Impact of the COVID-19 Pandemic on Cancer Patient Educators.

Patient education (PE) is vital in reducing anxiety, increasing satisfaction with treatment, helping with self-management, and creating a sense of control for cancer patients. Patients access much of their material from health care providers through in-person visits, patient libraries, and in-person classes. Due to reductions in in-person visits throughout the pandemic, we sought to understand how PE programs responded under varying levels of COVID-19 restrictions to meet the information needs of patients and families. A cross-sectional survey was distributed to members of the Cancer Patient Education Network (CPEN) and the Health Care Education Association (HCEA) via the respective listservs. The survey consisted of five sections that included closed and opened questions. Participants were asked questions to describe their PE programs and how their duties were affected during the pandemic. Forty-two CPEN members completed the survey (N = 42, 66%) with a 35% response rate and a 55% completion rate, and 19 HCEA members completed the survey (N = 19, 30%) with a 5% response rate and 16% completion rate. The majority of staff surveyed were not furloughed (N = 57/64, 89%). Just under half reported a change in daily PE program activities (N = 23/52, 44%) and most reported a change in developing PE materials (e.g., pamphlets) (N = 10/26, 63%), finding information for patients/families (N = 11/19, 58%), and delivering classes (N = 12/21, 57%). COVID-19 has ushered in a new era in the delivery of PE with the rapid deployment of digital cancer patient education. Results can inform future directions for the delivery of PE post-pandemic.

Perforin, COVID-19 and a possible pathogenic auto-inflammatory feedback loop.

During COVID-19 infection, reduced function of natural killer (NK) cells can lead to both compromised viral clearance and dysregulation of the immune response. Such dysregulation leads to overproduction of cytokines, a raised neutrophil/lymphocyte ratio and monocytosis. This in turn increases IL-6 expression, which promotes scar and thrombus formation. Excess IL-6 also leads to a further reduction in NK function through downregulation of perforin expression, therefore forming a pathogenic auto-inflammatory feedback loop. The perforin/granzyme system of cytotoxicity is the main mechanism through which NK cells and cytotoxic T lymphocytes eliminate virally infected host cells, as well as being central to their role in regulating immune responses to microbial infection. Here, we present epidemiological evidence suggesting an association between perforin expression and resistance to COVID-19. In addition, we outline the manner in which a pathogenic auto-inflammatory feedback loop could operate and the relationship of this loop to genes associated with severe COVID-19. Such an auto-inflammatory loop may be amenable to synergistic multimodal therapy.

Harnessing co-operative immune augmentation by contact allergens to enhance the efficacy of viral vaccines.

Although the development of successful vaccines against coronaviruses may be achieved, for some individuals the immune response that they stimulate may prove to be insufficient for effective host defence. The principle that a relatively strong contact allergen will have an enhancing effect on sensitization compared with a less potent contact allergen if they are co-administered, may not, at first, appear relevant to this issue. However, this augmentation effect is thought to be due to the sharing of common or complementary pathways. Here, we briefly consider aspects of the shared and complementary pathways between skin sensitization induced by exposure to a contact allergen and the immune response to viruses, with particular reference to COVID-19. The relationship leads us to explore whether this principle, which we name here as "co-operative immune augmentation" may be extended to include viral vaccination. We consider evidence that even relatively weak contact allergens, used in vaccines for other purposes, can show enhanced sensitization, which is in keeping with a co-operative augmentation principle. Finally, we consider how the potent contact allergen diphenylcyclopropenone could be employed safely as an enhancer of vaccine responses.