Estimating Potential Benefits to Neurocognition with Proton Therapy in Adults with Brain Tumors.

Mariana Petruccelli, Amy Parent, Michael Holwell, Hitesh Dama, Grace Tsui, Zhihui Amy Liu, Derek S Tsang
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Abstract

Purpose: Photon radiation therapy (RT) is important in the treatment of many brain tumors but can negatively affect neurocognition. Proton therapy (PT) can reduce doses to normal brain structures. We compared photon and proton plans to estimate the potential benefit in cognition if the patient were treated with PT.

Materials and methods: We analyzed 23 adult patients with proton and photon plans for the treatment of a primary brain tumor. Cognitive outcomes were predicted using converted equivalent dose (EQD2) with an α/β ratio of 3 to left temporal lobe and normal brain tissue. Risks of cognitive decline on 2 specific tests, the Controlled Oral Word Association Test (COWAT [letter S], a test of verbal fluency) and the Wechler Adult Intelligence Scale (WAIS-IV Coding Test, a test of processing speed) were derived from a previously published model.

Results: Dose reductions to left temporal lobe and normal brain tissue translated into lower estimated probabilities of impairment in specific neurocognitive test scores after PT. With a mean dose reduction from 1490 to 1092 cGy in EQD2 to the left temporal lobe (P < .001), there was reduction in probability of impairment in the COWAT (Letter S) test from 6.8% to 5.4%. Similar results were seen with the normal brain (750 to 451 cGy in EQD2, P < .001), with reduction in probability of impairment in the WAIS-IV Coding test from 5% to 4.1%. Other structures experiencing dose reduction with PT included each cochlea, posterior fossa, each temporal lobe, and each hippocampus.

Conclusion: We confirmed an association between PT and lower doses to brain substructures, which is expected to result in a modest decrease in probability of impairment in neurocognitive test scoring. These findings should be confirmed in prospective cohorts of patients treated with PT.

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估计成人脑肿瘤患者质子治疗对神经认知的潜在益处。
目的:光子放射治疗(RT)在许多脑肿瘤的治疗中具有重要作用,但会对神经认知产生负面影响。质子治疗(PT)可以减少对正常大脑结构的剂量。我们比较了质子疗法和光子疗法对患者认知能力的潜在益处。材料和方法:我们分析了23例使用质子和光子疗法治疗原发性脑肿瘤的成年患者。使用转换等效剂量(EQD2)预测认知结果,α/β与左颞叶和正常脑组织的比值为3。两项特定测试的认知能力下降风险,即控制口头单词联想测试(COWAT[字母S],一项语言流畅性测试)和韦克勒成人智力量表(WAIS-IV编码测试,一项处理速度测试),源自先前发表的模型。结果:左颞叶和正常脑组织的剂量减少意味着PT后特定神经认知测试分数受损的估计概率降低。EQD2对左颞叶的平均剂量从1490减少到1092 cGy (P < 0.001), COWAT(字母S)测试中受损的概率从6.8%减少到5.4%。在正常大脑中也看到了类似的结果(EQD2中750至451 cGy, P < .001), WAIS-IV编码测试的损伤概率从5%降低到4.1%。其他用PT减少剂量的结构包括每个耳蜗、后窝、每个颞叶和每个海马。结论:我们证实了PT与低剂量脑亚结构之间的关联,这有望导致神经认知测试得分受损的可能性适度降低。这些发现应该在接受PT治疗的患者的前瞻性队列中得到证实。
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来源期刊
International Journal of Particle Therapy
International Journal of Particle Therapy Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
3.70
自引率
5.90%
发文量
23
审稿时长
20 weeks
期刊最新文献
Impact of COVID-19 Pandemic on Carbon-Ion Radiation Therapy in Japan: A Japanese National Registry Study. The Level of Circulating M-MDSCs as an Indicator for the Therapeutic Outcome of BNCT in End-Stage Malignant Brain Tumor Patients. Vaginal Mucosal Melanoma Cell Activation in Response to Photon or Carbon Ion Irradiation. Navigating a New Frontier: Evaluating Leadless Pacemakers in Proton Therapy. Cardiac Conduction System as an OAR in Radiation Therapy: Doses to SA/AV Nodes and Their Reduction.
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