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T-5, r. 11 - Regulation respecting the standards for diploma or training equivalence for the issue of a permit by the Ordre des technologues en imagerie médicale, en radio-oncologie et en électrophysiologie médicale du Québec
Section 3
Disposition versions
3. (See French Edition).
3. A candidate holding a diploma issued by an educational institution outside Québec shall be granted a diploma equivalence for the purposes of the issue of a medical imaging technologist’s permit in the field of radiodiagnosis, a medical imaging technologist’s permit in the field of nuclear medicine or a radiation oncology technologist’s permit if the diploma was issued upon completion of studies of a level equivalent to the college level comprising a minimum of training hours apportioned as follows:
(1) 2,805 hours of training including 2,125 hours of specific training in radiodiagnostic technology apportioned as follows:
(a) 100 hours of anatomy and physiology applied to radiodiagnostics;
(b) 115 hours of physics applied to radiodiagnostics;
(c) 115 hours on radiodiagnostic apparatus;
(d) 50 hours in pharmacology and medication administration methods;
(e) 60 hours of care and health and safety in radiodiagnostics;
(f) 55 hours of assistance relations and communication in radiodiagnostics;
(g) 80 hours of image production in radiodiagnostics;
(h) 75 hours of radioprotection;
(i) 275 hours of examination methods in general radiology, tomodensitometry and ultra-sonography;
(j) 50 hours of examination methods in radiology and magnetic resonance imagery;
(k) 920 hours of clinical practice in general radiodiagnostics;
(l) 115 hours of clinical practice in ultra-sonography; and
(m) 115 hours of clinical practice in tomodensitometry;
(2) 2,925 hours of training including 2,260 hours of specific training in nuclear medicine technology apportioned as follows:
(a) 60 hours of chemistry applied to nuclear medicine;
(b) 45 hours of measuring and image production in nuclear medicine;
(c) 75 hours of electronics applied to nuclear medicine;
(d) 60 hours on the effects of radiation on matter and living beings;
(e) 105 hours on mathematical problems in nuclear medicine;
(f) 60 hours in biochemistry applied to nuclear medicine;
(g) 45 hours of care methods in nuclear medicine;
(h) 75 hours in radiopharmacology;
(i) 60 hours of health and safety and radioprotection in nuclear medicine;
(j) 90 hours of anatomy and physiology applied to nuclear medicine;
(k) 175 hours on apparatus in nuclear medicine;
(l) 60 hours of assistance relations and communication in nuclear medicine;
(m) 75 hours in data input in nuclear medicine;
(n) 75 hours of quality control in nuclear medicine;
(o) 75 hours on the components of urinary and central nervous systems;
(p) 60 hours on the components of the heart and circulatory system;
(q) 105 hours on the components of the osteo-articulatory and endocrinian systems;
(r) 90 hours on the components of the digestive and respiratory systems and other systems; and
(s) 870 of clinical practice; or
(3) 2,595 hours of training including 1,915 hours of specific training in radiation oncology technology apportioned as follows:
(a) 100 hours of anatomy and physiology applied to radiation oncology;
(b) 125 hours of physics applied to radiation oncology;
(c) 60 hours of health and safety and radioprotection;
(d) 75 hours on apparatus and teleradiotherapy;
(e) 95 hours of dosimetry;
(f) 60 hours of radiation oncology;
(g) 160 hours of care methods in external radiotherapy;
(h) 45 hours on the making of accessories in radiation oncology;
(i) 40 hours in brachytherapy;
(j) 95 hours of simulation methods;
(k) 60 hours of assistance relations and communication in radiation oncology;
(l) 700 hours of clinical practice in external radiotherapy;
(m) 150 hours of clinical practice in simulation; and
(n) 150 hours of clinical practice in dosimetry.
3. A candidate holding a diploma issued by an educational institution outside Québec shall be granted an equivalence of diploma if the diploma was issued upon completion of studies of a level equivalent to the college level comprising a minimum of training hours apportioned as follows:
(1) 2,805 hours of training including 2,125 hours of specific training in radiodiagnostic technology apportioned as follows:
(a) 100 hours of anatomy and physiology applied to radiodiagnostics;
(b) 115 hours of physics applied to radiodiagnostics;
(c) 115 hours on radiodiagnostic apparatus;
(d) 50 hours in pharmacology and medication administration methods;
(e) 60 hours of care and health and safety in radiodiagnostics;
(f) 55 hours of assistance relations and communication in radiodiagnostics;
(g) 80 hours of image production in radiodiagnostics;
(h) 75 hours of radioprotection;
(i) 275 hours of examination methods in general radiology, tomodensitometry and ultra-sonography;
(j) 50 hours of examination methods in radiology and magnetic resonance imagery;
(k) 920 hours of clinical practice in general radiodiagnostics;
(l) 115 hours of clinical practice in ultra-sonography; and
(m) 115 hours of clinical practice in tomodensitometry;
(2) 2,925 hours of training including 2,260 hours of specific training in nuclear medicine technology apportioned as follows:
(a) 60 hours of chemistry applied to nuclear medicine;
(b) 45 hours of measuring and image production in nuclear medicine;
(c) 75 hours of electronics applied to nuclear medicine;
(d) 60 hours on the effects of radiation on matter and living beings;
(e) 105 hours on mathematical problems in nuclear medicine;
(f) 60 hours in biochemistry applied to nuclear medicine;
(g) 45 hours of care methods in nuclear medicine;
(h) 75 hours in radiopharmacology;
(i) 60 hours of health and safety and radioprotection in nuclear medicine;
(j) 90 hours of anatomy and physiology applied to nuclear medicine;
(k) 175 hours on apparatus in nuclear medicine;
(l) 60 hours of assistance relations and communication in nuclear medicine;
(m) 75 hours in data input in nuclear medicine;
(n) 75 hours of quality control in nuclear medicine;
(o) 75 hours on the components of urinary and central nervous systems;
(p) 60 hours on the components of the heart and circulatory system;
(q) 105 hours on the components of the osteo-articulatory and endocrinian systems;
(r) 90 hours on the components of the digestive and respiratory systems and other systems; and
(s) 870 of clinical practice; or
(3) 2,595 hours of training including 1,915 hours of specific training in radiation oncology technology apportioned as follows:
(a) 100 hours of anatomy and physiology applied to radiation oncology;
(b) 125 hours of physics applied to radiation oncology;
(c) 60 hours of health and safety and radioprotection;
(d) 75 hours on apparatus and teleradiotherapy;
(e) 95 hours of dosimetry;
(f) 60 hours of radiation oncology;
(g) 160 hours of care methods in external radiotherapy;
(h) 45 hours on the making of accessories in radiation oncology;
(i) 40 hours in brachytherapy;
(j) 95 hours of simulation methods;
(k) 60 hours of assistance relations and communication in radiation oncology;
(l) 700 hours of clinical practice in external radiotherapy;
(m) 150 hours of clinical practice in simulation; and
(n) 150 hours of clinical practice in dosimetry.
