Charlotte Manisty scite author profile

Coronary care unit CDK Cyclin-dependent kinase CHA 2 DS 2 -VASc Congestive heart failure, Hypertension, Age ≥ 75 years (2 points), Diabetes mellitus, Stroke (2 points)-Vascular disease, Age 65-74 years, Sex category (female) CIED Cardiac implantable electronic device CML Chronic myeloid leukaemia CMR Cardiac magnetic resonance COMPASS-CAT Prospective COmparison of Methods for thromboembolic risk assessment with clinical Perceptions and AwareneSS in real-life patients-Cancer Associated Thrombosis CPET Cardiopulmonary exercise testing CrCl Creatinine clearance CRF Cardiorespiratory fitness CRS Cytokine release syndrome CS Cancer survivors CT Computed tomography CTLA-4 Cytotoxic T lymphocyte-associated antigen-4 cTn Cardiac troponin CTRCD Cancer therapy-related cardiac dysfunction CTR-CVT Cancer therapy-related cardiovascular toxicity CV Cardiovascular CVD Cardiovascular disease CVRF Cardiovascular risk factorsData derived from a single randomized clinical trial or large non-randomized studies.Consensus of opinion of the experts and/or small studies, retrospective studies, registries.©ESC 2022 ESC Guidelines © ESC 2022This table refers to anthracycline equivalence dose using doxorubicin as a reference. Note that these isoequivalent doses are derived from paediatric CS. CS, cancer survivors; CV, cardiovascular.a Data for idarubicin are based upon an estimated anticancer efficacy ratio, not derived from cardiotoxicity data. The CV toxicity dose ratio provides the value that should be used to multiply the dose of the anthracycline of interest to convert to isoequivalent doses of doxorubicin; e.g. to convert 125 mg/m 2 of epirubicin to doxorubicin isoequivalent, multiply the dose by 0.8 (125 mg/m 2 × 0.8 = 100 mg/m 2 of doxorubicin).

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Evidence of a Dominant Backward-Propagating “Suction” Wave Responsible for Diastolic Coronary Filling in Humans, Attenuated in Left Ventricular Hypertrophy

Davies

et al. 2006

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Background-Coronary blood flow peaks in diastole when aortic blood pressure has fallen. Current models fail to completely explain this phenomenon. We present a new approach-using wave intensity analysis-to explain this phenomenon in normal subjects and to evaluate the effects of left ventricular hypertrophy (LVH). Method and Results-We measured simultaneous pressure and Doppler velocity with intracoronary wires in the left main stem, left anterior descending, and circumflex arteries of 20 subjects after a normal coronary arteriogram. Wave intensity analysis was used to identify and quantify individual pressure and velocity waves within the coronary artery circulation.A consistent pattern of 6 predominating waves was identified. Ninety-four percent of wave energy, accelerating blood forward along the coronary artery, came from 2 waves: first a pushing wave caused by left ventricular ejection-the dominant forward-traveling pushing wave; and later a suction wave caused by relief of myocardial microcirculatory compression-the dominant backward-traveling suction wave. The dominant backward-traveling suction wave (18.2Ϯ13.7ϫ10 3 W m Ϫ2 s

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Antibody response to first BNT162b2 dose in previously SARS-CoV-2-infected individuals

et al. 2021

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