Project description:We performed RNA-seq to analyze gene expression in rat cardiac tissue from the left and right ventricle for animals in a) normoxia and b) exposed to hypoxia (10% O2) for 2 weeks

Project description:Transcriptomic profiles reveal differences between the right and left ventricle (RV and LV) in both normoxia and hypoxia

Project description:Heart failure (HF) impacts 2-3% of adults in the West, with prevalence rising with age. This condition, leading to high mortality and morbidity, increasingly involves HF with preserved left ventricular (LV) ejection fraction (HFpEF) in the aging population, having a similar stable prognosis as HF with reduced LVEF (HFrEF). However, HFpEF lacks many evidence-based therapies, partly due to its distinct pathophysiology compared to HFrEF. Molecularly, heart failure shows distinct gene expression changes, indicative of varying diseases. Prior research, including our early report from the CABG-PREFERS study, shows gene expression differences in HFpEF and normal hearts, although studies are limited. Both HFpEF and HFrEF patients exhibit altered LV myocardial structure and function, often affecting the right ventricle (RV) secondarily. In the CABG-PREFERS sub-study, part of the PREFERS programme, we classified patients by LVEF, structural abnormalities, diastolic dysfunction, and NT-proBNP levels into HFpEF physiology, HFrEF physiology, and normal LV function groups. Our hypothesis suggests gene expression and transcriptomic variations between LV and RV, and between HFpEF, HFrEF, and normal LV function, providing insights into different HF phenotypes and guiding future therapies.

Project description:Highlights•Echocardiography is usually the first imaging modality ordered for evaluation of a cardiac mass.•Although echocardiography cannot define the histopathology of a mass, it can identify the presence, location, and tissue characteristics of the mass, which can thus narrow the differential diagnosis.•Echocardiography is useful in evaluating tumor sequelae such as blood flow obstruction, valvular regurgitation, and myocardial dysfunction.

Project description:Left and right heart atria of adult male mice were profiled to determine the differences in gene expression, control, coordination and signaling fabrics Two-sides (L= left, R = right) gene expression profiling experiment in adult mouse male (M) atria (A). 4 biological replicates: MAL1-4, MAR1-4. This experiment used our standard multiple yellow strategy in which Cy3 and Cy5 labeled biological replicates are cohybridized with a two-color array and each channel is processed independently.

Project description:Left and right heart ventricles of adult male mice were profiled to determine the differences in gene expression, control, coordination and signaling fabrics Two-sides (L= left, R = right) gene expression profiling experiment in adult mouse male (M) ventricles (V). 4 biological replicates: MVL1-4, MVR1-4.

Project description:Left-right asymmetry is subtle but pervasive in the human central nervous system. This asymmetry is initiated early during development, but its mechanisms are poorly known. Forebrains and midbrains were dissected from six human embryos at Carnegie stages 15 or 16, one of which was female. The structures were divided into left and right sides, and RNA was isolated. RNA was sequenced with 100 base-pair paired ends using Illumina Hiseq 4000. After quality control, five paired brain sides were available for midbrain and forebrain. A paired analysis between left- and right sides of a given brain structure across the embryos identified left-right differences. The dataset, consisting of Fastq files and a read count table, can be further used to study early development of the human brain.

Project description:Primary outcome(s): Clinicopathological features included patient age, sex, initial treatment, tumor size, morphology, invasion depth, histological grade, lymphatic invasion, vascular invasion, tumor budding, and lymph node metastasis.

Project description: Not available

Project description:BackgroundDysfunction of the interventricular septum has been implicated in right ventricular (RV) failure. However, little is known about the relationship between ventricular septal and RV function in patients without clinical cardiovascular disease. We hypothesized that better septal function would be associated with higher RV ejection fraction and lower RV mass and volume by cardiac MRI.MethodsIn the Multi-Ethnic Study of Atherosclerosis (MESA), cardiac MRI was performed on community-based participants without clinical cardiovascular disease. Images were analyzed by the harmonic phase method to measure peak circumferential systolic midventricular strain for each wall (anterior, lateral, inferior, and septal). Multivariable linear regression and generalized additive models were used to assess the relationship between septal strain and RV morphology.ResultsThere were 917 participants (45.7% women) with a mean age of 65.7 years. Better septal function was associated with higher RV ejection fraction in a nonlinear fashion after adjustment for all covariates (P = .03). There appeared to be a threshold effect for the contribution of septal strain to RV systolic function, with an almost linear decrement in RV ejection fraction with septal strain from -18% to -10%. Septal function was not related to RV mass or volume.ConclusionsInterventricular septal function was linked to RV systolic function independent of other left ventricular regions, even in individuals without clinical cardiovascular disease. This finding confirms animal and human research suggesting the importance of septal function to the right ventricle and implies that changes in septal function could herald RV dysfunction.Trial registryClinicalTrials.gov; No.: NCT00005487; URL: www.clinicaltrials.gov.