The examination in Pathology will test the candidate's knowledge of both general and systematic pathology, with emphasis on those fields which are relevant to the practice of Radiotherapy.

SYLLABUS

General Pathology: The structure of cells and connective tissue, and the effects of damage on them. The inflammatory reaction, mechanisms of Im- munity, hospital Infections and anti-bacterial chemotherapy. Disorders of growth, precancerous conditions and carcinogenesis, the classification, structure and spread of tumours. Reaction to haemorrhage, disturbances in body fluid and electrolyte balance. The red cell and mechanisms of anaemia; the white cells, bone marrow and spleen. Platelets and clotting factors, blood groups and blood transfusion.

Systematic Pathology: A sound general knowledge of the specific types of tumour occurring in the various organs of the body.

PRACTICAL WORK The candidate is advised to attend necropsy eх- aminations, and avail himself of the material becoming available in the Pathology Department of his Institution to assist him in his study of the gross and microscopic manifestations of representative disease processes and tumours. The candidate's knowledge of these aspects of pathology will be tested by a practical examination.

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BOOKS recommended as a basis of study:

Walter J B & Israel M S General Pathology 4th ed, Churchill 1974 Robbins S L & Angell M Basic Pathology, Saunders 1971

Paying Wright G & Symmers W St C Systematic Pathology, 1st ed Payling Wright G & Symmers W St C Systematic Pathology, 2nd ed

Churchill Livingstone 1975

Willis R A Pathology of Tumours, 4th ed Butterworth 1968

Willis R A Spread of Tumours in the Human Body 3rd ed, Butterworth 1973

Ackerman L V and Rosai J Surgical Pathology 5th ed, Kempton 1974 Hurley J V Acute Inflammation, Churchill Livingstone 1972

EXAMINATION One 3-hour written paper; one 3-hour practical test;

vive voce examination.

PART 11

The experience required of a candidate presenting for Part I1 shall be- 1. A period of twelve months as a resident medical officer in a general

hospital with experience equivalent to four months as Resident Medical Officer to each of In-patient Medicine and Surgery.

2. Two years at a special hospital or clinic with full-time attendance under the supervision of a senior practitioner or practitioners in Radiotherapy, or its equivalent. In assessing equivalence, all hos- pitals or departments recognized as Radiotherapeutic Clinical Schools by Australasian Universities shall have equivalent standing.

In the case of public hospitals or departments not so recognized, the faculty of Medicine will require from a candidate particular details of his experience, the acceptance of which will enable the candidate to proceed with the Diploma.

3. Evidence of having performed under the supervision of one or more consultants in Radiotherapy all the common procedures of the specialty. These procedures shall include the diagnostic and treat- ment techniques including the conduct of pre-operative, operative and post-operative procedures. Candidates are advised to confer with the Chairman of the Standing Committee for advice concerning the current common procedures.

555-832 RADIOTHERAPY

APPLIED RADIOTHERAPEUTIC PHYSICS SYLLABUS

1. Calibration of x-ray equipment—measurement of free-air output, measurement of HVL, cone factors; test of inverse square law.

2. Tissue Dose—phantoms; back-scatter factor—variation with treat- ment area; HVL and depth of underlying tissue; depth dose curves—

variation with treatment area, source—skin distance, HVL and type of cone; tissue-air ratios; measurement of back-scatter factor and percentage depth dose; calculation of back-scatter factor and per- centage depth dose for points off central axis; lsodose curves; In- tegral dose; exit dose; use of bolus, etc., comparison of depth dose values with different radiation sources.

3. Correction for Body Inhomogeneities—spectral distributions of scat- tered radiation; variation of HVL with irradiated tissue; effects of bone, lung etc., on depth dose curves; dose within cavities In bone;

density of bone; effect of bone position in tissue on depth dose curves.

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4. Beam Direction Devices—pin and arc; back pointer; protractor, etc.

6. Treatment Simulators—principles involved, comparison of radio- therapeutic and radiological equipment and techniques.

6. Treatment Techniques—cross fire; multiple field; rotation; grids;

wedges, etc.

7. Use of Sealed Radioactive Sources—specific gamma-ray emission;

clinical applications using sealed sources—Paterson Parker rules;

Manchester techniques; Sievert integrals; radiographic control of implants; dosage with gamma-ray emitters other than radium and radon; integral dose; dosage using beta-ray applicators.

8. Clinical Uses of Unsealed Radioactive Isotopes—diagnostic pro- cedures with isotopes; Isotope scanning; dosimetry of the internally administered isotopes; dose administered from diagnostic pro- cedures; therapeutic treatments with unsealed sources; integral dose.

9. Electron Dosimetry—sources of electron beams; measurement of in- tensity of absorbed dose; dose distribution in tissue.

10. Neutron Dosimetry—sources of neutron beams; relationship between neutron energy and biological response; dosemeters for measure- ment of neutron dose; dose distribution in tissue.

11. Inaccuracies Arising in Dosimetry—use of incorrect settings, factors and tables; variation of line voltage and frequencies; incorrect loca- tion and size of tumours; incorrect beam alignment, faulty cones;

variation of spectra of beam In tissue; variation of absorbed dose with densities of tissue; biological response effects; incorrect place- ment of radioactive sources etc.

12. Radiation Protection—revision of section in Part 1 and practical ap- plication in radiotherapeutic practice.

PRACTICAL WORK Candidates are advised to arrange attendances at equipment calibration sessions, treatment planning departments, isotope scanning and isotope treatment sessions, and physics departments to experience at first hand the applications of radiotherapeutic physics in their own and allied hospitals and clinics.

Books Prescribed textbook for Parts I and II:

Johns H E The Physics of Radiology, 2nd ed Thomas 1964 Recommended for reference:

Wagner H N Principles of Nuclear Medicine, Saunders 1968

Recommendations of the International Commission on Radiological Pro- tection ICRP Publications 2, 3, 4, 5, 9, Pergamon Press

Revised Radiation Protection Standards NH & MRC, 1967

Code of Practice for the Control and Safe Handling of Sealed Radio- active Sources Used in Radiation Therapy (other than Teletherapy), NH & MRC 1962. Special Report Series No. 11

Code of Practice for Nursing Staff Exposed to Ionizing Radiations from Radioactive Substances NH & MRC 1965

Safe Handling of Corpses Containing Radioactive Substances, NH &

MRC 1966

Notes on Medical Procedure for Radiation Accidents and Radioactive Contamination, NH & MRC 1968

(Publications of NH & MRC are available on request, free of charge from the Australian Radiation Laboratory, 36 Lonsdale Street, Melbourne.

3000.)

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EXAMINATION Sections of the Radiotherapy written paper and part of the oral examinations will cover this subject.

RADIOTHERAPY

The candidate will be expected to possess a sound knowledge of patho- logical, medical and surgical aspects of all conditions for which any form of radiation therapy is a recognized treatment. In addition, detailed knowledge of all technical procedures in Radiotherapy will be required, together with an understanding of the general principles of radiation bio- logy. The candidate should be able to carry out the prescription, planning and calculating of treatment, and should be able to demonstrate the physi- cal principles involved. He should be familiar with the detailed organiza- tion of a radiotherapeutic department.

BOOKS Recomended for reference:

Cade S S Malignant Disease and Its Treatment by Radium, Wright 1952 McKee & Cipollaro X-rays and Radium In The Treatment of Diseases of.

The Skin, Lea & Febiger 1947

Paterson Treatment of Malignant Disease by Radium and X-rays, Arnold Meredith Radium Dosage, the Manchester System, Livingstone

Carling, Windeyer & Smithers British Practice in Radio Therapy, Butter- worth 1955

Beirwalters W H Johnson P C & Solari A J Clinical Use of Radioiso- topes, Saunders 1957

Mitchell J S Studies in Radiotherapeutics, Blackwell 1960

A knowledge of appropriate matter in current periodicals in the English language will be expected.

EXAMINATION One 3-hour written paper in Radiotherapy—Clinical. One 3-hour written paper in Radiotherapy—Radiation Biology, applied _Radio- therapeutic Physics, and Radiation Protection and clinical and oral examinations.