OBJECT: Patients with symptomatic pathological compression fractures require spinal stabilization surgery for mechanical back pain control and irradiation for the underlying malignant process. The authors evaluated a treatment paradigm of closed fracture reduction and fixation involving kyphoplasty and subsequent spinal radiosurgery. METHODS: Twenty-six patients (six men and 20 women, mean age 72 years) with pathological compression fractures (16 thoracic and 10 lumbar) were prospectively evaluated. Histological diagnoses included 11 lung, nine breast, four renal, one cholangiocarcioma, and one ocular melanoma. Seven lesions had received prior external-beam radiation therapy. All patients underwent kyphoplasty that involved the percutaneous transpedicular technique. Fiducial markers allowing for image guidance during CyberKnife treatment were placed, at time of the kyphoplasty, in the pedicles at adjacent levels. Patients underwent single-fraction radiosurgery (mean time after kyphoplasty 12 days) in an outpatient setting. The tumor dose was maintained at 16 to 20 Gy (mean 18 Gy) to the 80% isodose line. The treated tumor volume ranged from 12.7 to 37.1 cm3. No acute radiation-induced toxicity or new neurological deficit occurred during the follow-up period (range 11-24 months, median 16 months). Axial pain improved in 24 (92%) of 26 patients. CONCLUSIONS: The combined kyphoplasty and spinal radiosurgery treatment paradigm was found to be clinically effective in patients with pathological fractures; there was no significant spinal canal compromise. In this technique two minimally invasive surgical procedures are combined to avoid the morbidity associated with open surgery while providing both immediate fracture fixation and administering a single-fraction tumoricidal radiation dose.
OBJECT: Patients with symptomatic pathological compression fractures require spinal stabilization surgery for mechanical back pain control and irradiation for the underlying malignant process. The authors evaluated a treatment paradigm of closed fracture reduction and fixation involving kyphoplasty and subsequent spinal radiosurgery. METHODS: Twenty-six patients (six men and 20 women, mean age 72 years) with pathological compression fractures (16 thoracic and 10 lumbar) were prospectively evaluated. Histological diagnoses included 11 lung, nine breast, four renal, one cholangiocarcioma, and one ocular melanoma. Seven lesions had received prior external-beam radiation therapy. All patients underwent kyphoplasty that involved the percutaneous transpedicular technique. Fiducial markers allowing for image guidance during CyberKnife treatment were placed, at time of the kyphoplasty, in the pedicles at adjacent levels. Patients underwent single-fraction radiosurgery (mean time after kyphoplasty 12 days) in an outpatient setting. The tumor dose was maintained at 16 to 20 Gy (mean 18 Gy) to the 80% isodose line. The treated tumor volume ranged from 12.7 to 37.1 cm3. No acute radiation-induced toxicity or new neurological deficit occurred during the follow-up period (range 11-24 months, median 16 months). Axial pain improved in 24 (92%) of 26 patients. CONCLUSIONS: The combined kyphoplasty and spinal radiosurgery treatment paradigm was found to be clinically effective in patients with pathological fractures; there was no significant spinal canal compromise. In this technique two minimally invasive surgical procedures are combined to avoid the morbidity associated with open surgery while providing both immediate fracture fixation and administering a single-fraction tumoricidal radiation dose.
Authors: Ori Barzilai; Natalie DiStefano; Eric Lis; Yoshiya Yamada; D Michael Lovelock; Andrew N Fontanella; Mark H Bilsky; Ilya Laufer Journal: J Neurosurg Spine Date: 2017-11-03
Authors: Eric Lis; Atin Saha; Kyung K Peck; Joan Zatcky; Michael J Zelefsky; Yoshiya Yamada; Andrei I Holodny; Mark H Bilsky; Sasan Karimi Journal: Neurosurg Focus Date: 2017-01 Impact factor: 4.047
Authors: Rachit Kumar; Anick Nater; Ahmed Hashmi; Sten Myrehaug; Young Lee; Lijun Ma; Kristin Redmond; Simon S Lo; Eric L Chang; Albert Yee; Charles G Fisher; Michael G Fehlings; Arjun Sahgal Journal: Neurooncol Pract Date: 2015-07-27
Authors: Simon S Lo; Achilles J Fakiris; Eric L Chang; Nina A Mayr; Jian Z Wang; Lech Papiez; Bin S Teh; Ronald C McGarry; Higinia R Cardenes; Robert D Timmerman Journal: Nat Rev Clin Oncol Date: 2009-12-08 Impact factor: 66.675
Authors: Kristin J Redmond; Scott Robertson; Simon S Lo; Scott G Soltys; Samuel Ryu; Todd McNutt; Samuel T Chao; Yoshiya Yamada; Amol Ghia; Eric L Chang; Jason Sheehan; Arjun Sahgal Journal: Int J Radiat Oncol Biol Phys Date: 2016-09-17 Impact factor: 7.038
Authors: Atin Saha; Kyung K Peck; Eric Lis; Andrei I Holodny; Yoshiya Yamada; Sasan Karimi Journal: Spine (Phila Pa 1976) Date: 2014-11-15 Impact factor: 3.468
Authors: A Gabriella Wernicke; Albert Sabbas; Fridon Kulidzhanov; Michael Shamis; Yevgeniya Golster; Ruben Niesvizky; Joseph Lane Journal: HSS J Date: 2011-12-17