Omics

Omics iconThe Leicester Precision Medicine Institute has a broad membership that includes academic experts in the fields of Genomics, Proteomics and Metabolomics.  The expertise and equipment that rests with these experts underpins work across all LPMI's clinical specialities.

Genomics

There is expertise in cutting-edge genomics and genetic epidemiology, underpinned by world-renowned genetics. LPMI's members contribute world leading patient and scientific resources:

  • Local precision medicine cohorts
  • Leading international consortia for genomics of cardiovascular and respiratory disease
  • Cancer genomics
  • Leading the first genetic study in UK Biobank, UK BiLEVE, and the study of telomeres in UK Biobank
  • Microbial genomics
  • Genomics England: we lead the Quantitative Methods, Machine Learning and Functional Genomics Clinical Interpretation Partnership and provide innovation and training in genomic medicine, recruiting participants to the East of England NHS Genomics Medicine Centre

Proteomics and Metabolomics

The University of Leicester has invested in state of the art Mass spectrometry equipment and facilities with the aim of creating a unique and world leading Proteomics and Biomarker discovery facility.

The John and Lucille van Geest Biomarker Facility provides a critical mass of equipment and expertise to deliver on a wide range of projects including:

  • Biomarkers of Diastolic Heart Failure
  • EU FP7 Biostat - Initiative to detect patients who respond poorly to heart failure therapies
  • MRC DTG - The role of plasma proteomics toimprove the accuracy of predictions of R2I2 in ICD patients

Breathomics: EMBER

The East Midlands Breathomics Pathology Node (EMBER) is a Medical Research Council (MRC) & Engineering and Physical Sciences Research Council (EPSRC) funded Molecular Pathology Node hosted at the University of Leicester partnering with University Hospitals of Leicester NHS Trust, Loughborough University and Industry.

EMBER is developing novel breath-based systems for molecular pathology. Exhaled breath contains volatile organic compounds (VOCs) that reflect biological processes occurring within the lung and, via the bloodstream more distant organs.  Projects include characterising patients with asthma, COPD and cardiovascular diseases.