????? ?????? ???????? Clinical Radiation Generator - PowerPoint PPT Presentation

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????? ?????? ???????? Clinical Radiation Generator

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Clinical Radiation Generator . Radiotherapy One of the main treatment ... – PowerPoint PPT presentation

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Title: ????? ?????? ???????? Clinical Radiation Generator

1
????? ?????? ????????Clinical Radiation Generator

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2
???????? ????????? Radiotherapy
??????? ??????? ?????? ?? ?????? ??????? Using
the ionizing Radiation to treat cancer
?????? ?????? (?? ???) External Beam Therapy
(EBT)
?????? ?????? (?? ???) Brachytherapy
3
Radiotherapy

One of the main treatment modalities for cancer
(often in combination with chemotherapy and
surgery)
It is generally assumed that 50 to 60 of cancer
patients will benefit from radiotherapy
Minor role in other diseases

Siemens Oncology
4
External Beam Radiotherapy
Beam 2
Beam 3
Beam 1
tumor
patient
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External Beam Radiotherapy

More than 90 of all radiotherapy patients are
treated using EBT
Most of these are treated using X-rays ranging
from 20keV to 20MeV in peak-energy
Other EBT treatment options include telecurie
units (60-Co and 137-Cs), electrons from linear
accelerators and accelerators for heavy charged
particles such as protons

7
Cancer incidence (WHO)
8
Major indications for radiotherapy

Head and neck cancers
Gynaecological cancers (eg. Cervix)
Prostate cancer
Other pelvic malignancies (rectum, bladder)
Adjuvant breast treatment
Brain cancers
Palliation

9
Approaches

Palliative radiotherapy to reduce pain and
address acute symptoms - eg bone metastasis,
spinal cord compression, ...
Radical radiotherapy as primary modality for cure
- eg head and neck
Adjuvant treatment in conjunction with surgery -
eg breast cancer

10
Aim
Patient
Critical organs

To kill ALL viable cancer cells
To deliver as much dose as possible to the target
while minimising the dose to surrounding healthy
tissues

target
Beam directions
11
Prognostic Factors

Cancer type and stage
Patient performance
Radiation dose
...

Good prognosis
survival
Bad prognosis
time
12
Prognostic Factors

Cancer type and stage
Patient performance
Radiation dose
...

Accurate dose delivery matters!
13
Dose should be accurate

To target
5 too low - may result in clinically detectable
reduction in tumour control (eg. Head and neck
cancer 15)
To normal tissues
5 too high - significant increase in normal
tissue complication probability morbidity
unacceptable side effects

14
External beam radiotherapy (EBT) treatment
approaches

Superficial X-rays
Orthovoltage X-rays
Telecurie units
Megavoltage X-rays
Electrons
Heavy charged particles
Others

15
External beam radiotherapy (EBT) treatment
approaches

Superficial X-rays
Orthovoltage X-rays
Telecurie units
Megavoltage X-rays
Electrons
Heavy charged particles
Others

40 to 120kVp
150 to 400kVp
137-Cs and 60-Co
Linear accelerators
Linear accelerators
Protons from cyclotron, C, Ar, ...
Neutrons, pions

16
Superficial radiotherapy

50 to 120kVp - similar to diagnostic X-ray
qualities
Low penetration
Limited to skin lesions treated with single beam
Typically small field sizes
Applicators required to collimate beam on
patients skin
Short distance between X-ray focus and skin

17
Superficial radiotherapy
Philips RT 100
18
Superficial radiotherapy issues

Due to short FSD high output and large influence
of inverse square law
Calibration difficult (strong dose gradient,
electron contamination)
Dose determined by a timer - on/off effects must
be considered
Photon beams may be contaminated with electrons
from the applicator

19
Orthovoltage radiotherapy

150 - 400kVp
Penetration sufficient for palliative treatment
of bone lesions relatively close to the surface
(ribs, spinal cord)
Largely replaced by other treatment modalities

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Kilovoltage Equipment (150 - 400 kVp)