Iron deficiency reduces synapse formation in the Drosophila clock circuit

Iron serves as a critical cofactor for proteins involved in a host of biological processes. In most animals, dietary iron is absorbed in enterocytes and then disseminated for use in other tissues in the body. The brain is particularly dependent on iron. Altered iron status correlates with disorders ranging from cognitive dysfunction to disruptions in circadian activity. The exact role iron plays in producing these neurological defects, however, remains unclear. Invertebrates provide an attractive model to study the effects of iron on neuronal development since many of the genes involved in iron metabolism are conserved, and the organisms are amenable to genetic and cytological techniques. We have examined synapse growth specifically under conditions of iron deficiency in the Drosophila circadian clock circuit. We show that projections of the small ventrolateral clock neurons to the protocerebrum of the adult Drosophila brain are significantly reduced upon chelation of iron from the diet. This growth defect persists even when iron is restored to the diet. Genetic neuronal knockdown of ferritin 1 or ferritin 2, critical components of iron storage and transport, does not affect synapse growth in these cells. Together, these data indicate that dietary iron is necessary for central brain synapse formation in the fly and further validate the use of this model to study the function of iron homeostasis on brain development

The Impact of COVID-19 Pandemic on Spine Surgeons Worldwide : A One Year Prospective Comparative Study

Study Design: Survey Objective: In March of 2020, an original study by Louie et al investigated the impact of COVID-19 on 902 spine surgeons internationally. Since then, due to varying government responses and public health initiatives to the pandemic, individual countries and regions of the world have been affected differently. Therefore, this follow-up study aimed to assess how the COVID-19 impact on spine surgeons has changed 1 year later. Methods: A repeat, multi-dimensional, 90-item survey written in English was distributed to spine surgeons worldwide via email to the AO Spine membership who agreed to receive surveys. Questions were categorized into the following domains: demographics, COVID-19 observations, preparedness, personal impact, patient care, and future perceptions. Results: Basic respondent demographics, such as gender, age, home demographics, medical comorbidities, practice type, and years since training completion, were similar to those of the original 2020 survey. Significant differences between groups included reasons for COVID testing, opinions of media coverage, hospital unemployment, likelihood to be performing elective surgery, percentage of cases cancelled, percentage of personal income, sick leave, personal time allocation, stress coping mechanisms, and the belief that future guidelines were needed (P<.05). Conclusion: Compared to baseline results collected at the beginning of the COVID-19 pandemic in 2020, significant differences in various domains related to COVID-19 perceptions, hospital preparedness, practice impact, personal impact, and future perceptions have developed. Follow-up assessment of spine surgeons has further indicated that telemedicine and virtual education are mainstays. Such findings may help to inform and manage expectations and responses to any future outbreaks.publishedVersionPeer reviewe

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sj-docx-1-hss-10.1177_15563316231199493 – Supplemental material for Racial and Ethnic Disparities in Hip Fracture Surgery: A Systematic Review and Meta-Analysis

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sj-docx-4-hss-10.1177_15563316231199493 – Supplemental material for Racial and Ethnic Disparities in Hip Fracture Surgery: A Systematic Review and Meta-Analysis

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sj-jpg-3-hss-10.1177_15563316231199493 – Supplemental material for Racial and Ethnic Disparities in Hip Fracture Surgery: A Systematic Review and Meta-Analysis

Supplemental material, sj-jpg-3-hss-10.1177_15563316231199493 for Racial and Ethnic Disparities in Hip Fracture Surgery: A Systematic Review and Meta-Analysis by Samuel S. Rudisill, Alexander L. Hornung, Nathan H. Varady, Christian A. Pean, Joseph M. Lane and Troy B. Amen in HSS Journal®</p