Our population is ageing and we know that globally the number of older individuals is increasing at a greater rate than that of young people. We hypothesise that with age saliva composition and output alters and can have a significant impact on our health and well-being. Significantly saliva can give us information not only about oral diseases but also diseases affecting other areas of our bodies. For example, saliva plays an important role in our nutritional status allowing us to taste and smell food, to swallow and to start digestion. Age-related salivary changes negatively impacting our nutritional status might increase the risk of disease development and/or recovery time. Many prescription drugs affect salivary output; this has not been investigated in terms of age, polypharmacy or prophylaxis. To fully assess the impact of ageing, we must first understand normal, ageing-associated changes and compare this with changes due to disease.
In order to fully understand normal, ageing-associated changes, and thus determine what “healthy” and “unhealthy” ageing means, we need to compare saliva composition at an early age a well as in the later stages of life. Currently very little is known about salivary composition in neonates and how this changes through important childhood milestones such as tooth eruption, weaning and childhood dietary changes and with the onset of puberty. Any changes could signal the potential of saliva as a prognostic biomarker for both oral and systemic disease of childhood and development.
Saliva will be collected from children (from birth to puberty), before and after tooth eruption, with and without oral diseases (e.g. caries or mild gum disease as an early example of inflammation). Proteomic and glycomic analyses and an assessment of the oral microbiome will give baseline measurements and will allow us to determine if changes are associated with normal child development and the impact of mild disease.
The outcomes from this study will feed into and inform our larger field of study investigating the proteomic, glycomic and microbiome profile of saliva across our lives and in subjects enduring chronic inflammation and infection. This information could lead to the identification of novel biomarkers and potentially early intervention in disease development.
Candidates must have a first or upper second class honors degree or significant research experience.
How to apply:
Please complete a University Postgraduate Research Application form available here: www.shef.ac.uk/postgraduate/research/apply
Please clearly state the prospective main supervisor in the respective box and select Clinical Dentistry as the department.
Interested candidates should in the first instance contact Lynne Bingle (firstname.lastname@example.org)
Funding: Self funded