- Page 1
- Page 2 - Page 3 - Page 4 - Page 5 - Page 6 - Page 7 - Page 8 - Page 9 - Page 10 - Page 11 - Page 12 - Page 13 - Page 14 - Page 15 - Page 16 - Page 17 - Page 18 - Page 19 - Page 20 - Page 21 - Page 22 - Page 23 - Page 24 - Page 25 - Page 26 - Page 27 - Page 28 - Page 29 - Page 30 - Page 31 - Page 32 - Page 33 - Page 34 - Page 35 - Page 36 - Page 37 - Page 38 - Page 39 - Page 40 - Page 41 - Page 42 - Page 43 - Page 44 - Page 45 - Page 46 - Page 47 - Page 48 - Page 49 - Page 50 - Page 51 - Page 52 - Page 53 - Page 54 - Page 55 - Page 56 - Page 57 - Page 58 - Page 59 - Page 60 - Page 61 - Page 62 - Page 63 - Page 64 - Page 65 - Page 66 - Page 67 - Page 68 - Page 69 - Page 70 - Page 71 - Page 72 - Page 73 - Page 74 - Page 75 - Page 76 - Page 77 - Page 78 - Page 79 - Page 80 - Page 81 - Page 82 - Page 83 - Page 84 - Page 85 - Page 86 - Page 87 - Page 88 - Page 89 - Page 90 - Page 91 - Page 92 - Page 93 - Page 94 - Page 95 - Page 96 - Page 97 - Page 98 - Page 99 - Page 100 - Page 101 - Page 102 - Page 103 - Page 104 - Page 105 - Page 106 - Page 107 - Page 108 - Page 109 - Page 110 - Page 111 - Page 112 - Flash version © UniFlip.com |
P H A N TOMS
HOFFMAN
3-D BRAIN PHANTOM™
Precise simulation of activity distribution for SPECT, PET and MRI
T
he Hoffman 3-D Brain Phantom provides the anatomically accurate three dimensional simulation of the radioisotope distribution found in the normal brain. The Phantom allows quantitative and qualitative study of the three dimensional effects of scatter attenuation as they would appear in Iodine-123-IMP or Iodine-123-HIPDM imaging with single photon emission computer tomography or fluorine-FDG-F18 imaging with positron emission computed tomography. The phantom simulates the 4:1 uptake ratio in the gray and white matter, normal in these studies. Ventricles that are normally void of radioactivity are present. The phantom is compromised of sturdy plastic and a single fillable chamber that eliminates the necessity of preparing different concentrations of radioisotope. Nineteen independent plates stack neatly within the cylindrical phantom for easy disassembly and assembly. The user can easily add his own custom defects to simulate clinical abnormalities.
The Phantom can be filled with the appropriate radioactive material or contrast material for SPECT, PET or MRI applications. Each of 19 inserts is made up of five thinner slices. Two slices 0.03" thick interspersed in 0.6" thick slices to create a composite slice.
SPECIFICATIONS:
Cylinder Dimensions: I.D.: 6.9" h x 8.2" dia (17.5 x 20.8 cm) Fillable Volume: ~ 1.2 L Shipping Weight: 23 lb (10.4 kg)
043-790
Phantom, Hoffman 3-D Brain
Place an Order or Receive a Quote sales@biodex.com • +1-631-924-9000 • 1-800-224-6339
83
|