CIRS 701,702,703,704,705,706ATOM剂量验证模体,CIRS ATOM模体详细介绍:
CIRS 701,702,703,704,705,706剂量验证模体,CIRS ATOM剂量验证模体,CIRS ATOM模体
CIRS ATOM剂量验证模体,CIRS ATOM模体是全系列拟人化的横断面剂量测量模型,用于研究器官剂量,全身有效剂量以及治疗性放疗剂量的验证。有六种模式可供选择:新生儿,1岁,5岁和10岁儿童模型以及成年男性和女性模型。
每个模体在设计上都是传统的25毫米厚的部分。截面非常平坦光滑,不需要任何特殊的涂层或处理。当在侦察或投影X射线中观察时,这导致了板之间的最小界面。ATOM系列还有别于其他剂量测量模式,为21个内部器官提供优化的TLD位置。
组织等效环氧树脂被用于模体的所有方面。CIRS技术通过涵盖更广泛的能量水平(从诊断到治疗)提供卓越的组织模拟剂量学验证模型。另外,所有的骨骼都是均匀的,并且被配制成代表适合年龄的平均骨组成。CIRS骨骼配方与天然骨骼和其他类型的模拟骨骼相比具有明显的优势。
CIRS ATOM剂量验证模体,CIRS ATOM模体特点和好处
模体模型涵盖了广泛的病人年龄
器官特定的剂量与最小的检测器
卓越的组织仿真和逼真的成像特性
均质骨
容纳各种各样的探测器
年龄适当的参考
模型图
CIRS ATOM剂量验证模体,CIRS ATOM模体保修信息
4年保修
CIRS ATOM剂量验证模体,CIRS ATOM模体英文介绍:
CIRS ATOM® phantoms are a full line of anthropomorphic, cross sectional dosimetry phantoms designed to investigate organ dose, whole body effective dose as well as verification of delivery of therapeutic radiation doses.
ATOM is the only line of dosimetry phantoms to range in sizes from newborn to adult. Six models are available: newborn, 1-year, 5-year and 10-year old pediatric phantoms as well as adult male and female phantoms.
Each phantom is sectional in design with traditional 25 mm thick sections. The sectional surfaces are extremely flat and smooth and do not require any special coatings or treatment. This results in minimal interfaces between the slabs when viewed in a scout or projection X-ray. The ATOM line also differs from other dosimetry phantoms by providing optimized TLD locations specific to 21 inner organs.
Tissue-equivalent epoxy resins are used in all aspects of the phantom. CIRS technology offers superior tissue simulation Dosimetry Verification Phantoms by covering a wider range of energy levels from diagnostic to therapeutic. In addition, all bones are homogeneous and are formulated to represent age appropriate, average bone composition. CIRS bone formulations offer distinct advantages over natural skeletons and other types of simulated bone.
Phantom models cover a wide range
of patient ages
Organ specific dosimetry with minimal detectors
Superior tissue simulation and lifelike imaging properties
Homogeneous bone
Accommodates wide variety of detectors
Age appropriate references