Lauve Andrew, Morris Monica, Schmidt-Ullrich Rupert, Wu Qiuwen, Mohan Radhe, Abayomi Olubumni, Buck David, Holdford Diane, Dawson Kathryn, Dinardo Laurence, Reiter Evan
Department of Radiation Oncology, Richmond, VA, USA.
Int J Radiat Oncol Biol Phys. 2004 Oct 1;60(2):374-87. doi: 10.1016/j.ijrobp.2004.03.010.
To perform a Phase I radiation dose-escalation trial to determine the maximal tolerable dose (MTD) deliverable to the gross tumor volume (GTV) using an accelerated fractionation with simultaneous integrated boost intensity-modulated radiotherapy regimen with parotid gland sparing as the sole therapy in the treatment of locally advanced head-and-neck squamous cell carcinoma. The primary objective was the definition of the MTD using established criteria of quantifying acute dose-limiting toxicity (DLT). Secondary objectives included analysis of failure patterns, tumor control rates, and toxicity.
Between July 1999 and June 2002, eligible patients with bulky Stage II to Stage IVB head-and-neck squamous cell carcinoma, excluding laryngeal primaries, were enrolled. Intensity-modulated radiotherapy was delivered with 6-MV photons using a "sliding-window" technique. Enrollment of 6 patients for each dose level was planned; if DLTs were seen in >2 of 6 patients, the previous dose was to be expanded by an additional 6 patients to confirm that dose level as the MTD. All schedules administered a total of 30 fractions, but with escalating doses per fraction (2.27, 2.36, and 2.46 Gy) to achieve a total dose to the GTV of 68.1, 70.8, and 73.8 Gy, respectively. The remaining target tissues were constrained to receive the same dose in all patients regardless of the GTV dose level. The clinical target volume, defined as tissue within 1 cm around the GTV (at high risk of subclinical disease), received 60 Gy in 30 fractions of 2.0 Gy. The electively irradiated target volume, defined as the clinically uninvolved lymph node-bearing tissues, received 54 Gy in 30 fractions of 1.8 Gy. The parotid glands were spared to the degree possible without compromising target coverage. Acute toxicity was scored weekly using National Cancer Institute Common Toxicity Criteria. DLT was defined as any Grade 4 acute toxicity or any acute toxicity requiring either a dose reduction or a treatment break of >5 treatment days.
Of 18 men and 2 women (average age, 57 years; range, 37-80 years), 17 presented with oropharyngeal primary tumors, and 1 each with squamous cell carcinoma of the oral cavity, nasopharynx, and hypopharynx. None of the 6 patients at dose level 1, and 2 of the 6 patients initially enrolled at dose level 2, developed DLT. Both patients treated at dose level 3 required a 3-day treatment break and dose reduction after rapid development of Grade 3 toxicity (by Day 15). Six additional confirmatory patients subsequently enrolled at dose level 2 completed treatment without DLT. At least 50% of the total parotid gland volume received <30 Gy in 14 patients (average, 54% of volume), with an average mean dose of 32 Gy. In contrast, >/=50% of the distal parotid gland volume received <25 Gy in 15 patients (average, 63% of volume), with an average mean dose of 24 Gy. With a median follow-up of 20 months from the date of enrollment and 28 months for surviving patients, the actuarial 2-year local control (primary site), regional control (nodal sites), and distant control rate was 76.3%, 66.7%, and 71.8%, respectively.
Dose level 2, 70.8 Gy in 30 fractions of 2.36 Gy, was defined as the MTD deliverable to the GTV using this accelerated fractionation with simultaneous integrated boost intensity-modulated radiotherapy regimen with parotid gland sparing as the sole treatment for locally advanced head-and-neck squamous cell carcinoma. Adequate parotid sparing was achievable in most cases. Early toxicity, tumor control, and survival rates compared favorably with the outcomes after other accelerated regimens.
开展一项I期放射剂量递增试验,以确定在局部晚期头颈部鳞状细胞癌的治疗中,采用加速分割同步整合加量调强放疗方案并以保留腮腺作为唯一治疗手段时,可给予大体肿瘤体积(GTV)的最大耐受剂量(MTD)。主要目标是根据既定的急性剂量限制毒性(DLT)量化标准来定义MTD。次要目标包括分析失败模式、肿瘤控制率和毒性。
在1999年7月至2002年6月期间,招募符合条件的II期至IVB期有肿块的头颈部鳞状细胞癌患者,不包括喉原发性肿瘤。使用“滑动窗口”技术,采用6兆伏光子进行调强放疗。计划每个剂量水平入组6例患者;如果6例患者中有超过2例出现DLT,则将前一剂量再增加6例患者以确认该剂量水平为MTD。所有方案共给予30次分割,但每次分割剂量递增(2.27、2.36和2.46 Gy),以使GTV的总剂量分别达到68.1、70.8和73.8 Gy。无论GTV剂量水平如何,其余靶组织在所有患者中均被限制接受相同剂量。临床靶体积定义为GTV周围1厘米内的组织(亚临床疾病高风险区域),在30次分割、每次2.0 Gy的情况下接受60 Gy。选择性照射靶体积定义为临床上未受累的有淋巴结的组织,在30次分割、每次1.8 Gy的情况下接受54 Gy。在不影响靶区覆盖的前提下,尽可能保留腮腺。每周使用美国国立癌症研究所通用毒性标准对急性毒性进行评分。DLT定义为任何4级急性毒性或任何需要降低剂量或中断治疗超过5个治疗日的急性毒性。
18名男性和2名女性(平均年龄57岁;范围37 - 80岁),17例为口咽原发性肿瘤,1例分别为口腔、鼻咽和下咽鳞状细胞癌。剂量水平1的6例患者中无一例发生DLT,最初在剂量水平2入组的6例患者中有2例发生DLT。在剂量水平3治疗的2例患者在迅速出现3级毒性(至第15天)后均需要中断治疗3天并降低剂量。随后在剂量水平2入组的另外6例确认患者完成治疗且未发生DLT。14例患者(平均占总体积的54%)中至少50%的腮腺总体积接受的剂量<30 Gy,平均平均剂量为32 Gy。相比之下,15例患者(平均占总体积的63%)中≥50%的腮腺远端体积接受的剂量<25 Gy,平均平均剂量为24 Gy。从入组日期起的中位随访时间为20个月,存活患者为28个月,2年精算局部控制(原发部位)、区域控制(淋巴结部位)和远处控制率分别为76.3%、66.7%和71.8%。
剂量水平2,即30次分割、每次2.36 Gy共70.8 Gy,被定义为采用这种加速分割同步整合加量调强放疗方案并以保留腮腺作为局部晚期头颈部鳞状细胞癌唯一治疗手段时可给予GTV的MTD。在大多数情况下可实现充分的腮腺保留。早期毒性、肿瘤控制和生存率与其他加速方案后的结果相比具有优势。
