-
Vognsen Sherrill posted an update 6 months, 2 weeks ago
Thyroid Imaging Reporting And Data System (TIRADS) is helpful for risk stratification of thyroid nodules. However, there is a lack of data for TIRADS classification of different histological subtypes , and benign thyroid nodules (follicular adenoma, oncocytic adenoma, and multinodular goiter (MNG)]. Methoxy-isobutyl-isonitrile (MIBI) imaging has a high negative predictive value for the exclusion of thyroid malignancy in hypofunctioning thyroid nodules. The aim of this analysis was to compare malignant and benign subtypes of thyroid nodule using three TIRADS and MIBI imaging.
Retrospective analysis of MIBI imaging studies. Hypofunctioning thyroid nodules were classified with Kwak-TIRADS, EU-TIRADS, and K-TIRADS. MIBI imaging was visually categorized.
We included 242 thyroid nodules (32 malignant, 19 PTC, 7 FVPTC, and 6 FTC). When using Kwak-TIRADS 4C and 5 as a marker for high-risk nodules, we found 85.5% of the follicular adenoma, 80.8% of the MNG, 100% of the oncocytic adenoma, 100% of the FTC, 57.1% of the FVPTC, and 42.2% of the PTC to be below this cutoff. All PTC and FVPTC were MIBI-positive, 83% of the FTC, 78% of the follicular adenoma, 75% of the oncocytic adenoma, and 60% of the MNG were MIBI-positive.
TIRADS is useful to detect PTC, but FVPTC and FTC may be missed. Mepazine MIBI imaging seems to be more suitable to detect FVPTC and FTC. However, neither TIRADS nor MIBI imaging are able to differentiate between follicular adenoma and FTC or FVPTC.
TIRADS is useful to detect PTC, but FVPTC and FTC may be missed. MIBI imaging seems to be more suitable to detect FVPTC and FTC. However, neither TIRADS nor MIBI imaging are able to differentiate between follicular adenoma and FTC or FVPTC.Catatonia is a motor and mood disorder of behavior increasingly recognized in systemic medically ill. Neuroleptic malignant syndrome, delirious mania, self injurious behaviors in autism, and limbic encephalitis are conditions in which ECT-responsive catatonia is increasingly recognized and effectively treated.Electroconvulsive therapy (ECT) is a treatment option for a number of psychiatric disorders, including refractory major depression and obsessive compulsive disorder. There are no known structural sequelae of ECT. Here we present a patient with severe refractory obsessive compulsive disorder and major depression treated over 2 years with ECT every 2 weeks. Planning magnetic resonance imaging intended for a potential procedural intervention for her psychiatric disease incidentally demonstrated a new area of increased enhancement and loss of marrow signal within the right frontal bone. Imaging findings were suggestive of underlying bone marrow or bone changes, although there was no evidence of bone destruction on bone-windowed computed tomography (CT) and there was no uptake on nuclear bone scan. The CT chest/abdomen/pelvis were also reassuring that this did not represent metastatic disease, and findings were unchanged on repeat magnetic resonance imaging 4 months later. Thus, this area corresponded to the site directly underlying the unilateral ECT electrode placement, suggestive of never-before described ECT-induced hyperemia. We report for the first time that frequent, chronic ECT may induce asymptomatic skull bone marrow hyperemia with radiologic findings. This appears to be a direct consequence of electrical current leading to chronic inflammatory and edematous marrow replacement. Electroconvulsive therapy should be added to the neuroradiological differential diagnosis of calvarial enhancement and loss of marrow signal. Psychiatrists should counsel patients on the possibility of this rare radiological finding, which may be confused for other processes.
Optometrists play a preventive role in diabetic care by detecting early signs of diabetic retinopathy (DR), a leading cause of blindness in adults. This study demonstrates that additional training can improve optometrists’ ability to assess the presence and severity of DR in individuals with diabetes.
This study aimed to determine the impact of a quality improvement intervention involving education, assessment, and feedback on improving the evaluation and referral patterns of optometrists with regard to their patients with diabetes.
A pre-interventional and post-interventional analysis of optometrist practices was conducted through a retrospective chart review of diabetic patient encounters from July 2018 to March 2019. Dilated fundus examination (DFE) documentation, follow-up scheduling, referral practices, and usage of various imaging modalities were collected from patient records. Concordance of DR severity recordings between DFE findings, assessment and plan notes, and International Classification of Diseases codes was calculated.
After intervention, the proportion of optometrists who conducted a DFE significantly increased from 79.5 (95% confidence interval , 77.3 to 81.7%) to 84.4% (95% CI, 82.4 to 86.4%). In addition, the rate of improper follow-up instructions decreased from 13.8 (95% CI, 12.0 to 15.7%) to 10.8% (95% CI, 9.2 to 12.6%), and the decrease was significant (P = .02). Although overall referrals decreased from 19.8 (95% CI, 17.6 to 21.9%) to 14.6% (95% CI, 12.6 to 16.5%), optometrists were as likely to refer to retinal specialists. Finally, concordance between documented DFE findings, assessment and plan notes, and International Classification of Diseases codes significantly increased from 78.8 (95% CI, 76.5 to 81.0%) to 88.7% (95% CI, 86.9 to 90.4%).
Providing optometrists education in screening and assessing DR is effective in improving diabetic patient care.
Providing optometrists education in screening and assessing DR is effective in improving diabetic patient care.
While evaluating the tear-film breakup time, a careful set of precise instructions should be given to the subjects regarding the blink type because it substantially impacts the assessment of tear-film surface quality.
The purpose of this study was to determine to what extent the type of blink affects the tear-film breakup time and its assessment using two types of videokeratoscopes and the fluorescein test.
Thirty-three volunteers were assessed considering two different types of blinks natural (short) and forced (unnaturally prolonged). Objective noninvasive breakup time estimation was performed using Oculus Keratograph 5M and Medmont E300, both equipped with tear-film analysis modules, followed by the fluorescein test. In addition, while overviewing videokeratoscopy recordings, noninvasive breakup time was assessed subjectively by one experienced observer marking the first noticeable distortion in the Placido-disk pattern. Statistical analyses included two-way ANOVA and paired-sample t test. The agreement between blinking and measuring modalities was assessed using Bland-Altman plots.
Please follow & like us :)
All content contained on CatsWannaBeCats.Com, unless otherwise acknowledged,is the property of CatsWannaBeCats.Com and subject to copyright.