Cardiologist (heart failure) @BartsHospital, Scientist (molecular epidemiology) @UCL_IHI and @HDR_UK
Joined October 2009
- Tweets 113
- Following 150
- Followers 187
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19 Photos and videos
Tom Lumbers retweeted
4 Mar 2025
Lastly, it goes without saying that it takes a village to publish this study. I'd like to thank my previous PhD and postdoc advisor at UCL, @tomlumbers who led this project, friends and collaborators within the HERMES Consortium, and all study participants.
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Tom Lumbers retweeted
4 Mar 2025
BONUS for scrolling:
We also have an online supplementary information with more details on:
1. GWAS QC pipeline
2. Locus zoom, gene prioritisation, cross-trait association, and study-level association for each heart failure locus
hermes2-supp-note.netlify.ap…
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Tom Lumbers retweeted
4 Mar 2025
We have also released the GWAS summary statistics for browsing and download via the CVD Knowledge Portal:
* Mixed-ancestry meta-analysis: cvd.hugeamp.org/dinspector.h…
* European ancestry meta-analysis: cvd.hugeamp.org/dinspector.h…
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Tom Lumbers retweeted
4 Mar 2025
We described some more analyses in the paper that are not covered here; including genetic architecture, heritability, polygenic risk score, finemapping and pathway enrichment. Do have a read if you find our paper interesting, and let us know if you have any feedback!
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Tom Lumbers retweeted
4 Mar 2025
We performed genetic correlation (rg) and Mendelian randomisation analyses to distinguish between shared genetics and causal relationships. This is most apparent in CAD and ni-HF, which shows rg without causal effect. Notably, T2D shows this pattern on all HF subtypes.
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Tom Lumbers retweeted
4 Mar 2025
We further explored the extent of pleiotropic effects in HF loci on risk factors and diseases associated with HF. Through colocalisation analysis, we found that HF shared causal genetic variants with at least one of 22 other traits at 42 loci.
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Tom Lumbers retweeted
4 Mar 2025
The identified genotype-phenotype clusters provide insights into etiological modules underlying HF pathology, e.g. cluster 1: ischaemic & major cardiovascular disorders, cluster 2: arrythmia & cardiomyopathies, cluster 4: hypertension, cluster 5: metabolic disorders.
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Tom Lumbers retweeted
4 Mar 2025
Next, we characterised the downstream effect of the lead genetic variants on 294 human diseases in UK Biobank. We then used network analysis and community detection technique to identify 18 distinct genotype-phenotype clusters from these phenome-wide association results.
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Tom Lumbers retweeted
4 Mar 2025
Using sn-RNAseq from 16 healthy & 28 failing heart donors, we found enrichment of cardiomyocyte genes. We also identified 53 GWAS genes that were differentially expressed in cardiac cell types, notably cardiomyocytes and fibroblasts.
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Tom Lumbers retweeted
4 Mar 2025
Using heritability enrichment analysis, we found differential involvement of tissues across subtypes. Notably, whilst other subtypes were enriched for genes that are more specifically expressed in cardiac tissues, ni-HFpEF was distinctly enriched for kidney and pancreas.
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Tom Lumbers retweeted
4 Mar 2025
Integrating multiple gene prioritisation methods, we shortlisted 142 candidate effector genes across the 66 loci, and nominated the most likely effector gene in each locus. This includes IGFBP7 for HFpEF, which is linked to cardiomyocyte senescence and cardiac remodelling.
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Tom Lumbers retweeted
4 Mar 2025
We found 66 independent genetic loci associated with ≥1 HF phenotype, including 37 not previously reported. Of note, 10 loci were identified in GWAS of ni-HF subtypes despite smaller N compared to HF-all; showing the importance of phenotype definition in GWAS
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Tom Lumbers retweeted
4 Mar 2025
First, we performed GWAS meta-analyses on 4 subsets of HF phenotypes comprising >150k cases:
1. Overall HF (HF-all)
2. non-ischaemic HF (ni-HF)
3. ni-HF with reduced (<50%) ejection fraction (ni-HFrEF)
4. ni-HF with preserved (≥50%) ejection fraction (ni-HFpEF)
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Tom Lumbers retweeted
4 Mar 2025
Heart failure (HF) is a complex disease associated with many etiologies and risk factors. Here, we study how genetic variation influence risk of different HF subtypes and integrate these results with other genomic information to uncover disease etiology
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Tom Lumbers retweeted
4 Mar 2025
🚨 Our latest GWAS of heart failure subtypes is now out in Nature Genetics!
rdcu.be/eb9O0
A massive global collaboration from HERMES Consortium involving >40 studies with >150,000 heart failure cases.
@HERMESgenetics @tomlumbers
🧵 highlighting key findings 1/
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Tom Lumbers retweeted
21 Nov 2024
Bonus (in case buried in the paper): Here's an online dashboard showing regional association plots of the identified 80 genetic susceptibility loci for DCM (including Broad & Strict definition and multitrait GWAS) integrated with gene prioritisation score:
hermes-dcm-locus.netlify.app…
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Tom Lumbers retweeted
21 Nov 2024
See @SeanLZheng thread on our preprint for key summary x.com/SeanLZheng/status/1707…
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Tom Lumbers retweeted
21 Nov 2024
📣 Out today:
nature.com/articles/s41588-0…
We probe into the molecular aetiology of dilated cardiomyopathy using GWAS, RVAS, cellular transcriptomics, PGS (and more!)
Massive collaborative effort from the HERMES Consortium jointly led by @SeanLZheng , @drjamesware , @tomlumbers
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22 Nov 2024
Exciting news! Our latest research on dilated cardiomyopathy has just been published in Nature Genetics: rdcu.be/d0ZzH
A huge thank you to our incredible HERMES collaborators for making this possible. hermesconsortium.org
@drjamesware @SeanLZheng @AH_AlbertHenry
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Tom Lumbers retweeted
5 Oct 2023
9/ We took a deeper dive to investigate the extent of pleiotropic effects in HF loci on selected risk factor and endophenotypes of HF. Through colocalisation analysis, we found that HF shared causal variants with at least one of 22 other traits at 42 loci.
ALT a. Colocalisations between HF and 22 GWAS phenotypes (out of 24 tested) across 42 (out of 66) loci with posterior probability of shared causal variants (PPcoloc H4) > 0.8. Each band connects a pair of locus - phenotype nodes, and represents sharing of causal variants between the phenotype and HF at the locus. Annotated number represents total number of colocalisations by locus and phenotype, which is displayed in panel b. & c.
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