Clip migration after stereotactic vacuum-assisted breast biopsy with the patient in the decubitus position.
Biopsy
Breast
Mammography
Stereotaxic techniques
Journal
European radiology
ISSN: 1432-1084
Titre abrégé: Eur Radiol
Pays: Germany
ID NLM: 9114774
Informations de publication
Date de publication:
Nov 2020
Nov 2020
Historique:
received:
04
02
2020
accepted:
05
06
2020
revised:
20
04
2020
pubmed:
20
6
2020
medline:
16
2
2021
entrez:
20
6
2020
Statut:
ppublish
Résumé
To investigate the factors contributing to clip migration in stereotactic vacuum-assisted biopsy (VAB) of the breast using an upright unit with the patient in the decubitus position. This retrospective study included 176 women with microcalcifications on mammograms undergoing stereotactic VAB with clip marking for analysis. The prebiopsy mammograms, stereotactic VAB images, immediate postbiopsy mammograms, and follow-up mammograms were reviewed. All VAB procedures were performed using an add-on upright unit with the patient in the decubitus position. The clip-to-lesion distance on the orthogonal view (craniocaudal view) on immediate postbiopsy mammography was estimated for each biopsy. Two cutoff points of clip-to-lesion distance of > 1 cm or > 2 cm were set for clip migration. The possible factors for clip migration based on clinical and imaging findings were then analyzed by Fisher's exact test. When the cutoff for clip migration was set at > 1 cm, thin breast (p = 0.013) and more superficial lesion (lesion closer to the skin along the line perpendicular to the posterior nipple line, p = 0.004) were associated with clip migration. When the cutoff was set at > 2 cm, thin breast (p = 0.019), high specimen number (p = 0.030), and posterior depth (p = 0.021) were associated with clip migration. Thin breasts, superficial lesion location, posterior lesion depth, and high specimen number were the factors associated with clip migration. • We reported clip migration after ST VAB using an upright unit with the patient in the decubitus position. • The occurrence of clinically significant clip migration (> 2 cm) in our study was 8.5%, which was within the range of the other reports with the patient undergoing ST VAB in the prone position. • Thin breasts, high specimen number, and more posterior depth were the factors associated with significant clip migration.
Identifiants
pubmed: 32556464
doi: 10.1007/s00330-020-07015-0
pii: 10.1007/s00330-020-07015-0
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
6080-6088Références
Zuiani C, Mazzarella F, Londero V, Linda A, Puglisi F, Bazzocchi M (2007) Stereotactic vacuum-assisted breast biopsy: results, follow-up and correlation with radiological suspicion. Radiol Med 112:304–317
pubmed: 17361368
Uematsu T, Kasami M, Takahashi K et al (2012) Clip placement after an 11-gauge vacuum-assisted stereotactic breast biopsy: correlation between breast thickness and clip movement. Breast Cancer 19:30–36
pubmed: 21274668
Sohn V, Arthurs Z, Herbert G et al (2007) Atypical ductal hyperplasia: improved accuracy with the 11-gauge vacuum-assisted versus the 14-gauge core biopsy needle. Ann Surg Oncol 14:2497–2501
pubmed: 17564749
Rosen EL, Vo TT (2001) Metallic clip deployment during stereotactic breast biopsy: retrospective analysis. Radiology 218:510–516
pubmed: 11161170
Rosen EL, Baker JA, Soo MS (2003) Accuracy of a collagen-plug biopsy site marking device deployed after stereotactic core needle breast biopsy. AJR Am J Roentgenol 181:1295–1299
pubmed: 14573422
Reynolds HE (1999) Marker clip placement following directional, vacuum-assisted breast biopsy. Am Surg 65:59–60
pubmed: 9915534
Pfarl G, Helbich TH, Riedl CC et al (2002) Stereotactic 11-gauge vacuum-assisted breast biopsy: a validation study. AJR Am J Roentgenol 179:1503–1507
pubmed: 12438044
Pandelidis S, Heiland D, Jones D, Stough K, Trapeni J, Suliman Y (2003) Accuracy of 11-gauge vacuum-assisted core biopsy of mammographic breast lesions. Ann Surg Oncol 10:43–47
pubmed: 12513959
Nisbet AP, Borthwick-Clarke A, Scott N (2000) 11-gauge vacuum assisted directional biopsy of breast calcifications, using upright stereotactic guidance. Eur J Radiol 36:144–146
pubmed: 11091014
Lomoschitz FM, Helbich TH, Rudas M et al (2004) Stereotactic 11-gauge vacuum-assisted breast biopsy: influence of number of specimens on diagnostic accuracy. Radiology 232:897–903
pubmed: 15273332
Liberman L, Smolkin JH, Dershaw DD, Morris EA, Abramson AF, Rosen PP (1998) Calcification retrieval at stereotactic, 11-gauge, directional, vacuum-assisted breast biopsy. Radiology 208:251–260
pubmed: 9646821
Agacayak F, Ozturk A, Bozdogan A et al (2014) Stereotactic vacuum-assisted core biopsy results for non-palpable breast lesions. Asian Pac J Cancer Prev 15:5171–5174
pubmed: 25040970
Burbank F, Forcier N (1997) Tissue marking clip for stereotactic breast biopsy: initial placement accuracy, long-term stability, and usefulness as a guide for wire localization. Radiology 205:407–415
pubmed: 9356621
Carr JJ, Hemler PF, Halford PW, Freimanis RI, Choplin RH, Chen MY (2001) Stereotactic localization of breast lesions: how it works and methods to improve accuracy. Radiographics 21:463–473
pubmed: 11259709
Esserman LE, Cura MA, DaCosta D (2004) Recognizing pitfalls in early and late migration of clip markers after imaging-guided directional vacuum-assisted biopsy. Radiographics 24:147–156
pubmed: 14730043
Georgian-Smith D, D'Orsi C, Morris E, Clark CF Jr, Liberty E, Lehman CD (2002) Stereotactic biopsy of the breast using an upright unit, a vacuum-suction needle, and a lateral arm-support system. AJR Am J Roentgenol 178:1017–1024
pubmed: 11906893
Kruger BM, Burrowes P, MacGregor JH (2002) Accuracy of marker clip placement after mammotome breast biopsy. Can Assoc Radiol J 53:137–140
pubmed: 12101533
Sim LS, Kei PL (2008) Upright stereotactic vacuum-assisted needle biopsy of suspicious breast microcalcifications. J Med Imaging Radiat Oncol 52:358–364
pubmed: 18811759
Wang J, Chang CJ (2010) Use of a hemostasis introducer sheath to guide clip delivery during stereotactic directional vacuum-assisted breast biopsy when the biopsy system malfunctions. Clin Imaging 34:385–387
pubmed: 20813305
Birdwell RL, Jackman RJ (2003) Clip or marker migration 5-10 weeks after stereotactic 11-gauge vacuum-assisted breast biopsy: report of two cases. Radiology 229:541–544
pubmed: 14595153
Burnside ES, Sohlich RE, Sickles EA (2001) Movement of a biopsy-site marker clip after completion of stereotactic directional vacuum-assisted breast biopsy: case report. Radiology 221:504–507
pubmed: 11687696
Kass R, Kumar G, Klimberg VS et al (2002) Clip migration in stereotactic biopsy. Am J Surg 184:325–331
pubmed: 12383894
Lehman CD, Shook JE (2003) Position of clip placement after vacuum-assisted breast biopsy: is a unilateral two-view postbiopsy mammogram necessary? Breast J 9:272–276
pubmed: 12846859
Parikh J (2005) Clip migration within 15 days of 11-gauge vacuum-assisted stereotactic breast biopsy. AJR Am J Roentgenol 184:S43–S46
pubmed: 15728018
Bernaerts A, De Schepper A Jr, Van Dam P, Pouillon M (2007) Clip migration after vacuum-assisted stereotactic breast biopsy: a pitfall in preoperative wire localization. JBR-BTR 90:172–175
pubmed: 17696084
Chaveron C, Bachelle F, Fauquet I, Rocourt N, Faivre-Pierret M, Ceugnart L (2009) Clip migration after stereotactic macrobiopsy and presurgical localization: technical considerations and tricks. J Radiol 90:31–36
pubmed: 19182711
Harris AT (2003) Clip migration within 8 days of 11-gauge vacuum-assisted stereotactic breast biopsy: case report. Radiology 228:552–554
pubmed: 12819332
Liberman L, Dershaw DD, Morris EA, Abramson AF, Thornton CM, Rosen PP (1997) Clip placement after stereotactic vacuum-assisted breast biopsy. Radiology 205:417–422
pubmed: 9356622
Margolin FR, Kaufman L, Denny SR, Jacobs RP, Schrumpf JD (2003) Metallic marker placement after stereotactic core biopsy of breast calcifications: comparison of two clips and deployment techniques. AJR Am J Roentgenol 181:1685–1690
pubmed: 14627597
Parikh JR (2005) Delayed migration of Gel Mark Ultra clip within 15 days of 11-gauge vacuum-assisted stereotactic breast biopsy. AJR Am J Roentgenol 185:203–206
pubmed: 15972424
Philpotts LE, Lee CH (2002) Clip migration after 11-gauge vacuum-assisted stereotactic biopsy: case report. Radiology 222:794–796
pubmed: 11867803
Jung YJ, Bae YT, Lee JY, Seo HI, Kim JY, Choo KS (2011) Lateral decubitus positioning stereotactic vacuum-assisted breast biopsy with true lateral mammography. J Breast Cancer 14:64–68
pubmed: 21847397
pmcid: 3148512
Lee KE, Kim HH, Shin HJ, Cha JH (2013) Stereotactic biopsy of the breast using a decubitus table: comparison of histologic underestimation rates between 11- and 8-gauge vacuum-assisted breast biopsy. Springerplus 2:551
pubmed: 24255847
pmcid: 3824706
Lee SH, Jung YJ, Jung HJ et al (2016) Stereotactic vacuum-assisted breast biopsy under lateral decubitus position. Ann Surg Treat Res 90:16–20
pubmed: 26793688
Viala J, Gignier P, Perret B et al (2013) Stereotactic vacuum-assisted biopsies on a digital breast 3D-tomosynthesis system. Breast J 19:4–9
pubmed: 23252555
Ames V, Britton PD (2011) Stereotactically guided breast biopsy: a review. Insights Imaging 2:171–176
pubmed: 22347945
pmcid: 3259391
Bahl M, Maunglay M, D'Alessandro HA, Lehman CD (2019) Comparison of upright digital breast tomosynthesis-guided versus prone stereotactic vacuum-assisted breast biopsy. Radiology 290:298–304
pubmed: 30511909
Teichgraeber DC, Martaindale S, Omofoye TS, Hess KR, Parikh JR, Whitman GJ (2019) Immediate migration of biopsy clip markers after upright digital breast tomosynthesis-guided vacuum-assisted core biopsy. Acad Radiol. https://doi.org/10.1016/j.acra.2019.03.022
Shih TC, Chen JH, Liu D et al (2010) Computational simulation of breast compression based on segmented breast and fibroglandular tissues on magnetic resonance images. Phys Med Biol 55:4153–4168
pubmed: 20601773
pmcid: 2993491
Jain A, Khalid M, Qureshi MM et al (2017) Stereotactic core needle breast biopsy marker migration: an analysis of factors contributing to immediate marker migration. Eur Radiol 27:4797–4803
pubmed: 28526892
Yen P, Dumas S, Albert A, Gordon P (2018) Post-vacuum-assisted stereotactic core biopsy clip displacement: a comparison between commercially available clips and surgical clip. Can Assoc Radiol J 69:10–15
pubmed: 29458952
Pinkney DM, Mychajlowycz M, Shah BA (2016) A prospective comparative study to evaluate the displacement of four commercially available breast biopsy markers. Br J Radiol 89:20160149
pubmed: 27376410
pmcid: 5124921