MRI-guided cryoablation for metastatic spine disease: intermediate-term clinical outcomes in 14 consecutive patients.

OBJECTIVE Minimal access ablative techniques have emerged as a less invasive option for spinal metastatic disease reduction and separation from neural tissue. Compared with heat-based ablation modalities, percutaneous image-guided cryoablation allows for more distinct visualization of treatment margins. The authors report on a series of patients undergoing MRI-guided cryoablation as a feasible method for treating spinal metastatic disease. METHODS A total of 14 patients with metastatic spine disease undergoing MR-monitored cryoablation were prospectively enrolled. Procedures were performed in an advanced imaging operating suite with the use of both CT and MRI to gain access to the spinal canal and monitor real-time cryoablation. RESULTS The average age was 54.5 years (range 35-81 years). The mean preoperative Karnofsky Performance Status score was 79.3 (range 35-90). The average radiographic follow-up was 7.1 months (range 25-772 days), and the average clinical follow-up was 9.8 months (range 7-943 days). In 10 patients with epidural disease, 7 patients underwent postprocedural imaging, and of these 71% (5/7) had stable or reduced radiographic disease burden. Bone regrowth was observed in 63% (5/8) of patients with bone ablation during the treatment who had postoperative imaging. Pre- and postoperative visual analog scale scores were obtained, and a significant reduction in these scores was found following ablation. There were no complications. CONCLUSIONS MR-guided cryoablation is a minimally invasive treatment option for metastatic spine disease. In patients with epidural disease, the majority experienced tumor reduction or arrest at follow-up. In addition, pain was significantly improved following ablation. The average hospital stay was short, and the procedure was safe in a range of patients who are otherwise not ideal candidates for standard treatment.

[1]  Thomas C. Lee,et al.  MRI-Guided Cryoablation of Epidural Malignancies in the Spinal Canal Resulting in Neural Decompression and Regrowth of Bone. , 2019, AJR. American journal of roentgenology.

[2]  K. Asmaro,et al.  Cerebral edema induced by laser interstitial thermal therapy and radiotherapy in close succession in patients with brain tumor , 2018, Lasers in surgery and medicine.

[3]  K. Ahrar,et al.  Cryoablation of Bone Metastases from Renal Cell Carcinoma for Local Tumor Control , 2017, The Journal of bone and joint surgery. American volume.

[4]  K. Tuncali,et al.  Spine Cryoablation: A Multimodality Image-Guided Approach for Tumors Adjacent to Major Neural Elements , 2016, American Journal of Neuroradiology.

[5]  J. Jennings,et al.  Spine Cryoablation: Pain Palliation and Local Tumor Control for Vertebral Metastases , 2016, American Journal of Neuroradiology.

[6]  Behrang Amini,et al.  Utilization of laser interstitial thermotherapy guided by real-time thermal MRI as an alternative to separation surgery in the management of spinal metastasis. , 2015, Journal of neurosurgery. Spine.

[7]  I. Patel,et al.  Image-guided cryoablation for the treatment of painful musculoskeletal metastatic disease: a single-center experience , 2014, Skeletal Radiology.

[8]  Yoshiya Yamada,et al.  Separation surgery for spinal metastases: effect of spinal radiosurgery on surgical treatment goals. , 2014, Cancer control : journal of the Moffitt Cancer Center.

[9]  D. Dupuy,et al.  Thermal ablation of tumours: biological mechanisms and advances in therapy , 2014, Nature Reviews Cancer.

[10]  Y. Yamada,et al.  The NOMS framework: approach to the treatment of spinal metastatic tumors. , 2013, The oncologist.

[11]  Y. Yamada,et al.  Local disease control for spinal metastases following "separation surgery" and adjuvant hypofractionated or high-dose single-fraction stereotactic radiosurgery: outcome analysis in 186 patients. , 2013, Journal of neurosurgery. Spine.

[12]  A. Goodman,et al.  Percutaneous cryoablation of metastatic renal cell carcinoma for local tumor control: feasibility, outcomes, and estimated cost-effectiveness for palliation. , 2012, Journal of vascular and interventional radiology : JVIR.

[13]  R. Thompson,et al.  Complications following 573 percutaneous renal radiofrequency and cryoablation procedures. , 2012, Journal of vascular and interventional radiology : JVIR.

[14]  J. Mandrekar,et al.  Palliation of painful metastatic disease involving bone with imaging-guided treatment: comparison of patients' immediate response to radiofrequency ablation and cryoablation. , 2011, AJR. American journal of roentgenology.

[15]  Yoshiya Yamada,et al.  Reliability analysis of the epidural spinal cord compression scale. , 2010, Journal of neurosurgery. Spine.

[16]  G. Y. Wong,et al.  Painful metastases involving bone: percutaneous image-guided cryoablation--prospective trial interim analysis. , 2006, Radiology.

[17]  L. Kavoussi,et al.  Pain control requirements for percutaneous ablation of renal tumors: cryoablation versus radiofrequency ablation--initial observations. , 2005, Radiology.

[18]  Mohammed Mohiuddin,et al.  Direct decompressive surgical resection in the treatment of spinal cord compression caused by metastatic cancer: a randomised trial , 2005, The Lancet.

[19]  A. Laxton,et al.  Metastatic spine disease: epidemiology, pathophysiology, and evaluation of patients. , 2004, Neurosurgery clinics of North America.

[20]  R. Marcove,et al.  The treatment of primary and metastatic localized bone tumors by cryosurgery. , 1969, The Surgical clinics of North America.