Pitfalls and Limitations of Radionuclide Renal Imaging in Adults.

To understand pitfalls and limitations in adult renography, it is necessary to understand firstly the physiology of the kidney, especially the magnitude and control of renal blood flow, glomerular filtration rate and tubular fluid flow rate, and secondly the pharmacokinetics and renal handling of the three most often used tracers, Tc-99m-mercaptoacetyltriglycine (MAG3), Tc-99m-diethylene triamine pentaacetic acid (DTPA) and Tc-99m-dimercaptosuccinic acid (DMSA). The kidneys may be imaged dynamically with Tc-99m-MAG3 or Tc-99m-DTPA, with or without diuretic challenge, or by static imaging with Tc-99m-DMSA. Protocols are different according to whether the kidney is native or transplanted. Quantitative analysis of dynamic data includes measurement of renal vascularity (important for the transplanted kidney), absolute tracer clearance rates, differential renal function (DRF) and response to diuretic challenge. Static image reveals functional renal parenchymal damage, both focal and global, is useful in the clinical management of obstructive uropathy, renal stone disease and hypertension (under angiotensin converting enzyme inhibition), and is the preferred technique for determining DRF. Diagnosis based on morphological appearances is important in transplant management. Even though nuclear medicine is now in the era of hybrid imaging, renal imaging remains an important subspecialty in nuclear medicine and requires a sound basing in applied physiology, the classical supporting discipline of nuclear medicine.

Synthesis, characterization and pre-clinical evaluation of (99m) Tc-tricarbonyl complexes as potential myocardial perfusion imaging agents.

Myocardial perfusion imaging is an established Nuclear Medicine investigation. Current myocardial perfusion imaging agents sestamibi and tetrofosmin have number of drawbacks; low heart uptake coupled with uptake into the surrounding tissues leads to a poorer image quality. There is a need for continued research into designing and evaluating potentially superior myocardial imaging agents. Tri-carbonyl-technetium and rhenium complexes were prepared by combination with mono-dentate and bi-dentate ligands. Complexes were characterized by HPLC, MAS, nuclear magnetic resonance, infrared, single-crystal X-ray diffraction and partition coefficient determinations. (99m) Tc(CO)3 complexes were administered intravenously to Sprague Dawley rats, and tissue distribution studies were carried out at 15 min and 1 h p.i. Radiochemical purity was assessed as >90%. 1-10-phenanthroline, 2,2'-bipyridine and imidazole complexes gave the highest heart uptake. The percentage injected dose per gram (n = 3) at 1 h for 1-10-phenanthroline/imidazole was blood 0.21 ± 0.01, heart 1.12 ± 0.11, kidney 3.61 ± 1.13, liver 0.62 ± 0.06, lung 0.28 ± 0.12, spleen 0.24 ± 0.05, small intestine contents 1.87 ± 0.92; and for 2,2'-bipyridine /imidazole was blood 0.23 ± 0.02, heart 1.07 ± 0.18, kidney 3.31 ± 1.28, liver 0.56 ± 0.09, lung 0.14 ± 0.02, spleen 0.2 ± 0.1, small intestine content 1.05 ± 0.48. Further investigation to evaluate more complexes based on 1,10-phenanthroline, 2,2'-bipyridine and imidazole derivatives could potentially lead to agents with an increased heart uptake and faster clearance from the liver and gastrointestinal tract.

Unilateral adrenal metastasis from non­small-cell lung cancer demonstrating very high FDG uptake with a standardized uptake value in excess of sixty.

We report the case of a 52-year-old man who presented with a 2-week history of dyspnea and wheeze. CT scan of the chest showed a large soft-tissue lesion in the right main bronchus extending into the trachea. Pathologic examination of endoscopic tracheal biopsies showed features consistent with a non­small-cell lung carcinoma. 18F-FDG PET/CT showed very high uptake of FDG in the bronchial tumor (high standardized uptake values: 25.1) and unexpected very intense uptake in the left adrenal gland (high standardized uptake values: 62.5). Laparoscopic adrenalectomy was performed, and subsequent histopathological examination confirmed metastatic non­small-cell carcinoma in the adrenal gland. Although adrenal malignancies are generally metabolically active, such high uptake of FDG within a metastatic lesion has not been reported previously.

Evaluation of 99mTc(CO)5I as a potential lung perfusion agent.

INTRODUCTION: The use of (99m)Tc-macroggregated albumin for lung perfusion imaging is well established in nuclear medicine. However, there have been safety concerns over the use of blood-derived products because of potential contamination by infective agents, for example, Variant Creutzfeldt Jakob Disease. Preliminary work has indicated that Tc(CO)(5)I is primarily taken up in the lungs following intravenous administration. The aim of this study was to evaluate the biodistribution and pharmacokinetics of (99m)Tc(CO)(5)I and its potential as a lung perfusion agent. METHODS: (99m)Tc(CO)(5)I was synthesized by carbonylation of (99m)TcO(4-) at 160 atm of CO at 170 degrees C in the presence of HI for 40 min. Radiochemical purity was determined by HPLC using (99)Tc(CO)(5)I as a reference. (99m)Tc(CO)(5)I was administered by ear-vein injection to three chinchilla rabbits, and dynamic images were acquired using a gamma camera (Siemens E-cam) over 20 min. Imaging studies were also performed with (99m)Tc-labeled macroaggregated albumin ((99m)Tc-MAA) and (99m)TcO(4-) for comparison. (99m)Tc(CO)(5)I was administered intravenously to Sprague-Dawley rats, and tissue distribution studies were obtained at 15 min and 1 h postinjection. Comparative studies were performed using (99m)Tc-MAA. RESULTS: Radiochemical purity, assessed by HPLC, was 98%. The retention time was similar to that of (99)Tc(CO)(5)I. The dynamic images showed that 70% of (99m)Tc(CO)(5)I appeared promptly in the lungs and remained constant for at least 20 min. In contrast, (99m)TcO(4-) rapidly washed out of the lungs after administration. As expected (99m)Tc-MAA showed 90% lung accumulation. The percentage of injected dose per gram of organ +/-S.D. at 1 h for (99m)Tc(CO)(5)I was as follows: blood, 0.22+/-0.02; lung, 12.8+/-2.87; liver, 0.8+/-0.15; heart, 0.15+/-0.01; kidney, 0.47+/-0.08. The percentage of injected dose per organ +/-S.D. at 1 h was as follows: lung, 22.47+/-2.31; liver, 10.53+/-1.8; heart, 0.18+/-0.01; kidney, 1.2+/-0.17. Tissue distribution studies with (99m)Tc-MAA showed 100% lung uptake. CONCLUSION: (99m)Tc(CO)(5)I was synthesized with a high radiochemical purity and showed a high accumulation in the lungs. Further work on the mechanism and optimization of lung uptake of (99m)Tc-pentacarbonyl complexes is warranted.

Changes in the appearance of attenuation artefacts due to change in posture in myocardial perfusion imaging.

OBJECTIVE: Traditional supine imaging with arms raised for myocardial perfusion imaging (MPI) is uncomfortable for many cardiac patients. Seated imaging with arms resting at shoulder level is an attractive alternative. This study aimed to compare the patient comfort and image appearance of seated MPI with traditional supine MPI. METHOD: Sixty-seven patients (41 male, 26 female; body mass index (BMI) between 20.4 and 45.4) were imaged seated on the Mediso Nucline Cardiodesk gamma camera and supine on the GE Millennium VG gamma camera using our standard departmental MPI protocol. The images from each were compared and a questionnaire was used to determine patients' views of the relative comfort of the procedures. RESULTS: Strong patient preference for seated imaging was demonstrated. Perfusion patterns on seated and supine images were strikingly different with the changes seen being greatest and very striking in obese females with seven out of 12 (58%) showing changes of more than two grades. For a subset of 17 normal weight (BMI <25) male patients a significant reduction (P<0.05) in defect size was found in the inferior segment only, signifying a reduction in diaphragmatic attenuation in the seated position. CONCLUSION: Seated imaging offers considerable advantages in terms of patient acceptability. For non-obese men seated imaging also offers advantages in terms of reduced diaphragmatic attenuation artefacts. However, women and also obese men show significant differences in perfusion pattern from traditional supine imaging. A facility for accurate attenuation correction of seated images could provide useful information to elucidate these effects.

The value of registration correction in the attenuation correction of myocardial SPECT studies using low resolution computed tomography images.

BACKGROUND: Artifacts caused by tissue attenuation create problems in the interpretation of myocardial perfusion studies. In a previous study we evaluated attenuation correction using 'Hawkeye' and noted that the incidence of anterior/apical defects increased after attenuation correction. This increased incidence appeared to be associated with mis-registration between emission and transmission images. The main aim of this study was to determine whether correction of mis-registration between emission and transmission scans reduced the incidence of these anterior/apical defects. METHODS: Ninety-four patients (64 men, 30 women) underwent stress/rest myocardial perfusion imaging using (99m)Tc-tetrofosmin (188 studies). Bull's-eye perfusion plots were created using proprietary software (QPS). RESULTS: The marked reduction in defect size, particularly obvious in male patients, in the inferior wall after attenuation correction was not significantly changed by the addition of registration correction. In the anterior and apical walls attenuation correction produced a confusing pattern particularly in females with an overall tendency to increase the defect size. After registration correction fewer anterior/apical defects were created. CONCLUSION: Attenuation correction using 'Hawkeye' reduces the incidence of inferior myocardial perfusion defects but can create anterior and/or apical artifacts. It is essential to evaluate registration carefully in three dimensions before reporting the images. Correction of mis-registration reduces the incidence of anterior/apical defects and can restore the appearance of the anterior/apical area to pre-correction levels.

Attenuation correction of myocardial SPECT studies using low resolution computed tomography images.

OBJECTIVES: Artefacts caused by tissue attenuation can create problems in the interpretation of myocardial perfusion studies. This study aimed to determine if attenuation correction using the 'Hawkeye' low-resolution X-ray computed tomography facility attached to a GE Millennium VG gamma camera reduced attenuation artefacts in our patient group. This technique offers potential advantages over isotope transmission methods of attenuation correction because of the lack of noise in the transmission images. METHODS: Ninety-four patients (64 males, 30 females) underwent stress/rest myocardial perfusion imaging using (99m)Tc tetrofosmin (188 studies). Semi-quantitative analysis of the attenuation corrected and non-corrected perfusion images was carried out using proprietary software (Emory ECToolbox). RESULTS: No significant differences between attenuation corrected and non-corrected images were seen in the septal, lateral or apical segments. Attenuation correction produced a significant reduction in the defect scores in the inferior segment indicating the presence of attenuation artefacts. This was more marked in male patients. The incidence of attenuation artefacts in the inferior segment increased with weight although patients of normal weight also showed attenuation artefacts. The changes in the anterior segment were more difficult to interpret particularly in females, with attenuation correction increasing the defect score in some patients. Minor degrees of mal-registration (even of 1 pixel) between emission and transmission images increased the likelihood of creating a defect. CONCLUSION: Attenuation correction using Hawkeye is likely to improve diagnostic accuracy in men, but is less likely to be useful in women.

Uptake, localization, and dosimetry of 111in and 201tl in human testes.

UNLABELLED: This study concerns the testicular uptake and dosimetry of Auger electron-emitting radionuclides that are used during routine diagnostic nuclear medicine procedures. To consider the possible effects of these radionuclides on spermatogenic cells, a study has been undertaken to obtain in vivo data for quantification of (111)In chloride and (201)Tl chloride uptake into the human testis after intravenous administration. Values have been determined for uptake into the testis as a whole and to the seminiferous tubules where the germ cells are located. METHODS: Data were obtained from patients with prostate cancer who opted for orchidectomy to effect hormone suppression. Patients were administered intravenously 1.5 MBq of either (111)In chloride or (201)Tl chloride at 24 or 48 h before orchidectomy. Upon removal, the testes were analyzed to assess uptake of radionuclide. Conventional dosimetry has been used to estimate testicular radiation doses using our values of percentage uptake. RESULTS: Uptake of both (111)In chloride and (201)Tl chloride into the testes was seen at a level above that explained by simple homogeneous distribution of the radionuclide throughout the body; the testes as a whole demonstrated increased uptake by factors of 3.56 and 4.01 compared with nonspecific uptake for (111)In and (201)Tl, respectively, at 24 h after administration. Both radionuclides gained access to the seminiferous tubules. CONCLUSION: The results obtained indicate that the values of testicular radiation doses quoted by the International Commission on Radiological Protection for (111)In might be too low by a factor of 4, whereas those for (201)Tl might be too high by a factor of 4. No data were obtained for uptake by individual germ cells within the testis and, therefore, no consideration of dosimetry at the cellular level was possible. However, it has been demonstrated that uptake of diagnostic Auger electron-emitting radionuclides by male germ cells within the testis is possible after intravenous administration.