"Detection and Follow-up of Coronary Lesions in HeFH (DESTINY-FH Study)"

Change in total coronary plaque volume, lesion type, and proximal aortic calcifications.

Assessment of coronary artery disease progression in HeFH patients using 5-years follow-up CCTA. CAD-RADS v2.0 will be used to evaluate changes in stenosis severity and identify high-risk plaques. Progression will be defined by a change in CAD-RADS category between first CCTA (defined as baseline, realized between 2018 and 2022) and inclusion in DESTINY-FH

Time frame: 1 day

Survival curve of major cardiovascular events incidence.

Incidence of myocardial infarction, ischemic stroke, transient ischemic attack, and coronary, carotid, and/or femoral revascularization since baseline CCTA in both groups

Time frame: 1 day

Cox regression analysis of cardiovascular event occurrence and associated clinical, biological, and omics data.

Evaluation of the association between cardiovascular event occurrence (as defined in outcome 2) and clinical, biological, omics, and macro/microvascular data using Cox regression analysis.

Time frame: 1 day

Linear regression of clinical and biological variables by CAD-RADS category change.

Comparison and linear regression of clinical and biological explanatory variables according to change in CAD-RADS category between baseline and inclusion, in the overall cohort and stratified by groups.

Time frame: 1 day

Comparison of omics data by plaque volume change and CAD-RADS category shift.

Comparison of omics data based on the quantitative change in total coronary plaque volume or change in CAD-RADS category between baseline and inclusion, stratified by group.

Time frame: 1 day

Baseline prevalence of carotid plaque by group

Presence or absence of carotid plaque will be assessed at baseline using coronary CT angiography (CTA). Prevalence of carotid plaque will be compared between groups at baseline. Unit of Measure: % of participants with carotid plaque

Time frame: 1 day

Baseline prevalence of femoral plaque by group

Presence or absence of femoral plaque will be assessed at baseline using duplex Doppler ultrasound. Prevalence of femoral plaque will be compared between groups at baseline. Unit of Measure:% of participants with femoral plaque

Time frame: 1 day

Baseline aortic valve calcium score by group

Aortic valve calcium score will be measured at baseline using non-contrast cardiac CT according to the Agatston method. Scores will be compared between groups at baseline. Unit of Measure:Agatston score (Agatston units)

Time frame: 1 day

Baseline thoracic aorta calcium score by group

Thoracic aorta calcium score will be measured at baseline using non-contrast cardiac CT according to the Agatston method. Scores will be compared between groups at baseline. Unit of Measure:Agatston score (Agatston units)

Time frame: 1 day

Baseline diameters of the ascending and descending aorta by group

Aortic diameters will be measured at baseline using CT angiography (mm). Measurements will be compared between groups at baseline. Unit of Measure: Aortic diameter (mm).

Time frame: 1 day

Correlation between baseline carotid plaque presence and change in coronary plaque volume

Presence or absence of carotid plaque will be assessed at baseline using duplex Doppler ultrasound. Its correlation with change in total coronary plaque volume between baseline and follow-up will be evaluated. Coronary plaque volume will be quantified using coronary CT angiography (CTA). Unit of Measure:Change in coronary plaque volume (mm³)

Time frame: Baseline to 5 years

Correlation between baseline femoral plaque presence and change in coronary plaque volume

Presence or absence of femoral plaque will be assessed at baseline using duplex Doppler ultrasound. Its correlation with change in total coronary plaque volume between baseline and follow-up will be evaluated. Coronary plaque volume will be quantified using coronary CT angiography (CTA). Unit of Measure: Change in coronary plaque volume (mm³)

Time frame: Baseline to 5 years

Correlation between baseline CAC score (aortic valve and thoracic aorta) and coronary plaque progression

Coronary artery calcium (CAC) score will be measured at baseline using non-contrast CT (Agatston method). The CAC score of the aortic valve and thoracic aorta will be correlated with change in total coronary plaque volume (mm³) and CAD-RADS category between baseline and follow-up, as assessed by CTA. Unit of Measure: CAC score (Agatston units); change in coronary plaque volume (mm³); change in CAD-RADS category.

Time frame: 1 day

Correlation between baseline aortic diameters and coronary plaque progression

Aortic diameters (ascending and thoracic aorta) will be measured at baseline using CT angiography (mm). Aortic diameter values will be correlated with change in total coronary plaque volume (mm³) and plaque vulnerability features on coronary CTA between baseline and follow-up. Unit of Measure: Aortic diameter (mm); change in coronary plaque volume (mm³).

Time frame: 1 day

Baseline epicardial fat volume by group

Epicardial fat volume will be measured at baseline using coronary CT angiography (CTA). Volumes will be compared between groups at baseline. Unit of Measure: Epicardial fat volume (cm³)

Time frame: 1 day

Baseline epicardial fat density by group

Epicardial fat density will be measured at baseline using coronary CT angiography (CTA). Density will be compared between groups at baseline. Unit of Measure: Epicardial fat density (Hounsfield Units, HU)

Time frame: 1 day

Baseline subdiaphragmatic abdominal adipose tissue volume at L1 by group

Subdiaphragmatic abdominal adipose tissue volume will be quantified at the level of the first lumbar vertebra (L1) using non-contrast CT. Segmentation will be performed using standard attenuation thresholds for adipose tissue. Relative adipose tissue volume will be compared between groups at baseline. Unit of Measure:Relative adipose tissue volume (%)

Time frame: 1 day

Baseline subdiaphragmatic abdominal adipose tissue density at L1 by group

Mean attenuation of subdiaphragmatic abdominal adipose tissue will be measured at the level of L1 using non-contrast CT. Mean density will be compared between groups at baseline. Unit of Measure:Mean adipose tissue density (Hounsfield Units, HU)

Time frame: 1 day

Baseline arterial wall thickness by group

Arterial wall thickness will be measured at baseline using adaptive optics retinal imaging. Values will be compared between groups at baseline. Unit of Measure: Wall thickness (µm).

Time frame: 1 day

Baseline arterial lumen diameter by group

Arterial lumen diameter will be measured at baseline using adaptive optics retinal imaging. Values will be compared between groups at baseline. Unit of Measure: Lumen diameter (µm).

Time frame: 1 day

Baseline arterial wall-to-lumen ratio by group

Wall-to-lumen ratio will be calculated at baseline using adaptive optics retinal imaging. Ratios will be compared between groups at baseline. Unit of Measure: Wall-to-lumen ratio (unitless).

Time frame: 1 day

Baseline arterial wall cross-sectional area by group

Arterial wall cross-sectional area will be measured at baseline using adaptive optics retinal imaging. Values will be compared between groups at baseline. Unit of Measure: wall cross-sectional area (µm²).

Time frame: 1 day

Correlation between retinal arterial wall thickness and coronary plaque progression

Arterial wall thickness will be measured at baseline using adaptive optics retinal imaging. Its correlation with change in total coronary plaque volume (mm³) and CAD-RADS category between baseline and follow-up will be evaluated.Unit of Measure: Wall thickness (µm); change in coronary plaque volume (mm³); CAD-RADS category

Time frame: 1 day

Correlation between retinal lumen diameter and coronary plaque progression

Arterial lumen diameter will be measured at baseline using adaptive optics retinal imaging. Its correlation with change in total coronary plaque volume (mm³) and CAD-RADS category between baseline and follow-up will be evaluated. Unit of Measure: Lumen diameter (µm); change in coronary plaque volume (mm³); CAD-RADS category.

Time frame: 1 day

Correlation between retinal wall-to-lumen ratio and coronary plaque progression

Wall-to-lumen ratio will be measured at baseline using adaptive optics retinal imaging. Its correlation with change in total coronary plaque volume (mm³) and CAD-RADS category between baseline and follow-up will be evaluated. Unit of Measure: Wall-to-lumen ratio (unitless); change in coronary plaque volume (mm³); CAD-RADS category

Time frame: 1 day

Correlation between retinal arterial wall cross-sectional area and coronary plaque progression

Arterial wall cross-sectional area will be measured at baseline using adaptive optics retinal imaging. Its correlation with change in total coronary plaque volume (mm³) and CAD-RADS category between baseline and follow-up will be evaluated. Unit of Measure: Cross-sectional area (mm²); change in coronary plaque volume (mm³); CAD-RADS category

Time frame: 1 day

Comparison of liver and spleen density at baseline between groups

Comparison of unenhanced liver and spleen density between groups at baseline.

Time frame: 1 day

Gut microbiota composition at baseline using metabolomics and metagenomics.

Characterization of gut microbiota at baseline in both groups using targeted and untargeted metabolomics (e.g., secondary bile acids, choline/tryptophan/cholesterol derivatives, short-chain fatty acids) and metagenomic sequencing with bioinformatic analysis of bacterial populations.

Time frame: 1 day

Association between baseline omics data and coronary plaque progression.

Comparison of baseline omics data according to the change in total coronary plaque volume or CAD-RADS category between baseline and inclusion, stratified by group.

Time frame: 1 day

Change in gut microbiota composition between baseline and inclusion

Comparison of gut microbiota composition between baseline (for patients previously included in the FHCALC study) and inclusion, in both groups

Time frame: 1 day

Comparison of arterial stiffness at baseline between groups.

Comparison of arterial stiffness measurements between groups at baseline.

Time frame: 1 day

SF-36 Health Survey score at inclusion

The SF-36 Health Survey will be administered at inclusion. The total score and domain scores will be recorded, ranging from 0 to 100, where higher scores indicate better health status. Unit of Measure: Score (0-100)

Time frame: 1 day

Seattle Angina Questionnaire-7 (SAQ-7) score at inclusion

The SAQ-7 will be administered at inclusion. Scores range from 0 to 100, with higher scores indicating less angina and better functional status. Unit of Measure: Score (0-100)

Time frame: 1 day

Rose Dyspnea Scale score at inclusion

The Rose Dyspnea Scale will be administered at inclusion. Scores range from 0 to 4, where higher scores indicate greater breathlessness. Unit of Measure: Score (0-4)

Time frame: 1 day

Patient Health Questionnaire-2 (PHQ-2) score at inclusion

The PHQ-2 will be administered at inclusion. Scores range from 0 to 6, with higher scores indicating greater depressive symptoms. Unit of Measure: Score (0-6)

Time frame: 1 day

Hospital Anxiety and Depression Scale (HADS) score at inclusion

The HADS will be administered at inclusion. Scores range from 0 to 21 for anxiety and 0 to 21 for depression, with higher scores indicating greater symptom severity. Unit of Measure: Score (0-21) for anxiety; Score (0-21) for depression

Time frame: 1 day

CONSTANCES study questionnaire scores at inclusion

Selected standardized questionnaires from the CONSTANCES cohort study will be administered at inclusion. Scores will be recorded according to the original scoring system of each questionnaire (specific scales and units to be defined). Unit of Measure: As per original scoring system of each CONSTANCES questionnaire

Time frame: 1 day

Incidence of major cardiovascular events at 5 and 10 years

Occurrence of major cardiovascular events-including myocardial infarction, ischemic stroke, transient ischemic attack (TIA), and coronary, carotid, and/or femoral revascularization-will be recorded. Events will be ascertained through clinical records and patient interviews. Survival curves will be generated to estimate cumulative incidence at both 5- and 10-year follow-up.

Time frame: 5 and 10 years