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Item Acute and Delayed Cerebrovascular Injury From Gunshot to the Head in a 12-Year-Old Child During the COVID-19 Pandemic(Elsevier, 2022) Golomb, Meredith R.; Tejada, Juan G.; Ducis, Katrina A.; Martinez, Mesha L.; Neurology, School of MedicineItem Anatomy Nights: An international public engagement event increases audience knowledge of brain anatomy(PLOS, 2022-06-09) Sanders, Katherine A.; Philp, Janet A.C.; Jordan, Crispin Y.; Cale, Andrew S.; Cunningham, Claire L.; Organ, Jason M.; Anatomy, Cell Biology and Physiology, School of Medicine; Anatomy, Cell Biology and Physiology, School of MedicineAnatomy Nights is an international public engagement event created to bring anatomy and anatomists back to public spaces with the goal of increasing the public's understanding of their own anatomy by comparison with non-human tissues. The event consists of a 30-minute mini-lecture on the anatomy of a specific anatomical organ followed by a dissection of animal tissues to demonstrate the same organ anatomy. Before and after the lecture and dissection, participants complete research surveys designed to assess prior knowledge and knowledge gained as a result of participation in the event, respectively. This study reports the results of Anatomy Nights brain events held at four different venues in the UK and USA in 2018 and 2019. Two general questions were asked of the data: 1) Do participant post-event test scores differ from pre-event scores; and 2) Are there differences in participant scores based on location, educational background, and career. We addressed these questions using a combination of generalized linear models (R's glm function; R version 4.1.0 [R Core Team, 2014]) that assumed a binomial distribution and implemented a logit link function, as well as likelihood estimates to compare models. Survey data from 91 participants indicate that scores improve on post-event tests compared to pre-event tests, and these results hold irrespective of location, educational background, and career. In the pre-event tests, participants performed well on naming structures with an English name (frontal lobe and brainstem), and showed signs of improvement on other anatomical names in the post-test. Despite this improvement in knowledge, we found no evidence that participation in Anatomy Nights improved participants' ability to apply this knowledge to neuroanatomical contexts (e.g., stroke).Item The Colon-26 Carcinoma Tumor-bearing Mouse as a Model for the Study of Cancer Cachexia(JoVE, 2016-11-30) Bonetto, Andrea; Rupert, Joseph E.; Barreto, Rafael; Zimmers, Teresa A.; Surgery, School of MedicineCancer cachexia is the progressive loss of skeletal muscle mass and adipose tissue, negative nitrogen balance, anorexia, fatigue, inflammation, and activation of lipolysis and proteolysis systems. Cancer patients with cachexia benefit less from anti-neoplastic therapies and show increased mortality1. Several animal models have been established in order to investigate the molecular causes responsible for body and muscle wasting as a result of tumor growth. Here, we describe methodologies pertaining to a well-characterized model of cancer cachexia: mice bearing the C26 carcinoma2-4. Although this model is heavily used in cachexia research, different approaches make reproducibility a potential issue. The growth of the C26 tumor causes a marked and progressive loss of body and skeletal muscle mass, accompanied by reduced muscle cross-sectional area and muscle strength3-5. Adipose tissue is also lost. Wasting is coincident with elevated circulating levels of pro-inflammatory cytokines, particularly Interleukin-6 (IL-6)3, which is directly, although not entirely, responsible for C26 cachexia. It is well-accepted that a primary mechanism by which the C26 tumor induces muscle tissue depletion is the activation of skeletal muscle proteolytic systems. Thus, expression of muscle-specific ubiquitin ligases, such as atrogin-1/MAFbx and MuRF-1, represent an accepted method for the evaluation of the ongoing muscle catabolism2. Here, we present how to execute this model in a reproducible manner and how to excise several tissues and organs (the liver, spleen, and heart), as well as fat and skeletal muscles (the gastrocnemius, tibialis anterior, and quadriceps). We also provide useful protocols that describe how to perform muscle freezing, sectioning, and fiber size quantification.Item Efficacy of Novel Bracing for Treating Sciatica and Cadaveric Dissection to Examine Excursion of the Sciatic Nerve(2023-07-28) Callahan, Kyle; Dellacqua, DaleBackground/Objective: Sciatica affects nearly half of all Americans and can often become debilitating, leading to severe pain that can limit performing activities of daily living. Brace application has not been tried for alleviation of pain. In this study, we seek to find if a novel brace can decrease pain and decrease bothersome level of symptoms for those suffering from sciatica. In addition, this study utilizes a cadaveric dissection to understand how the sciatic nerve stretches and tensions upon lower limb manipulation. Methods: Fourteen patients self-reported pain, functionality, and bothersome levels pre- and post-bracing. Excel’s data analysis tool was utilized to run statistical tests. One cadaver (2 lower limbs) was dissected, revealing the sciatic nerve at the hip and knee, while tibial nerve at the ankle. Excursion was measured utilizing a fixed pin and an initial distance, the leg manipulated, and final distance from pin measured. Ultimately, excursion was deemed final distance minus initial distance from the pin. Results: The brace decreases Visual Analogue Scale (VAS) scores, increases Patient Reported Outcomes, and decreases Sciatica Bothersome Indexes. There was a significant difference in VAS pre- versus post-brace values at initial and 7-day post-visit but not at 21- or 42-day post-visit. Sciatic nerve excursion was greatest at the ankle. Discussion/Conclusion Brace use decreases pain levels, increases functionality, and decreases bothersome level of symptoms. The distal nerve moves more upon manipulation and therefore is more prone to tensioning than the proximal nerve. Dissection data illustrates how the brace positions the limb in a way that promotes “detensioning” of the nerve, alleviating sciatica. More cadaver data is needed. Presentation recording available online: https://purl.dlib.indiana.edu/iudl/media/c58059kh24Item Use of animals in medical education: Conscientious objection in the healing professions(IU Center for Bioethics, 2014-05-24) Odell, Jere D.; Abhyankar, Rahul; Comer, Amber (Malcolm); Rua, Avril N.Item Woven Endobridge device for treatment of dissection-related PICA aneurysm(Sage, 2021) Khattar, Nicolas K.; White, Andrew C.; Cruz, Aurora S.; Adams, Shawn W.; Meyer, Kimberly S.; Nauta, Haring J.W.; Ding, Dale; James, Robert F.; Neurological Surgery, School of MedicineRuptured vertebrobasilar dissecting aneurysms require urgent, often challenging treatment as they have with a high re-hemorrhage rate within the first 24 hours. The patient is a 57-year-old woman who presented with severe-sudden onset headache. Further work up showed a ruptured dissecting aneurysm of the caudal loop of the posterior inferior cerebellar artery (PICA) with associated narrowing distally, in the ascending limb. The aneurysm was immediately occluded with a Woven Endobridge (WEB) device (MicroVention, Tustin, CA, USA) while flow diversion treatment of the diseased ascending limb was postponed. Follow-up angiography three months later showed complete occlusion of the aneurysm, as well as healing of the diseased distal vessel, obviating the need for further intervention. WEB embolization of a ruptured dissecting posterior circulation aneurysm provided an excellent outcome for this patient.