Female ART Thorax (Sections 10-23) with 1.5cm x 1.5cm hole grid spacing; either 5mm or 7mm diameter holes, lung and tissue-equivalent plugs. Internal and external assembly systems.
ART phantoms are molded of tissue-equivalent material; they are designed within highly sophisticated technological constraints and follow ICRU-44 standards. They are also designed for accuracy and ease of use.
Anatomy: The female ART represents a 155 cm (5 ft. 1 in.) tall, 50 kg (110 lb.) female. The ART phantom is transected-horizontally into 2.5 cm thick slices. Each slice has holes which are plugged with bone-equivalent, soft-tissue-equivalent or lung tissue equivalent pins which can be replaced by TLD holder pins. The holder pins are ordered separately. Soft-tissue-equivalent coatings produce slices with glass smooth interfaces. These coatings are cut away over the air spaces of the oronasal pharynges, trachea and stem bronchi. Dosimetry holes are drilled in grids 3cm x3 cm or 1.5cm x 1.5cm in 5 and 7 mm diameters. These afford detailed measurements of dose distributions.
Breast Attachments: Breasts are available in various sizes. They can be sliced in frontal planes (drilled or undrilled for film dosimetry). Slices can receive any of the pins listed below. Breasts of male and female ART phantoms are contoured to blend realistically with the thoraxes. They are attached to the thorax with nylon screws. The male chest with breasts attached serves as a large female.
Soft Tissues: There are unlimited, small variations in density and absorption throughout the human body. Phantom soft tissue is closely controlled to have the average density of these tissues.
Skeletons: RSD skeletons are highly-detailed polymer moldings which reproduce the shape, mass density and attenuation coefficients of cortical bone and spongiosa. They allow continuous production of phantoms, instead of the sporadic production required by the limited availability, variable size and uncertain chemical composition of human skeletons. These problems, plus loss of marrows in dried natural skeletons, make RSD skeletons superior to "real bone". Molds for the RSD cortical bone and spongiosa were made from human skeletons consistent with the sizes of the softtissue molds. RSD skeletons conform closely to the standards established by the International Commission on Radiation Units and Measurements (ICRU Report No. 44); mass density is reduced slightly to take into account a small decrease in calcium content for older patients.
Lungs: Lungs are molded from syntactic foam, with a specific gravity of 0.30 g/cc.
TLD Dosimeters & Fittings: Phantoms are shipped with all dosimetry holes filled with blank pins. Pins for TLD chips have recesses at one end 3.2 x 3.2 x 0.9 mm. Pins for TLD rods have 1 mm-diameter holes cross-drilled at the centers of the pins. All pins are 2.50 cm long unless otherwise specified.
Assembly: ART phantom slices are held between aluminum plates by nylon tie rods. Knobs at the end of the rods clamp the slices tightly in proper alignment. Both internal and external assembly devices are included. The external assembly facilitates film dosimetry, while the internal assembly is used generally with TLDs or ionchamber dosimetry.
About this Brand
After developing the first anthropomorphic test dummy for the aviation industry in the late 1940's, the RSD team directed its impactful R & D to revolutionize healthcare diagnostic imaging with anthropomorphic phantoms. RSD diagnostic imaging phantoms are routinely used to perform quality control on imaging equipment and to train healthcare professionals in best practices. The company has become the leading supplier of QC and educational solutions for medical diagnostics and radiation therapy, featuring products such as anthropomorphic phantoms and dosimetry verification phantoms.