Magnetic resonance guided laser induced thermal therapy for intracranial metastases

A retrospective study with consecutive patients with brain metastases treated with LITT. Based on radiological aspects, lesions were divided into progressive disease after SRS (recurrence or radiation necrosis) and new lesions. The primary endpoint was time to local recurrence.

A total of 61 consecutive patients with 82 lesions (5 newly diagnosed, 46 recurrences, and 31 radiation necrosis). Freedom from local recurrence at 6 mo was 69.6%, 59.4% at 12, and 54.7% at 18 and 24 mo. Incompletely ablated lesions had a shorter median time for local recurrence (P < .001). Larger lesions (>6 cc) had shorter time for local recurrence (P = .03). Dural-based lesions showed a shorter time to local recurrence (P = .01). Tumor recurrence/newly diagnosed had a shorter time to local recurrence when compared to RN lesions (P = .01). Patients receiving systemic therapy after LITT had a longer time to local recurrence (P = .01). In multivariate Cox-regression model, the HR for incomplete ablated lesions was 4.88 (P < .001), 3.12 (P = .03) for recurrent tumors, and 2.56 (P = .02) for patients not receiving systemic therapy after LITT. The complication rate was 26.2%.

Incompletely ablated and recurrent tumoral lesions were associated with a higher risk of treatment failure and were the major predicting factors for local recurrence. Systemic therapy after LITT was a protective factor regarding local recurrence ¹⁾.

The study population was a consecutive series of patients undergoing laser interstitial thermal therapy for brain metastases. Patient demographics including age, sex, tumor histology, and Karnofsky Performance Scale were collected prospectively. Preoperative, postoperative, and 1-month follow-up dynamic contrast-enhanced MRIs were analyzed. Values of iAUC60 were computed using a trapezoidal rule applied to the time history of contrast uptake over the first 60 seconds postenhancement. The change in iAUC60 (ΔiAUC60) was calculated by taking the difference between the values of iAUC60 from 2 time points. Pearson correlation coefficients were calculated between progression-free survival, defined as the time from laser interstitial thermal therapy to tumor recurrence, and iAUC60 or ΔiAUC60 values.

RESULTS: Thirty-three cases of laser interstitial thermal therapy for 32 brain metastases in a cohort of 27 patients were prospectively analyzed. A significant relationship was observed between the values of iAUC60 from postoperative dynamic contrast-enhanced MR imaging and progression-free survival with Pearson correlation (P = .03) and Cox univariate analysis (P = .01). The relationship between preoperative and 1-month follow-up dynamic contrast-enhanced MR imaging was not significantly correlated with progression-free survival. Similarly, no statistically significant relationship was observed with ΔiAUC60 and progression-free survival between any time points.

Progression-free survival is difficult to predict in patients undergoing laser interstitial thermal therapy for brain metastases due to confounding with posttreatment change. iAUC60 extracted from postoperative dynamic contrast-enhanced MR imaging shows promise for accurately prognosticating patients following this operative therapy ²⁾.

see Magnetic resonance guided laser induced thermal therapy for cerebellar metastases.

¹⁾

Bastos DCA, Rao G, Oliva ICG, Loree JM, Fuentes DT, Stafford RJ, Beechar VB, Weinberg JS, Shah K, Kumar VA, Prabhu SS. Predictors of Local Control of Brain Metastasis Treated With Laser Interstitial Thermal Therapy. Neurosurgery. 2019 Sep 20. pii: nyz357. doi: 10.1093/neuros/nyz357. [Epub ahead of print] PubMed PMID: 31539421.

²⁾

Traylor JI, Bastos DCA, Fuentes D, Muir M, Patel R, Kumar VA, Stafford RJ, Rao G, Prabhu SS. Dynamic Contrast-Enhanced MRI in Patients with Brain Metastases Undergoing Laser Interstitial Thermal Therapy: A Pilot Study. AJNR Am J Neuroradiol. 2019 Sep;40(9):1451-1457. doi: 10.3174/ajnr.A6144. Epub 2019 Aug 1. PubMed PMID: 31371353.