The Health Research Authority website uses essential cookies

This site uses session cookies and persistent cookies to improve the content and structure of the site.

By clicking “Accept All Cookies”, you agree to the storing of cookies on this device to enhance site navigation and content, analyse site usage, and assist in our marketing efforts.

By clicking 'See cookie policy' you can review and change your cookie preferences and enable the ones you agree to.

By dismissing this banner, you are rejecting all cookies and therefore we will not store any cookies on this device.

See cookie policy

OSTEOMICS: Identifying regulators of bone homeostasis

  • Research type

    Research Study

  • Full title

    OSTEOMICS: Identifying regulators of bone homeostasis

  • IRAS ID

    311376

  • Contact name

    Jake Taylor-King

  • Contact email

    jake@relationrx.com

  • Sponsor organisation

    Relation Therapeutics

  • Clinicaltrials.gov Identifier

    N/A, N/A

  • Duration of Study in the UK

    10 years, 0 months, 1 days

  • Research summary

    Diseases of bone associated with ageing, including osteoporosis (OP) and osteoarthritis (OA), reduce bone mass, bone strength and joint integrity. Current non-surgical approaches are limited to pharmaceutical agents that are not disease modifying and have poor patient tolerability due to side effect profiles. Developing a fundamental understanding of cellular bone homeostasis, including how key cell types affect tissue health, and offering novel therapeutic targets for prevention of bone disease is therefore essential. This is the focus of OSTEOMICS.

    A number of factors have been linked to increased risk of bone disease, including genetic predisposition, diet, smoking, ageing, autoimmune disorders and endocrine disorders. In our study, we will recruit patients undergoing elective and non-elective orthopaedic surgery and obtain surgical bone waste for analysis. This will capture a cohort of patients with bone disorders like OP and OA, in addition to patients without overt clinical bone disease. We will study the relationship between the molecular biology of bone cells, bone structure, genetics (DNA) and environmental factors with the aim of identifying and validating novel therapeutic targets.

    We will leverage modern single cell technologies to understand the diversity of cell types found in bone. These technologies have now led to the characterisation of virtually every tissue in the body, however bone and bone-adjacent tissues are massively underrepresented due to the anatomical location and underlying technical challenges. Early protocols to demineralise bone and perform single cell profiling have now been developed. We will systematically scale up these efforts to observe how genetic variation at the population level leads to alterations in bone structure and quality.

    Over the next 10 years, we will generate data to comprehensively characterise bone across health and disease, use machine learning to drive analysis, and experimentally validate hypotheses - which will ultimately contribute to developing the next generation of therapeutic agents.

  • REC name

    East Midlands - Leicester Central Research Ethics Committee

  • REC reference

    22/EM/0174

  • Date of REC Opinion

    26 Sep 2022

  • REC opinion

    Further Information Favourable Opinion

© Copyright HRA 2025
Site by Big Blue Door