Literature DB >> 33623508

Ratios of internal doses deposited in different organs to the whole body when such organ is adopted as source of 18F-fluorodeoxyglucose, a Monte Carlo Geant4 study on a male medical internal radiation dose phantom.

Jaafar El Bakkali1,2, A Doudouh1,3, A Biyi1,3, K Bouyakhlef3, O Ait Sahel1, Y Benameur1.   

Abstract

In the present study, the last stable version of Monte Carlo Geant4 code known as Geant4.10.3 has been used for measuring internal dose ratios to the whole body for about 40 organs. This, by performing a Monte Carlo model of 18F-fluorodeoxyglucose (18F-FDG) inside different organs of medical internal radiation dose male phantom, mimics a human male adult of 70 kg. A dedicated Geant4 user code has been developed in the top of one offered by Geant4 Monte Carlo toolkit and so-called human phantom. Several Monte Carlo simulations have been carried out, and in each of them, we have taken up such organ as source of 18F-FDG with a small amount of radioactivity, evenly distributed across its volume, and we measure ratios of absorbed doses deposited in organs to the whole body. The results have shown that there are radiation dose contributions from surrounding organs and their gravities are so variable; some organs have near-local character; thus, almost all radiations are locally deposited, which generally do not affect surrounding ones mainly including adrenals, thyroid, clavicles, thymus, testes, bladder, pancreas, scapula and upper spine; whereas, it is not the case for many other organs in which radiation doses are deposited outside of their parent volumes. In addition, absorbed doses in some organs that have high-tissue weighting factors, namely colon, lungs, stomach, bladder, thyroid, and liver are seriously affected by radioactivity of surrounding muscle organs, the gravity of such affectation is mainly growth when a patient is identified as having hyperglycemia or undergoing a hard physical activity. Copyright:
© 2020 World Journal of Nuclear Medicine.

Entities:  

Keywords:  Geant4; Monte Carlo; internal dosimetry; medical internal radiation dose phantom

Year:  2020        PMID: 33623508      PMCID: PMC7875044          DOI: 10.4103/wjnm.WJNM_58_19

Source DB:  PubMed          Journal:  World J Nucl Med        ISSN: 1450-1147


INTRODUCTION

Today, nuclear medical imaging techniques that employ radiopharmaceuticals such as positron emission tomography (PET) scan and gamma camera are widely used around the world in many hospitals as in medical centers, and their use continues to increase sharply. Historically, when they first appeared, they brought out an interesting donation in diagnosis as in therapy of cancer. Since these techniques use radiopharmaceutical products which contain radioactive materials, the radiation protection area is a subject of many scientific researchers around the world which mainly attempt to study how to protect patient from biologic effect of ionizing radiations and at the same time obtaining a good diagnostic image quality. During a nuclear fluorodeoxyglucose PET/computed tomography (FDG PET/CT) scan, the patient is irradiated by two distinct sources of radiations: external and internal. The dose absorbed by patient from an external radiation source comes from the CT scanner. This last is coupled to the PET scanner to well-located regions where there are probably considerable hyperfixations of the radiopharmaceutical, this by producing a fusion image in which metabolic image is superimposed on anatomical one. Whereas, the internal dose results from the intravenous injection of patient by a given radiopharmaceutical product. Through this article, we will focus on this internal contribution of radiation absorbed dose. The accurate knowledge of doses absorbed by organs of patient injected by such radiopharmaceutical product is essential to avoid harmful effects of immediate ionizing radiation such as burns, fibrosis and cataract, and long-term effects such as cancers and leukemias. Today, these absorbed doses cannot be perfectly known; but instead, they can only be well estimated because there are many factors which limit their knowledge including heterogeneity character of the radioactivity distributed into tissue level and misunderstanding of cumulating radioactivity in a particular organ. The International Commission on Radiological Protection (ICRP) models which are based on the biokinetic data of different radiopharmaceuticals allow one to estimate radiation dose absorbed by each organ and also for effective dose received by a whole body; this is according to the radioactive activity injected and also depends on the patient's age range (adult, 15-year-old child, 10-year-old child, 5-year-old child, and 1-year-old child). For many years, some commercial and also free software have been developed to facilitate the calculation of patient dosimetric data, thereby following the ICRP models, namely MIRDOSE,[1] RADAR,[2] OLINDA/EXM,[3] DOSEFX,[4] and recently RadioPharmaDose.[5] However, the calculation of patient dosimetric data performed by these software does not take into account many factors such as the weight of the patient, his state of health, and other morphological and physiological factors. To properly estimate internal dose absorbed by different structures assembling the body of a patient administered by a radiopharmaceutical, three different levels of structure must be taken into account, namely the organ, the tissue, and the cell. In this article, we focus on the level of the organ because we are interested in the field of radiation protection, while the other two levels are the subjects of metabolic radiotherapy. Since the knowing of the absorbed dose received by a particular patient is so more complicated task, that demand to invest anatomical information offered by CT scan and metabolic one retrieved from PET scan, we just focus on exploiting anatomical information offered by a medical internal radiation dose (MIRD) male phantom mimicking a human male adult of about 70 Kg. In this research paper, we use Monte Carlo Geant4 code which is a powerful tool for medical physics applications as it is well showed by many valuable works in radiotherapy,[678] brachytherapy,[9] and nuclear medicine.[10]

MATERIALS AND METHODS

The last known version of Geant4 is a software (version 10.3, developed by the Geant4 Collaboration, toolkit, Geant 4) has been used to perform this work. A Geant4-based user code has been developed in the top of a Geant4 example called human phantom; this aims to calculate internal doses deposited in thirty eight organs constituting the male MIRD phantom as shown in Figure 1.
Figure 1

Monte Carlo Geant4 model of male medical internal radiation dose phantom

Monte Carlo Geant4 model of male medical internal radiation dose phantom Regarding the physics of the problem, positron is used as primary particle for mimicking FDG-F18 radiopharmaceutical product; the Geant4 physics model named emstandard_opt2 has been used in this work because it is recommended for modeling the transport of photons and charged particles for medical physics purpose. Going more into program details, thirty-eight Monte Carlo subsimulations have been carried out in Ubuntu 14 Linux operating system installed on a Lenovo Workstation that have 12 CPU cores running at speed of 3 GHz. In each of Monte Carlo simulation considered in this work, we adopt such organ as a source of 18F-FDG, and then, we calculate ratio of internal dose deposited in each organ to the whole body. To ensure a uniform distribution of positrons across such organ volume, three-dimensional positron positions are loaded from a prepared data file having the same name as the target organ with an extension of “.dat” and containing all points that belong to the organ volume. An activity (A0 = 6 Bql) has been considered in each of Monte Carlo simulation, which finally leads to simulate about 6 e + 04 positrons (taken into account that λ_F-18 = 1.05241 e-04 and N_positrons = A0/λ_F-18). Regarding F-18 decay physics process, positrons are emitted by F-18 with a given kinetic energy, and they are not always at rest during their annihilation with electrons of human tissues. The energetic distribution of positrons has been assumed to fit Rayleigh distribution where the maximum positron energy was fixed to the one corresponding to 18F decay, numerically, 634 KeV. The Rayleigh distribution shown in Figure 2 has been constructed using the following formula:
Figure 2

Energy spectrum for 18F positron emission produced by GNU-Root data analyzing

Energy spectrum for 18F positron emission produced by GNU-Root data analyzing Whereas P1 = 0.2 MeV and P2 is a random number between 0 et 1.

RESULTS

Thirty-eight Monte Carlo Geant4 simulations have been considered in this work. The average CPU time spent by these Monte Carlo simulations was about 276 min for an amount of 18F-FDG of 6 Bql, which is equivalent to take about 6 e+04 positrons as primary events. The given results show ratios of absorbed doses in all organs to the whole body (RDWB) in a case in which a particular organ is presented as a source of 18F-FDG. The results are presented in Tables 1-38. The values those are styled in bold underlined font in Tables 1-38 are corresponding to ones of organs which are taken as sources of FDG-F18.
Table 1

RDWB values when brain is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain65.76Lower large intestine0.24Right scapula0.48
Head2.15Male genitalia1.87Right testis0.43
Heart0.2Middle lower spine0.41Skull11.62
Left adrenal0.01Pancreas0.17Small intestine0.17
Left arm bone0.28Pelvis0.28Spleen0.33
Left clavicle1.28Rib cage0.29Stomach0.18
Left kidney0.29Right adrenal0.30Thymus0.49
Left leg1.8Right arm bone0.23Thyroid1.59
Left leg bone0.65Right clavicle0.80Trunk0.41
Left lung0.33Right kidney0.23Upper large intestine0.18
Left scapula0.62Right leg0.96Upper spine2.94
Left testis0.72Right leg bone0.54Urinary bladder0.23
Liver0.18Right lung0.37

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 38

RDWB values when urinary bladder is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.02Lower large intestine0.65Right scapula0.06
Head0.05Male genitalia0.52Right testis0.39
Heart0.02Middle lower spine0.05Skull0.04
Left adrenal0.01Pancreas0.02Small intestine0.20
Left arm bone0.06Pelvis0.23Spleen0.03
Left clavicle0.02Rib cage0.03Stomach0.04
Left kidney0.05Right adrenal0.05Thymus0.02
Left leg0.23Right arm bone0.04Thyroid0.06
Left leg bone0.11Right clavicle0.03Trunk0.19
Left lung0.04Right kidney0.08Upper large intestine0.17
Left scapula0.07Right leg0.11Upper spine0.02
Left testis0.43Right leg bone0.09Urinary bladder95.71
Liver0.04Right lung0.02

RDWB: Ratios of absorbed doses in all organs to the whole body

RDWB values when brain is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when head is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when heart is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left adrenal is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left arm bone is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left clavicle is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left kidney is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left leg is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left leg bone is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left lung is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left scapula is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when left testis is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when liver is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when lower large intestine is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when male genitalia is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when middle lower spine is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when pancreas is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when pelvis is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when rib cage is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right adrenal is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right arm bone is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right clavicle is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right kidney is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right leg is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right leg bone is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right lung is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right scapula is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when right testis is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when skull is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when small intestine is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when spleen is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when stomach is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when thymus is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when thyroid is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when trunk is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when upper large intestine is adopted as source of 18F-FDG RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when upper spine is adopted as source 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body RDWB values when urinary bladder is adopted as source of 18F-fluorodeoxyglucose RDWB: Ratios of absorbed doses in all organs to the whole body

DISCUSSION

We start this discussion by analyzing the ratio of internal dose to the whole body locally deposited in such organ chosen as source of 18F-FDG. With a glance, at the data in Tables 1-38, it can be seen that internal doses are not entirely locally deposited in organs in which the 18F-FDG came from; however, they are extended to neighboring organs. The gravity of this local dose deposition varies from one organ to another and depends on tissue physics and physiological characteristics on the one side and physics proprieties of radioactive substance on the other side. Indeed, the results have shown that organs in which almost ratios of the radiation doses are locally deposited are in the first place as follows: right adrenal, left adrenal, thyroid, left clavicle, right clavicle, thymus, right testis, bladder, left testis, right scapula, pancreas, left scapula, and upper spine, with values, respectively, of 99.04%, 98.94%, 98.89%, 98.67%, 98.17%, 98.01%, 96.05%, 95.71%, 94.96%, 92.88%, 92.47%, 92.03%, and 90.41%. With regard to radiation emergence, these organs are seemed to be less threatening to surrounding ones as the radiation doses seem to have nearly a local character. It should emphasize here, that, ratios of absorbed doses in the right and left sides of a given organ are not quite identical; this is due to the fact that the human body members are not perfectly symmetrical in terms of position, shape, and number. In the second place, we found the following ones: right kidney, left kidney, spleen, lower large intestine, heart, stomach, and upper large intestine, with RDWB values, respectively, of 88.54%, 86.25%, 83.64%, 78.49%, 78.19%, 74.39%, and 73.63%. The remained organs classified in the third place are presented with values between 70% and 30%, beginning with male genitalia (value of 68.56%) and ending with ribcage (38.57%). Finally, muscle organs seem to have an opposed situation; thus, quasi total absorbed doses are deposited outside volumes in which they were created. Indeed, results have shown that trunk has only value of 4.22%, left leg 27.31%, right leg 25.39%, and head 22.77%. We continue this discussion by addressing internal dose contributions brought by surrounding organs in raising irradiation of the organ in question; organs with contributions greater or equal than 2% have been considered in this discussion. We start this part of the discussion by taking into consideration organs that have the largest tissue weighting factors and we finish by ones having the smallest ones. Indeed, the colon, lungs, and stomach are among the most radiosensitive organs with a value of 0.12, this, according to ICRP 103 (ICRP 2007). Regarding first organ, total absorbed dose seems to be relatively influenced by latent radioactivities on trunk (9.89%), pelvis (9.77%), legs organs (8.33%), middle lower spine (4.43%), and finally, on liver (4.13%). The gravity of such influence can be elevated when a patient is identified as having hyperglycemia or in case of strenuous physical activity because, physiologically, the radiotracer seems to be more cumulated in muscle parts of human body. As of lungs, the things are so different; the right lung is irradiated (about 2.39%) of radiations leaved liver and the two lungs together are irradiated of 5.97% of radiations leaved rib cage; there is also a radiation contribution from trunk to lungs by a value of 2.6% averagely. Respecting stomach, there are smallest contributions of liver (2.21%) and trunk (3.01%). Generally, it is found that the organs of high sensibility to radiations are affected by radiation state of some surrounding organs. Continually, always talking about tissue weighting factors, bladder, liver, and thyroid come to the second place, with a value of 0.08. The bladder seems to be damaged by radiation leaving trunk of about 5.74% of total internal dose received by whole body when the trunk is taken as source of 18F-FDG. There is also a contribution from legs with a value of 5.61% and colon with an average value of 2%. The liver seems to be damaged by radiation leaving trunk of about 2.59% of total internal dose received by whole body when the trunk is taken as source of 18F-FDG. With regard to the thyroid, there is a contribution from head of 18.50%, skull of 2.58%, and finally, trunk of 2.55% of total dose received by whole body. The other organs with less significance in terms of tissue-weighting factors are not discussed here.

CONCLUSION

Through this Monte Carlo Geant4 study, we have shown that the total absorbed dose of 18F-FDG deposited in such organ depends on radiation dose contributions of surrounding organs; gravity of such dependence seems to vary from strong to weak. On the other hand, we have found that organs of high sensibility to radiations, namely colon, lungs, stomach, bladder, thyroid, and liver are relatively affected by radioactivity cumulating in some surrounding organs including those of muscles, which can lead ultimately to elevate absorbed doses to the cited organs in case of hyperglycemia patient or in case of patient who undergoes strenuous physical activity in which abnormal hyperfixations will be appeared in muscle tissues.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.
Table 2

RDWB values when head is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain3.78Lower large intestine0.27Right scapula0.98
Head22.77Male genitalia2.87Right testis0.60
Heart0.62Middle lower spine1.54Skull7.87
Left adrenal0.03Pancreas0.65Small intestine0.28
Left arm bone0.39Pelvis0.31Spleen0.44
Left clavicle3.74Rib cage0.68Stomach0.28
Left kidney0.32Right adrenal0.63Thymus2.47
Left leg2.09Right arm bone0.39Thyroid18.50
Left leg bone0.74Right clavicle2.72Trunk0.83
Left lung1.05Right kidney0.42Upper large intestine0.23
Left scapula1.17Right leg1.03Upper spine16.03
Left testis0.54Right leg bone0.56Urinary bladder0.8
Liver0.28Right lung1.12

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 3

RDWB values when heart is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.14Lower large intestine0.15Right scapula0.58
Head0.25Male genitalia0.77Right testis0.39
Heart78.19Middle lower spine1.48Skull0.18
Left adrenal0.93Pancreas0.99Small intestine0.19
Left arm bone0.24Pelvis0.17Spleen0.61
Let clavicle0.47Rib cage0.54Stomach0.67
Left kidney0.48Right adrenal1.22Thymus1.79
Left leg0.67Right arm bone0.25Thyroid0.40
Left leg bone0.26Right clavicle0.27Trunk0.60
Left lung1.94Right kidney0.46Upper large intestine0.21
Left scapula0.54Right leg0.34Upper spine0.21
Left testis0.38Right leg bone0.19Urinary bladder0.15
Liver0.99Right lung1.68

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 4

RDWB values when left adrenal is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.01Lower large intestine0.00Right scapula0.00
Head0.01Male genitalia0.01Right testis0.01
Heart0.04Middle lower SPINE0.10Skull0.01
Left adrenal98.94Pancreas0.12Small intestine0.10
Left arm bone0.01Pelvis0.01Spleen0.10
Left clavicle0.02Rib cage0.02Stomach0.04
Left kidney0.16Right adrenal0.09Thymus0.01
Left leg0.01Right arm bone0.01Thyroid0.02
Left leg bone0.01Right clavicle0.01Trunk0.02
Left lung0.06Right kidney0.04Upper large intestine0.01
Left scapula0.02Right leg0.00Upper spine0.01
Left testis0.00Right leg bone0.02Urinary bladder0.00
Liver0.03Right lung0.03

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 5

RDWB values when left arm bone is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.41Lower large intestine1.18Right scapula0.38
Head0.62Male genitalia2.17Right testis0.74
Heart0.65Middle lower spine0.76Skull0.51
Left adrenal0.37Pancreas1.54Small intestine0.79
Left arm bone66.74Pelvis1.01Spleen2.38
Left clavicle0.46Rib cage1.07Stomach1.47
Left kidney1.16Right adrenal0.34Thymus0.87
Left leg1.85Right arm bone0.13Thyroid0.10
Left leg bone0.80Right clavicle0.15Trunk1.08
Left lung1.80Right kidney0.61Upper large intestine0.51
Left scapula2.72Right leg1.16Upper spine0.43
Left testis1.13Right leg bone0.73Urinary bladder0.41
Liver0.40Right lung0.37

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 6

RDWB values when left clavicle is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.05Lower large intestine0.01Right scapula0.01
Head0.08Male genitalia0.05Right testis0.03
Heart0.02Middle lower spine0.03Skull0.06
Left adrenal0.01Pancreas0.01Small intestine0.00
Left arm bone0.02Pelvis0.00Spleen0.01
Left clavicle98.67Rib cage0.04Stomach0.01
Left kidney0.00Right adrenal0.00Thymus0.13
Left leg0.07Right arm bone0.01Thyroid0.24
Left leg bone0.03Right clavicle0.07Trunk0.04
Left lung0.09Right kidney0.00Upper large intestine0.00
Left scapula0.05Right leg0.03Upper spine0.06
Left testis0.02Right leg bone0.02Urinary bladder0.00
Liver0.01Right lung0.02

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 7

RDWB values when left kidney is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.08Lower large intestine0.18Right scapula0.08
Head0.12Male genitalia0.37Right testis0.11
Heart0.19Middle lower spine0.85Skull0.08
Left adrenal2.89Pancreas1.26Small intestine0.42
Left arm bone0.18Pelvis0.21Spleen2.20
Left clavicle0.04Rib cage0.14Stomach0.7
Left kidney86.25Right adrenal0.50Thymus0.03
Left leg0.30Right arm bone0.06Thyroid0.08
Left leg bone0.10Right clavicle0.07Trunk0.29
Left lung0.23Right kidney0.50Upper large intestine0.40
Left scapula0.11Right leg0.13Upper spine0.11
Left testis0.06Right leg bone0.09Urinary bladder0.15
Liver0.28Right lung0.13

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 8

RDWB values when left leg is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.67Lower large intestine2.16Right scapula0.70
Head1.22Male genitalia9.89Right testis6.43
Heart0.57Middle lower spine0.73Skull0.88
Left adrenal1.59Pancreas0.78Small intestine0.74
Left arm bone0.66Pelvis1.82Spleen0.61
Left clavicle1.37Rib cage0.45Stomach0.42
Left kidney1.16Right adrenal1.81Thymus0.39
Left leg27.31Right arm bone0.75Thyroid0.10
Left leg bone11.17Right clavicle0.95Trunk1.23
Left lung0.74Right kidney1.03Upper large intestine0.62
Left scapula0.74Right leg4.07Upper spine0.52
Left testis8.34Right leg bone2.86Urinary bladder3.44
Liver0.49Right lung0.57

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 9

RDWB values when left leg bone is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.44Lower large intestine0.99Right scapula0.62
Head0.77Male genitalia4.65Right testis2.27
Heart0.26Middle lower spine0.42Skull0.53
Left adrenal1.03Pancreas0.16Small intestine0.45
Left arm bone0.31Pelvis1.06Spleen0.28
Left clavicle0.13Rib cage0.305Stomach0.38
Left kidney0.59Right adrenal0.01Thymus0.32
Left leg8.13Right arm bone0.44Thyroid0.35
Left leg bone63.24Right clavicle0.97Trunk0.70
Left lung0.29Right kidney0.54Upper large intestine0.39
Left scapula0.40Right leg2.03Upper spine0.50
Left testis2.96Right leg bone1.45Urinary bladder1.04
Liver0.27Right lung0.29

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 10

RDWB values when left lung is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.23Lower large intestine0.19Right scapula0.51
Head0.40Male genitalia1.02Right testis0.45
Heart2.92Middle lower spine1.46Skull0.34
Left adrenal1.78Pancreas1.49Small intestine0.22
Left arm bone0.82Pelvis0.21Spleen1.45
Left clavicle1.73Rib cage1.00Stomach1.20
Left kidney0.72Right adrenal1.46Thymus2.22
Left leg0.96Right arm bone0.17Thyroid0.79
Left leg bone0.38Right clavicle0.38Trunk0.81
Left lung68.12Right kidney0.39Upper large intestine0.20
Left scapula2.87Right leg0.45Upper spine0.57
Left testis0.35Right leg bone0.26Urinary bladder0.23
Liver0.49Right lung0.77

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 11

RDWB values when left scapula is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.13Lower large intestine0.06Right scapula0.11
Head0.20Male genitalia0.47Right testis0.31
Heart0.24Middle lower spine0.25Skull0.16
Left adrenal0.41Pancreas0.13Small intestine0.05
Left arm bone0.50Pelvis0.05Spleen0.19
Left clavicle0.40Rib cage0.67Stomach0.12
Left kidney0.10Right adrenal0.14Thymus0.24
Left leg0.38Right arm bone0.05Thyroid0.09
Left leg bone0.14Right clavicle0.10Trunk0.23
Left lung1.01Right kidney0.04Upper large intestine0.04
Left scapula92.03Right leg0.17Upper spine0.28
Left testis0.20Right leg bone0.11Urinary bladder0.06
Liver0.07Right lung0.12

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 12

RDWB values when left testis is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.02Lower large intestine0.09Right scapula0.00
Head0.02Male genitalia1.77Right testis2.43
Heart0.01Middle lower spine0.02Skull0.02
Left adrenal0.04Pancreas0.01Small intestine0.02
Left arm bone0.01Pelvis0.03Spleen0.02
Left clavicle0.01Rib cage0.01Stomach0.01
Left kidney0.03Right adrenal0.03Thymus0.00
Left leg0.07Right arm bone0.01Thyroid0.00
Left leg bone0.04Right clavicle0.01Trunk0.03
Left lung0.01Right kidney0.03Upper large intestine0.02
Left scapula0.02Right leg0.04Upper spine0.01
Left testis94.96Right leg bone0.03Urinary bladder0.11
Liver0.01Right lung0.01

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 13

RDWB values when liver is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.22Lower large intestine0.48Right scapula0.88
Head0.44Male genitalia2.00Right testis0.37
Heart2.64Middle lower spine1.94Skull0.32
Left adrenal2.27Pancreas4.21Small intestine1.50
Left arm bone0.32Pelvis0.71Spleen1.08
Left clavicle0.06Rib cage0.98Stomach2.21
Left kidney1.71Right adrenal5.51Thymus0.70
Left leg1.52Right arm bone1.12Thyroid0.16
Left leg bone0.62Right clavicle0.36Trunk1.23
Left lung0.94Right kidney4.32Upper large intestine2.15
Left scapula0.48Right leg0.81Upper spine0.42
Left testis0.64Right leg bone0.46Urinary bladder0.40
Liver51.43Right lung2.39

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 14

RDWB values when lower large intestine is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.16Lower large intestine78.49Right scapula0.14
Head0.25Male genitalia2.73Right testis2.20
Heart0.06Middle lower spine0.23Skull0.19
Left adrenal0.47Pancreas0.19Small intestine1.82
Left arm bone0.38Pelvis1.47Spleen0.22
Left clavicle0.10Rib cage0.09Stomach0.35
Left kidney0.34Right adrenal0.01Thymus0.08
Left leg0.87Right arm bone0.12Thyroid0.10
Left leg bone0.43Right clavicle0.09Trunk0.63
Left lung0.10Right kidney0.23Upper large intestine0.83
Left scapula0.16Right leg0.67Upper spine0.17
Left testis1.27Right leg bone0.51Urinary bladder3.56
Liver0.16Right lung0.11

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 15

RDWB values when male genitalia is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.07Lower large intestine1.27Right scapula0.06
Head0.13Male genitalia68.56Right testis11.64
Heart0.04Middle lower spine0.08Skull0.09
Left adrenal0.10Pancreas0.05Small intestine0.15
Left arm bone0.07Pelvis0.29Spleen0.06
Left clavicle0.06Rib cage0.05Stomach0.06
Left kidney0.09Right adrenal0.06Thymus0.08
Left leg0.85Right arm bone0.07Thyroid0.08
Left leg bone0.46Right clavicle0.01Trunk0.21
Left lung0.04Right kidney0.10Upper large intestine0.13
Left scapula0.06Right leg0.63Upper spine0.09
Left testis12.49Right leg bone0.40Urinary bladder1.20
Liver0.05Right lung0.07

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 16

RDWB values when middle lower spine is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.33Lower large intestine0.46Right scapula0.88
Head0.70Male genitalia1.76Right testis0.61
Heart2.12Middle lower spine51.94Skull0.41
Left adrenal4.48Pancreas2.70Small intestine1.54
Left arm bone0.43Pelvis0.78Spleen1.37
Left clavicle0.63Rib cage0.94Stomach1.28
Left kidney3.53Right adrenal2.81Thymus1.26
Left leg1.40Right arm bone0.39Thyroid0.73
Left leg bone0.51Right clavicle0.48Trunk1.15
Left lung1.73Right kidney3.61Upper large intestine1.13
Left scapula0.97Right leg0.71Upper spine1.99
Left testis0.32Right leg bone0.40Urinary bladder0.44
Liver1.40Right lung1.71

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 17

RDWB values when pancreas is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.03Lower large intestine0.06Right scapula0.06
Head0.05Male genitalia0.15Right testis0.10
Heart0.31Middle lower spine0.46Skull0.03
Left adrenal0.78Pancreas92.47Small intestine0.16
Left arm bone0.08Pelvis0.07Spleen0.65
Left clavicle0.08Rib cage0.09Stomach0.79
Left kidney0.58Right adrenal0.61Thymus0.06
Left leg0.14Right arm bone0.06Thyroid0.02
Left leg bone0.06Right clavicle0.01Trunk0.18
Left lung0.18Right kidney0.41Upper large intestine0.19
Left scapula0.10Right leg0.08Upper spine0.04
Left testis0.06Right leg bone0.04Urinary bladder0.04
Liver0.55Right lung0.15

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 18

RDWB values when pelvis is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.25Lower large intestine3.70Right scapula0.32
Head0.44Male genitalia1.99Right testis1.26
Heart0.24Middle lower spine0.97Skull0.29
Left adrenal0.32Pancreas0.56Small intestine3.54
Left arm bone0.64Pelvis66.86Spleen0.52
Left clavicle0.26Rib cage0.23Stomach0.56
Left kidney0.95Right adrenal0.28Thymus0.11
Left leg1.70Right arm bone0.66Thyroid0.28
Left leg bone0.96Right clavicle0.26Trunk1.46
Left lung0.23Right kidney1.15Upper large intestine2.53
Left scapula0.28Right leg1.11Upper spine0.33
Left testis1.45Right leg bone0.79Urinary bladder1.70
Liver0.51Right lung0.33

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 19

RDWB values when rib cage is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.47Lower large intestine0.39Right scapula4.40
Head0.92Male genitalia1.76Right testis0.73
Heart2.55Middle lower spine2.30Skull0.60
Left adrenal3.52Pancreas1.63Small intestine0.45
Left arm bone1.13Pelvis0.32Spleen1.95
Left clavicle3.31Rib cage38.57Stomach1.62
Left kidney1.32Right adrenal3.32Thymus2.76
Left leg1.76Right arm bone1.29Thyroid1.70
Left leg bone0.63Right clavicle2.58Trunk1.38
Left lung2.93Right kidney1.31Upper large intestine0.52
Left scapula3.90Right leg0.86Upper spine1.33
Left testis0.36Right leg bone0.52Urinary bladder0.15
Liver1.72Right lung3.04

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 20

RDWB values when right adrenal is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.01Lower large intestine0.00Right scapula0.01
Head0.01Male genitalia0.01Right testis0.01
Heart0.03Middle lower spine0.09Skull0.01
Left adrenal0.09Pancreas0.05Small intestine0.01
Left arm bone0.00Pelvis0.01Spleen0.02
Left clavicle0.00Rib cage0.02Stomach0.02
Left kidney0.04Right adrenal99.04Thymus0.01
Left leg0.04Right arm bone0.01Thyroid0.01
Left leg bone0.01Right clavicle0.01Trunk0.02
Left lung0.02Right kidney0.18Upper large intestine0.01
Left scapula0.01Right leg0.01Upper spine0.01
Left testis0.01Right leg bone0.01Urinary bladder0.00
Liver0.07Right lung0.05

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 21

RDWB values when right arm bone is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.37Lower large intestine0.40Right scapula2.11
Head0.54Male genitalia2.17Right testis1.33
Heart0.65Middle lower spine0.72Skull0.36
Left adrenal0.42Pancreas0.46Small intestine0.75
Left arm bone0.36Pelvis1.02Spleen0.40
Left clavicle0.49Rib cage0.99Stomach0.27
Left kidney0.35Right adrenal1.17Thymus0.50
Left leg2.18Right arm bone69.08Thyroid0.02
Left leg bone0.94Right clavicle0.84Trunk1.13
Left lung0.43Right kidney1.32Upper large intestine1.23
Left scapula0.33Right leg1.06Upper spine0.45
Left testis0.41Right leg bone0.58Urinary bladder0.44
Liver1.86Right lung1.87

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 22

RDWB values when right clavicle is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.05Lower large intestine0.02Right scapula0.05
Head0.08Male genitalia0.12Right testis0.05
Heart0.03Middle lower spine0.04Skull0.06
Left adrenal0.01Pancreas0.02Small intestine0.02
Left arm bone0.03Pelvis0.02Spleen0.04
Left clavicle0.04Rib cage0.05Stomach0.01
Left kidney0.07Right adrenal0.06Thymus0.12
Left leg0.09Right arm bone0.03Thyroid0.25
Left leg bone0.03Right clavicle98.17Trunk0.06
Left lung0.03Right kidney0.05Upper large intestine0.02
Left scapula0.02Right leg0.04Upper spine0.05
Left testis0.03Right leg bone0.03Urinary bladder0.03
Liver0.02Right lung0.09

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 23

RDWB values when right kidney is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.05Lower large intestine0.10Right scapula0.12
Head0.09Male genitalia0.28Right testis0.12
Heart0.19Middle lower spine0.87Skull0.06
Left adrenal0.50Pancreas0.43Small intestine0.42
Left arm bone0.06Pelvis0.21Spleen0.20
Left clavicle0.05Rib cage0.15Stomach0.27
Left kidney0.50Right adrenal3.29Thymus0.06
Left leg0.28Right arm bone0.19Thyroid0.08
Left leg bone0.11Right clavicle0.07Trunk0.28
Left lung0.12Right kidney88.54Upper large intestine0.44
Left scapula0.06Right leg0.17Upper spine0.09
Left testis0.08Right leg bone0.08Urinary bladder0.13
Liver1.02Right lung0.26

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 24

RDWB values when right leg is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.68Lower large intestine3.29Right scapula0.63
Head1.18Male genitalia11.37Right testis7.13
Heart0.39Middle lower spine0.73Skull0.88
Left adrenal1.59Pancreas0.64Small intestine0.90
Left arm bone0.83Pelvis1.73Spleen0.56
Left clavicle1.11Rib cage0.44Stomach0.47
Left kidney1.08Right adrenal0.49Thymus0.32
Left leg6.05Right arm bone0.43Thyroid1.24
Left leg bone3.26Right clavicle0.68Trunk1.19
Left lung0.55Right kidney0.93Upper large intestine0.62
Left scapula0.90Right leg25.39Upper spine0.57
Left testis7.56Right leg bone11.07Urinary bladder2.17
Liver0.37Right lung0.58

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 25

RDWB values when right leg bone is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.44Lower large intestine1.53Right scapula0.62
Head0.71Male genitalia4.26Right testis2.68
Heart0.23Middle lower spine0.40Skull0.54
Left adrenal2.22Pancreas0.20Small intestine0.44
Left arm bone0.58Pelvis1.16Spleen0.43
Left clavicle0.27Rib cage0.29Stomach0.28
Left kidney0.46Right adrenal0.66Thymus0.20
Left leg3.42Right arm bone0.24Thyroid0.21
Left leg bone1.72Right clavicle0.00Trunk0.70
Left lung0.28Right kidney0.59Upper large intestine0.32
Left scapula0.49Right leg6.71Upper spine0.28
Left testis2.71Right leg bone61.91Urinary bladder1.17
Liver0.28Right lung0.35

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 26

RDWB values when right lung is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.25Lower large intestine0.17Right scapula3.09
Head0.46Male genitalia1.10Right testis0.26
Heart2.48Middle lower spine1.41Skull0.33
Left adrenal0.93Pancreas0.66Small intestine0.21
Left arm bone0.19Pelvis0.21Spleen0.46
Left clavicle0.62Rib cage0.99Stomach0.40
Left kidney0.38Right adrenal2.63Thymus1.24
Left leg0.96Right arm bone0.87Thyroid0.52
Left leg bone0.38Right clavicle2.36Trunk0.79
Left lung0.78Right kidney0.86Upper large intestine0.24
Left scapula0.48Right leg0.50Upper spine0.53
Left testis0.46Right leg bone0.28Urinary bladder0.21
Liver1.48Right lung69.86

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 27

RDWB values when right scapula is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.10Lower large intestine0.05Right scapula92.88
Head0.23Male genitalia0.37Right testis0.15
Heart0.25Middle lower spine0.25Skull0.14
Left adrenal0.02Pancreas0.08Small intestine0.04
Left arm bone0.07Pelvis0.04Spleen0.05
Left clavicle0.08Rib cage0.64Stomach0.06
Left kidney0.08Right adrenal0.27Thymus0.25
Left leg0.34Right arm bone0.45Thyroid0.27
Left leg bone0.13Right clavicle0.23Trunk0.22
Left lung0.12Right kidney0.08Upper large intestine0.04
Left scapula0.07Right leg0.17Upper spine0.31
Left testis0.20Right leg bone0.10Urinary bladder0.03
Liver0.13Right lung1.01

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 28

RDWB values when right testis is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.01Lower large intestine0.01Right scapula0.01
Head0.01Male genitalia1.48Right testis96.05
Heart0.01Middle lower spine0.01Skull0.01
Left adrenal0.01Pancreas0.00Small intestine0.02
Left arm bone0.01Pelvis0.04Spleen0.00
Left clavicle0.00Rib cage0.01Stomach0.01
Left kidney0.01Right adrenal0.00Thymus0.00
Left leg0.07Right arm bone0.01Thyroid0.00
Left leg bone0.04Right clavicle0.01Trunk0.03
Left lung0.01Right kidney0.01Upper large intestine0.01
Left scapula0.02Right leg0.06Upper spine0.01
Left testis1.76Right leg bone0.04Urinary bladder0.11
Liver0.00Right lung0.01

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 29

RDWB values when skull is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain10.46Lower large intestine0.25Right scapula0.61
Head3.73Male genitalia1.99Right testis0.55
Heart0.25Middle lower spine0.56Skull59.33
Left adrenal0.09Pancreas0.22Small intestine0.18
Left arm bone0.24Pelvis0.32Spleen0.20
Left clavicle1.80Rib cage0.29Stomach0.19
Left kidney0.29Right adrenal0.43Thymus0.42
Left leg1.72Right arm bone0.21Thyroid2.58
Left leg bone0.63Right clavicle1.84Trunk0.42
Left lung0.38Right kidney0.17Upper large intestine0.14
Left scapula0.60Right leg0.85Upper spine5.96
Left testis0.79Right leg bone0.50Urinary bladder0.15
Liver0.21Right lung0.47

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 30

RDWB values when small intestine is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.18Lower large intestine3.07Right scapula0.38
Head0.37Male genitalia1.77Right testis0.75
Heart0.32Middle lower spine1.64Skull0.26
Left adrenal0.80Pancreas1.00Small intestine60.21
Left arm bone0.50Pelvis2.75Spleen0.94
Left clavicle0.05Rib cage0.24Stomach1.45
Left kidney1.70Right adrenal0.36Thymus0.11
Left leg1.26Right arm bone0.48Thyroid0.32
Left leg bone0.52Right clavicle0.26Trunk1.21
Left lung0.28Right kidney1.93Upper large intestine9.34
Left scapula0.32Right leg0.74Upper spine0.21
Left testis0.49Right leg bone0.44Urinary bladder1.79
Liver1.22Right lung0.33

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 31

RDWB values when spleen is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.06Lower large intestine0.18Right scapula0.14
Head0.14Male genitalia0.30Right testis0.10
Heart0.35Middle lower spine0.46Skull0.07
Left adrenal1.53Pancreas3.37Small intestine0.27
Left arm bone0.44Pelvis0.14Spleen83.64
Left clavicle0.30Rib cage0.27Stomach1.59
Left kidney2.74Right adrenal0.22Thymus0.11
Left leg0.36Right arm bone0.06Thyroid0.03
Left leg bone0.14Right clavicle0.06Trunk0.34
Left lung0.77Right kidney0.31Upper large intestine0.25
Left scapula0.24Right leg0.21Upper spine0.10
Left testis0.17Right leg bone0.11Urinary bladder0.05
Liver0.23Right lung0.15

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 32

RDWB values when stomach is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.14Lower large intestine0.51Right scapula0.16
Head0.21Male genitalia0.82Right testis0.34
Heart0.83Middle lower spine0.69Skull0.18
Left adrenal0.84Pancreas5.65Small intestine0.84
Left arm bone0.53Pelvis0.31Spleen2.83
Left clavicle0.11Rib cage0.40Stomach74.39
Left kidney1.54Right adrenal0.64Thymus0.17
Left leg0.77Right arm bone0.12Thyroid0.35
Left leg bone0.29Right clavicle0.18Trunk0.60
Left lung0.96Right kidney0.58Upper large intestine1.11
Left scapula0.33Right leg0.40Upper spine0.14
Left testis0.29Right leg bone0.23Urinary bladder0.27
Liver0.95Right lung0.27

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 33

RDWB values when thymus is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.03Lower large intestine0.01Right scapula0.04
Head0.05Male genitalia0.17Right testis0.05
Heart0.14Middle lower spine0.06Skull0.03
Left adrenal0.01Pancreas0.03Small intestine0.01
Left arm bone0.03Pelvis0.00Spleen0.02
Left clavicle0.25Rib cage0.07Stomach0.02
Left kidney0.01Right adrenal0.01Thymus98.01
Left leg0.04Right arm bone0.02Thyroid0.16
Left leg bone0.02Right clavicle0.13Trunk0.06
Left lung0.16Right kidney0.02Upper large intestine0.01
Left scapula0.07Right leg0.02Upper spine0.05
Left testis0.07Right leg bone0.01Urinary bladder0.00
Liver0.02Right lung0.09

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 34

RDWB values when thyroid is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.04Lower large intestine0.00Right scapula0.02
Head0.19Male genitalia0.02Right testis0.01
Heart0.02Middle lower spine0.02Skull0.00
Left adrenal0.00Pancreas0.01Small intestine0.00
Left arm bone0.01Pelvis0.00Spleen0.00
Left clavicle0.12Rib cage0.01Stomach0.01
Left kidney0.00Right adrenal0.01Thymus0.09
Left leg0.03Right arm bone0.01Thyroid98.89
Left leg bone0.01Right clavicle0.19Trunk0.02
Left lung0.02Right kidney0.00Upper large intestine0.00
Left scapula0.02Right leg0.02Upper spine0.09
Left testis0.01Right leg bone0.01Urinary bladder0.00
Liver0.01Right lung0.02

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 35

RDWB values when trunk is adopted as source of 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.63Lower large intestine3.24Right scapula1.74
Head1.10Male genitalia4.22Right testis2.81
Heart4.39Middle lower spine3.85Skull0.83
Left adrenal3.93Pancreas6.13Small intestine3.56
Left arm bone1.26Pelvis2.88Spleen2.51
Left clavicle2.03Rib cage1.40Stomach3.01
Left kidney2.75Right adrenal2.10Thymus4.05
Left leg2.70Right arm bone1.12Thyroid2.55
Left leg bone1.21Right clavicle2.48Trunk4.22
Left lung2.67Right kidney2.77Upper large intestine3.09
Left scapula1.91Right leg1.54Upper spine1.45
Left testis1.92Right leg bone0.99Urinary bladder5.74
Liver2.59Right lung2.60

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 36

RDWB values when upper large intestine is adopted as source of 18F-FDG

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.14Lower large intestine1.27Right scapula0.17
Head0.23Male genitalia1.19Right testis0.45
Heart0.24Middle lower spine0.88Skull0.17
Left adrenal0.26Pancreas1.00Small intestine7.09
Left arm bone0.28Pelvis1.38Spleen0.68
Left clavicle0.09Rib cage0.16Stomach1.42
Left kidney1.15Right adrenal0.09Thymus0.09
Left leg0.86Right arm bone0.39Thyroid0.30
Left leg bone0.34Right clavicle0.04Trunk0.73
Left lung0.22Right kidney1.21Upper large intestine73.63
Left scapula0.22Right leg0.43Upper spine0.14
Left testis0.71Right leg bone0.26Urinary bladder0.64
Liver1.16Right lung0.24

RDWB: Ratios of absorbed doses in all organs to the whole body

Table 37

RDWB values when upper spine is adopted as source 18F-fluorodeoxyglucose

OrganRDWB (%)OrganRDWB (%)OrganRDWB (%)
Brain0.59Lower large intestine0.05Right scapula0.22
Head1.50Male genitalia0.41Right testis0.16
Heart0.12Middle lower spine0.63Skull1.20
Left adrenal0.01Pancreas0.07Small intestine0.04
Left arm bone0.06Pelvis0.07Spleen0.07
Left clavicle0.49Rib cage0.13Stomach0.04
Left kidney0.11Right adrenal0.11Thymus0.33
Left leg0.33Right arm bone0.07Thyroid1.06
Left leg bone0.13Right clavicle0.35Trunk0.16
Left lung0.20Right kidney0.05Upper large intestine0.04
Left scapula0.21Right leg0.16Upper spine90.41
Left testis0.08Right leg bone0.09Urinary bladder0.01
Liver0.05Right lung0.20

RDWB: Ratios of absorbed doses in all organs to the whole body

  4 in total

1.  MIRDOSE: personal computer software for internal dose assessment in nuclear medicine.

Authors:  M G Stabin
Journal:  J Nucl Med       Date:  1996-03       Impact factor: 10.057

2.  Geant4-Simulations for cellular dosimetry in nuclear medicine.

Authors:  Robert Freudenberg; Maria Wendisch; Jörg Kotzerke
Journal:  Z Med Phys       Date:  2011-10-07       Impact factor: 4.820

3.  OLINDA/EXM: the second-generation personal computer software for internal dose assessment in nuclear medicine.

Authors:  Michael G Stabin; Richard B Sparks; Eric Crowe
Journal:  J Nucl Med       Date:  2005-06       Impact factor: 10.057

4.  G4DARI: Geant4/GATE based Monte Carlo simulation interface for dosimetry calculation in radiotherapy.

Authors:  Faiçal A A Slimani; Mahdjoub Hamdi; M'hamed Bentourkia
Journal:  Comput Med Imaging Graph       Date:  2018-05-01       Impact factor: 4.790
  4 in total

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