Vicini Frank, Vargas Carlos, Gustafson Gary, Edmundson Gregory, Martinez Alvaro
Department of Radiation Oncology, William Beaumont Hospital, 3601 W. 13 Mile Rd, Royal Oak, MI 48072, USA.
World J Urol. 2003 Sep;21(4):220-8. doi: 10.1007/s00345-003-0358-8. Epub 2003 Aug 5.
The optimal treatment of patients with localized prostate cancer remains controversial. Significant clinical data are available, however, demonstrating that patients treated with radiation therapy (RT) have a significantly better outcome as the dose to the gland is increased. What remains debatable, however, is how to best deliver these higher doses of RT without significantly increasing normal tissue toxicities. Conformal high dose rate brachytherapy (C-HDR BT) represents an alternative means of precise dose delivery that offers similar tumoricidal effects as three-dimensional (3D) conformal external beam radiotherapy (EBRT) or permanent interstitial prostate seed implants with potential additional advantages. Since C-HDR BT consists of temporarily placing afterloading needles or catheters directly into the prostate gland under real-time ultrasound guidance, a steep dose gradient between the prostate and adjacent normal tissues can be generated that is minimally affected by organ motion and edema or treatment setup uncertainties. The ability to control the amount of time the single HDR radioactive source "dwells" at each position along the length of each brachytherapy catheter further enhances the conformity of the dose. In addition, recent radiobiological data on prostate cancer treatment suggest that C-HDR BT should produce tumor control and late normal tissue side effects that are at least as good as achieved with conventional fractionation, with the additional possibility that acute side effects might be reduced. Published data from several groups performing C-HDR BT as boosts in patients with locally advanced disease have supported these assumptions. Combined with the physical advantages discussed above, C-HDR BT should provide similar tumor control as 3D conformal EBRT with the added advantages of reduced treatment times, less acute toxicity, and no additional technological requirements to account and correct for treatment setup uncertainties and organ motion. Due to the success of C-HDR BT as boost treatment in locally advanced disease, this form of radiation treatment has recently been applied to low-risk prostate cancer patients as an alternative brachytherapy technique to permanent interstitial seed implantation. Advantages in this setting include an improved ability to define and deliver the prescribed dose, a significantly shortened treatment schedule compared to 3D conformal EBRT, and the fact that patients are not radioactive after implantation.
局限性前列腺癌患者的最佳治疗方案仍存在争议。然而,已有大量临床数据表明,随着前列腺腺体所接受剂量的增加,接受放射治疗(RT)的患者预后明显更好。然而,仍有争议的是,如何在不显著增加正常组织毒性的情况下,最佳地给予这些更高剂量的放疗。适形高剂量率近距离放疗(C-HDR BT)是一种精确剂量输送的替代方法,其具有与三维(3D)适形外照射放疗(EBRT)或永久性间质前列腺籽源植入相似的杀瘤效果,且可能具有其他优势。由于C-HDR BT包括在实时超声引导下将后装针或导管直接临时置入前列腺腺体,因此在前列腺与相邻正常组织之间可形成陡峭的剂量梯度,该梯度受器官运动、水肿或治疗摆位不确定性的影响最小。控制单个高剂量率放射源在每个近距离放疗导管长度上各位置“驻留”时间的能力,进一步提高了剂量的适形性。此外,最近有关前列腺癌治疗的放射生物学数据表明,C-HDR BT应能产生与传统分割放疗至少同样好的肿瘤控制效果和晚期正常组织副作用,且还有可能减少急性副作用。几组对局部晚期疾病患者进行C-HDR BT作为增敏治疗的已发表数据支持了这些假设。结合上述物理优势,C-HDR BT应能提供与3D适形EBRT相似的肿瘤控制效果,还具有治疗时间缩短、急性毒性较小以及无需额外技术来考虑和校正治疗摆位不确定性及器官运动等额外优势。由于C-HDR BT作为局部晚期疾病增敏治疗取得了成功,这种放射治疗形式最近已应用于低危前列腺癌患者,作为永久性间质籽源植入的一种替代近距离放疗技术。在此情况下的优势包括更好地定义和给予规定剂量的能力、与3D适形EBRT相比显著缩短的治疗疗程,以及患者植入后无放射性这一事实。
