Systemic antitumor immune response following reconstruction using frozen autografts for total en bloc spondylectomy.

Abstract Background context Total en bloc spondylectomy (TES) is a surgery designed to achieve complete resection of a malignant spinal tumor, such as spinal metastasis. Although this procedure decreases the rate of local recurrence, it is questionable whether local control prolongs a patient's survival. In cryosurgery, antitumor immunity is activated after percutaneous cryoablation of tumors. We applied this tumor-induced cryoimmunology to TES surgery and developed a "second-generation TES" that brings about TES enhancing antitumor immunity to prolong a patient's survival. Purpose To present a second-generation TES applied tumor-induced cryoimmunology and assess the immunity-enhancing effect after implementing this surgery. Study design This is a retrospective review of prospectively collected data. Patient sample The sample consisted of 65 consecutive patients who underwent second-generation TES. Outcome measures Interferon gamma (IFN-γ) and interleukin-12 (IL-12) before surgery and at both 1 and 3 months after surgery was used to assess the immunity-enhancing effect. Methods In second-generation TES, instead of harvesting autograft from the ilium or fibula, the resected lamina and vertebral body from TES are frozen using liquid nitrogen and used as grafted bone for spinal reconstruction. In the most recent 33 of the 65 cases, in addition to the TES procedure, a small amount of the tumor tissue from the resected tumor-bearing vertebra was also placed into liquid nitrogen. This small amount of tumor tissue was then implanted subcutaneously on one side of the axilla at the end of the TES surgery. In 60 of 65 cases, measurement of IFN-γ and IL-12 was performed. Results IFN-γ increased after surgery in 45 (75%) of 60 cases. The mean IFN-γ relative concentrations at both 1 and 3 months after surgery, as compared with before surgery, were significantly higher (284%±596% and 275%±354%: p .05 and p Conclusions The second-generation TES using frozen tumor-bearing autograft inside a cage affords three benefits: (1) no pain at the bone harvest site, (2) shortening of operation time, and (3) decrease of blood loss. Moreover, our results show that second-generation TES provides not only a local radical cure but also a systemic immunological enhancement.