[Clinical effect of the warm acupuncture of Mongolian medicine on insomnia in the elderly and its brain-gut peptide mechanism: a randomized controlled trial].

Objective: To observe the clinical effect and safety of the warm acupuncture of Mongolian medicine in treatment of insomnia in the elderly, and to explore its underlying brain-gut peptide mechanism.

Methods: Sixty elderly patients with insomnia were randomly divided into a warm acupuncture group and a western medication group, 30 cases in each group. In the warm acupuncture group, the warm acupuncture of Mongolian medicine was operated at Dinghuixue (at the center of the vertex, the crossing site of the anterior midline and the line connected the upper edges of two ear apexes), Heyixue (at the depression of the spinous process of the 7th cervical vertebra) or Xinxue (at the depression of the spinous process of the 6th thoracic vertebra) in each treatment.

Exploring Ethical Dimensions in Neuropalliative Care.

Neurologic illnesses can be challenging to diagnose, involve changes in consciousness, and are often complicated by prognostic uncertainty. These disorders can affect how individuals interact with their environment, and as a result, many ethical concerns may arise related to their medical care. Key ethical issues in neuropalliative care include shared decision-making, evolving autonomy and capacity, best interest and harm principles, beneficence and nonmaleficence, futile and inappropriate care, justice and equity, and ableism.

Implementation of a Trauma-Informed Challenging Interactions Reporting Tool to Improve our Clinical Learning Environment.

Problem: Workplace mistreatment is a contributor to resident burnout; understanding and intervening against mistreatment is one key tool in mitigating burnout. While Accreditation Council for Graduate Medical Education (ACGME) survey data alerts programs to general mistreatment trends, those data are not detailed enough to inform local interventions. Our team designed and implemented a Challenging Interactions Reporting Tool (CIRT) to characterize the experiences of our trainees at a granular level and to inform targeted interventions for improvement.

Measurement of the ^{13}C(α, n_{0})^{16}O Differential Cross Section from 0.8 to 6.5 MeV.

The cross section of the ^{13}C(α,n)^{16}O reaction is needed for nuclear astrophysics and applications to a precision of 10% or better, yet inconsistencies among 50 years of experimental studies currently lead to an uncertainty of ≈15%. Using a state-of-the-art neutron detection array, we have performed a high resolution differential cross section study covering a broad energy range. These measurements result in a dramatic improvement in the extrapolation of the cross section to stellar energies potentially reducing the uncertainty to ≈5% and resolving long standing discrepancies in higher energy data.