Putting All the Pieces Together: Clinical, Macroscopic and Microscopic Characteristics of Subacute Thyroiditis.

Subacute thyroiditis (SAT) is a self-limiting inflammatory condition of the thyroid gland in which multinucleated giant cells constitute a key histological finding. SAT is generally a clinical diagnosis and consequently its histological features are rarely encountered by pathologist. Herein, we present a case that exemplifies the characteristic clinical and pathological features of this entity. In addition, we compare SAT to other thyroid disorders characterized by the presence of multinucleated giant cells.

Augmented Reality Technology Using Microsoft HoloLens in Anatomic Pathology.

Context Augmented reality (AR) devices such as the Microsoft HoloLens have not been well used in the medical field. Objective To test the HoloLens for clinical and nonclinical applications in pathology. Design A Microsoft HoloLens was tested for virtual annotation during autopsy, viewing 3D gross and microscopic pathology specimens, navigating whole slide images, telepathology, as well as real-time pathology-radiology correlation. Results Pathology residents performing an autopsy wearing the HoloLens were remotely instructed with real-time diagrams, annotations, and voice instruction. 3D-scanned gross pathology specimens could be viewed as holograms and easily manipulated. Telepathology was supported during gross examination and at the time of intraoperative consultation, allowing users to remotely access a pathologist for guidance and to virtually annotate areas of interest on specimens in real-time. The HoloLens permitted radiographs to be coregistered on gross specimens and thereby enhanced locating important pathologic findings. The HoloLens also allowed easy viewing and navigation of whole slide images, using an AR workstation, including multiple coregistered tissue sections facilitating volumetric pathology evaluation. Conclusions The HoloLens is a novel AR tool with multiple clinical and nonclinical applications in pathology. The device was comfortable to wear, easy to use, provided sufficient computing power, and supported high-resolution imaging. It was useful for autopsy, gross and microscopic examination, and ideally suited for digital pathology. Unique applications include remote supervision and annotation, 3D image viewing and manipulation, telepathology in a mixed-reality environment, and real-time pathology-radiology correlation.

Adequacy of physician documentation and correlation with assessment of transfusion appropriateness: a follow-up study in the setting of prospective audits and patient blood management.

BACKGROUND: A previous study in our hospitals correlated suboptimal documentation and failure to justify transfusions. In light of implemented blood-conservation strategies, including patient blood management (PBM) and prospective audits (PAs), we performed a follow-up study. STUDY DESIGN AND METHODS: We reviewed prospectively audited red blood cell (RBC) transfusions received by adult patients from January to July 2014. Survey forms were used to assess the level of documentation and to classify documentation as adequate, intermediate, or inadequate. Transfusions were deemed justified or not by comparisons with hospital transfusion guidelines. We also analyzed the effect of implemented blood-conservation strategies on our hospital transfusion rates and costs from 2009 to 2015. RESULTS: During the study period, there were 259 prospectively audited transfusion events (TEs) (one or more RBC units transfused to a patient), of which we reviewed 94 TEs (36.3%) in 87 patients. TEs with suboptimal (intermediate and inadequate) documentation accounted for 46.8% of the reviewed TEs, of which 81.8% could not be justified compared with 18.0% of nonjustified, adequately documented TEs. The correlation between suboptimal documentation and failure to justify transfusion was significant (p < 0.001). This correlation remained even in a comparison between the site with a PBM program and the sites without such a program. Overall transfusion rates declined after the introduction of PA, although the decline was only statistically significant at the sites with a PBM program. CONCLUSION: Suboptimal transfusion documentation remains problematic and is highly correlated with nonjustifiable transfusions. Newly adopted approaches to minimize blood transfusions have not improved transfusion documentation and corresponding out-of-guideline transfusions, although overall transfusions have been reduced by PA, particularly in the setting of a PBM program.

Introducing a Virtual Reality Experience in Anatomic Pathology Education.

OBJECTIVES: A proper examination of surgical specimens is fundamental in anatomic pathology (AP) education. However, the resources available to residents may not always be suitable for efficient skill acquisition. We propose a method to enhance AP education by introducing high-definition videos featuring methods for appropriate specimen handling, viewable on two-dimensional (2D) and stereoscopic three-dimensional (3D) platforms. METHODS: A stereo camera system recorded the gross processing of commonly encountered specimens. Three edited videos, with instructional audio voiceovers, were experienced by nine junior residents in a crossover study to assess the effects of the exposure (2D vs 3D movie views) on self-reported physiologic symptoms. A questionnaire was used to analyze viewer acceptance. RESULTS: All surveyed residents found the videos beneficial in preparation to examine a new specimen type. Viewer data suggest an improvement in specimen handling confidence and knowledge and enthusiasm toward 3D technology. None of the participants encountered significant motion sickness. CONCLUSIONS: Our novel method provides the foundation to create a robust teaching library. AP is inherently a visual discipline, and by building on the strengths of traditional teaching methods, our dynamic approach allows viewers to appreciate the procedural actions involved in specimen processing.

Cervical vertebral actinomycosis mimicking malignancy in a paediatric patient.

Actinomyces spp are found in the flora of the oral cavity and vagina and may cause infection with abscess formation and draining sinuses. Cervicofacial manifestations of actinomycosis involve head and neck soft tissue, however, spread to the cervical spine is rare. We report a case of an 8-year-old boy, presenting with neck pain for 1 month and denying a history of trauma or procedures. Radiography revealed an ulceration of the posterior oropharyngeal mucosa with a defect extending to the C1-C2 vertebra, mimicking a neoplastic process. The patient underwent laryngoscopy and multiple biopsies were taken from the ulcer and bone, showing severe osteomyelitis and intraosseous filamentous organisms, morphologically consistent with Actinomyces spp. The boy received long-term antibiotics with response to treatment. Actinomycosis has rarely been reported in the cervical vertebrae of paediatric patients. This should be considered as a differential diagnosis for such a presentation as prompt antibiotic treatment may be lifesaving.

Acquisition, Visualization and Potential Applications of 3D Data in Anatomic Pathology.

Although human anatomy and histology are naturally three-dimensional (3D), commonly used diagnostic and educational tools are technologically restricted to providing two-dimensional representations (e.g. gross photography and glass slides). This limitation may be overcome by employing techniques to acquire and display 3D data, which refers to the digital information used to describe a 3D object mathematically. There are several established and experimental strategies to capture macroscopic and microscopic 3D data. In addition, recent hardware and software innovations have propelled the visualization of 3D models, including virtual and augmented reality. Accompanying these advances are novel clinical and non-clinical applications of 3D data in pathology. Medical education and research stand to benefit a great deal from utilizing 3D data as it can change our understanding of complex anatomical and histological structures. Although these technologies are yet to be adopted in routine surgical pathology, forensic pathology has embraced 3D scanning and model reconstruction. In this review, we intend to provide a general overview of the technologies and emerging applications involved with 3D data.