Faculty of Biology, Medicine and Health

The University of Manchester

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  (MBRC) Studying pathophysiology and measurement of raynaud’s phenomenon using mobile phone technology in an ambulatory setting

  Prof A Herrick, Dr A Murray  No more applications being accepted

About the Project

Raynaud’s phenomenon (RP, episodic colour changes of the extremities on cold exposure) is a major cause of pain and morbidity, especially in patients with systemic sclerosis (SSc) spectrum disorders who may progress to finger ulcers and gangrene. Development of effective treatments requires better understanding of pathophysiology and better outcome measures (the lack of reliable outcome measures is a major contributor to the dearth of clinical trials).

At the University of Manchester and at Salford Royal Hospital (a tertiary referral centre for patients with RP and SSc) we have a major interest in developing and applying non-invasive imaging techniques to better understand pathophysiology of RP and to develop badly needed, reliable outcome measures for use in clinical trials. This clinical fellowship builds upon our previous and ongoing studies and will provide exciting opportunities to take state-of-the art methodologies ’to the patient’ in his/her everyday environment (which is where attacks of RP occur) in order to further our understanding of disease process and measurement. Specifically, the work will be informed by current projects examining mobile phone technology to document attacks of RP, and automating analysis of low magnification capillaroscopy images.

There will be three parts to the fellowship:
1. Developing ’at home’ nailfold capillaroscopy, to study structural microvascular change in patients with SSc over time, initially in a pilot feasibility study and then (if the pilot is successful) in a longer term study.
2. Studying relationships between finger colour and temperature (never previously explored, but providing a ’next step’ in our understanding of different forms of RP), using mobile phone photography and infra-red thermography contemporaneously. Patients with both primary and SSc-related RP will participate.
3. Developing a mobile phone ’app’ as an outcome measure/biomarker for RP, incorporating symptoms, colour changes, and temperature (and possibly capillaroscopy). This work will pave the way for treatment studies including industry collaborations.

The clinical fellow will have the opportunities afforded by working within an internationally recognised multidisciplinary group of clinicians and scientists researching RP and SSc (with a focus on the associated digital vascular disease). S/he will gain research skills/knowledge in the following: study design and set-up, co-ordination of studies in patients with chronic disease, several different non-invasive imaging techniques, mobile phone technology, data management, analysis of data including statistical analysis, interpretation and write-up of results, and presenting at national and international meetings, including to patient organisations.

Funding Notes

Candidates will hold a medical degree and show evidence of interest in musculoskeletal research. Ideally candidates would hold a postgraduate degree, such as Masters, have a track record in clinical research and demonstrate a commitment to an academic career.

This is a Clinical Research Fellowship PhD project. Applicants must be from the UK/EU and funding covers fees/salary (an appropriate amount in line with the applicant's current salary and grade) for three years.

Applicants may contact the Primary Supervisor directly with any questions. Online applications must be submitted, select 'Manchester BRC' as the programme - for more information please visit https://www.bmh.manchester.ac.uk/study/research/funded-programmes/mbrc-studentships/

References

1. Herrick AL. Nature Reviews Rheumatol 2012; 8: 469-79.
2. Herrick AL. Curr Opin Rheumatol 2016; 28:577-85.
3. Berks M, Tresadern P, Dinsdale G, Murray A, Moore T, Herrick A, Taylor C. Med Image Comput Comput Assist Interv 2014; 17(Pt 1): 658-665. PMID: 25333175
4. Hughes M, Moore T, O’Leary N, Tracey A, Ennis H, Dinsdale G, Murray A, Roberts C, Herrick AL. Rheumatology 2015; 154: 251-9.
5. Flavahan NA. Nat Rev Rheumatol 2015;11:146-58.

Where will I study?

Faculty of Biology, Medicine and Health

Tackle real world challenges, make a difference, and elevate your career with postgraduate research in the Faculty of Biology, Medicine and Health at Manchester. From biochemistry to neuroscience, cancer sciences to medicine, audiology to mental health and everything in between, we offer a wide range of postgraduate research projects, programmes and funding which will allow you to immerse yourself in an area of research you’re passionate about.

Why study at Faculty of Biology, Medicine and Health?

Ranked the best place to live in the UK (The Economist Global Liveability Index, 2022), Manchester boasts world-class culture, iconic sports, a thriving music and food scene, and much more. It’s not just a place to research, it’s a place to call home.

Experience PhD life as part of a diverse postgraduate research community of more than 1,000 postgraduate researchers at the 29th most international university in the world (Times Higher Education, 2023).

With 93% of research activity at the University rated as ‘world-leading’ or ‘internationally excellent’ (Research Impact Framework, 2021), you’ll get the chance to have an impact on global health and science challenges.

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About Faculty of Biology, Medicine and Health

At Manchester, postgraduate researchers are at the heart of our mission to tackle pressing global challenges in biological, medical and healthcare sciences - and you could be too.

By choosing Manchester for your postgraduate research, you’ll be joining a university with an exceptional research reputation, where 93% of research is world-leading or internationally excellent (REF, 2021) and where your work will have real-world impact.

You’ll research in world-class facilities alongside leading experts at the forefront of innovation, collaborating across disciplines to pioneer new treatments, advance scientific knowledge, and improve healthcare globally.

Supported by our dedicated Doctoral Academy and strong industry links, you'll experience PhD life in a vibrant, welcoming and diverse postgraduate research community.

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