New & Used Linear Accelerator
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Device: Linear Accelerator
Manufacturer: Siemens
Model: MD2
Manufacturer: Siemens
Model: MD2
Location: United States, California
88,888 
1991
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Device: Linear Accelerator
Manufacturer: Siemens
Model: Mevatron 6740
Manufacturer: Siemens
Model: Mevatron 6740
Location: United States, Virginia
20,000
1985
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 2300C/D
Manufacturer: Varian
Model: Clinac 2300C/D
Location: Italy, Bologna
100,877
2000
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Device: Linear Accelerator
Manufacturer: Elekta
Model: Elekta Synergy
Manufacturer: Elekta
Model: Elekta Synergy
Location: Israel, Tel Aviv
290,000
2007
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 2100C/D
Manufacturer: Varian
Model: Clinac 2100C/D
Location: United States, Ohio
50,000
1999
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 21EX
Manufacturer: Varian
Model: Clinac 21EX
Location: Germany, Bremen
99,000
2005
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 2300C/D
Manufacturer: Varian
Model: Clinac 2300C/D
Location: United States, Florida
58,888
1993
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 2300C/D
Manufacturer: Varian
Model: Clinac 2300C/D
Location: United States, New Jersey
Negotiable
2000
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Device: Linear Accelerator
Manufacturer: Siemens
Model: Primus K
Manufacturer: Siemens
Model: Primus K
Location: India, Chandigarh
320,000
2008
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 21EX
Manufacturer: Varian
Model: Clinac 21EX
Location: United States, Florida
225,000
2003
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Device: Linear Accelerator
Manufacturer: Siemens
Model: MEVATRON KD2
Manufacturer: Siemens
Model: MEVATRON KD2
Location: United States, Florida
18,000
-
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac iX
Manufacturer: Varian
Model: Clinac iX
Location: United States, New Jersey
Negotiable
2007
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 2100C
Manufacturer: Varian
Model: Clinac 2100C
Location: Bolivia, Santa Cruz
100,000
1996
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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 23EX
Manufacturer: Varian
Model: Clinac 23EX
Location: United States, New Jersey
Negotiable
2005
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Device: Linear Accelerator
Manufacturer: Elekta
Model: Elekta Precise
Manufacturer: Elekta
Model: Elekta Precise
Location: Israel, Tel Aviv
150,000
2004
Linear Accelerator may also be referred to as :
Linear Accelerator, Radiotherapy Unit | IMRT | LINACTips for buying Linear Accelerator
- Facilities should select the radiotherapy unit based on the range of energies required and ease of patient setup.
- Due to the high price of radiotherapy units, facilities need to carefully assess their needs and choose a versatile linear accelerator unit (LINAC)that can meet their needs.
- Many different linear accelerator designs are available from various manufacturers, who offer a slightly different approach to device design. There is no sufficient data to show the clinical superiority of a particular radiotherapy unit’s design.
- Different models offer various numbers and sizes of collimator leaves.
- The main differences between low, mid, and high-energy LINACs are the photon and electron energy ranges. Buyers should choose the appropriate linear accelerator type based on the main uses of the unit.
- The cobalt units, much like the low energy linear accelerators, are mainly used for treating bone cancer and head, neck, and breast tumors.
- For treating deep-seated neoplasms and tumors of the pelvis and thorax, higher energy LINACs are used. These can also produce low-energy beams, and therefore are capable of more applications than lower-energy linear accelerators. However, they are significantly more expensive.
- The accelerator can be either a travel or standing wave accelerator for all types of LINACs. The microwave power source can be either magnetron or klystron, and the gantry rotation range should be 360°.
- Linear accelerator s should have multileaf collimators with at least 40 leaves.
- For x-rays, the collimators should define fields of 40 × 40 cm. For electrons, they should be 25 × 25 cm.
- Radiation treatment requires a wide range of photon and electron energy and treatment field sizes due to the fact that cancerous tumors occur at different depths and locations within the body.
- Approximately 60% of patients require low-energy therapy, 25% of patients require medium to high-energy therapy, and 15% require a high-energy electron beam.
- Before installation of a radiotherapy unit, the shielding requirements should be determined by a medical physicist. Due to the higher doses, IMRT may require additional shielding.
- For calibrating radiotherapy units and identifying operating irregularities, buyers should establish a comprehensive quality assurance program.
Read more valuable tips on the Medical Equipment Buying Guide by MedWOW >>