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COMPONENTS OF CO-60 UNIT.pptx
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- 2. • Overview: Radionuclide's suchas cesium-137, and cobalt-60 have been used as sources of gamma rays for teletherapy. These gamma rays are emitted from the radionuclide's as they undergo radioactive disintegration. Of all the radionuclide's, Co-60 has proved to be the most suitable for external beam radiotherapy. A typical source activities are in the order of 5000-10,000 ci and provide typical dose rate at 80 cm from the teletherapy source of the order of 100- 200 cGy/min.
- 3. The reasons forits choice over radium and cesium are higher possible specific activity (curies per gram), greater radiation output per curie, and higher average photon energy .
- 5. COBALT-60 UNIT: Source The 60Co source, usually in the form of a solid cylinder, disks, or pallets, is contained inside a stainless-steel capsule and sealed by welding. This capsule is placed into another steel capsule which is again sealed by welding. The double-welded seal is necessary to prevent any leakage of the radioactive material. A typical teletherapy 60Co source is a cylinder of diameter ranging from 1.5 to 2.0 cm and is positioned in the cobalt unit with its circular end facing the patient.
- 6. The Co-60source decays to Ni-60 with the emission of β particles (Emax = 0.32 MeV) and two photons per disintegration of energies 1.17 and 1.33 MeV. These gamma rays constitute the useful treatment beam. The β particles are absorbed in the cobalt metal and the stainless-steel capsules resulting in the emission of bremsstrahlung x-rays and a small amount of characteristic x-rays – 0.1Mev 25% of the primary photons are lost because of the self attenuation of the source.
- 8. Source Housing/ source head Functions of the head: • To shield the source • To expose the source as required • To collimate the beam to correct size
- 9. Source Housing/ source head It consists of a steel shell filled with lead for shielding purposes and a device for bringing the source in front of an opening in the head from which the useful beam emerges. a heavy metal alloy sleeve is provided to form an additional primary shield when the source is in the off position. A number of methods have been developed for moving the source from the off position to the on position, which are as follows:
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- 11. Sliding drawer Apneumatically driven source drawer is used for moving the source between shielded position and treatment position. The pneumatic cylinder will return the source automatically to radiation-off position in case of any failure.
- 13. Rotating wheel Thesource mounted on a rotating wheel inside the sourcehead to carry the source from the off position to the on position.
- 15. Mercury shutter mercury is allowed to flow into the space immediately below the source to shut off the beam.
- 17. Moving jaw The source is fixed in front of the aperture and the beam can be turned on and off by a shutter consisting of heavy metal jaws.
- 19. Beam Collimation The size and orientation of the radiation beam is controlled by the collimator assembly. Two pairs of motorized jaws generate rectangular and square field of desired size. The collimator can also be rotated around the radiation beam axis. The radiation field can be visualized by a high intensity light during patient positioning. Multivane collimators are used as secondary collimators.
- 21. The centreof the radiation field is indicated by the collimator cross hairs. Two sets of trimmers are provided to decrease the penumbra of the beam. The lower pad of the collimator is prepared to receive wedge filters and shadow tray for the beam shaping lead blocks.
- 22. Penumbra Penumbrarefers the region at the edge of beam where dose rate changes rapidly as function of distance from beam axis. Types of penumbra : Geometric Transmission For 1.5mm source diameter, penumbra will be <10mm at 5cm depth for field area <400cm^2.
- 23. Transmission penumbra •It is the region irradiated by photons which are transmitted through the edge of the collimator blocks Geometrical penumbra : formula = • it is formed due to dimension of source. • It is formed due to finite source size and must be concern in teletherapy machines where the sources is between 1 – 2 cm in size.
- 25. Conclusions : penumbra increases with increase in source diameter , SSD , and depth. Penumbra width decreases with a increase in SDD penumbra trimmers - : it consists of extensible , heavy metal bars to attenuate the beam in the penumbra region. increase the source to diaphragm distance , reducing the geometric penumbra.
- 26. Gantry Thegantry can rotate by 360°. The rotational movement of the gantry is motorized and controlled in two directions continuously; its rotation speed can be adjusted. Teletherapy machines are most often mounted isocentrically, allowing the beam to rotate about the patient at a fixed SAD. They can be used either as fixed field machines or rotation units. Most cobalt-60 unit machines have SAD of 80 cm.
- 27. The axisof rotation of the three structures: Gantry Collimator Couch coincide at a point known as the Isocenter. Isocentric Mounting Enhances accuracy. Allows faster setup and is more accurate than older non isocentrically mounted machines. Makes setup transfer easy from the simulator to the treatment machine
- 29. Patient SupportAssembly / Couch Treatment Bed has motorized movements Horizontal Vertical Lateral Base - 90° rotation to each side
- 30. Control Console Control Console is situated outside the bunker Interlocks present on the console for- : Air Pressure Door Head Lock -Treatment Head has a swivel movement of +/- 180°. OFF Shield Treatment Mode. Wedge Filter. Tray Interlock. Timer
- 31. Warning lights •Red light: Radiation present- do not enter room • Green Light: treatment time elapsed-safe • Yellow light: during the treatment • Malfunction: both red and green lights still on- means that machine is still in on position after prescribed dose has been delivered. Remove patient.
- 32. Beam shapingand modifying devices The system has accessories like -: wedge filters Breast cone Sheilding blocks, to modify the beam shape or beam attenuation. They are placed on the machine between the collimator and the patient.
- 33. wedge filters special filters or absorbing blocks are placed in the path of a beam to modify its isodose distribution. The most commonly used beam-modifying device is the wedge filter. This is a wedge-shaped absorber that causes a progressive decrease in the intensity across the beam, resulting in a tilt of the isodose curves from their normal positions.
- 34. the isodosecurves are tilted toward the thin end, and the degree of tilt depends on the slope of the wedge filter. In actual wedge filter design, the sloping surface is made either straight or sigmoid in shape .
- 35. The wedgeis usually made of a dense material, such as lead or steel, and is mounted on a transparent plastic tray, which can be inserted in the beam at a specified distance from the source . This distance is arranged such that the wedge tray is always at a distance of at least 15 cm from the skin surface, so as to avoid destroying the skin-sparing effect of the megavoltage beam.
- 36. SHIELDING BLOCKS Aims of shielding- protect critical structures ( organ ) avoid unnecessary radiation to normal tissues matching adjacent fields
- 37. An idealshielding material should have the following characteristics : high atomic no high density easily available inexpensive easily modifiable The most commonly used shielding material for photons is Lead ( Pb ) The thickness of shielding block used depends upon the energy of the radiation
- 38. The shielding materialwhich reduces beam transmission to 5% of its original is considered acceptable . The term half value layer is an expression for the attenuation produced by any material. half-value layer (HVL) is defined as the thickness of an absorber of specified composition required to attenuate the intensity of the beam to half its original value. Practically thickness of lead between 4.5 – 5 half value layers which results in 5% or less of primary beam transmission.
- 39. Custom blocks •The conformal blocks are made with low melting point alloy called Cerrobend. • The Cerrobend material consists of 50.0% bismuth, 26.7% lead, 13.3% tin, and 10.0% cadmium . • The main advantage of Cerrobend over lead is that it melts at about 70 °C (compared with 327 °C for lead) and therefore, can be easily cast into any shape. • At room temperature, it is harder than lead. • The minimum thickness of Cerrobend blocks required for blocking may be calculated from Table 13.1 using its density ratio relative to lead (e.g., multiply lead thickness by 1.21).
- 41. T -ROD mechanism in cobalt-60 unit The external T-ROD shall be fitted with this indicator rod incase of failure of Automatic source retracting system to push the source to the OFF condition. Source stuck during treatment – Emergency situation when the Cobalt-60 source gets stuck in between the “off” and “on” position . Rotate gantry to side opposite to maze wall – Insert “T-rod” and push it till the source reaches “safe” position
- 43. The beamstopper The beamstopper is a lead-filled steel assembly, which acts as a beam absorber. The beamstopper attenuates 99.9% of the primary beam. A beam stopper is used to intercept the beam for additional shielding of the exit beam. The beam stop also acts as a counterweight for the head of the machine.
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