Low correlation between serum thyroglobulin and 131I radioiodine whole body scintigraphy: implication for postoperative disease surveillance in differentiated thyroid cancer.

PURPOSE: To evaluate postoperative serum thyroglobulin (Tg) as a reliable tumor marker in low-risk differentiated thyroid cancer (DTC). METHODS: Two hundred and three patients met the selection criteria of >18 years old; who had undergone total or near total thyroidectomy; had a postoperative Tg, and had undergone 131I pre ablation whole body scan (PA-WBS). The primary endpoint was the correlation between Tg level and functional remnant thyroid tissues. Outcomes were categorized as concordant and discordant. Concordant results were positive Tg (>1 ng/ml) with positive PA-WBS or negative Tg (<1 ng/ml) with negative PA-WBS. Discordant results were negative Tg with a positive PA-WBS or positive Tg with a negative PA-WBS. To increase the sensitivity of Tg detection, we evaluated Tg in patients with high thyroid stimulating hormone (TSH) with serum level >30 mU/l on thyroxine withdrawal protocol. RESULTS: One hundred ten patients (54.1%) had discordant results (p < 0.05) with positive PA-WBS and Tg <1 ng/ml, while 93 patients (45.9%) had concordant results. For concordant results, 88 patients had positive PA-WBS and Tg >1 ng/ml, and 5 patients had negative PA-WBS and Tg <1 ng/ml. There was no patient with Tg >1 ng/ml and negative PA-WBS. There were 74 patients with high TSH (>30 mU/l) on abstention (thyroxine withdrawal protocol). Twenty-four (32.5%) had discordant results (p < 0.001) and 50 (67.5%) had concordant results. CONCLUSION: There is low correlation between postoperative Tg and PA-WBS. The sole use of Tg as a serum biomarker for postoperative disease status may not be reliable.

Single shot lymphoscintigraphy in breast cancer: Effective single tracer sentinel node detection protocol with reduction in procedural pain.

PURPOSE: Variation in protocols for axillary sentinel lymph node (SLN) mapping exists. We strive to evaluate the effectiveness of reduction in number of injections on reducing procedural pain, while maintaining nodal detection. METHODS: Over 7 years, the number of periareolar injections performed was reduced stepwise from 4 to 1. This was analyzed for SLN detection and patients' subjective perceived pain. RESULTS: 828 patients with invasive breast cancer who underwent SLN mapping were included. Laterality of breast injection site included 326 (39.4%) in the right breast, 354 (42.8%) in the left breast and 148 (17.9%) in bilateral breasts. In patients who had 4 injection sites in a unilateral breast (n = 143), the reported pain score was 4.3 ± 2.4. Patients with 3 injections (n = 163), 2 injections (n = 163) and 1 injection (n = 211) in a breast reported pain scores of 3.4 ± 2.4, 3.2 ± 2.2, and 2.9 ± 2.6, respectively. In patients who had bilateral sentinel node procedures, those with 4 injections in each breast for a total of 8 injections (n = 37) reported a pain score of 5.7 ± 2.4. Patients with 3 (n = 51), 2 (n = 31) and 1 (n = 39) injection(s) in each breast reported perceived pain of 4.8 ± 2.8, 3.7 ± 2.7 and 3.5 ± 1.9, respectively. Incremental decreased pain scores were achieved with decreasing number of injections (p < 0.001). Nodal detection was maintained. CONCLUSION: A single periareolar subdermal injection site reduces periprocedural pain while maintaining nodal detection.

Adding value to imaging services: a survey of patient and referring physician preferences for direct radiologic reporting of results.

PURPOSE: To identify preferences of patients and referring physicians for direct patient communication and notification of radiologic study results. METHODS: An anonymous survey was conducted of patients undergoing outpatient radiologic imaging studies and their referring physicians. The voluntary surveys elicited responses regarding preferences on a 5-point Likert scale (Strongly disagree, disagree, neutral, agree and strongly agree), as well as indicated by responding yes or no to specific questions. RESULTS: 368 patients completed the survey. 81.5% of patient responders preferred all results communicated from the radiologist within the same day. 65.9% of patients preferred same day results if normal vs 65.8% if abnormal. 34.5% preferred to wait and review normal results with the referring physician. 41.5% preferred to wait and review abnormal results with the referring physician. It was found that patients were more likely to strongly agree with waiting to review results with the referring physician if the results were abnormal, as opposed to normal (18.5% vs 11.9%, respectively; P < 0.014). 64% of physicians did not want results reviewed with their patients; 87.6% did not want a report sent to the patient by the radiologist, even after report was sent to their office. 66.4% of patients surveyed indicated that waiting for imaging results gives them anxiety. CONCLUSIONS: 58-82% of patients preferred same day radiologist communication of their results while 55-87.6% of physicians did not prefer same day radiologist communication of results directly with their patients. 66.4% of patients surveyed indicated that waiting for imaging results gives them anxiety.

The Use of FDG PET Parametric Imaging in the Diagnosis of Olivopontocerebellar Atrophy.

Olivopontocerebellar atrophy is a rare neurodegenerative syndrome associated with 2 distinct disorders: multiple system atrophy and spinocerebellar ataxia. We present a case involving a 66-year-old man with adult-onset progressing cerebellar signs reflective of a cerebellar syndrome with no significant family history and unremarkable genetic testing for spinocerebellar ataxia. This case was found to be most consistent with sporadic olivopontocerebellar atrophy, which falls under the multiple system atrophy category. This diagnosis can be made using F-FDG PET/CT scanning and with MRI in some cases. However, in this case, relatively new PET/CT quantification and parametric imaging software was used for analysis, CortexID Suite.

Pediatric osteomyelitis: a scintigraphic case-based review.

This review presents techniques to optimize bone scintigraphy for evaluation of the spectrum of abnormalities associated with pediatric osteomyelitis, with an emphasis on the approaches to patient preparation and positioning and to interpretation. The diagnosis of pediatric osteomyelitis can be challenging for several different reasons. Bone scintigraphy is especially useful when the site of osteomyelitis is unclear. Other imaging modalities, including radiography, ultrasonography, and magnetic resonance imaging, all have advantages and may have a role in evaluating the condition of the child with osteomyelitis. Pathophysiologic considerations unique to children contribute to a different clinical presentation of osteomyelitis in the pediatric population than that seen in adults. In addition, patient movement degrades image quality substantially, which is an important consideration for imaging children. Neonates have a higher incidence of multifocal osteomyelitis, and they represent a unique subset of the pediatric population with separate considerations. Several examples illustrate techniques to optimize imaging, as well as show the spectrum of abnormalities associated with pediatric osteomyelitis. Careful attention to bone scintigraphic technique ensures that high-quality images can be obtained, which will allow confident diagnosis of pediatric osteomyelitis.

The bone scan.

Bone imaging continues to be the second greatest-volume nuclear imaging procedure, offering the advantage of total body examination, low cost, and high sensitivity. Its power rests in the physiological uptake and pathophysiologic behavior of 99m technetium (99m-Tc) diphosphonates. The diagnostic utility, sensitivity, specificity, and predictive value of 99m-Tc bone imaging for benign conditions and tumors was established when only planar imaging was available. Currently, nearly all bone scans are performed as a planar study (whole-body, 3-phase, or regional), with the radiologist often adding single-photon emission computed tomography (SPECT) imaging. Here we review many current indications for planar bone imaging, highlighting indications in which the planar data are often diagnostically sufficient, although diagnosis may be enhanced by SPECT. (18)F sodium fluoride positron emission tomography (PET) is also re-emerging as a bone agent, and had been considered interchangeable with 99m-Tc diphosphonates in the past. In addition to SPECT, new imaging modalities, including (18)F fluorodeoxyglucose, PET/CT, CT, magnetic resonance, and SPECT/CT, have been developed and can aid in evaluating benign and malignant bone disease. Because (18)F fluorodeoxyglucose is taken up by tumor cells and Tc diphosphonates are taken up in osteoblastic activity or osteoblastic healing reaction, both modalities are complementary. CT and magnetic resonance may supplement, but do not replace, bone imaging, which often detects pathology before anatomic changes are appreciated. We also stress the importance of dose reduction by reducing the dose of 99m-Tc diphosphonates and avoiding unnecessary CT acquisitions. In addition, we describe an approach to image interpretation that emphasizes communication with referring colleagues and correlation with appropriate history to significantly improve our impact on patient care.