Precision Diagnosis and Care for Families With Pulmonary Fibrosis in Ireland
PRECISE-PF
1 other identifier
observational
300
1 country
1
Brief Summary
This study aims to improve the understanding of how genes and the environment can influence and cause pulmonary fibrosis. By identifying the presence of genes and other factors that can put people at risk of developing pulmonary fibrosis, the influence these factors have on the progression of the disease can be studied. Interstitial lung disease (ILD) is the medical term given to a group of lung diseases affecting the same part of the lung, the interstitium, each with similar symptoms. In some of these diseases, inflammation leads to lung scarring, known as fibrosis. Idiopathic Pulmonary Fibrosis (IPF) is one of these diseases; it has a particular pattern on computed tomography (CT) scans. IPF is 'idiopathic' as it is not yet fully understood why it happens. It has a poor prognosis. The average survival time is three to five years after diagnosis. While new antifibrotic drugs offer hope of slowing disease progression, lung transplant is the only cure, and it comes with its significant risks. Although it is not fully understood what causes IPF, it is known that genetic factors significantly increase the risk of developing the disease. Up to a quarter (25%) of people with IPF with a family history appear to have a causative genetic variant. Familial-pulmonary-fibrosis (FPF), the term for people with at least one relative with IPF, may have worse disease when compared to those without a family history. However, this needs more research. Patients with specific genes, telomere-related gene variants, appear to have a greater risk of developing blood disorders from medications given to suppress the body's immune system after a lung transplant. Progressive pulmonary fibrosis is pulmonary fibrosis where there is irreversible worsening of the disease, worsening of lung function, respiratory symptoms and even early death. It is of growing importance regardless of the cause, whether it be idiopathic, familial or secondary to a connective tissue disease. ILD is increasingly recognised as a complication of connective tissue diseases. It is the leading cause of death in people with systemic sclerosis. The new antifibrotic drugs slow the progression of CTD-ILD. People with progressive pulmonary fibrosis who have a greater than 10% drop over one year in a measure of their lung function, called the forced vital capacity, benefit most from antifibrotic therapy. Early identification of people with progressive disease would allow the commencement of treatment quicker. At-home spirometry may be a way of identifying those who are worsening early. This study hypothesises that by improving knowledge of factors that affect disease behaviour and progression and assessing tools for the early identification of progressive disease, such as at-home spirometry and CT scan pattern determination by deep-learning analysis, we can provide 'precision' diagnosis and treatment. It is hoped that this improved understanding will help reduce the clinical risk for people with pulmonary fibrosis and their families. This study aims to recruit 300 patients: 100 with IPF, 100 with FPF, and 100 with CTD ILD. Each participant will be followed for one year. This observational study aims to help answer a number of questions:
- 1.What genetic variants cause people to develop ILD, and which increase a person's risk of developing ILD are present in the study population?
- 2.How does pulmonary fibrosis behave in people who have a family history of IPF compared to those who do not and in people with CTD-ILD?
- 3.Are different types of pulmonary fibrosis more progressive than others i.e. Is pulmonary fibrosis in those with a family history of pulmonary fibrosis more progressive than in those who do not have a family history?
- 4.Is the disease in those with a genetic variant known to cause ILD worse than in those who don't have a gene?
- 5.Can at-home spirometry help identify people at risk of progressive disease early?
- 6.Can deep-learning analysis (AI) be used to find CT scan patterns to predict when pulmonary fibrosis will worsen?
Trial Health
Trial Health Score
Automated assessment based on enrollment pace, timeline, and geographic reach
participants targeted
Target at P75+ for all trials
Started Sep 2021
Longer than P75 for all trials
1 active site
Health score is calculated from publicly available data and should be used for screening purposes only.
Trial Relationships
Click on a node to explore related trials.
Study Timeline
Key milestones and dates
Study Start
First participant enrolled
September 28, 2021
CompletedFirst Submitted
Initial submission to the registry
June 6, 2024
CompletedFirst Posted
Study publicly available on registry
November 22, 2024
CompletedPrimary Completion
Last participant's last visit for primary outcome
July 1, 2026
ExpectedStudy Completion
Last participant's last visit for all outcomes
April 1, 2028
November 22, 2024
June 1, 2024
4.8 years
June 6, 2024
November 20, 2024
Conditions
Keywords
Outcome Measures
Primary Outcomes (1)
Determine if familial-pulmonary-fibrosis is more progressive than sporadic-IPF
Disease progression defined as relative FVC decline ≥10% or death/lung transplant within 12 months of entering the study.
12-months of entering the study
Secondary Outcomes (8)
All-cause mortality
Time of censoring or 12 months
Identify genotypes present in our study population
Within first 6 months of study recruitment
Change in quality of life scores from baseline to 1 year
From date of study entry (baseline) until 12-month-assessment questionnaire completed, 12 months
Change in 6MWT from baseline to 1 year
On entry to study (baseline) to end of observation period (12 months)
Change in pulmonary function tests from baseline to 1 year
Baseline (0 months) to 12 month follow-up
- +3 more secondary outcomes
Study Arms (3)
Familial pulmonary fibrosis group
Patients meeting the study inclusion criteria with an multidisciplinary team (MDT) diagnosis of a fibrotic interstitial lung disease, reporting one or more relatives with a fibrotic form of ILD
Idiopathic pulmonary fibrosis group
Patients meeting the study inclusion criteria with an MDT diagnosis of IPF in accordance with consensus criteria, ATS, ERS, JRS, ALAT guidelines, without a family history of pulmonary fibrosis.
Connective tissue disease related interstitial lung disease group
Patients meeting the study inclusion criteria who meet the American College of Rheumatology/European League Against Rheumatism criteria for rheumatoid arthritis, scleroderma, Sjogren's syndrome, idiopathic inflammatory myopathy and systemic lupus erythematosus criteria
Interventions
Assessment of exercise capacity by the carrying out of a 6MWT at 0, 6 and 12 months.
Radiological assessment via CT Thorax, preferably high-resolution CT thorax at baseline on entering the study and at one year. CT images will be collected on study end. CT images in all subjects will be evaluated by three readers blinded to any other interpretation and conforming to ATS-guidelines. Coded data from CT scans will be shared with our collaborator Professor Simon Walsh at Imperial College, London who will use computational methods to identify novel radiologic phenotypes linked to disease behaviour of our patient's fibrotic lung disease.
Qality of life questionnaires including; modified Medical Research Council (mMRC) dyspnea scale, The King's Brief Interstitial Lung Disease Questionnaire (KBILD), The Leister Cough Questionnaire and the EQ-5D-3L questionnaire are measured at 0, 6 and 12 months
10ml of serum will be collected for DNA extraction and analysed for causative and at risk genetic mutations
We will carry out spirometry at baseline, 6 and 2 months including forced vital capacity and diffusing capacity of the lungs for carbon monoxide.
Serology which may indicate an underlying diagnosis of ILD will be carried out on study entry. This will include a full blood count, renal profile, liver profile, C-reactive protein, creatine kinase, erythrocyte sedimentation rate, antinuclear antibodies, anticyclic citrullinated peptide antibodies, rheumatoid factor, an extended myositis antibody panel, sjögren's antibodies, scleroderma antibodies and a hypersensivity pneumonitis panel if clinically indicated.
Patient Global Assessment and Clinician Global Assessment scores completed at 0, 6 and 12 months
Continuous at home monitoring of patients using home-based digital spirometry and pulse-oximetry with real-time feedback readings to patient and clinician. Smartphone app for patients, spirometer and pulse oximeter are connected to the app via Bluetooth. Patients are asked to take 2 readings per week.
Eligibility Criteria
Participants who meet the study criteria will be recruited from the rheumatology and respiratory clinics in Beaumont Hospital, a tertiary hospital in Dublin, Ireland.
You may qualify if:
- Able and willing to give written informed consent.
- An MDT diagnosis of fibrotic ILD which fall into one of the following three catagories;
- Have a multidisciplinary team (MDT) diagnosis of a fibrotic interstitial lung disease, reporting one or more relatives with a fibrotic form of ILD
- Have a MDT diagnosis of IPF in accordance with consensus criteria, ATS, ERS, JRS, ALAT guidelines without a family history of pulmonary fibrosis.
- Meet the American College of Rheumatology/European League Against Rheumatism criteria for rheumatoid arthritis, scleroderma, Sjogren's syndrome, idiopathic inflammatory myopathy and systemic lupus erythematosus.
You may not qualify if:
- Currently participating in an interventional clinic trial.
- Change in clinical phenotype from initial radiological diagnosis to screening.
- Acute or chronic hypersensitivity pneumonitis with consensus criteria (appropriate exposure history, radiological features ± avian and fungal precipitins).
- Asbestosis (appropriate occupational history and radiological evidence of asbestos exposure)
- Life expectancy for any disease, including ILD \<12 months (investigator assessment)
- Major extrapulmonary physiological restriction (e.g. chest wall abnormality, large pleural effusion)
Contact the study team to confirm eligibility.
Sponsors & Collaborators
- Royal College of Surgeons, Irelandlead
- patientMpower Ltd.collaborator
- Imperial College Londoncollaborator
Study Sites (1)
Beaumont Hospital
Dublin, D09V2N0, Ireland
Related Publications (8)
Peljto AL, Blumhagen RZ, Walts AD, Cardwell J, Powers J, Corte TJ, Dickinson JL, Glaspole I, Moodley YP, Vasakova MK, Bendstrup E, Davidsen JR, Borie R, Crestani B, Dieude P, Bonella F, Costabel U, Gudmundsson G, Donnelly SC, Egan J, Henry MT, Keane MP, Kennedy MP, McCarthy C, McElroy AN, Olaniyi JA, O'Reilly KMA, Richeldi L, Leone PM, Poletti V, Puppo F, Tomassetti S, Luzzi V, Kokturk N, Mogulkoc N, Fiddler CA, Hirani N, Jenkins RG, Maher TM, Molyneaux PL, Parfrey H, Braybrooke R, Blackwell TS, Jackson PD, Nathan SD, Porteous MK, Brown KK, Christie JD, Collard HR, Eickelberg O, Foster EE, Gibson KF, Glassberg M, Kass DJ, Kropski JA, Lederer D, Linderholm AL, Loyd J, Mathai SK, Montesi SB, Noth I, Oldham JM, Palmisciano AJ, Reichner CA, Rojas M, Roman J, Schluger N, Shea BS, Swigris JJ, Wolters PJ, Zhang Y, Prele CMA, Enghelmayer JI, Otaola M, Ryerson CJ, Salinas M, Sterclova M, Gebremariam TH, Myllarniemi M, Carbone RG, Furusawa H, Hirose M, Inoue Y, Miyazaki Y, Ohta K, Ohta S, Okamoto T, Kim DS, Pardo A, Selman M, Aranda AU, Park MS, Park JS, Song JW, Molina-Molina M, Planas-Cerezales L, Westergren-Thorsson G, Smith AV, Manichaikul AW, Kim JS, Rich SS, Oelsner EC, Barr RG, Rotter JI, Dupuis J, O'Connor G, Vasan RS, Cho MH, Silverman EK, Schwarz MI, Steele MP, Lee JS, Yang IV, Fingerlin TE, Schwartz DA. Idiopathic Pulmonary Fibrosis Is Associated with Common Genetic Variants and Limited Rare Variants. Am J Respir Crit Care Med. 2023 May 1;207(9):1194-1202. doi: 10.1164/rccm.202207-1331OC.
PMID: 36602845BACKGROUNDZhang D, Newton CA. Familial Pulmonary Fibrosis: Genetic Features and Clinical Implications. Chest. 2021 Nov;160(5):1764-1773. doi: 10.1016/j.chest.2021.06.037. Epub 2021 Jun 26.
PMID: 34186035BACKGROUNDCutting CC, Bowman WS, Dao N, Pugashetti JV, Garcia CK, Oldham JM, Newton CA. Family History of Pulmonary Fibrosis Predicts Worse Survival in Patients With Interstitial Lung Disease. Chest. 2021 May;159(5):1913-1921. doi: 10.1016/j.chest.2021.01.026. Epub 2021 Jan 21.
PMID: 33484728BACKGROUNDBorie R, Kannengiesser C, Hirschi S, Le Pavec J, Mal H, Bergot E, Jouneau S, Naccache JM, Revy P, Boutboul D, Peffault de la Tour R, Wemeau-Stervinou L, Philit F, Cordier JF, Thabut G, Crestani B, Cottin V; Groupe d'Etudes et de Recherche sur les Maladies "Orphelines" Pulmonaires (GERM"O"P). Severe hematologic complications after lung transplantation in patients with telomerase complex mutations. J Heart Lung Transplant. 2015 Apr;34(4):538-46. doi: 10.1016/j.healun.2014.11.010. Epub 2014 Nov 13.
PMID: 25612863BACKGROUNDTyndall AJ, Bannert B, Vonk M, Airo P, Cozzi F, Carreira PE, Bancel DF, Allanore Y, Muller-Ladner U, Distler O, Iannone F, Pellerito R, Pileckyte M, Miniati I, Ananieva L, Gurman AB, Damjanov N, Mueller A, Valentini G, Riemekasten G, Tikly M, Hummers L, Henriques MJ, Caramaschi P, Scheja A, Rozman B, Ton E, Kumanovics G, Coleiro B, Feierl E, Szucs G, Von Muhlen CA, Riccieri V, Novak S, Chizzolini C, Kotulska A, Denton C, Coelho PC, Kotter I, Simsek I, de la Pena Lefebvre PG, Hachulla E, Seibold JR, Rednic S, Stork J, Morovic-Vergles J, Walker UA. Causes and risk factors for death in systemic sclerosis: a study from the EULAR Scleroderma Trials and Research (EUSTAR) database. Ann Rheum Dis. 2010 Oct;69(10):1809-15. doi: 10.1136/ard.2009.114264. Epub 2010 Jun 15.
PMID: 20551155BACKGROUNDNavaratnam V, Fleming KM, West J, Smith CJ, Jenkins RG, Fogarty A, Hubbard RB. The rising incidence of idiopathic pulmonary fibrosis in the U.K. Thorax. 2011 Jun;66(6):462-7. doi: 10.1136/thx.2010.148031. Epub 2011 Apr 27.
PMID: 21525528BACKGROUNDDistler O, Highland KB, Gahlemann M, Azuma A, Fischer A, Mayes MD, Raghu G, Sauter W, Girard M, Alves M, Clerisme-Beaty E, Stowasser S, Tetzlaff K, Kuwana M, Maher TM; SENSCIS Trial Investigators. Nintedanib for Systemic Sclerosis-Associated Interstitial Lung Disease. N Engl J Med. 2019 Jun 27;380(26):2518-2528. doi: 10.1056/NEJMoa1903076. Epub 2019 May 20.
PMID: 31112379BACKGROUNDYang M, Wu Y, Liu X, Zhao C, Li T, Li T, Zhang X, Jiang H, Mao B, Liu W. Efficacy and safety of antifibrotic agents in the treatment of CTD-ILD and RA-ILD: A systematic review and meta-analysis. Respir Med. 2023 Sep;216:107329. doi: 10.1016/j.rmed.2023.107329. Epub 2023 Jun 12.
PMID: 37315742BACKGROUND
Biospecimen
DNA, RNA, plasma, serum, white blood cells, peripheral blood mononuclear cells
MeSH Terms
Conditions
Interventions
Condition Hierarchy (Ancestors)
Intervention Hierarchy (Ancestors)
Study Officials
- PRINCIPAL INVESTIGATOR
Killian Hurley
RCSI
Central Study Contacts
Study Design
- Study Type
- observational
- Observational Model
- COHORT
- Time Perspective
- PROSPECTIVE
- Sponsor Type
- OTHER
- Responsible Party
- SPONSOR
Study Record Dates
First Submitted
June 6, 2024
First Posted
November 22, 2024
Study Start
September 28, 2021
Primary Completion (Estimated)
July 1, 2026
Study Completion (Estimated)
April 1, 2028
Last Updated
November 22, 2024
Record last verified: 2024-06