Ventricle Size Research Articles

Pulmonary Atresia with Ventricular Septal Defect without Major Aorto-Pulmonary Collateral Arteries: Echocardiography and the Role of Computed Tomography and Magnetic Resonance Imaging.

Pulmonary atresia with ventricular septal defect (PA-VSD) is usually diagnosed by transthoracic or fetal echocardiography, with the prenatal diagnosis being feasible and accurate if fetal cardiology services are available. The limitations of transthoracic echocardiography (TTE) in the evaluation of PA-VSD include the complete evaluation of the pulmonary arteries and patent ductus arteriosus, quantitative evaluation of the right ventricle size and function, and delineation of associated cardiac anomalies such as coronary artery anomalies, anomalies of systemic or pulmonary venous return, and complex arch anomalies. Echocardiography also has limitations in evaluating hemodynamics such as flow volumes, shunts, and regurgitant fraction. Despite these limitations, TTE remains the most widely available and the most cost-effective cardiac imaging modality for patients with PA-VSD and its accuracy in evaluating the sources of pulmonary blood flow and in selecting patients for systemic-to-pulmonary artery shunt palliation is well established. Cardiac computed tomography (CT) can answer many of the questions not answered by TTE, including demonstrating the PA anatomy and defining coronary artery, systemic and pulmonary venous, and aortic arch anatomies. The short acquisition time allows for the study to be performed without sedation/anesthesia in most patients. Cardiac CT is also useful in defining postoperative anatomy when there are non-magnetic resonance imaging (MRI) compatible devices or even MRI-compatible devices that cause a significant MRI artifact. Cardiac MRI/magnetic resonance angiography has emerged as an ideal modality to evaluate patients with PA-VSD as it allows for anatomic, functional, and hemodynamic assessment without exposure to ionizing radiation or iodinated contrast material. Both cardiac CT and cardiac MRI can be used to generate 3D imaging of the heart.

MULTIDISCIPLINARY APPROACH TO TREATMENT OF PATIENT WITH BIOPROSTHETIC AORTIC VALVE DYSFUNCTION AND RENAL CELL CARCINOMA WITH TUMOR THROMBUS

HighlightsThis review presents a clinical case of a patient with a rare combination of two life-threatening pathologies whose treatment required high-tech surgery. The effectiveness of a multidisciplinary approach to treatment has been demonstrated. AnnotationAortic stenosis (AS) is the most common heart disease in elderly patients requiring treatment. Malignant neoplasms of the kidneys account for about 3% of all cancers in the Russian Federation, and the formation of tumor thrombi in the renal and inferior vena cava occurs in 4–10% of patients with this pathology. Given the prevalence of aortic stenosis and renal cell carcinoma (RCC), the number of patients with a combination of these two conditions keeps increasing and they are recommended to undergo surgical treatment at multidisciplinary clinical centers. Transcatheter aortic valve implantation (TAVI) and radical nephrectomy with intracorporeal thrombectomy using the DaVinci Si robotic surgical system may be a preferred approach for the treatment of critical AS and RCC for this category of patients.At the multidisciplinary clinical center a patient with dysfunctional bioprosthetic aortic valve implanted in 2010 and NYHA class 3 heart failure with history of endovascular treatment of coronary artery disease, peripheral arterial disease and carotid endarterectomy and concomitant renal cell carcinoma with tumor thrombosis of the renal vein received surgical treatment in 2 stages: TAVI – the first stage, and robot-assisted right-sided nephrectomy and thrombectomy from the renal vein – the second stage. The patient was discharged from the Center on the 7th day after TAVI and on the 6th day after surgery for renal cancer. Six months after the procedure, there was a decrease in the functional class of heart failure, satisfactory function of the transcatheter aortic valve bioprosthesis, decrease in the size of the left ventricle, decrease in the brain natriuretic peptide, and the absence of cancer progression.

Concurrent myelomeningocele and sagittal craniosynostosis: illustrative case.

Myelomeningocele and sagittal craniosynostosis are 2 neurosurgical pathologies with complications such as increased intracranial pressure (ICP) and hydrocephalus. While the 2 defects commonly occur independently, their simultaneous occurrence is exceptionally rare. The authors report the case of a newborn male diagnosed with a simultaneous myelomeningocele and sagittal craniosynostosis. The patient underwent surgical repair of the myelomeningocele 2 days after birth. Wound breakdown and ventriculomegaly were observed 13 days after birth. Surgical wound repair was performed, and a neonatal reservoir was inserted because of concerns for wound healing and increased ICP. The reservoir was tapped daily, and the ventricle size was monitored via biweekly ultrasounds. Due to the increased risk of ICP presented by the sagittal craniosynostosis, an open strip craniectomy was performed at 34 days of life. Following surgery, cranial ultrasound studies demonstrated improving ventricle size and neonatal reservoir tapping was spaced to weekly. The patient was discharged at 68 days of life in stable condition, with no permanent cerebrospinal fluid diversion needed at the 8-month follow-up. Surgical repair of sagittal craniosynostosis in the presence of a myelomeningocele should be considered earlier in life than generally indicated to limit the risk of developing elevated ICP, hydrocephalus, and subsequent complications. https://thejns.org/doi/10.3171/CASE24616.

Echocardiography in the Ventilated Patient: What the Clinician Has to Know.

Heart and lung sharing the same anatomical space are influenced by each other. Spontaneous breathing induces dynamic changes in intrathoracic pressure, impacting cardiac function, particularly the right ventricle. In intensive care units (ICU), mechanical ventilation (MV) and therefore positive end-expiratory pressure (PEEP) are often applied, and this inevitably influences cardiac function. In ventilated patients, the use of positive pressures leads to an increase in intrathoracic pressure and, consequently, to a reduction in the right ventricular preload and thus cardiac output. The clinician working in the intensive care unit must be able to assess the effects MV has on the heart in order to set it up appropriately and to manage any complications. The echocardiographic evaluation of the ventilated patient has the main purpose of studying the right ventricle; in fact, they are the ones most affected by PEEP. It is therefore necessary to assess the size, thickness, and systolic function of the right ventricle. In the mechanically ventilated patient, it may be difficult to assess the volemic status and fluid responsiveness, in fact, the study of the inferior vena cava (IVC) is not always reliable in these patients. In patients with MV, it is preferable to assess fluid responsiveness with dynamic methods such as the end-expiration occlusion (EEO) test, passive leg raise (PLR), and fluid challenge (FC). The study of the diaphragm is also essential to identify possible complications, manage weaning, and provide important prognostic information. This review describes the basis for echocardiographic evaluation of the mechanically ventilated patient with the aim of supporting the clinician in managing the consequences of MV for heart-lung interaction.

Computer-generated Clinical Decision-making in the Treatment of Pulmonary Atresia with Intact Ventricular Septum.

Pulmonary atresia with intact ventricular septum is a multifactorial disease requiring complex surgeries. The treatment route is determined based on the right ventricle (RV) size, tricuspid annulus size and coronary circulation dependency of RV. Since multiple parameters influence the post-operative success, a personalized decision-making based on computed hemodynamics is hypothesized to improve the treatment efficacy. A lumped parameter cardiovascular model is developed to calculate the hemodynamics of virtual patients which are generated by statistical distribution of circulation parameters. Four cohorts each with 30 digital patients are grouped based on RV size. For each patient, biventricular and one-and-half ventricle (1.5V) repair were applied in silico and assessed via pressure, flow and saturations computed for every organ bed. Biventricular and 1.5V repair yield significant increase in the pulmonary flow and oxygen saturation for all patients compared to the pre-operative state (p-values < 0.001). Approximately 30% of generated patients failed to meet the sufficient saturation and flow following biventricular repair and were directed to 1.5V repair. However, 14% of these 1.5V repair patients failed post-operatively, requiring Fontan completion. Based on the pre-determined hemodynamics criteria, this study implies that patients having RV sizes larger than 22 ml/m2 are likely to undergo successful biventricular repair. Pending further clinical trials, computational pre-interventional planning has the potential to screen patients that would not optimally fit to the traditional pathway prior to in vivo execution by providing personalized hemodynamic outcome. Statistical approach allows in silico clinical trials, useful for diseases with low patient numbers.

CSF levels of brain-derived proteins correlate with brain ventricular volume in cognitively healthy 70-year-olds

BackgroundThe effect of varying brain ventricular volume on the cerebrospinal fluid (CSF) proteome has been discussed as possible confounding factors in comparative protein level analyses. However, the relationship between CSF volume and protein levels remains largely unexplored. Moreover, the few existing studies provide conflicting findings, indicating the need for further research.MethodsHere, we explored the association between levels of 88 pre-selected CSF proteins and ventricular volume derived from magnetic resonance imaging (MRI) measurements in 157 cognitively healthy 70-year-olds from the H70 Gothenburg Birth Cohort Studies, including individuals with and without pathological levels of Alzheimer’s disease (AD) CSF markers (n = 123 and 34, respectively). Both left and right lateral, the inferior horn as well as the third and the fourth ventricular volumes were measured. Different antibody-based methods were employed for the protein measurements, with most being analyzed using a multiplex bead-based microarray technology. Furthermore, the associations between the protein levels and cortical thickness, fractional anisotropy, and mean diffusivity were assessed.ResultsCSF levels of many brain-derived proteins correlated with ventricular volumes in A-T- individuals, with lower levels in individuals with larger ventricles. The strongest negative correlations with total ventricular volume were observed for neurocan (NCAN) and neurosecretory protein VGF (rho = -0.34 for both). Significant negative correlations were observed also for amyloid beta (Ab) 38, Ab40, total tau (t-tau), and phosphorylated tau (p-tau), with correlation ranging between − 0.34 and − 0.28, while no association was observed between ventricular volumes and Ab42 or neurofilament light chain (NfL). Proteins with negative correlations to ventricular volumes further demonstrated negative correlations to mean diffusivity and positive correlation to fractional anisotropy. However, only weak or no correlations were observed between the CSF protein levels and cortical thickness. A + T + individuals demonstrated higher CSF protein levels compared to A-T- individuals with the most significant differences observed for neurogranin (NRGN) and synuclein beta (SNCB).ConclusionsOur findings suggest that the levels of many brain-derived proteins in CSF may be subjected to dilution effects depending on the size of the brain ventricles in healthy individuals without AD pathology. This phenomenon could potentially contribute to the inter-individual variations observed in CSF proteomic studies.

Wide variation in shape of hypoplastic left ventricles undergoing recruitment and biventricular repair: A statistical shape modeling study.

Patients with hypoplastic left ventricles (LV) who undergo volume-loading procedures (recruitment, biventricular [BIV] repair) are at risk for adverse outcomes, including heart failure and death. We investigated pre-BIV LV shape as a predictor of outcome after BIV repair in patients with hypoplastic LVs. Baseline and post-recruitment cardiac magnetic resonance imaging and computed tomography data were analyzed in patients with hypoplastic LV (<50mL/m2). Statistical shape modeling (SSM) was utilized to generate a model of the shape and variability of LVs. Traditional measures of LV sphericity and eccentricity were also measured. Major adverse cardiovascular events (MACE) included heart failure, transplant, and death. Of 95 patients with baseline mean LV volume 29±13mL/m2, 45/95 (47%) had a right dominant atrioventricular canal defect, 31/95 (33%) had a variant of hypoplastic left heart syndrome, and 18/95 (19%) had endocardial fibroelastosis (EFE). A wide variation in LV shape was found by SSM, and shape modes were associated with right ventricle (RV) and LV size, and diagnosis. BIV repair was achieved in 74/95 (78%) patients; 13/74 (18%) of BIV patients had MACE. Predictors of MACE following BIV repair included EFE, higher RV mass index, and higher RV end-diastolic volume index. No baseline or post-recruitment LV shape parameter was associated with the outcome after BIV repair. The shape model of hypoplastic LVs demonstrated a wide array of LV shapes. LVs gained sphericity and size and lost eccentricity with recruitment. Though the ventricles changed shape with recruitment, no specific LV shape characteristic at the baseline or post-recruitment stage was predictive of decision to proceed with BIV repair or outcome. Higher RV mass and volume may represent new biomarkers that predict outcomes following BIV repair in patients with hypoplastic LV. Further investigation could determine the reproducibility of these findings.

APOE ε4-associated heterogeneity of neuroimaging biomarkers across the Alzheimer's disease continuum.

While the role of apolipoprotein E (APOE) ε4 in Alzheimer's disease (AD) susceptibility has been studied extensively, much less is known about the differences in disease presentation in APOE ε4 carriers versus non-carriers. To help elucidate these differences, we performed a broad analysis comparing the regional levels of six different neuroimaging biomarkers in the brains of APOE ε4 carriers versus non-carriers who participated in the Alzheimer's Disease Neuroimaging Initiative (ADNI). We observed significant APOE ε4-associated heterogeneity in regional amyloid beta deposition, tau accumulation, glucose uptake, brain volume, cerebral blood flow, and white matter hyperintensities within each AD diagnostic group. We also observed important APOE ε4-associated differences in cognitively unimpaired individuals who converted to mild cognitive impairment/AD versus those who did not convert. This observed heterogeneity in neuroimaging biomarkers between APOE ε4 carriers versus non-carriers may have important implications regarding the prevention, diagnosis, and treatment of AD in different subpopulations. An extensive study was performed on the apolipoprotein E (APOE) ε4-associated heterogeneity in neuroimaging biomarkers from the Alzheimer's Disease Neuroimaging Initiative. Robust APOE ε4-associated increases in amyloid beta (Aβ) deposition throughout the brain, in every diagnostic group, were observed. APOE ε4-associated increases in tau pathology, decreases in glucose uptake, and increases in brain atrophy, which expand in regional scope and magnitude with disease progression, were observed. Significant sex- and age-related differences in APOE ε4-associated neuroimaging biomarker heterogeneity, with overall increases in pathological presentation in female APOE ε4 carriers, were observed. Regional differences in Aβ deposition, tau accumulation, glucose uptake, ventricle size, and white matter hyperintensities were observed in cognitively normal participants who converted to mild cognitive impairment/Alzheimer's disease, which may hold potential predictive value.

Cardiac Magnetic Resonance Imaging in the Evaluation of Functional Impairments in the Right Heart.

Cardiac magnetic resonance (cMRI) imaging has recently become essential in cardiology. cMRI is widely recognized as the most reliable imaging technique for assessing the size and performance of the right ventricle. It allows for objective and functional cardiac tissue evaluations. Early in disease progression, cardiac structure and activity decrease subclinically. Late-phase clinically visible signs have been associated with less favourable outcomes. Subclinical alterations ought to be recognized for rapid evaluations and accurate treatment. An increasing amount of evidence supports cMRI deformation parameter quantification. Strain imaging enables cardiologists to assess heart function beyond traditional measurements. Prognostic information for cardiovascular disease patients is obtained through the right ventricle (RV) strain, including information primarily about the left ventricle (LV). Right atrial (RA) function evaluations using RA strain have been promising in recent studies. Therefore, this narrative review aims to present an overview of the data that are currently available for assessing right myocardial strain and biomechanics using cMRI.

Abstract 4135869: Local Ethanol Infusion after Pulsed Field Ablation Enhances Acute Efficacy of In Vivo Ventricular Electroporation

Background: Pulsed field ablation (PFA) has emerged as an innovative technology for treating cardiac arrhythmias. PFA increases cell permeability, which can lead to apoptosis. Greater PFA energy may be necessary to ablate ventricular myocardium for ventricular tachycardia circuits, but this carries risks of side effects such as gaseous formation (microbubbles) and hemolysis. Ethanol (EtOH) infusion has been used to ablate pathologic myocardial tissues in hypertrophic cardiomyopathy and for refractory arrhythmias. Hypothesis: We hypothesize that PFA in the ventricle can increase EtOH uptake through PFA-generated pores, thereby enhancing ablation efficacy, even at low powers, by utilizing the cell permeability effects of PFA. Aim: The aim of this study is to investigate the effect of local EtOH infusion after PFA on lesion size in porcine ventricles. Methods: The ventricles of five porcine subjects were ablated in vivo with a PFA low power setting (750 V, at 20 μs for 50 pulses separated by 200 ms) using a focal bipolar irrigated ablation catheter and BTX 830 electroporation generator (Harvard Apparatus). After PFA was performed, 2 ml of 90 % EtOH vs. saline (control) was infused through the catheter tip to the site of ablation. We compared the electrograms voltage amplitude reduction before and after PFA, and the ablation lesion characteristics. Results: A total of 10 lesions in the control group and 9 lesions in the EtOH group were analyzed. For the controls, the voltage after PFA was not reduced. In contrast, for the EtOH group, the voltage after PFA was significantly reduced ( Figure 1A ). On gross pathology, there were significant differences in ablation lesion depths and volumes between the 2 lesion sets ( Figure 1A-B ). Conclusion: Local EtOH infusion after ventricular PFA enhanced acute efficacy of electroporation. Concurrent PFA with local EtOH infusion has the potential to improve efficacy without requiring higher energy parameters, thereby reducing PFA risks. Future studies on chronic efficacy are warranted.

Abstract 4135872: Effects of In-vivo Contact Force on Pulsed Field Ablation Lesion Size in Porcine Ventricles

Background: Pulsed field ablation (PFA) is an innovative modality for treating arrhythmias that is mostly non-thermal and renders myocardial tissue non-viable by creating pores in cardiac cell membranes. The impact of contact force (CF) on PFA efficacy is not well characterized. Hypothesis: We hypothesize that, while contact is necessary for PFA, increasing CF will not have a significant effect on in vivo ablation lesion size. Aim: We seek to investigate the effects of CF on acute PFA lesions in a beating porcine heart model. Methods: The ventricles of 7 porcine animals were ablated in vivo with PFA (500V, at 20μs for 50 pulses separated by 200ms) using a focal bipolar irrigated ablation catheter and BTX 830 electroporation generator (Harvard Apparatus). CF was measured before and after each PFA application using CARTO 3. Lesions were divided into standard CF (5-15g), high CF (16-30g), and very high CF (&gt;31g). Results: A total of 46 lesions were analyzed. Gross pathology showed no significant difference in maximum width, lesion depth, and lesion volume between the three groups ( Figure 1A-B ). Linear regression showed a decrease of 0.003 mm in depth (depth = -0.003 × CF + 1.8, R = 0.05), an increase of 0.01 mm in width (width = 0.01 × CF + 5.7, R = 0.09), and a decrease of 0.05 mm 3 in volume (volume = -0.05 × CF + 26.8, R = 0.03) for each additional gram of CF ( Figure 1C ). Conclusion: While contact is necessary, increasing CF did not have a significant effect on in-vivo PFA lesion dimensions in a beating porcine heart model.

Abstract 4113147: Global Longitudinal Strain in Patients with Coronary Microvascular Dysfunction

Background: Angina in the absence of obstructive coronary artery disease (ANOCA) is a common but undertreated condition due to poorly understood pathophysiologic mechanisms. This study investigates the potential link between ANOCA and left ventricular (LV) dysfunction, specifically focusing on coronary microvascular dysfunction (CMD) as a contributing factor. Methods: Registry patients diagnosed with CMD, were compared with those without CMD. Echocardiographic analysis, including global longitudinal strain (GLS), was conducted using advanced software aided by human expertise. Out of 281 patients, 121 had echocardiograms accessible in our systems for review. After excluding patients with echocardiograms of low technical quality, those with cardiomyopathies, or a history of myocardial ischemia, we identified 21 patients with CMD and 38 without CMD. Results: The mean age of the entire cohort was 59.5±11.5 years, with 76.7% being female. The prevalence of hypertension and hyperlipidemia was 71.2% and 67.8%, respectively, while 23.7% had diabetes. More than half of the patients had a CCS angina score of 2 (59.3%). There were no differences in medication usage during catheterization between the two groups concerning beta-blockers, nitrates, calcium channel blockers, and diuretics. No discrepancies were observed between the two groups in LVEF (overall mean of 62±8), LV mass, ventricle and atrium sizes and measurements, diastolic function, and other commonly used and reported echocardiographic variables. Despite initial hypotheses suggesting CMD-related alterations in LV mechanical function, no significant differences in GLS were observed between CMD-positive and CMD-negative groups. Conclusion: Our findings, although inconclusive, underscore the need for further large-scale investigations integrating comprehensive echocardiographic assessments to elucidate the complex interplay between CMD and LV mechanical function.

An Observational Study of Patients Presenting in Hypotension and Shock to Emergency Room by Applying RUSH Protocol

Introduction: Care of the patient with shock can be one of the most challenging issues in emergency medicine. The early use of ultrasound at the bedside in such emergency is a very valuable tool to determine the type of shock. Rapid Ultrasound in SHock (RUSH) protocol done by emergency physicians is one such protocol which is being underused. Hence, we conducted this study to assess the effectiveness of the RUSH protocol for patients presenting with undifferentiated hypotension and shock. Materials and methods: This was prospective observational study done on a total of 100 patients presented with hypotension and shock. We performed an early bedside sonographic examination for participants based on RUSH protocol and type of shock was determined. Then the definitive interventions were performed as per the type of shock. The outcome measures were determined either till the survival to discharge from the hospital or till the in-hospital death of the patient. The data was analysed using SPSS version25. Results: In this study, the type of shock most commonly found overall was hypovolemic shock (40%) followed by cardiogenic shock (27%) and distributive shock (17%). Contractility of left ventricle, size of right ventricle, inferior venacava caliber, hemoperitoneum, pneumothorax, hemothorax, pulmonary edema, pleural effusion and lungs consolidation were statistically significant in determining the type of shock except cardiac tamponade, abdominal aortic aneurysm/dissection and deep vein thombosis. Majority of the interventions performed were fluid resuscitation (41%), vasopressors and inotropes (28%) and laparotomy (9%) and were statistically significant (p=0.001). Among all patients, 73% survived and 27% died. The outcome was statistically significant (p=0.002). Conclusion: RUSH protocol used for undifferentiated hypotension and shock is an effective tool at the bedside as an early approach to diagnose the type of shock. It will also help in determining early definitive interventions in shock states and thereby having better patient outcomes.

Anomalous venous collaterals in Apert and Crouzon syndromes and their relationship to ventricle size and increased intracranial pressure.

The exact association between the frequently present anomalous intracranial venous vasculature, emissary collaterals, ventriculomegaly, and increased intracranial pressure (ICP) in children with Apert and Crouzon syndromes remains an enigma. This study aimed to evaluate the association between the aberrant venous system and ventricle size and increased ICP, and to assess the development of the venous structures over time. This retrospective cohort study included all patients with Apert or Crouzon syndrome with available CT venography (CTV) scans of the brain. Anomalous venous vasculature was assessed by the total collateral score (TCS), which scored 9 intra- and extracranial venous structures (TCS range 0-16). Ventricle size (fronto-occipital horn ratio [FOHR]) was measured on the same scan. The presence of increased ICP, a shunt, tonsillar herniation, and head circumference were extracted from electronic patient records and were used as secondary covariates. Subsequent CTV scans were scored when available. Ninety patients were included in this study. The mean TCS was 7.5 ± 2.5, and was comparable for patients with Apert and Crouzon syndromes (mean 8.0 and 7.3, respectively). The presence of an extra abnormal venous structure was associated with an increase of the FOHR of 3.2% (p < 0.01). After dividing the venous structures into intra- and extracranial, a similar association between both and the FOHR was found (4.1% and 2.3%, respectively; p < 0.01). The TCS was similar for patients with normal and increased ICP at the time of the scan. Sixteen patients had dual CTV scans. The median time between both scans was 3.2 years. The presence of collaterals remained stable over time (median ΔTCS = 0.3). Seven patients with functioning shunts also maintained high TCSs (median TCS = 9). In patients with Apert and Crouzon syndromes, a close relationship between venous collaterals and ventricle size was observed, in which a more extensive aberrant venous drainage pattern, both intra- and extracranial, was associated with larger ventricles. Preliminary longitudinal data suggested that the presence of venous collaterals remained constant over time despite effective treatment of increased ICP, indicating reliance on these collaterals even in cases of normal ICP. The authors hypothesize that this dependence on collateral drainage is the result of their aberrant internal venous anatomy and predisposes individuals to increased ICP.

Predictors of progression to significant atrial functional tricuspid regurgitation in patients with paroxysmal or persistent atrial fibrillation

Abstract Background Atrial functional tricuspid regurgitation (atrial TR) has received growing recognition as a TR entity with a distinct cause owing to its independence from valvular tethering as the predominant mechanism underlying TR. Atrial fibrillation (AF) is highly prevalent in patients with AFTR and is considered a major contributor to its development. However, evidence on predictors of progression to significant atrial function TR in patients with diagnosed AF is lacking. Methods At a single tertiary university hospital, we studied 11445 patients who underwent echocardiograms at least 1 year apart between 2010 and 2023. Patients with moderate or greater TR at the initial examination (n=432) were excluded to ensure that only subjects with confirmed progression to atrial functional TR were included. Only those with EF &amp;gt; 50%, no other moderate or severe valve stenosis or regurgitation, no valve surgery, and RVSP &amp;lt; 40mmHg were subsequently identified (n= 8159). Patients diagnosed with AF 3 months before or after the echocardiogram were included. The final analysis included 629 patients, 44 progressed to moderate or worse TR during follow-up. Results The mean age of the patients was 68 (62-74) years and 57% were male. The mean time to progression to severe TR was 5.7 years. There was no difference in left ventricle size, ejection fraction of LV, right atrium, and right ventricle size on the initial echocardiogram between the group that progressed to significant TR (group 1) and the group that did not progress (group 2). LA diameter (LAAP), LAV(LA volume), and LAVi were significantly larger in group 1. In particular, the Kaplan-Meier graph of TR progression divided into two groups based on LAV 75ml and LAVi 45ml/m2 showed a significant difference, and in particular, LAVi was a significant predictor compared to other factors. Conclusion In patients with AF, the most common cause of atrial functional TR, an initial LAVi &amp;gt;45ml/m2 was shown to be a predictor of progression to significant TR.cumulative survival rate

A 2D echocardiographic method for accurate right ventricular quantification using deep learning

Abstract Background/Introduction Transthoracic two-dimensional echocardiography (2DE) remains the backbone for non-invasive assessment of the right ventricle (RV) size and function. However, calculation of RV end-diastolic (RVEDV), end-systolic volume (RVESV) and ejection fraction (RVEF) cannot be performed using 2DE due to the complex RV shape (1), whereas currently used, respective 2DE indices lack diagnostic accuracy. Deep learning (DL) may be able to assist in developing new 2DE methods for RV quantification. Purpose To develop a novel DL-based 2DE method for quantitative evaluation of RV size and function without geometric assumptions. Methods 50 adult patients underwent 2DE and CMR within 30 days as part of routine cardiac care between 6/2020 – 9/2021 at a medical center. We excluded patients with prior cardiac surgery of the RV, tricuspid or pulmonic valve repair or replacement, complex congenital heart disease, more than small pericardial effusion, cardiac tamponade, atrial fibrillation at the time of either study, severe RV dysfunction or inadequate imaging quality. End-diastolic and end-systolic areas derived from planimetry of 8 2DE RV views, along with patient age and gender, were to used to train and test a DL algorithm, namely the Feature-Tokenizer and Transformer (Figure 1) in order to predict the corresponding, CMR-derived, RVEDV or RVESV, and subsequently calculate RVEF. We used 5-fold cross-validation for training and evaluation. We assessed the relative importance of each 2DE view using gain metric-powered explainability analysis and subsequently performed a sensitivity analysis to identify optimal combinations of views. Variability analysis was performed for a random subcohort of 10 patients. Results Median age was 51 (interquartile range 32-62) and 42% were women. Mean RVEDV, RVESV and RVEF) by CMR were 163±70ml, 82±42ml and 51±8% respectively. Six patients (12%) had RV dilatation and 9 (18%) had RV dysfunction when using published CMR criteria. Explainability analysis showed that the 3 most important views were parasternal long axis (PLAX) (relative feature importance [RFI] = 0.197), 4-chamber (RFI=0.145) and parasternal short axis at the base (PSAX-base) (RFI=0.112). The 3-view combination of PLAX, 4-chamber and PSAX-base achieved high accuracy when compared to CMR (R2=0.964, absolute percentage error [APE]=8.09±12.07% for RV volumes and APE=9.86±10.68% for RVEF). Good (intraclass correlation coefficient [ICC]&amp;gt;0.75) to excellent (ICC&amp;gt;0.90) intra- and interobserver variability was found for these 3 views. Conclusions We propose an innovative, clinically applicable DL-based 2DE method for quantification of RV size and function that requires manual RV planimetry of 3 views, namely 4-chamber, PLAX and PSAX-base (Figure 2). This method may revolutionize 2DE RV assessment. Further studies with largest number of patients and wider range of RV size and function are needed to validate this method.Deep learning architectureGraphical abstract

Revisiting echocardiographic ranges of left ventricular end-diastolic volume index: an analysis of the discrepancies between the 2006 and the 2015 recommendation for chamber quantification guidelines

Abstract Background Indexed left ventricular end-diastolic volume (LVEDVi) and indexed left ventricular end-diastolic diameter (LVEDDi) serve as crucial parameters indicative of left ventricle (LV) size. The "Recommendations for Chamber Quantification" guideline was published in 2006 and updated in 2015. While the previous guideline maintained uniform cut-off points for both men and women, the latest revision introduced new thresholds that vary between genders. Purpose The study's primary aim is to evaluate the extent of change in labeled indexed LV diastolic volumes in men and women following the adoption of the 2015 guidelines and identify potential contributing factors to this change. Methods In this cross-sectional study, we analyzed echocardiography data extracted from a web-based registry from March 2020 to October 2022. LV volume variables were categorized based on the indexed ranges specified in the 2006 and 2015 guidelines. Statistical analysis was performed using SPSS version 25. Results Among the 7598 individuals, the classification of LVEDDi according to the 2006 and 2015 guidelines differed in 456 (6.1%) subjects. The classification of LVEDVi differed in 910 (12.0%) individuals. In 213 (5.5%) female subjects initially categorized as having normal or mild LV enlargement according to the 2006 guideline, there was substantial reclassification following the application of the 2015 recommendation (i.e., transitioned from a normal classification to moderate LV enlargement and from mild to severe LV enlargement). All females classified as having moderately abnormal LVEDVi according to the 2006 guideline were reclassified as having severely abnormal LVEDVi according to the 2015 guideline. Conclusion The significant disparities observed in the classification of indexed LV volumes between the 2006 and 2015 guidelines underscore the importance of ongoing dedicated research to reassess the range of indexed echocardiographic parameters, considering various outcomes and differences in countries and races.

The spine-brain axis: is spinal anatomy associated with brain volume?

First small sample studies indicate that disturbances of spinal morphology may impair craniospinal flow of cerebrospinal fluid and result in neurodegeneration. The aim of this study was to evaluate the association of cervical spinal canal width and scoliosis with grey matter, white matter, ventricular and white matter hyperintensity volumes of the brain in a large study sample. Four hundred participants underwent whole-body 3 T magnetic resonance imaging. Grey matter, white matter and ventricular volumes were quantified using a warp-based automated brain volumetric approach. Spinal canal diameters were measured manually at the cervical vertebrae 2/3 level. Scoliosis was evaluated using manual measurements of the Cobb angle. Linear binomial regression analyses of measures of brain volumes and spine anatomy were performed while adjusting for age, sex, hypertension, cholesterol levels, body mass index, smoking and alcohol consumption. Three hundred eighty-three participants were included [57% male; age: 56.3 (±9.2) years]. After adjustment, smaller spinal canal width at the cervical vertebrae 2/3 level was associated with lower grey matter (P = 0.034), lower white matter (P = 0.012) and higher ventricular (P = 0.006, inverse association) volume. Participants with scoliosis had lower grey matter (P = 0.005), lower white matter (P = 0.011) and larger brain ventricular (P = 0.003) volumes than participants without scoliosis. However, these associations were attenuated after adjustment. Spinal canal width at the cervical vertebrae 2/3 level and scoliosis were not associated with white matter hyperintensity volume before and after adjustment (P > 0.864). In our study, cohort smaller spinal canal width at the cervical vertebrae 2/3 level and scoliosis were associated with lower grey and white matter volumes and larger ventricle size. These characteristics of the spine might constitute independent risk factors for neurodegeneration.

Sertraline-induced 5-HT dysregulation in mouse cardiomyocytes and the impact on calcium handling.

Selective serotonin reuptake inhibitors (SSRIs) are prescribed in 15% of pregnancies in the United States for depression. Maternal use of SSRIs has been linked to an increased risk of congenital heart defects, but the exact mechanism of pathogenesis is unknown. SSRIs, including sertraline, are permeable to the placenta and can produce direct fetal exposure. Previously, we have shown decreased cardiomyocyte proliferation, left ventricle size, and cardiac expression of the serotonin receptor 5-HT2B in the offspring of mice exposed to the SSRI sertraline relative to the offspring of saline-exposed mice. Using a mouse model of in utero plus neonatal sertraline exposure, we observed lengthened peak-to-peak time of calcium oscillation (saline 784 ± 76 ms; sertraline 1,121 ± 130 ms, P < 0.001) and decreased expression of critical genes in calcium regulation. We also observed significant upregulation of specific microRNAs (miRNAs) that modulate serotonin signaling in neonatal cardiac tissues (Slc6a4: miR-223-5p, miR-92a-2-5p, miR-182-5p; Htr2a: miR-34b-5p, miR-182-5p; Htr2b: miR-223-5p, miR-92a-2-5p, miR-337-5p) (P < 0.05) with corresponding levels of the target mRNAs downregulated (Slc6a4 0.73 ± 0.05; Htr2a 0.67 ± 0.04; Htr2b 0.72 ± 0.03; all P < 0.01), resulting in decreased production of the cognate proteins. Adult mice at 10 wk showed altered cardiac parameters including decreased heart rates in males (saline 683 ± 8 vs. sertraline 666 ± 6 beats/min, P < 0.05) and ejection fraction in females (saline 83.9 ± 0.6% vs. sertraline 80.6 ± 1.1%, P < 0.05). These findings raise the question of whether sertraline exposure during development may increase the potential risk for cardiac disease when subjected to stress.NEW & NOTEWORTHY Sertraline exposure during development decreased the expression of critical genes in calcium regulation and lengthened periods in calcium oscillation in neonatal cardiomyocytes. Sertraline upregulated specific microRNAs that may modulate serotonin signaling in neonatal cardiac tissues, which corresponded with a decrease in the levels of the corresponding target mRNAs. Although the echocardiograms in our adult mice suggest a mild phenotype associated with sertraline exposure, these upregulated microRNAs (miRNAs) have been linked to adult cardiovascular disease and heart failure.

Patient selection for left ventricular assist device implantation. The main problems

To analyze the experience of Chazov National Medical Research Center of Cardiology in patient selection for left ventricular assist device (LVAD) implantation. 901 patients, whose documents were sent to Chazov National Medical Research Center of Cardiology from regional medical and prophylactic institutions, were screened as selection for LVAD implantation. Firstly, all patients underwent transthoracic echocardiography performed according to the extended protocol with a comprehensive assessment of the left and right ventricle size and function. Patients who underwent the screening procedure underwent further examination including both laboratory and instrumental diagnostic methods. In addition, the polyclinic database of patients diagnosed with chronic heart failure (CHF) and dilated cardiomyopathy was also analyzed. Among 901 screened patients 7.9% were suitable candidates for LVAD implantation and only 23 (2.6%) patients underwent surgery. Among those not eligible for surgery: 208 (29%) patients were not on optimal medical therapy, 15% of patients had indications for other surgical treatment of CHF, 12% of patients had severe right ventricular failure, 9.8% had severe comorbidities, 6.8% of patients refused surgery. The main problems of selection for LVAD implantation were: low awareness of doctors about the introduction of new treatment methods, poor quality of transthoracic echocardiography, a large percentage of patients not receiving basic therapy for CHF, untimely referral of patients for other types of surgical treatment.