New & Used Linear Accelerator

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Year manufactured

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Device: Linear Accelerator
Manufacturer: Siemens
Model: MD2
Location: United States, California
88,888
This Seller accepts SafeTrade as a payment method
1991

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Device: Linear Accelerator
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
Location: Italy, Bologna
113,609
2000

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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 21EX
Location: Germany, Bremen
99,000
This Seller accepts SafeTrade as a payment method
2005

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Device: Linear Accelerator
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
Location: United States, New Jersey
Negotiable
2000

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Device: Linear Accelerator
Manufacturer: Siemens
Model: Primus K
Location: India, Chandigarh
320,000
This Seller accepts SafeTrade as a payment method
2008

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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 21EX
Location: United States, Florida
225,000
2003

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Device: Linear Accelerator
Manufacturer: Siemens
Model: MEVATRON KD2
Location: United States, Florida
18,000
-

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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 2100C
Location: Bolivia, Santa Cruz
100,000
1996

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Device: Linear Accelerator
Manufacturer: Varian
Model: Clinac 23EX
Location: United States, New Jersey
Negotiable
2005

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Device: Linear Accelerator
Manufacturer: Elekta
Model: Elekta Precise
Location: Israel, Tel Aviv
85,000
This Seller accepts SafeTrade as a payment method
2004

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Device: Linear Accelerator
Manufacturer: Elekta
Model: Elekta Precise
Location: United States, New Jersey
Negotiable
2001

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Device: Linear Accelerator
Manufacturer: Elekta
Model: Elekta Precise
Location: United States, New Jersey
Negotiable
2004

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Device: Linear Accelerator
Manufacturer: Elekta
Model: Elekta Synergy
Location: United States, New Jersey
Negotiable
2005
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Linear Accelerator may also be referred to as :

Linear Accelerator, Radiotherapy Unit | IMRT | LINAC
 

Tips for buying Linear Accelerator

  1. Facilities should select the radiotherapy unit based on the range of energies required and ease of patient setup.
  2. 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.
  3. 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.
  4. Different models offer various numbers and sizes of collimator leaves.
  5. 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.
  6. The cobalt units, much like the low energy linear accelerators, are mainly used for treating bone cancer and head, neck, and breast tumors.
  7. 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.
  8. 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°.
  9. Linear accelerator s should have multileaf collimators with at least 40 leaves.
  10. For x-rays, the collimators should define fields of 40 × 40 cm. For electrons, they should be 25 × 25 cm.
  11. 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.
  12. 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.
  13. 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.
  14. 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 >>