Abstract A diagnostic reference level (DRL) is an investigational level used to identify unusual high radiation doses in Nuclear Medicine procedures. DRLs are suggested action levels above which a facility should review its methods and determine if acceptable image quality can be achieved at lower doses. The high specific activity of 99mTc makes it suitable as a first pass agent, for multiple or sequential studies. Is preferred to 99mTc - pertechnetate. A certain amount of radiopharmaceuticals was injected into each patient and was immediately imaged with gamma camera to calculate the activity through the conjugated view method. According to the American Association of Physics in Medicine (AAPM) recommendation that the radiation dose for bone scan ( 99mTc –MDP) should be between 555 MBq (15 mCi) and 970 MBq (26 mCi) , this study showed that the patients received a radiation dose less than 26 mCi with acceptable image quality. Therefore this study can be considered as a basis for the establishment of dose reference level activity for bone scan of nuclear medicine departments in Sudan.
List of Contents
Title Page No
I اآلية
Dedication
II
Acknowledgment
III
List of Contents
IV
List of Table
VII
List of Figures
VIII
Abbreviations
IX
English Abstract
X
يهخص انثحث
XI
Chapter One
Introduction
1.1 Introduction
1
1.2 Problem of the study
3
1.3 Objective of study
3
1.4 Thesis outline
4
Chapter Two
Theoretical Background and Previous Studies
2.1 Skeleton Anatomy and Physiology 5
2.2 Radiopharmaceuticals and Imaging Techniques 7
V
2.3 Bone Imaging agents 8
2.4
99mTc99Mo Generator 9
2.5 Elution of the 99Mo → 99mTc generator 10
2.6 Properties of technetium – 99m 12
2.7 Technetium 99m-Labeled
Radiopharmaceuticals
16
2.8 Laboratory techniques 17
2.9 Quality control tests of radiopharmaceuticals 17
2.9.1 Molybdenum breakthrough test 18
2.9.2 Aluminum ion breakthrough test 19
Previous studies 20
Chapter Three
Material and methods
3.1 Materials of the study 23
3.1.1 Dose Calibrator 23
3.1.2
99mTc 23
3.1.3
99mTc -Phosphonate Radiopharmaceuticals
(MDP)
24
3.2 Methods of Data collection and data analysis 25
Chapter four
VI
Results
Results 26
Chapter Five
5.1 Discussion 30
5.2 Conclusion 32
5.3 Recommendations 33
References 34
Appendixes 37
Ahmed, O (2022). Establishment of National Diagnostic Reference Level for bone Radiation Doses in Nuclear Medicine Department in Khartoum – Sudan. Afribary. Retrieved from https://tracking.afribary.com/works/establishment-of-national-diagnostic-reference-level-for-bone-radiation-doses-in-nuclear-medicine-department-in-khartoum-sudan
Ahmed, Ola "Establishment of National Diagnostic Reference Level for bone Radiation Doses in Nuclear Medicine Department in Khartoum – Sudan" Afribary. Afribary, 10 Sep. 2022, https://tracking.afribary.com/works/establishment-of-national-diagnostic-reference-level-for-bone-radiation-doses-in-nuclear-medicine-department-in-khartoum-sudan. Accessed 27 Nov. 2024.
Ahmed, Ola . "Establishment of National Diagnostic Reference Level for bone Radiation Doses in Nuclear Medicine Department in Khartoum – Sudan". Afribary, Afribary, 10 Sep. 2022. Web. 27 Nov. 2024. < https://tracking.afribary.com/works/establishment-of-national-diagnostic-reference-level-for-bone-radiation-doses-in-nuclear-medicine-department-in-khartoum-sudan >.
Ahmed, Ola . "Establishment of National Diagnostic Reference Level for bone Radiation Doses in Nuclear Medicine Department in Khartoum – Sudan" Afribary (2022). Accessed November 27, 2024. https://tracking.afribary.com/works/establishment-of-national-diagnostic-reference-level-for-bone-radiation-doses-in-nuclear-medicine-department-in-khartoum-sudan