elliptical cone (EC) formula is 3.8 cm³ (standard deviation [SD] = 133 cm³). The mean error of traditional circular cone (CC) formula is −51.3 cm³ (SD = 182 cm³). From a linear regression model, the correlation coefficient of estimated breast volume using EC formula measured 0.977, whereas that using the CC formula measured 0.952 (Fig. 1). Measurements were reproducible between the two independent observers; the Pearson correlation for the EC formula is 0.93 (p < 0.001), and that for the CC formula is 0.95 (p < 0.001).

Conclusions

Breast volume can be accurately determined from measurements made on mammograms. The proposed EC formula calculating breast volume on both the craniocaudal and the medial–lateral-oblique mammograms may be more accurate, as the horizontal and vertical dimensions of the breast are not always the same. In addition, height measurement on the medial–lateral-oblique film can eliminate the compression error as the craniocaudal film may miss the base of the breast and underestimate the breast volume. Taking both mammogram views for measurement is comparably reproducible to the traditional method. Reproducibility of measurement can be further enhanced by better defining the point of measurements.

Bouman FG (1970) Volumetric measurement of the human breast and breast tissue before and during mammoplasty. Br J Plast Surg 23:263–264CrossRefPubMed

Ward C, Harrison B (1986) The search for volumetric symmetry in reconstruction of the breast after mastectomy. Br J Plast Surg 39:379–385CrossRefPubMed

Campaigne BN, Katch VL, Freedson P et al (1979) Measurement of breast volume in females: description of a reliable method. Ann Hum Biol 6:363–367CrossRefPubMed

Smith DJ Jr, Palin WE Jr, Katch VL et al (1986) Breast volume and anthropomorphic measurements: normal values. Plast Reconstr Surg 78:331–335CrossRefPubMed

Loughry CW, Sheffer DB, Price TE et al (1989) Breast volume measurement of 598 women using biostereometric analysis. Ann Plast Surg 22:380–385CrossRefPubMed

Stomper PC, D’Souza DJ, DiNitto PA et al (1996) Analysis of parenchymal density on mammograms in 1353 women 25–79 years old. AJR Am J Roentgenol 167:1261–1265PubMed

Katariya RN, Forrest AP, Gravelle IH (1974) Breast volumes in cancer of the breast. Br J Cancer 29:270–273PubMed

Keddy RJ, Brebner DM (1980) Negative development xeroradiography of the breast: doses and clinical indications. Br J Radiol 53:325–330CrossRefPubMed

Kalbhen CL, McGill JJ, Fendley PM et al (1999) Mammographic determination of breast volume: comparing different methods. AJR Am J Roentgenol 173:1643–1649PubMed

10.

Cochrane RA, Valasiadou P, Wilson AR et al (2003) Cosmesis and satisfaction after breast-conserving surgery correlates with the percentage of breast volume excised. Br J Surg 90:1505–1509CrossRefPubMed

11.

Graham SJ, Stanchev PL, Lloyd-Smith JO et al (1995) Changes in fibroglandular volume and water content of breast tissue during the menstrual cycle observed by MR imaging at 1.5 T. J Magn Reson Imaging 5:695–701CrossRefPubMed

Title: Mammographic Determination of Breast Volume by Elliptical Cone Estimation
Authors: James T. K. Fung
Sharon W. W. Chan
Annie N. K. Chiu
Polly S. Y. Cheung
S. H. Lam
Publication date: 01-07-2010
Publisher: Springer-Verlag
Published in: World Journal of Surgery / Issue 7/2010
Print ISSN: 0364-2313
Electronic ISSN: 1432-2323
DOI: https://doi.org/10.1007/s00268-009-0283-0

At a glance: The STEP trials

Springer Medicine

Mammographic Determination of Breast Volume by Elliptical Cone Estimation

Abstract

Background

Materials and methods

Results

Conclusions

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Materials and methods

Results

Conclusions

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