Individualized Early Risk Assessment for Heart Diseases (IndivuHeart)
26 kwietnia 2019 zaktualizowane przez: Universitätsklinikum Hamburg-Eppendorf
Heart failure (HF) is the common end-stage of different medical conditions.
It is the only growing cardiovascular disease and its prognosis remains worse than that of many malignancies.
The lack of evidence-based treatment for patients with diastolic HF (HFpEF) exemplifies that the current "one for all" therapy has to be advanced by an individualized approach.
Inherited cardiomyopathies can serve as paradigmatic examples of different HF pathogenesis.
Both gain- and loss-of-function mutations of the same gene cause disease, calling for disease-specific agonism or antagonism of this gene´s function.
However, mutations alone do not predict the severity of cardiomyopathies nor therapy, because their impact on cardiac myocyte function is modified by numerous factors, including the genetic context.
Today, patient-specific cardiac myocytes can be evaluated by the induced pluripotent stem cell (hiPSC) technology.
Yet, unfolding the true potential of this technology requires robust, quantitative, high content assays.
The researchers' recently developed method to generate 3D-engineered heart tissue (EHT) from hiPSC provides an automated, high content analysis of heart muscle function and the response to stressors in the dish.
The aim of this project is to make the technology a clinically applicable test.
Major steps are (i) in depths clinical phenotyping and genotyping of patients with cardiomyopathies or HFpEF, (ii) follow-up of the clinical course, (iii) generation of hiPSC lines (40 patients, 40 healthy controls), and (iv) quantitative assessment of hiPSC-EHT function under basal conditions and in response to pro-arrhythmic or cardio-active drugs and chronic afterload enhancement.
The product of this study is an SOP-based assay with standard values for hiPSC-EHT function/stress responses from healthy volunteers and patients with different heart diseases.
The project could change clinical practice and be a step towards individualized risk prediction and therapy of HF.
Przegląd badań
Status
Nieznany
Interwencja / Leczenie
Szczegółowy opis
At present, heart function in patients can only be analysed by imaging methods or hemodynamic measurements. This has dramatically changed by the discovery that hiPSC can be generated from somatic cells (e.g. fibroblasts) by transduction of pluripotency genes. The investigators and others have shown that pluripotent stem cells can be efficiently differentiated into beating cardiac myocytes. This allows for the first time to study the function of cardiac myocytes from an individual patient. However, at present, only alterations were reproduced in hiPSC cells that were known previously and important limitations have to be resolved:
- Immaturity of hiPSC-derived cardiac myocytes
- Variability of hiPSC-generation, cardiac myocyte differentiation and experimental analyses
- No readout of contractile force, the parameter mostly affected in heart failure
- No modeling of hemodynamic stress in vitro
- No statistically valid correlation of hiPSC-cardiac myocyte function with clinical/genetic data
- Uncertainty as to standard values and adequate controls
- Unclear predictive value
The research challenge for the coming years is to resolve these shortcomings. IndivuHeart formulates a number of hypotheses and goals that are based on the researchers' longstanding expertise in tissue engineering and recent, still unpublished data on the pathophysiology of HCM and its modeling in EHT. The study will
- reveal standard values for hiPSC-EHT function in a statistically valid manner, both under basal and stress conditions,
- define a "cardiomyopathy phenotype" in vitro,
- allow new mechanistic insight into the pathogenesis of human HCM and DCM,
- uncover HCM-like abnormalities in HFpEF,
- allow individualized drug testing (acute and chronic).
Typ studiów
Obserwacyjny
Zapisy (Oczekiwany)
80
Kontakty i lokalizacje
Ta sekcja zawiera dane kontaktowe osób prowadzących badanie oraz informacje o tym, gdzie badanie jest przeprowadzane.
Lokalizacje studiów
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Hamburg, Niemcy, 20246
- Department of Experimental Pharmacology and Toxicology
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Kryteria uczestnictwa
Badacze szukają osób, które pasują do określonego opisu, zwanego kryteriami kwalifikacyjnymi. Niektóre przykłady tych kryteriów to ogólny stan zdrowia danej osoby lub wcześniejsze leczenie.
Kryteria kwalifikacji
Wiek uprawniający do nauki
18 lat do 60 lat (Dorosły)
Akceptuje zdrowych ochotników
Tak
Płeć kwalifikująca się do nauki
Wszystko
Metoda próbkowania
Próbka bez prawdopodobieństwa
Badana populacja
Recruitment of patients will be done by the Cardiomyopathy Outpatient Clinic which is led by Dr. M. Patten and Dr. J. Münch at the Department of Cardiology, University Heart Centre, UKE (Prof.
Blankenberg).
Opis
Inclusion Criteria:
- HCM: ProBNP ≥ 300 ng/l; IVSd ≥ 20 mm; E/E´ ≥ 8, LVOT > 30 mmHg
- DCM: presence of signs and/or symptoms of HF (NYHA II-IV); ProBNP ≥ 300 ng/l; LV EF ≤ 40% for > 3 month
Exclusion Criteria:
- Uncontrolled hypertension,
- coronary artery disease,
- persistent atrial fibrillation,
- enlisted for myectomy
Plan studiów
Ta sekcja zawiera szczegółowe informacje na temat planu badania, w tym sposób zaprojektowania badania i jego pomiary.
Jak projektuje się badanie?
Szczegóły projektu
Kohorty i interwencje
Grupa / Kohorta |
Interwencja / Leczenie |
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Control group
40 healthy volunteers will serve as control group.
Skin biopsy, genotyping and disease phenotyping
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Major steps of the project are (i) in depths clinical phenotyping and follow-up of the clinical course of probands (ii) genotyping of candidate genes involved in heart disease development and (iii) in vitro functional tests of engineered heart tissue (EHT), miniature beating heart muscles.
These EHTs are generated from hiPSC (human induced pluripotent stem cells) lines derived from skin biopsies of each participant.
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DCM patients
20 patients with dilated cardiomyopathy
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Major steps of the project are (i) in depths clinical phenotyping and follow-up of the clinical course of probands (ii) genotyping of candidate genes involved in heart disease development and (iii) in vitro functional tests of engineered heart tissue (EHT), miniature beating heart muscles.
These EHTs are generated from hiPSC (human induced pluripotent stem cells) lines derived from skin biopsies of each participant.
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HCM patients
20 patients with hypertrophic cardiomyopathy
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Major steps of the project are (i) in depths clinical phenotyping and follow-up of the clinical course of probands (ii) genotyping of candidate genes involved in heart disease development and (iii) in vitro functional tests of engineered heart tissue (EHT), miniature beating heart muscles.
These EHTs are generated from hiPSC (human induced pluripotent stem cells) lines derived from skin biopsies of each participant.
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Co mierzy badanie?
Podstawowe miary wyniku
Miara wyniku |
Opis środka |
Ramy czasowe |
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generation of hiPSC-EHT and in vitro phenotyping
Ramy czasowe: up to 60 month
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After generation of proband-specific 3D-engineered heart tissue (EHT) from hiPSC we will make a quantitative assessment of hiPSC-EHT function under basal conditions and in response to pro-arrhythmic or cardio-active drugs and chronic afterload enhancement.
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up to 60 month
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Miary wyników drugorzędnych
Miara wyniku |
Opis środka |
Ramy czasowe |
|---|---|---|
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clinical phenotyping and disease progression
Ramy czasowe: up to 60 month
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All 40 patients will be subjected to (i) high-end echocardiography including tissue Doppler and speckle tracking technology, (ii) MRI, (iii) spiroergometry and (iv) 24 h-holter ECG monitoring.
Key parameters are guideline-recommended indices of systolic (e.g.
fractional shortening, ejection fraction) and diastolic heart function (e.g.
left atrial size, E/A, E'/A' and E/E´ratios), outflow tract gradient and cardiac remodeling (gadolinium late enhancement).
The latter will be only done in HCM/DCM for ethical reasons.
Technical analyses will be made at study entry and after 4 years, clinical examinations once a year (Cardiomyopathy Outpatient Clinic).
Patients and their treating physicians will be prompted to report any clinical event during the course of the study.
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up to 60 month
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genotyping
Ramy czasowe: up to 60 month
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The genetic part of this project does not focus on the detection of new HCM/DCM disease genes, but on comprehensively determining the molecular basis of cardiomyopathy in the included patients. DNA samples will first be subjected to sequencing of a panel of about 120 cardiomyopathy-related candidate genes, which detects approximately 75% of all disease-causing mutations. The rest will be analysed by whole genome sequencing. The resulting sequence data will be processed using CASAVA, followed by subsequent analyses using the GATK software package provided through the Broad Institute (Boston, USA) and the commercial software CLC-BIO. |
up to 60 month
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Współpracownicy i badacze
Tutaj znajdziesz osoby i organizacje zaangażowane w to badanie.
Śledczy
- Główny śledczy: Thomas Eschenhagen, Prof.Dr.med., Universitatsklinikum Hamburg-Eppendorf
Publikacje i pomocne linki
Osoba odpowiedzialna za wprowadzenie informacji o badaniu dobrowolnie udostępnia te publikacje. Mogą one dotyczyć wszystkiego, co jest związane z badaniem.
Publikacje ogólne
- Takahashi K, Tanabe K, Ohnuki M, Narita M, Ichisaka T, Tomoda K, Yamanaka S. Induction of pluripotent stem cells from adult human fibroblasts by defined factors. Cell. 2007 Nov 30;131(5):861-72. doi: 10.1016/j.cell.2007.11.019.
- Hansen A, Eder A, Bonstrup M, Flato M, Mewe M, Schaaf S, Aksehirlioglu B, Schwoerer AP, Uebeler J, Eschenhagen T. Development of a drug screening platform based on engineered heart tissue. Circ Res. 2010 Jul 9;107(1):35-44. doi: 10.1161/CIRCRESAHA.109.211458. Epub 2010 May 6. Erratum In: Circ Res. 2011 Nov 11;109(11):e54. Schworer, Alexander [corrected to Schwoerer, Alexander P].
- Eschenhagen T, Fink C, Remmers U, Scholz H, Wattchow J, Weil J, Zimmermann W, Dohmen HH, Schafer H, Bishopric N, Wakatsuki T, Elson EL. Three-dimensional reconstitution of embryonic cardiomyocytes in a collagen matrix: a new heart muscle model system. FASEB J. 1997 Jul;11(8):683-94. doi: 10.1096/fasebj.11.8.9240969.
- Madsen A, Hoppner G, Krause J, Hirt MN, Laufer SD, Schweizer M, Tan WLW, Mosqueira D, Anene-Nzelu CG, Lim I, Foo RSY, Hansen A, Eschenhagen T, Stenzig J. An Important Role for DNMT3A-Mediated DNA Methylation in Cardiomyocyte Metabolism and Contractility. Circulation. 2020 Oct 20;142(16):1562-1578. doi: 10.1161/CIRCULATIONAHA.119.044444. Epub 2020 Sep 4. Erratum In: Circulation. 2021 Apr 13;143(15):e830.
Daty zapisu na studia
Daty te śledzą postęp w przesyłaniu rekordów badań i podsumowań wyników do ClinicalTrials.gov. Zapisy badań i zgłoszone wyniki są przeglądane przez National Library of Medicine (NLM), aby upewnić się, że spełniają określone standardy kontroli jakości, zanim zostaną opublikowane na publicznej stronie internetowej.
Główne daty studiów
Rozpoczęcie studiów
1 czerwca 2014
Zakończenie podstawowe (Oczekiwany)
1 czerwca 2019
Ukończenie studiów (Oczekiwany)
1 czerwca 2019
Daty rejestracji na studia
Pierwszy przesłany
16 marca 2015
Pierwszy przesłany, który spełnia kryteria kontroli jakości
10 kwietnia 2015
Pierwszy wysłany (Oszacować)
15 kwietnia 2015
Aktualizacje rekordów badań
Ostatnia wysłana aktualizacja (Rzeczywisty)
29 kwietnia 2019
Ostatnia przesłana aktualizacja, która spełniała kryteria kontroli jakości
26 kwietnia 2019
Ostatnia weryfikacja
1 kwietnia 2019
Więcej informacji
Terminy związane z tym badaniem
Dodatkowe istotne warunki MeSH
Inne numery identyfikacyjne badania
- 0174/134/2-1
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