The UK Healthy Universities Self-Review Tool: Whole System Impact.

Over recent years, there has been growing interest in Healthy Universities, evidenced by an increased number of national networks and the participation of 375 participants from over 30 countries in the 2015 International Conference on Health Promoting Universities and Colleges, which also saw the launch of the Okanagan Charter. This paper reports on research exploring the use and impact of the UK Healthy Universities Network's self review tool, specifically examining whether this has supported universities to understand and embed a whole system approach. The research study comprised two stages, the first using an online questionnaire and the second using focus groups.

Applying the whole-system settings approach to food within universities.

Universities represent an important setting for promoting health and well-being--and specifically for developing systems that support healthy and sustainable food procurement and provision. By drawing on the whole-system settings approach and working within the framework offered by Healthy Universities, higher education institutions are in a strong position to address the full range of issues that make up the university 'foodscape', thereby promoting health in an integrated and far-reaching way that takes account of the relationships between environments and behaviours, and between staff, students and the wider community. Informed particularly by work in England, this paper uses a healthy settings model to explore and discuss how the Healthy Universities approach can help to ensure a holistic and integrated approach to addressing issues relating to food.

Healthy Universities: current activity and future directions--findings and reflections from a national-level qualitative research study.

This qualitative study used questionnaires to scope and explore 'healthy universities' activity taking place within English higher education institutions (HEIs). The findings revealed a wealth of health-related activity and confirmed growing interest in the healthy universities approach--reflecting an increasing recognition that investment for health within the sector will contribute not only to health targets but also to mainstream agendas such as staff and student recruitment, experience and retention; and institutional and societal productivity and sustainability. However, they also suggested that, while there is growing understanding of the need for a comprehensive whole system approach to improving health within higher education settings, there are a number of very real challenges--including a lack of rigorous evaluation, the difficulty of integrating health into a 'non-health' sector and the complexity of securing sustainable cultural change.

Healthy universities--time for action: a qualitative research study exploring the potential for a national programme.

Despite the absence of national or international steers, there is within England growing interest in the Healthy University approach. This article introduces Healthy Universities; reports on a qualitative study exploring the potential for a national programme contributing to health, well-being and sustainable development; and concludes with reflections and recommendations. The study used questionnaires and interviews with key informants from English higher education institutions and national stakeholder organizations.

Gene expression in normal urothelium depends on location within the bladder: a possible link to bladder carcinogenesis.

Objectives: Clinical studies have shown that more than 70% of primary bladder tumours arise in the area around the ureteric orifice. In this study a genomic approach was taken to explore the molecular mechanisms that may influence this phenomenon.

Methods: RNA was isolated from each individual normal ureteric orifice and the dome biopsy from 33 male patients.

Cell cycle checkpoint function in bladder cancer.

Background: Cell cycle checkpoints function to maintain genetic stability by providing additional time for repair of DNA damage and completion of events that are necessary for accurate cell division. Some checkpoints, such as the DNA damage G1 checkpoint, are dependent on p53, whereas other checkpoints, such as the decatenation G(2) checkpoint, are not. Because bladder transitional cell carcinomas (TCCs) often contain numerous chromosomal aberrations and appear to have highly unstable genomes, we analyzed cell cycle checkpoint functions in a panel of TCC lines.

Caffeine and human DNA metabolism: the magic and the mystery.

The ability of caffeine to reverse cell cycle checkpoint function and enhance genotoxicity after DNA damage was examined in telomerase-expressing human fibroblasts. Caffeine reversed the ATM-dependent S and G2 checkpoint responses to DNA damage induced by ionizing radiation (IR), as well as the ATR- and Chk1-dependent S checkpoint response to ultraviolet radiation (UVC). Remarkably, under conditions in which IR-induced G2 delay was reversed by caffeine, IR-induced G1 arrest was not.