Increases in the number of brain metastases detected at frame-fixed, thin-slice MRI for gamma knife surgery planning

Nagai, Aiko; Shibamoto, Yuta; Mori, Yoshimasa; Hashizume, Chisa; Hagiwara, Masahiro; Kobayashi, Tatsuya

doi:10.1093/neuonc/noq084

Cited by 34 publications

(25 citation statements)

References 22 publications

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“…16 To optimize lesion conspicuity, gadobenate dimeglumine was selected for this study because it has been shown to have a higher contrast-to-noise ratio compared with other gadolinium-based agents. 24 Patients were examined using thin-section imaging (0.9-1.0-mm slice thickness, which increases the sensitivity of lesion detection 6,17 ), and isotropic imaging data are needed for SRS treatment planning for reliable morphological contouring.…”

Section: Discussionmentioning

confidence: 99%

Time-delayed contrast-enhanced MRI improves detection of brain metastases and apparent treatment volumes

Kushnirsky

Nguyen

Katz

et al. 2016

JNS

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B rain metastases (BMs) are the most common intracranial tumors in adults, occurring in 20%-40% of cancer patients. 26 Their incidence has been increasing due to both prolonged systemic control and improved detection, making BMs a growing cause of mortality and morbidity.14,31 Magnetic resonance imaging is currently the standard of care for the diagnosis of BMs because its sensitivity is superior to CT,22,32 and refinements in MRI techniques allow the modality to detect metastases that are not seen with routine image-acquisition protocols. The abbreviatioNs BM = brain metastasis; GRE = gradient echo; SRS = stereotactic radiosurgery. obJective Contrast-enhanced MRI is the preeminent diagnostic test for brain metastasis (BM). Detection of BMs for stereotactic radiosurgery (SRS) planning may improve with a time delay following administration of a high-relaxivity agent for 1.5-T and 3-T imaging systems. Metastasis detection with time-delayed MRI was evaluated in this study. methods Fifty-three volumetric MRI studies from 38 patients undergoing SRS for BMs were evaluated. All studies used 0.1-mmol/kg gadobenate dimeglumine (MultiHance; Bracco Diagnostics) immediately after injection, followed by 2 more axial T1-weighted sequences after 5-minute intervals (final image acquisition commenced 15 minutes after contrast injection). Two studies were motion limited and excluded. Two hundred eighty-seven BMs were identified. The studies were randomized and examined separately by 3 radiologists, who were blinded to the temporal sequence. Each radiologist recorded the number of BMs detected per scan. A Wilcoxon signed-rank test compared BM numbers between scans. One radiologist determined the scan on which BMs were best defined. All confirmed, visible tumors were contoured using iPlan RT treatment planning software on each of the 3 MRI data sets. A linear mixed model was used to analyze volume changes. results The interclass correlations for Scans 1, 2, and 3 were 0.7392, 0.7951, and 0.7290, respectively, demonstrating excellent interrater reliability. At least 1 new lesion was detected in the second scan as compared with the first in 35.3% of subjects (95% CI 22.4%-49.9%). The increase in BM numbers between Scans 1 and 2 ranged from 1 to 10. At least 1 new lesion was detected in the third scan as compared with the second in 21.6% of subjects (95% CI 11.3%-35.3%). The increase in BM numbers between Scans 2 and 3 ranged from 1 to 9. Between Scans 1 and 3, additional tumors were seen on 43.1% of scans (increase ranged from 1 to 14). The median increase in tumor number for all comparisons was 1. There was a significant increase in number of BMs detected from Scan 1 to Scan 2 (p < 0.0367) and from Scan 1 to Scan 3 (p < 0.0264). In 34 of the 51 subjects (66.7%), the radiologist selected the third scan as the one providing the clearest tumor definition. There was an average 25.4% increase in BM volume between Scans 1 and 2 (p < 0.0001) and a 9% increase in BM volume between Scans 2 and 3 (p = 0.0001). coNclusioNs In patients who are ...

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Section: Discussionmentioning

confidence: 99%

Time-delayed contrast-enhanced MRI improves detection of brain metastases and apparent treatment volumes

Kushnirsky

Nguyen

Katz

et al. 2016

JNS

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“…По данным литературы, локальный контроль оча-гов после радиохирургического лечения МГМ РП до-стигается в интервале 83-96 % [16,25]. Медиана ОВ больных с МГМ РП, сообщенная другими центрами, варьирует от 6 до 13 мес [8,10,11,15,18,19,21,26].…”

Section: Discussionunclassified

Renal carcinoma with brain metastases. Prognostic factors and treatment outcomes

Голанов¹,

Бекяшев²,

Dreval³

et al. 2016

Opuholi golovy šei

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“…Additionally, other technical advantages such as new head coils with better signal-to-noise performance and also the parameters of the T1-weighted sequence might influence detectability of the benign enhancement. 3,19,25,38,39 However, confounding findings from early reactive enhancement may be limited if the imaging criteria of this enhancing pattern are considered. In our study, the types of enhancement shown on the first postoperative reactive MR scan could easily be attributed to reactive enhancement or residual gross tumor by comparing preand postsurgical scans, the latter revealing identical parts of the presurgical enhancing tumor.…”

Section: Discussionmentioning

confidence: 99%

Time window for postoperative reactive enhancement after resection of brain tumors: less than 72 hours

Lescher

Schniewindt

Jurcoane

et al. 2014

FOC

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Object Early postoperative MRI within 72 hours after brain tumor surgery is commonly used to assess residual contrast-enhancing tumor. The 72-hour window is commonly accepted because previous 1.5-T MRI studies have not found confounding postoperative reactive contrast enhancement in this time frame. The sensitivity to detect contrast enhancement increases with the field strengths. Therefore, the authors aimed to assess whether the 72-hour window is also appropriate for the MRI scanner with a field strength of 3 T. Methods The authors retrospectively analyzed findings on early postsurgical MR images acquired in 46 patients treated for high-grade gliomas. They performed 3-T MRI within 7 days before surgery and within 72 hours thereafter. The appearance of enhancement was categorized as postoperative reactive enhancement or tumoral enhancement by comparison with the pattern and location of presurgical enhancing tumor. Results Postoperative reactive enhancement was present in 15 patients (32.6%). This enhancement, not seen on presurgical MRI, had a marginal or leptomeningeal/dural pattern. In 13 patients (28.3%) postsurgical enhancement was found within the first 72 postoperative hours, with the earliest seen 22:57 hours after surgery. Subsequent MR scans in patients with postoperative reactive enhancement did not reveal tumor recurrence in these regions. Conclusions Postoperative reactive enhancement earlier than 72 hours after brain tumor surgery can be expected in about one-third of the cases in which a 3-T scanner is used. This might be due to the higher enhancement-to-brain contrast at higher field strengths. Therefore, the time window of 72 hours does not prevent reactive enhancement, which, however, can be recognized as such comparing it with presurgical enhancing tumor.

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Increases in the number of brain metastases detected at frame-fixed, thin-slice MRI for gamma knife surgery planning

Cited by 34 publications

References 22 publications

Time-delayed contrast-enhanced MRI improves detection of brain metastases and apparent treatment volumes

Time-delayed contrast-enhanced MRI improves detection of brain metastases and apparent treatment volumes

Renal carcinoma with brain metastases. Prognostic factors and treatment outcomes

Time window for postoperative reactive enhancement after resection of brain tumors: less than 72 hours

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