Culinary cultural immersion: A qualitative analysis of resident knowledge, attitudes, and behavioral changes following a brief Somali cultural immersion experience.

Background: Teaching cultural humility is required by the Accreditation Council for Graduate Medical Education and can improve patient satisfaction and health care outcomes. Because one-third of the 150,000 Somali immigrants and refugees in the United States live in Minnesota, we aimed to determine whether a brief cultural immersion experience, where small groups of residents share a meal with Somali interpreters at a Somali restaurant, would affect resident knowledge, attitudes, and behaviors when caring for Somali patients in a Minnesota emergency department. Methods: From October 2017 to September 2018, emergency medicine residents were invited to dinners held outside of regular clinical/academic hours. Dinners took place at a Somali restaurant and were facilitated by a Somali interpreter and a faculty physician. While they were designed as learner-driven sessions, facilitators were encouraged to discuss specific themes. In addition to an evaluation survey, participants underwent semistructured interviews after the experiences, and a qualitative analysis of derived themes is reported. Results: Six dinners were hosted for a total of 20 residents, with 17 (85%) completing the evaluation survey and interview. Residents strongly agreed that this experience was worth their time and would recommend the program. Residents reported an increase in their knowledge of Somali culture, health care paradigms, and diet. Behavioral changes were described, including how residents greet patients, tailor clinical visits to patient expectations, and use interpreters as cultural brokers. Attitudinal changes were reported to a lesser degree but included an increased acceptance of cultural differences and an increased sense of connectedness to this population. Finally, residents reported that the benefits of this program were due to the authenticity of the experience, the informal small-group setting, and their sense of being in the minority during the dinners. Conclusions: A brief immersion experience at a Somali restaurant was sufficient to result in increased knowledge, attitudinal, and behavioral changes when caring for Somali patients.

Localized Interleukin-12 for Cancer Immunotherapy.

Interleukin-12 (IL-12) is a potent, pro-inflammatory type 1 cytokine that has long been studied as a potential immunotherapy for cancer. Unfortunately, IL-12's remarkable antitumor efficacy in preclinical models has yet to be replicated in humans. Early clinical trials in the mid-1990's showed that systemic delivery of IL-12 incurred dose-limiting toxicities. Nevertheless, IL-12's pleiotropic activity, i.e., its ability to engage multiple effector mechanisms and reverse tumor-induced immunosuppression, continues to entice cancer researchers. The development of strategies which maximize IL-12 delivery to the tumor microenvironment while minimizing systemic exposure are of increasing interest. Diverse IL-12 delivery systems, from immunocytokine fusions to polymeric nanoparticles, have demonstrated robust antitumor immunity with reduced adverse events in preclinical studies. Several localized IL-12 delivery approaches have recently reached the clinical stage with several more at the precipice of translation. Taken together, localized delivery systems are supporting an IL-12 renaissance which may finally allow this potent cytokine to fulfill its considerable clinical potential. This review begins with a brief historical account of cytokine monotherapies and describes how IL-12 went from promising new cure to ostracized black sheep following multiple on-study deaths. The bulk of this comprehensive review focuses on developments in diverse localized delivery strategies for IL-12-based cancer immunotherapies. Advantages and limitations of different delivery technologies are highlighted. Finally, perspectives on how IL-12-based immunotherapies may be utilized for widespread clinical application in the very near future are offered.

Ultrasound-Stimulated Phase-Change Contrast Agents for Transepithelial Delivery of Macromolecules, Toward Gastrointestinal Drug Delivery.

The gastrointestinal (GI) tract presents a notoriously difficult barrier for macromolecular drug delivery, especially for biologics. Herein, we demonstrate that ultrasound-stimulated phase change contrast agents (PCCAs) can transiently disrupt confluent colorectal adenocarcinoma monolayers and improve the transepithelial transport of a macromolecular model drug. With ultrasound treatment in the presence of PCCAs, we achieved a maximum of 44 ± 15% transepithelial delivery of 70-kDa fluorescein isothiocyanate-dextran, compared with negligible delivery through sham control monolayers. Among all tested rarefactional pressures (300-600 kPa), dextran delivery efficiency was consistently greatest at 300 kPa. To explore this unexpected finding, we quantified stable and inertial cavitation energy generated by various ultrasound exposure conditions. In general, lower pressures resulted in more persistent cavitation activity during the 30-s ultrasound exposures, which may explain the enhanced dextran delivery efficiency. Thus, a unique advantage of using low boiling point PCCAs for this application is that the same low-pressure pulses can be used to induce vaporization and provide maximal delivery.

Molecular mechanisms of heparin-induced modulation of human interleukin 12 bioactivity.

Human interleukin-12 (hIL-12) is a heparin-binding cytokine whose activity was previously shown to be enhanced by heparin and other sulfated glycosaminoglycans. The current study investigated the mechanisms by which heparin increases hIL-12 activity. Using multiple human cell types, including natural killer cells, an IL-12 indicator cell line, and primary peripheral blood mononuclear and T cells, along with bioactivity, flow cytometry, and isothermal titration calorimetry assays, we found that heparin-dependent modulation of hIL-12 function correlates with several of heparin's biophysical characteristics, including chain length, sulfation level, and concentration. Specifically, only heparin molecules longer than eight saccharide units enhanced hIL-12 activity. Furthermore, heparin molecules with three sulfate groups per disaccharide unit outperformed heparin molecules with one or two sulfate groups per disaccharide unit in terms of enhanced hIL-12 binding and activity. Heparin also significantly reduced the EC50 value of hIL-12 by up to 11.8-fold, depending on the responding cell type. Cytokine-profiling analyses revealed that heparin affected the level, but not the type, of cytokines produced by lymphocytes in response to hIL-12. Interestingly, although murine IL-12 also binds heparin, heparin did not enhance its activity. Using the gathered data, we propose a model of hIL-12 stabilization in which heparin serves as a co-receptor enhancing the interaction between heterodimeric hIL-12 and its receptor subunits. The results of this study provide a foundation for further investigation of heparin's interactions with IL-12 family cytokines and for the use of heparin as an immunomodulatory agent.