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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06313645
Other study ID # B83C22004880006
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date July 1, 2023
Est. completion date December 31, 2025

Study information

Verified date March 2024
Source Niguarda Hospital
Contact Jonica Campolo, MSc
Phone +39026444
Email jonica.campolo@ospedaleniguarda.it
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

Chronological aging significantly contributes to structural and functional alterations in the vasculature, making it a major risk factor for atherosclerotic disease and its acute thrombotic events. DNA damage, including telomeric, non-telomeric, and mitochondrial damage, is recognized as a key initiator of vascular aging and atherogenesis. There is abundant evidence indicating the presence of oxidative DNA lesions, telomere erosion, and mitochondrial DNA damage in both experimental and human plaques, as well as in the peripheral cells of atherosclerotic patients. It is increasingly evident that genomic instability activates signaling pathways that lead to a multitude of pathophysiological cellular and molecular changes. These changes promote inflammation, apoptosis, autophagy, and ultimately, cellular senescence, accompanied by the "senescence-associated secretory phenotype" (SASP). However, the precise mechanisms linking the DNA damage response (DDR) to senescence, SASP in vascular cells, and the pathogenesis of atherosclerosis and vulnerable atheroma are yet to be fully understood. Additional research is needed to delineate the underlying mechanisms through which mitochondrial dysfunction influences telomere length and vice versa, and how their interaction contributes to the vascular aging process. Progress in this area has the potential to uncover therapeutic targets and novel, more precise diagnostic, and prognostic indicators. The objectives of the VICTORIA study are to examine the levels of aging-related non-coding RNA deregulation (specifically lncRNA TERRA and mitomiR) and peripheral markers of cell aging (including telomere length and mitochondrial DNA content) across the various spectra of angina pectoris (stable angina, unstable angina, NSTEMI, and STEMI). Additionally, the study aims to determine whether these markers are correlated with vulnerable plaque characteristics and major adverse cardiovascular events.


Description:

Background - The process of chronological aging significantly contributes to structural and functional changes within the vasculature, emerging as a major risk factor for atherosclerotic disease and acute thrombotic events. Furthermore, age-related vascular deterioration can be influenced by lifestyle choices, environmental factors, and external stimuli, resulting in a gradual decline in vascular integrity and functionality. In order, to identify potential targets for therapeutic intervention to delay or reverse the deleterious consequences of vascular aging, it is crucial to better understand the cellular and molecular mechanisms of vascular aging as well as to better define how environmental factors can accelerate the process. Over the past decades, DNA damage-both telomeric and non-telomeric, alongside mitochondrial impairments-has emerged as a pivotal trigger in vascular aging and the development of atherosclerosis. A wealth of evidence supports the presence of oxidative DNA lesions, telomere attrition, and mitochondrial DNA damage in both experimental models and human plaque samples, as well as in the peripheral cells of individuals with atherosclerosis. Moreover, it is increasingly evident that genomic instability can directly impact vascular cellular function by triggering signaling pathways that lead to a multitude of pathophysiological changes. These changes encompass inflammation, apoptosis, autophagy, and ultimately, cellular senescence, which is marked by the secretion of the "senescence-associated secretory phenotype" (SASP). The robust mechanistic association between DNA damage and cellular aging underscores DNA damage as a prime candidate for the primary cause of aging. Targeting DNA damage and its mechanistic correlates may provide a logical basis for the development of unified interventions aimed at mitigating age-related dysfunction and disease. Nevertheless, the precise mechanisms linking DNA damage to SASP in vascular cells, as well as its role in the pathogenesis of atherosclerosis and vulnerable atheroma, remain elusive. Recent evidence underscores mutual crosstalk between telomere dysfunction and mitochondrial dysmetabolism in the process of cellular senescence [23-26], emphasizing the need to further elucidate this complex and intricate connection, which can open new potential therapeutic strategies for age-related disease. Further studies are warranted to understand the underlying mechanisms by which mitochondrial dysfunction influences telomere length and vice versa, and how their interplay contributes to the process of vascular aging. We hypothesize that complex molecular mechanisms that link telomere dysfunction, mtDNA damage and non-coding RNA deregulation are involved in the process of vascular aging, promoting the development and progression of atherosclerosis. Consequently, peripheral aging markers of genetic damage and non-coding RNA may be useful to characterize the development of a vulnerable plaque in culprit vessels and to improve the prognosis of patients. Aims - The specific aims of the present proposal are: 1) to investigate the association between peripheral markers of cell aging [telomere length (LTL) and mitochondrial DNA (mtDNAcn) content] and non-coding RNA deregulation (lncRNA TERRA, MitomiR) in the different spectra of angina pectoris (stable angina, unstable, NSTEMI, and STEMI) and 2) to evaluate their association with major adverse cardiovascular events (MACE) within 12 months of enrolment. Patients with cardiac shock, congestive heart failure, end-stage renal disease, and coronary artery bypass graft will be excluded. An accurate evaluation of the plaque morphology will be acquired for patients who will be screened for optical coherence tomography (OCT) examination or intravascular ultrasound (IVUS) of the culprit artery. Study design - Prospective, single center non-randomized observational study. Sample and data collection - A peripheral blood sample (approximately 10 mL) will be collected in each patient before undergoing diagnostic or therapeutic angiography procedures and used for the extraction of DNA and/or RNA. A biobank of other biological samples (whole blood, plasma, serum, clot, PBMCs) will be established. Approximately 12 months after enrollment, a clinical follow-up will be performed for all patients enrolled in the study through a routine medical visit or telephone interview to evaluate adverse cardiovascular events (MACE - death, myocardial infarction or need for subsequent revascularizations). Biomarkers determination - LTL and mtDNAcn are measured after DNA extraction from blood leucocytes, while lnc-RNA TERRA and mitomiR, after RNA extraction from blood leucocytes, and analyzed using Real-Time PCR techniques. Sample size - To detect a medium effect size (f = 0.25) in the difference of the mean LTL value between the groups, we estimate that a sample size of at least 232 total patients is required, with an alpha level of 0.05 and a power of 90% or higher. Accounting for a 10% dropout rate, the total number of patients to be enrolled should be at least 260. Statistical analysis - The normal distribution of the data will be tested using the Kolmogorov-Smirnov test. Continuous variables will be presented as mean, standard deviation, median, first and third quartile. Categorical variables will be expressed as numbers and percentages. Comparisons between two groups will be performed using the Student's t test for independent samples for continuous variables, and the chi-square test or Fisher's exact test for categorical ones. Comparisons between more than two groups will be tested with the one-way analysis of variance (ANOVA) followed by Bonferroni post-hoc tests for 2-group comparisons. If the assumption of normality of the data distribution is not satisfied, the equivalent non-parametric tests will be used. The Pearson or Spearman coefficient will be calculated to investigate the correlation between the variables in a univariate way. Event-free survival curves will be constructed using the Kaplan-Meier model and tested with the log-rank test between different groups. The univariate and multivariate Cox proportional hazards model will be used to identify the predictive value of each variable against the MACE event; the data will be expressed with HR and their 95% confidence interval


Recruitment information / eligibility

Status Recruiting
Enrollment 300
Est. completion date December 31, 2025
Est. primary completion date July 1, 2025
Accepts healthy volunteers No
Gender All
Age group 18 Years to 75 Years
Eligibility Inclusion Criteria: - Patients with acute coronary syndromes (unstable angina, non-ST segment elevation myocardial infarction (NSTEMI), ST segment elevation myocardial infarction (STEMI)) - stable angina - non-angiographically significant coronary diseases recovered for elective diagnostic or interventional procedures Exclusion Criteria: - cardiac shock - congestive heart failure - end stage renal diseases - coronary artery bypass graft - active cancer

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Several biomarkers
Telomere length Mitochondrial DNA copy number (mtDNAcn) MitomiR long non-coding (lnc) RNA TERRA pro-oxidant cytokines & chemokines

Locations

Country Name City State
Italy ASST GOM Niguarda Milano Lombardia

Sponsors (2)

Lead Sponsor Collaborator
Niguarda Hospital Istituto di Fisiologia Clinica CNR

Country where clinical trial is conducted

Italy, 

Outcome

Type Measure Description Time frame Safety issue
Primary Telomere length Telomere length (LTL) is an index of genetic instability and senescence. LTL is measured in the DNA (extracted from blood leucocytes) by RT-PCR.
Measure unit: 2^(-ddct) or kilobases
T0, at the enrollment
Secondary Mitochondrial DNA copy number (mtDNAcn) Indices of mitochondrial deregulation Measure unit: 2^(-ddct) or kilobases T0, at the enrollment
Secondary MitomiR Indices of mitochondrial deregulation T0, at the enrollment
Secondary Long non-coding (lnc) RNA TERRA modulator of telomerase T0, at the enrollment
Secondary pro-oxidant cytokines expression of SASP phenotype. - picograms/ml T0, at the enrollment
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