Ghia Amol, Tomé Wolfgang A, Thomas Sayana, Cannon George, Khuntia Deepak, Kuo John S, Mehta Minesh P
Department of Human Oncology, University of Wisconsin, Madison, WI 53792, USA.
Int J Radiat Oncol Biol Phys. 2007 Jul 15;68(4):971-7. doi: 10.1016/j.ijrobp.2007.02.016. Epub 2007 Apr 18.
With the advent of intensity-modulated radiotherapy, the ability to limit the radiation dose to normal tissue offers an avenue to limit side effects. This study attempted to delineate the distribution of brain metastases with relation to the hippocampus for the purpose of exploring the viability of tomotherapy-guided hippocampal sparing therapy potentially to reduce neurocognitive deficits from radiation.
The pre-radiotherapy T1-weighted, postcontrast axial MR images of 100 patients who received whole brain radiotherapy, stereotactic radiosurgery, or a radiosurgical boost following whole brain radiotherapy between 2002 and 2006 were examined. We contoured brain metastases as well as hippocampi with 5-, 10-, and 15-mm expansion envelopes.
Of the 272 identified metastases, 3.3% (n = 9) were within 5 mm of the hippocampus, and 86.4% of metastases were greater than 15 mm from the hippocampus (n = 235). The most common location for metastatic disease was the frontal lobe (31.6%, n = 86). This was followed by the cerebellum (24.3%, n = 66), parietal lobe (16.9%, n = 46), temporal lobe (12.9%, n = 35), occipital lobe (7.7%, n = 21), deep brain nuclei (4.0%, n = 11), and brainstem (2.6%, n = 7).
Of the 100 patients, 8 had metastases within 5 mm of the hippocampus. Hence, a 5-mm margin around the hippocampus for conformal avoidance whole brain radiotherapy represents an acceptable risk, especially because these patients in the absence of any other intracranial disease could be salvaged using stereotactic radiosurgery. Moreover, we developed a hippocampal sparing tomotherapy plan as proof of principle to verify the feasibility of this therapy in the setting of brain metastases.
随着调强放射治疗的出现,将辐射剂量限制在正常组织的能力为限制副作用提供了一条途径。本研究试图描绘脑转移瘤与海马体的分布关系,以探索断层放射治疗引导下的海马体保护疗法减少放疗引起的神经认知缺陷的可行性。
检查了2002年至2006年间接受全脑放疗、立体定向放射外科手术或全脑放疗后放射外科强化治疗的100例患者放疗前的T1加权、增强轴位磁共振图像。我们用5毫米、10毫米和15毫米扩展包绕轮廓描绘脑转移瘤和海马体。
在272个已识别的转移瘤中,3.3%(n = 9)位于海马体5毫米范围内,86.4%的转移瘤距离海马体大于15毫米(n = 235)。转移性疾病最常见的部位是额叶(31.6%,n = 86)。其次是小脑(24.3%,n = 66)、顶叶(16.9%,n = 46)、颞叶(12.9%,n = 35)、枕叶(7.7%,n = 21)、脑深部核团(4.0%,n = 11)和脑干(2.6%,n = 7)。
在100例患者中,8例转移瘤位于海马体5毫米范围内。因此,在适形全脑放疗中,海马体周围5毫米的边缘代表了可接受的风险,特别是因为这些没有任何其他颅内疾病的患者可以通过立体定向放射外科手术挽救。此外,我们制定了一个海马体保护断层放射治疗计划作为原理验证,以证实该疗法在脑转移瘤情况下的可行性。
