CIRS 038立体定向模体
发布时间:2020-03-26
CIRS 038立体定向模体,CIRS 038模体,Steev模体
SRS调试和治疗验证
立体定向放射外科手术(SRS)需要在目位和剂量输送方面具有高度的准确性。小误差会导致部分肿瘤体积的显着不足治疗以及附近正常组织的过量。CIRS Stereotactic端到端验证模型“Steev”提供了一种方法来检查患者在治疗过程中的每一个步骤 - 从CT,MR和PET诊断成像到治疗计划验证。
的患者模拟
CIRS 038立体定向模体,CIRS 038模体,Steev模体的拟人化外观允许使用临床应用中使用的多种定位和固定设备。诸如皮质骨和小梁骨,脑,脊髓,牙齿,鼻窦和气管之类的内部细节提供了*现实的临床模拟来评估复杂的颅内和颅外解剖结构的挑战性影响。几何和有机目标插页提供了全面的图像质量保证,几何机器质量保证和TPS质量保证手段,增加了系统性能的可靠性。
在等角点和偏离等角点位置的剂量测量
Steev容纳各种适用于小型野外剂量测定的可互换的组织等效插入物,包括:微点和针尖离子室,薄膜,MOSFET,TLD,OSL(nanoDot™*)和3D凝胶。当与各种成像插件配合使用时,Steev为SRS系统提供了*全面的端到端测试和QA解决方案。
按照AAPM TG-101的指示进行端到端的调试
使用框架/无框架系统,头部和肩部口罩或其他定位固定装置验证患者定位
在关键地区验证患者治疗计划
执行几何机器QA - Winston-Lutz等中心验证测试和本地化/沙发移位重定位
对X射线和板载kV和MV成像器(包括CBCT)执行IGRT QA程序
利用多模式成像能力(CT,MRI和PET)评估图像融合,图像转移QA,准确性验证和TPS测试,
TPS变形图像配准算法精度QA
CIRS 038立体定向模体,CIRS 038模体特点和好处:
按照AAPM TG-101的指示进行端到端的调试
使用框架/无框架系统,头部和肩部口罩或其他定位固定装置验证患者定位
在关键地区验证患者治疗计划
执行几何机器QA - Winston-Lutz等中心验证测试和本地化/沙发移位重定位
对X射线和板载kV和MV成像器(包括CBCT)执行IGRT QA程序
利用多模式成像能力(CT,MRI和PET)评估图像融合,图像转移QA,准确性验证和TPS测试,
TPS变形图像配准算法精度QA
CIRS 038立体定向模体,CIRS 038模体包括的材料:
(1)立体定向放射外科头模体
(1)605-SS1大脑等效间隔物(63.4×63.4×10mm)
(1)605-SS2大脑等效间隔物(63.4×63.4×20mm)
(1)605-SS4大脑等效间隔物(63.4×63.4×63.4mm)
(1)实心Ø12.5 mm(后房通路插头
(1)带有MR / CT基准的实心Ø12.5 mm前房通路插头
(1)038-15 MRI / CT ISO中心矩形插入
(1)颈部定位板
(1)橡胶夹具
(1)泡沫衬里的情况
(1)用户指南
保修信息
4年保修
CIRS 038立体定向模体,CIRS 038模体英文介绍:
SRS commissioning and treatment verification
Stereotactic Radiosurgery (SRS) necessitates a high degree of accuracy in target localization and dose delivery. Small errors can result in significant under treatment of portions of the tumor volume and overdose of nearby normal tissues. The CIRS Stereotactic End-to-End Verification Phantom “Steev” provides a means to check every step the patient will undergo in the treatment process-- from diagnostic imaging with CT, MR and PET, to treatment plan verification.
Accurate patient simulation
Steev’s anthropomorphic exterior allows for use of multiple positioning and fixation devises as used in clinical application. Internal details such as cortical and trabecular bone, brain, spinal cord, teeth, sinuses and trachea provide the most realistic clinical simulation to evaluate the challenging effects of complex intra- and extra-cranial anatomies. Geometric and organic target inserts provide means for comprehensive image QA, geometric machine QA and TPS QA for increased confidence in system performance.
Dose measurements at isocenter and off isocenter positions
Steev accommodates a variety of interchangeable tissue equivalent inserts suitable for small field dosimetry including: micro- and pin-point ion chambers, film, MOSFET, TLD, OSL (nanoDot™*) and 3D gel. When used in concert with the various imaging inserts, Steev provides the most comprehensive end-to-end testing and QA solution for SRS systems.
Perform End-to-End testing for commissioning as directed by AAPM TG-101
Verify patient positioning using /less systems, head and shoulder masks or other positioning fixation devices
Verify patient treatment plan in critical regions
Perform geometric machine QA - Winston-Lutz isocenter verification tests and localization/repositioning with couch shift
Perform IGRT QA procedure for X-ray and onboard kV and MV imagers including CBCT
Assess image fusion, image transfer QA, accuracy verification and TPS testing with Multi-modality imaging capabilities (CT, MRI and PET)
TPS Deformable Image registration algorithm accuracy QA