2009 Annual Research Symposium Abstract Book

2009 annual volume of abstracts for science research projects conducted by students at Trinity College

Lorcaserin as a potential opioid-sparing adjunct

Opioids, such as oxycodone, morphine, and fentanyl, are commonly used medications in the treatment of moderate to severe pain. In spite of their efficacious analgesic properties, their increased prescribing rates by physicians and inherent abuse-related effects have led to the ongoing opioid epidemic. Their clinical utility is limited by the risk of adverse dose-dependent side effects, such as constipation and respiratory depression, and the development of tolerance and dependence. Opioid-sparing adjunctive therapies are sought to address these issues by reducing the dose of opioid needed to achieve analgesia through alternative non-opioidergic mechanisms and as a result, reduce the incidence of the previously mentioned side effects. Serotonin type-2C receptor agonists have demonstrated antinociceptive efficacy in preclinical models of chronic pain. Lorcaserin is a selective 5-HT2C receptor agonist and was reported to attenuate the abuse-related effects of oxycodone. The antinociceptive properties of 5-HT2C receptor agonists and their potential to alter the abuse-related effects of commonly abused drugs suggest that lorcaserin may be a potential opioid-sparing therapeutic. The goal of these studies was to evaluate the utility of lorcaserin, in combination with opioids, in a preclinical model of acute pain. Based on previous studies demonstrating the antinociceptive activity of 5-HT2C agonists, the hypotheses for these studies were that lorcaserin would increase the acute antinociceptive effects of opioids and would attenuate the development of tolerance associated with chronic opioid consumption. The results demonstrate that the acute antinociceptive effects and the time-course of activity of opioids were enhanced by doses of lorcaserin. These effects were mediated through activation of the 5-HT2C receptor and were not blocked by administration of naloxone. Additionally, the acute effects of lorcaserin to increase opioid potency and time course was not mediated through changes in opioid distribution in the blood or central tissues. Opioid tolerance was evaluated in vivo, and tolerance was developed using two methods of treatment: an acute (single dose administration) model of tolerance and a multiple-injection model. Testing the effect of lorcaserin in these models was important because current research suggests that the mechanisms that underlie both models of tolerance are distinct from one another. The results demonstrate that lorcaserin significantly blocked the development of acute tolerance in the whole animal and on a single cell level in dorsal root ganglion cell cultures. In the multiple-day tolerance model, lorcaserin partially attenuated the development of opioid antinociceptive tolerance. Chronic administration of an opioid is associated with desensitization of the MOR, and the effect of lorcaserin on opioid tolerance may be mediated through changes in MOR functional activity. Upon further investigation using agonist-stimulated [35S]GTPyS, the results showed that lorcaserin altered basal binding of [35S]GTPyS but not agonist-stimulated binding in mice that received chronic opioid treatment. These data suggest that the effect of lorcaserin on opioid tolerance, in the multiple-injection model, is not mediated through changes in MOR functional activity. Collectively, the tolerance studies suggest that the effect of 5-HT2C receptor activation by lorcaserin has differential effects on the stages of opioid tolerances and further supports the notion that the mechanisms that underlie the stages of opioid tolerance are distinct. Given the efficacy of lorcaserin to increase the acute antinociceptive effects of opioids and its ability to impair the development of opioid tolerance, collectively, these data suggest that lorcaserin may be a useful opioid-sparing adjunctive therapy

Airborne environmental injuries and human health.

The concept that the environment in which we live can have detrimental effects on our health has existed for centuries. Obvious examples of substances that can cause human diseases include infectious agents, poisons, chemicals and other noxious agents, drugs, and physical stimuli such as bright lights and loud sounds. Some less obvious agents can include allergens, nontangible agents such as colorless, odorless gases and aerosolized toxins. In recent decades, humans have developed various new materials and compounds. Additionally, we are now producing known compounds, and even naturally occurring substances, in vastly increased amounts. Many of these substances are generally believed to threaten the health of our environment. However, there is also a considerable amount of hype and exaggeration regarding some of these agents (e.g., mold) that is unsubstantiated. This article extensively reviews the data on a large number of airborne-related illnesses and attempted to place scientific reality in the context of clinical medicine

Aerospace Medicine and Biology: A continuing bibliography with indexes, supplement 178

This bibliography lists 230 reports, articles, and other documents introduced into the NASA scientific and technical information system in February 1978

Aging and Health

Aging is a major risk factor for chronic diseases, which in turn can provide information about the aging of a biological system. This publication serves as an introduction to systems biology and its application to biological aging. Key pathways and processes that impinge on aging are reviewed, and how they contribute to health and disease during aging is discussed. The evolution of this situation is analyzed, and the consequences for the study of genetic effects on aging are presented. Epigenetic programming of aging, as a continuation of development, creates an interface between the genome and the environment. New research into the gut microbiome describes how this interface may operate in practice with marked consequences for a variety of disorders. This analysis is bolstered by a view of the aging organism as a whole, with conclusions about the mechanisms underlying resilience of the organism to change, and is expanded with a discussion of circadian rhythms in aging

Situation-aware Edge Computing

Future wireless networks must cope with an increasing amount of data that needs to be transmitted to or from mobile devices. Furthermore, novel applications, e.g., augmented reality games or autonomous driving, require low latency and high bandwidth at the same time. To address these challenges, the paradigm of edge computing has been proposed. It brings computing closer to the users and takes advantage of the capabilities of telecommunication infrastructures, e.g., cellular base stations or wireless access points, but also of end user devices such as smartphones, wearables, and embedded systems. However, edge computing introduces its own challenges, e.g., economic and business-related questions or device mobility. Being aware of the current situation, i.e., the domain-specific interpretation of environmental information, makes it possible to develop approaches targeting these challenges. In this thesis, the novel concept of situation-aware edge computing is presented. It is divided into three areas: situation-aware infrastructure edge computing, situation-aware device edge computing, and situation-aware embedded edge computing. Therefore, the concepts of situation and situation-awareness are introduced. Furthermore, challenges are identified for each area, and corresponding solutions are presented. In the area of situation-aware infrastructure edge computing, economic and business-related challenges are addressed, since companies offering services and infrastructure edge computing facilities have to find agreements regarding the prices for allowing others to use them. In the area of situation-aware device edge computing, the main challenge is to find suitable nodes that can execute a service and to predict a node’s connection in the near future. Finally, to enable situation-aware embedded edge computing, two novel programming and data analysis approaches are presented that allow programmers to develop situation-aware applications. To show the feasibility, applicability, and importance of situation-aware edge computing, two case studies are presented. The first case study shows how situation-aware edge computing can provide services for emergency response applications, while the second case study presents an approach where network transitions can be implemented in a situation-aware manner