Plantar fasciitis and calcaneal spur formation are associated with abductor digiti minimi atrophy on MRI of the foot

Objective To determine the association of atrophy of the abductor digiti minimi muscle (ADMA), an MRI manifestation of chronic compression of the inferior calcaneal nerve suggesting the clinical diagnosis of Baxter’s neuropathy, with MRI markers of potential etiologies, including calcaneal spur formation, plantar fasciitis, calcaneal edema, Achilles tendinosis and posterior tibial tendon dysfunction (PTTD). Materials and methods Prevalence of calcaneal spur formation, plantar fasciitis, calcaneal edema, Achilles tendinosis and PTTD was assessed retrospectively on 100 MRI studies with ADMA and 100 MRI studies without ADMA. Patients ranged in age from 10–92 years. Pearson chi-square analyses and Fisher’s exact test were used to compare prevalence of the above findings in patients with and without ADMA. Logistic regression was used to determine which variables were significantly associated with ADMA. Results Among patients with ADMA, there was significantly greater age (57.2 years vs 40.8 years, p \u3c 0.001), presence of Achilles tendinosis (22.0% vs 3.0%, P \u3c 0.001), calcaneal edema (15.0% vs 3.0%, P = 0.005), calcaneal spur (48.0% vs 7.0%, P \u3c 0.001), plantar fasciitis (52.5% vs 11.0%, P \u3c 0.001), and PTTD (32.0% vs 11.0%, P \u3c 0.001). After multivariate logistic regression analysis, only age [odds ratio (OR) 1.06, 95% confidence interval (CI) 1.03, 1.09], calcaneal spur (OR 3.60, 95% CI 1.28, 10.17), and plantar fasciitis (OR 3.35, 95% CI 1.31, 8.56) remained significant. Conclusion Advancing age, calcaneal spur, and plantar fasciitis are significantly associated with ADMA. Their high odds ratios support the notion of a possible etiologic role for calcaneal spur and plantar fasciitis in the progression to Baxter’s neuropathy

Biomedical informatics and translational medicine

Biomedical informatics involves a core set of methodologies that can provide a foundation for crossing the "translational barriers" associated with translational medicine. To this end, the fundamental aspects of biomedical informatics (e.g., bioinformatics, imaging informatics, clinical informatics, and public health informatics) may be essential in helping improve the ability to bring basic research findings to the bedside, evaluate the efficacy of interventions across communities, and enable the assessment of the eventual impact of translational medicine innovations on health policies. Here, a brief description is provided for a selection of key biomedical informatics topics (Decision Support, Natural Language Processing, Standards, Information Retrieval, and Electronic Health Records) and their relevance to translational medicine. Based on contributions and advancements in each of these topic areas, the article proposes that biomedical informatics practitioners ("biomedical informaticians") can be essential members of translational medicine teams

Designing Better Radiology Workstations: Impact of Two User Interfaces on Interpretation Errors and User Satisfaction

This paper presents our solution for supporting radiologists’ interpretation of digital images by automating image presentation during sequential interpretation steps. We extended current hanging protocols with support for “stages” which reflect the presentation of digital information required to complete a single step within a complex task. We demonstrated the benefits of staging in a user experiment with 20 lay subjects involved in a comparative visual search for targets, similar to a radiology task of identifying anatomical abnormalities. We designed a task and a set of stimuli that allowed us to simulate the interpretation workflow from a typical radiology scenario—reading a chest radiography exam when a prior study is also available. The simulation was enabled by abstracting both the radiologist’s task and the basic workstation navigation functionality. The staged interface was significantly faster than the traditional user interface, provided a 37% reduction in the interpretation errors, and improved user satisfaction

From Traditional Reading Rooms to a Soft Copy Environment: Radiologist Satisfaction Survey

Academic radiologists are experiencing increased clinical workloads. New technology such as picture archiving and communication systems (PACS) are often justified on the premise of increased efficiency. The authors believe that efficiency can be influenced by the image interpretation environment, and thus they set out to establish baseline satisfaction levels with this environment. The authors surveyed 90 Indiana University (IU) faculty radiologists, fellows, and residents. Their survey was implemented with a questionnaire sent via e-mail. Questions focused on satisfaction with the current soft-copy reading environments and preferences regarding improvements. Of the 90 radiologists surveyed, 55 (61%) responded. Several key findings emerged: (1) Overall satisfaction with the soft-copy environment is low, with nearly half (46%) of respondents rating themselves as “very dissatisfied” or “dissatisfied.” (2) Faculty are least satisfied regarding work space ergonomics, room layout, and amount of work space. Appropriate lighting also emerged as an area with low satisfaction and high importance. (3) Ninety-eight percent of respondents indicated that an “ideal” soft-copy environment would have a positive effect on their efficiency. The dissatisfaction with the current soft-copy interpretation environments used by the IU radiologists indicates that this is an area that requires attention. Furthermore, there may be a direct relationship between radiologist efficiency and satisfaction with the image interpretation environment. Attention should be focused on this environment during a soft-copy technology implementation to ensure that planned efficiency gains are realized

Variations in the origin of the medial and inferior calcaneal nerves

WOS: 000234017800002PubMed ID: 16333630Introduction: Entrapment of the medial heel region nerves is often mentioned as a possible cause of heel pain. Some authors have suggested that the medial and inferior calcaneal nerves may be involved in such heel pain, including plantar fasciitis, heel pain syndrome and fat pad disorders. The aim of this study was to give a detailed description of the medial heel that would determine the variability and pattern of the medial and inferior calcaneal nerves, as well as to relate these findings to the currently used incision line for tarsal tunnel, fixations of fractures with external nailing, medial displacement osteotomy and nerve blocks in podiatric medicine. Materials and methods: The origin, relationship, distribution, variability and innervation of medial and inferior calcaneal nerves were studied with the use of a 3.5 power loupe magnification for dissection of 25 adult male feet of formalin-fixed cadavers. The medial heel was found to be innervated by just one medial calcaneal nerve in 38% of the feet, by two medial calcaneal nerves in 46%, by three medial calcaneal nerves in 12% and by four medial calcaneal nerves in 4%. An origin for a medial calcaneal nerve from the medial plantar nerve was found in 46% of the feet. This nerve most often innervates the skin of the posteromedial arch. Results: In our dissection, the rate of occurrence of the medial and inferior calcaneal nerves in medial heel region was 100%. When compared with the inferior calcaneal nerve, the medial calcaneal nerve was posterior, superior and thicker. The inferior calcaneal nerve supplies deeper structures. In the majority of the cases, inferior calcaneal nerve aroused from the lateral plantar nerve, but it may also arise from the tibial nerve, sometimes in a common origin with the medial calcaneal nerve. Conclusions: Knowledge of fine anatomy of the calcaneal nerves is necessary to ensure safe surgical intervention in the medial heel region