利用正电子发射断层扫描成像的[18F]氟代胸苷来量化并降低盆腔癌患者放化疗所致的血液学毒性。
Using [(18)F]Fluorothymidine Imaged With Positron Emission Tomography to Quantify and Reduce Hematologic Toxicity Due to Chemoradiation Therapy for Pelvic Cancer Patients.
作者信息
McGuire Sarah M, Bhatia Sudershan K, Sun Wenqing, Jacobson Geraldine M, Menda Yusuf, Ponto Laura L, Smith Brian J, Gross Brandie A, Bayouth John E, Sunderland John J, Graham Michael M, Buatti John M
机构信息
Department of Radiation Oncology, University of Iowa Hospitals and Clinics, Iowa City, Iowa.
Department of Radiation Oncology, University of Iowa Hospitals and Clinics, Iowa City, Iowa.
出版信息
Int J Radiat Oncol Biol Phys. 2016 Sep 1;96(1):228-39. doi: 10.1016/j.ijrobp.2016.04.009. Epub 2016 Apr 19.
PURPOSE
The purpose of the present prospective clinical trial was to determine the efficacy of [(18)F]fluorothymidine (FLT)-identified active bone marrow sparing for pelvic cancer patients by correlating the FLT uptake change during and after chemoradiation therapy with hematologic toxicity.
METHODS AND MATERIALS
Simulation FLT positron emission tomography (PET) images were used to spare pelvic bone marrow using intensity modulated radiation therapy (IMRT BMS) for 32 patients with pelvic cancer. FLT PET scans taken during chemoradiation therapy after 1 and 2 weeks and 30 days and 1 year after completion of chemoradiation therapy were used to evaluate the acute and chronic dose response of pelvic bone marrow. Complete blood counts were recorded at each imaging point to correlate the FLT uptake change with systemic hematologic toxicity.
RESULTS
IMRT BMS plans significantly reduced the dose to the pelvic regions identified with FLT uptake compared with control IMRT plans (P<.001, paired t test). Radiation doses of 4 Gy caused an ∼50% decrease in FLT uptake in the pelvic bone marrow after either 1 or 2 weeks of chemoradiation therapy. Additionally, subjects with more FLT-identified bone marrow exposed to ≥4 Gy after 1 week developed grade 2 leukopenia sooner than subjects with less marrow exposed to ≥4 Gy (P<.05, Cox regression analysis). Apparent bone marrow recovery at 30 days after therapy was not maintained 1 year after chemotherapy. The FLT uptake in the pelvic bone marrow regions that received >35 Gy was 18.8% ± 1.8% greater at 30 days after therapy than at 1 year after therapy. The white blood cell, platelet, lymphocyte, and neutrophil counts at 1 year after therapy were all lower than the pretherapy levels (P<.05, paired t test).
CONCLUSIONS
IMRT BMS plans reduced the dose to FLT-identified pelvic bone marrow for pelvic cancer patients. However, reducing hematologic toxicity is challenging owing to the acute radiation sensitivity (∼4 Gy) and chronic suppression of activity in bone marrow receiving radiation doses >35 Gy, as measured by the FLT uptake change correlated with the complete blood cell counts.
目的
本前瞻性临床试验的目的是通过将放化疗期间及之后的[(18)F]氟胸苷(FLT)摄取变化与血液学毒性相关联,来确定FLT识别的活性骨髓 sparing 对盆腔癌患者的疗效。
方法和材料
使用模拟 FLT 正电子发射断层扫描(PET)图像,采用调强放射治疗(IMRT BMS)对 32 例盆腔癌患者的盆腔骨髓进行 sparing。在放化疗 1 周和 2 周后以及放化疗完成后 30 天和 1 年时进行的 FLT PET 扫描用于评估盆腔骨髓的急性和慢性剂量反应。在每个成像点记录全血细胞计数,以将 FLT 摄取变化与全身血液学毒性相关联。
结果
与对照 IMRT 计划相比,IMRT BMS 计划显著降低了 FLT 摄取所识别的盆腔区域的剂量(P<0.001,配对 t 检验)。放化疗 1 周或 2 周后,4 Gy 的放射剂量使盆腔骨髓中的 FLT 摄取降低约 50%。此外,1 周后 FLT 识别的骨髓暴露于≥4 Gy 的受试者比骨髓暴露于≥4 Gy 较少的受试者更早出现 2 级白细胞减少(P<0.05,Cox 回归分析)。治疗后 30 天明显的骨髓恢复在化疗后 1 年未得到维持。接受>35 Gy 的盆腔骨髓区域在治疗后 30 天的 FLT 摄取比治疗后 1 年高 18.8%±1.8%。治疗后 1 年的白细胞、血小板、淋巴细胞和中性粒细胞计数均低于治疗前水平(P<0.05,配对 t 检验)。
结论
IMRT BMS 计划降低了盆腔癌患者 FLT 识别的盆腔骨髓的剂量。然而,由于急性放射敏感性(约 4 Gy)以及接受>35 Gy 放射剂量的骨髓活性的慢性抑制,降低血液学毒性具有挑战性,这通过与全血细胞计数相关的 FLT 摄取变化来衡量。
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