Heart Damage Research Articles

Abstract 4115947: Empagliflozin Inhibits the Mobilization of CCR2+ Monocyte-Derived Macrophages by Reducing CCL2 Expression in Fibroblasts and Slows the Progression of Heart Failure After Pressure Overload.

Background: The positive effects of sodium glucose co-transporter-2 (SGLT2) inhibitors on reducing cardiovascular mortality and hospitalizations due to heart failure have been well established. Although numerous theories propose explanations for the cardioprotective actions of SGLT2 inhibitors, these hypotheses primarily rely on initial findings and require further validation. Studies have shown that immune cells, particularly macrophages marked by C-C chemokine receptor type 2 (CCR2), contribute to the progression of heart failure by infiltrating the myocardium and inducing detrimental structural changes following myocardial infarction or pressure overload. Purpose: This study aims to investigate whether SGLT2 inhibitors can mitigate heart damage by inhibiting the migration of CCR2+ monocyte-derived macrophages. Methods: In this experiment, male B6 mice were subjected to transverse aortic constriction (TAC) to induce heart failure. Two weeks post-TAC, with heart function confirmed as equal across all groups by echocardiography, one group began receiving daily oral doses of empagliflozin, while another served as the control. At four weeks post-TAC, cardiac function was reassessed. The animals were then euthanized, and their hearts were analyzed using flow cytometry, staining, and qPCR to evaluate heart failure and the involvement of immune cells. Additionally, isolated cardiac fibroblasts were subjected to cyclic stretching to mimic post-TAC mechanical stress. Results: Treatment with empagliflozin resulted in improved cardiac function and reduced congestion in the heart and lungs, indicating alleviation of heart failure. The treatment notably decreased myocardial fibrosis, evident from Picrosirius-red staining and reduced expression of fibrosis-related mRNA. Importantly, empagliflozin specifically reduced the number of CCR2-positive macrophages in the heart, without affecting other types of immune cells. In cardiac fibroblasts that underwent cyclic stretching, empagliflozin pre-treatment diminished the expression of C-C motif chemokine ligand 2 (CCL2), the ligand for CCR2. Conclusion: Empagliflozin’s ability to suppress CCL2 expression in fibroblasts and curtail the recruitment of CCR2+ macrophages may represent a potential strategy to decelerate heart failure progression. These findings advance our understanding of the cardioprotective mechanisms of SGLT2 inhibitors and propose novel therapeutic avenues for heart failure management.

A temperature-ultrasound sensitive nanoparticle delivery system for exploring central neuroinflammation mechanism in stroke-heart syndrome

BackgroundCardiovascular events secondary to stroke–collectively classified as stroke-heart syndrome–greatly impair the patient’s prognosis, however its underlying mechanism has yet to be determined. To investigate the mechanism of central neuroinflammation and its effects on stroke-heart syndrome, a temperature-ultrasound responsive brain-targeted drug delivery system, DATS/MION-LPE, was synthesized to specifically study neuroinflammation in the mouse middle cerebral artery occlusion (MCAO) model.ResultsThe specific polymer of DATS/MION-LPE can close the nanoparticle pores at 37 °C, restricting drug release in the circulation. After the nanoparticles were targeted to brains, the polymer can be cleaved under external ultrasound irradiation, reopening the nanoparticle pores and allowing drug release, therefore directly managing the neuroinflammation. After a stroke, a significant cerebral inflammation occurred, with elevated IL-1β and pyrin domain-containing 3 (NLRP3) inflammasome. Accordingly, significantly increased histone deacetylase 6 (HDAC6) and decreased sirtuin 1 (SIRT1) were observed. An antagonistic relationship between HDAC6 and SIRT1 was found, which can jointly regulate the cerebral NLRP3 expression. The systemic IL-1β and ATP levels were increased after the stroke, accompanied by a significant heart injury including contractile dysfunction, elevated IL-1β levels, and oxidative stress. Meanwhile, neuroinflammation can trigger sympathetic nervous overexcitation with associated heart damage. DATS/MION-LPE can targetedly effect on ischemic brain, exhibiting cerebral and cardiac protective effects including downregulated cerebral NLRP3 and HDAC6 expressions, upregulated SIRT1 expressions in brain, reduced IL-1β and ATP in circulation, and alleviated cardiac impairment.ConclusionThis study introduced the key role of neuroinflammation in stroke-heart syndrome and first investigated the crucial HDAC6/SIRT1-NLRP3 circuit in this process. Heart injury secondary to stroke is mediated by neuroinflammation induced systemic inflammatory responses and sympathoexcitation. DATS/MION-LPE is a unique tool and effective therapeutic agent, which provides new insights into combinational heart and cardiac protection.Graphical

Antioxidant and Protective Effects of Oleaster Oil Against Silica Nanoparticle-Induced Oxidative Stress and Organ Toxicity in Rats

Nanoparticles have found widespread application in a variety of fields, despite growing worry about their possible hazardous effects on both the environment and human health. In recent years, research efforts have focused on plants and vegetable oils, which have been identified as abundant sources of many bioactive compounds. Many of these substances are known to participate in antioxidant processes. As a result, the current study was designed to investigate the antioxidant and protective properties of oleaster oil against cytotoxicity and oxidative stress induced by silica nanoparticles (SiNPs) in albino Wistar rats. Forty male rats were randomly assigned to four equally sized cohorts: a control group, SiNP-treated group (at a dose of 50 mg/kg), SiNP-treated group supplemented with oleaster oil (at a dose of 2 mL/kg), and those receiving only 2 mL/kg of oleaster oil. The findings demonstrated that SiNPs initiated an oxidative stress environment, as evidenced by higher lipid peroxidation levels and changes in antioxidant defense mechanisms. Antioxidant enzymes were significantly reduced, including glutathione levels between the control and SiNP-exposure treatments (36.01%, 36.59%, 60%), glutathione-S-transferase (29.74%, 29.90%, 13.49%), catalase (24.14%, 28.19%, 30.85%), and tissue superoxide dismutase (11.90%, 37.78%, 37.79%) in the liver, kidney, and heart, respectively. Furthermore, histological investigations revealed significant liver, kidney, and heart damage, as indicated by pathological alterations such as vascular dilatation and congestion, inflammatory cellular infiltration, and hepatocellular dysfunction. Encouragingly, the administration of oleaster oil significantly ameliorated a majority of these detrimental effects. These data suggest a potential protective effect of oleaster oil against the adverse histological effects induced by SiNP injection.

Aloe Emodin Alleviates Radiation-Induced Heart Disease via Blocking P4HB Lactylation and Mitigating Kynurenine Metabolic Disruption.

Aloe emodin is an anthraquinone of traditional Chinese medicine monomer, which plays a protective action in cardiovascular diseases. However, the regulatory mechanisms of aloe emodin in the protection of radiation-induced heart damage (RIHD) are unclear. As a novel post-translational modification, lactylation is considered as a critical mediator in inflammatory cascade and cardiac injury. Here, using a cross of differential omics and 4D label-free lactylation omics, protein disulfide-isomerase (P4HB) is identified as a novel target for lactylation, and aloe emodin inhibits the binding of lactate to the K311 site of P4HB. Aloe emodin stabilizes kynurenine metabolism through inhibition of aspartate aminotransferase (GOT2) accumulation on damaged mitochondria. Mechanistically, aloe emodin inhibits phosphorylated glycogen synthase kinase 3B (p-GSK3B) transcription in the nucleus to repress the interaction of prostaglandin G/H synthase 2 (PTGS2) with SH3 domain of SH3 domain-containing GRB2-like protein B1 (SH3GLB1), thereby disrupting the functions of mitochondrial complexes and reducing SH3GLB1-mediated mitoROS accumulation, eventually suppressing calcium-binding and coiled-coil domain-containing protein 2 (NDP52)-induced mitophagy. This study unveils the regulatory role of aloe emodin in RIHD alleviation through PTGS2/SH3GLB1/NDP52 axis, indicates aloe emodin stabilizes GOT2-mediated kynurenine metabolism through P4HB lactylation. Collectively, this study provides novel insights into the regulatory mechanisms underlying the protective role of aloe emodin in cardiac injury, and opens new avenues for therapeutic strategies of aloe emodin in preventing RIHD by regulating lactylation.

Free Immunoglobulin Light Chains in Patients With Myocarditis: a New Biomarker of Inflammation and Heart Failure

To study the concentration of immunoglobulin free light chains (FLCs) in patients with myocarditis in comparison with non-inflammatory heart diseases, their relationship with inflammatory markers and the severity of chronic heart failure (CHF). This study included 77 patients (31 women, mean age 54.1±13.3 years): 41 patients with myocarditis verified by myocardial biopsy (n=18) or using a noninvasive diagnostic algorithm, 31 patients with noninflammatory CHF (comparison group), and 5 patients with monoclonal gammopathy identified during the study (4 of them were diagnosed with AL amyloidosis with heart damage). In the myocarditis group, CHF was diagnosed in 29 patients, mean stage IIA, functional class (FC) 2-3, with a mean left ventricular ejection fraction 43%. In the comparison group, patients had predominantly IIA stage, FC 2-3 CHF without systolic dysfunction. The blood concentration of kappa and lambda FLC types was measured with Cloneus S-FLC-K TIA Kit and Cloneus S-FLC-L TIA Kit. Concentrations were considered normal at FLC-kappa 4.84-14.20 mg/l, FLC-lambda 7.03-22.50 mg/l, and the FLC-kappa/lambda ratio 0.426-1.050. Increased FLC concentrations were found in 58% of patients with myocarditis and in 77% of patients in the comparison group. The FLC-lambda concentration was significantly higher in the comparison group; there were no significant differences between the groups in FLC-kappa and their ratio. The closest significant correlations in both groups and the entire cohort were noted between FLCs of either type and CHF, as well as the requirement for loop diuretics (correlation coefficients, 0.60-0.90), independent on the severity of systolic dysfunction. Myocarditis patients also showed correlations of FLCs with the titer of antibodies to cardiomyocyte nuclear antigens, levels of C-reactive protein, leukocytes, neutrophils, erythrocyte sedimentation rate, and the concentration of N-terminal fragment of brain natriuretic peptide. In a subgroup of 10 myocarditis patients who were treated with immunosuppressants, FLCs of both types were significantly lower than in the comparison group; only with the persistence of severe CHF was an increase in FLCs noted. An increased FLC concentration can be considered as an important pathogenesis component that reflects both the specific mechanisms of myocarditis and the severity of CHF. In the absence of a statistically significant increase in general inflammatory markers in the blood of myocarditis patients, the measurement of FLCs can be used as an additional diagnostic marker and predictor of the decompensated variant of the course of myocarditis. However, the diagnostic and prognostic significance of FLC concentration in patients without CHF requires a further study.

Research progress of two-pore potassium channel in myocardial ischemia-reperfusion injury.

Myocardial ischemia-reperfusion injury (MIRI) is a secondary injury caused by restoring blood flow after acute myocardial infarction, which may lead to serious arrhythmia and heart damage. In recent years, the role of potassium channels in MIRI has attracted much attention, especially the members of the two-pore domain potassium (K2P) channel family. K2P channel has unique structure and function, and the formation of its heterodimer increases its functional diversity. This paper reviews the structural characteristics, types, expression and physiological functions of K2P channel in the heart. In particular, we pay attention to whether members of the subfamily such as TWIK, TREK, TASK, TALK, THIK and TRESK participate in MIRI and their related mechanisms. Future research will help to reveal the molecular mechanism of K2P channel in MIRI and provide new strategies for the treatment of cardiovascular diseases.

Subclinical cardiac damage monitoring in breast cancer patients treated with an anthracycline-based chemotherapy receiving left-sided breast radiation therapy: subgroup analysis from a phase 3 trial.

This study, derived from the phase 3 SAFE trial (ClinicalTrials.gov identifier: NCT2236806), explores subclinical cardiac damage in breast cancer patients receiving anthracycline-based chemotherapy and left-sided breast radiation therapy (RT). Eligible patients were randomized to a cardioprotective pharmacological therapy (bisoprolol, ramipril, or both) or placebo, with cardiac surveillance at multiple time-point using standard and 3-dimensional echocardiography. Dosimetric parameters were analysed, including mean heart dose (MHD) and various metrics for heart substructures, employing advanced contouring techniques and auto-contouring software. In the analysis of left-sided breast RT patients, the study encompassed 39 out of 46 irradiated individuals, focusing on GLS and 3D-LVEF outcomes with ≥ 10% worsening, defined as subclinical heart damage. Distinct RT schedules were used, with placebo exhibiting the highest ≥ 10% worsening (36.4%). In terms of treatment arms, bisoprolol exhibited 11.1% worsening, while ramipril 16.7% and bisoprolol + ramipril 25%. For patients with no subclinical damage, the mean MHD was 1.5Gy; for patients with subclinical heart damage, the mean MHD was 1.6Gy (p = 0.94). Dosimetric parameters related to heart and heart substructures (left anterior descending artery, right and left atrium, right and left ventricle) showed no statistically significant differences between patients with and without subclinical damage. Our results emphasize the crucial role of cardioprotective measures in mitigating adverse effects, highlighting RT as having negligible influence on cardiac performance. An extended follow-up assessment of the whole series is warranted to determine whether a subclinical effect could significantly influence clinical outcomes and cardiac events.

Examining the Cardioprotective Effects of Aerobic Exercise Combined with Crocin or Berberine on Methamphetamine-Induced Heart Damage in Female Rats

Background: While the harmful effects of methamphetamine abuse on the heart are well-known, the solutions to deal with these damages are not well-known. Objectives: This study aimed to investigate whether aerobic exercise combined with supplements such as Crocin and Berberine can potentially protect against methamphetamine-induced changes in the heart tissue of female rats. Methods: Forty-two female rats were randomly assigned into seven groups (n = 6). The groups included healthy control, methamphetamine, methamphetamine + exercise, methamphetamine + Crocin, methamphetamine + Berberine, methamphetamine + exercise + Crocin, and methamphetamine + exercise + Berberine group. Methamphetamine (10 mg/kg) was injected intraperitoneally over five days. The animals were administered Crocin via intraperitoneal injection at 40 mg/kg during a four-week withdrawal period. At the same time, Berberine was dissolved in drinking water at 100 mg/kg concentration. The aerobic training consisted of running at 25 m/min for 30 minutes. A light microscope was used to observe the structural changes. Data analysis was performed using non-parametric Kruskal-Wallis and Mann-Whitney U tests by SPSS 26, with a significance level of 5%. Results: The results of the study indicate that methamphetamine use causes hyperemia, inflammation, and histopathological damage in the heart cells and tissue (P = 0.001). The combination of exercise with Crocin significantly eliminated methamphetamine-induced heart tissue damage (P = 0.001) and improved cardio-respiratory endurance compared to control (P = 0.004) and methamphetamine (P = 0.01) groups. The combination of aerobic exercise with Berberine removed methamphetamine-induced heart cell damage (P = 0.001), and improved cardio-respiratory endurance compared to control (P = 0.024) and methamphetamine (P = 0.05) groups. In addition, all intervention groups showed a significant reduction in hyperemia and inflammation compared to the methamphetamine group (P = 0.001). Conclusions: A combination of exercise with either Crocin or Berberine supplements demonstrated potential benefits in mitigating some of the harmful structural effects of methamphetamine and improving cardio-respiratory endurance.

Ferulic acid alleviates cardiac injury by inhibiting avermectin-induced oxidative stress, inflammation and apoptosis

Avermectin (AVM) is a broad-spectrum antibiotic from the macrolide class, extensively employed in fisheries and aquaculture. Nevertheless, its indiscriminate utilisation has resulted in a substantial accumulation of remnants in the aquatic ecosystem, potentially inflicting significant harm to the cardiovascular system of aquatic species. Ferulic acid (FA) is a naturally occurring compound in wheat grain husks. It possesses potent anti-inflammatory and antioxidant properties, which can help reduce cardiovascular damage. Additionally, its affordability makes it an excellent option for aquaculture usage as a feed additive. This article explored the potential of FA as a feed additive to protect against AVM-induced heart damage in carp. We subjected carp to AVM for 30 days and provided them with a diet of 400 mg/kg of FA. FA substantially reduced the pathogenic damage to heart tissue caused by AVM, as shown through hematoxylin-eosin staining. The biochemical analysis revealed that FA markedly enhanced the activity of antioxidant enzymes catalase (CAT), glutathione (GSH), and total antioxidant capacity (T-AOC) while reducing the malondialdehyde (MDA) content. Furthermore, qPCR analysis demonstrated a substantial increase in the mRNA levels of transforming growth factor-β1 (tgf-β1) and interleukin-10 (il-10) simultaneously, significantly reducing the expression levels of interleukin-10 (il-6), interleukin-1β (il-1β), tumor necrosis factor-α (tnf-α) and inductible nitric oxide synthase (inos). Through the mitochondrial apoptotic route, FA reduced AVM-induced cell death in carp heart cells by upregulating bcl-2 while downregulating the mRNA expression levels of bax, fas, caspase8 and caspase9. In summary, FA alleviated cardiac injury by inhibiting AVM-induced oxidative stress, inflammatory response, and apoptosis in carp heart tissue.

Identification and interaction analysis of molecular markers in myocardial infarction by bioinformatics and next-generation sequencing data analysis

BackgroundCardiovascular diseases are prevalent worldwide with any age, and it is characterized by sudden blockage of blood flow to heart and permanent damage to the heart muscle, whose cause and underlying molecular mechanisms are not fully understood. This investigation aimed to explore and identify essential genes and signaling pathways that contribute to the progression of MI.MethodsThe aim of this investigation was to use bioinformatics and next-generation sequencing (NGS) data analysis to identify differentially expressed genes (DEGs) with diagnostic and therapeutic potential in MI. NGS dataset (GSE132143) was downloaded from the Gene Expression Omnibus (GEO) database. DEGs between MI and normal control samples were identified using the DESeq2 R bioconductor tool. The gene ontology (GO) and REACTOME pathway enrichment analyses of the DEGs were performed using g:Profiler. Next, four kinds of algorithms in the protein–protein interaction (PPI) were performed to identify potential novel biomarkers. Next, miRNA-hub gene regulatory network analysis and TF-hub gene regulatory network were constructed by miRNet and NetworkAnalyst database, and Cytoscape software. Finally, the diagnostic effectiveness of hub genes was predicted by receiver operator characteristic curve (ROC) analysis and AUC more than 0.800 was considered as having the capability to diagnose MI with excellent specificity and sensitivity.ResultsA total of 958 DEGs were identified, consisting of 480 up-regulated genes and 478 down-regulated genes. The enriched GO terms and pathways of the DEGs include immune system, neuronal system, response to stimulus and multicellular organismal process. Ten hub genes (namely cftr, cdk1, rps13, rps15a, rps27, notch1, mrpl12, nos2, ccdc85b and atn1) were obtained via protein–protein interaction analysis results. MiRNA-hub gene regulatory network and TF-hub gene regulatory network showed that hsa-mir-409-3p, hsa-mir-3200-3p, creb1 and tp63 might play an important role in the MI.ConclusionsAnalysis of next-generation sequencing dataset combined with global network information and validation presents a successful approach to uncover the risk hub genes and prognostic markers of MI. Our investigation identified four risk- and prognostic-related gene signatures, including cftr, cdk1, rps13, rps15a, rps27, notch1, mrpl12, nos2, ccdc85b and atn1. This gene sets contribute a new perspective to improve the diagnostic, prognostic, and therapeutic outcomes of MI.

An integrated approach to the treatment of a patient with chronic tonsillitis. Clinical case

Chronic tonsillitis (CT) is a common infectious-allergic disease leading to severe general somatic complications, including rheumatic damage of joints and heart, kidney disease. Currently in Russia there is an increase in the number of patients with CT. Therapy for CT in outpatient practice is often limited to only washing the lacunae of the palatine tonsils, without the use of local drugs. We observed a 35-year-old patient with a diagnosis of chronic tonsillitis and a history of the disease of more than 1.5 years. A combined method of therapy was chosen, including treatment with the Tonsillor apparatus using low-frequency ultrasound therapy and local use of Viroxinol for irrigation of the tonsils and mucous membrane. As a result of the complex treatment, pronounced positive dynamics and a decrease in the clinical symptoms of CT were achieved.

Glibenclamide reverses cardiac damage and NLRP3 inflammasome activation associated with a high refined sugar diet

Increased energy intake from carbohydrates has been associated with major cardiovascular outcomes. Mice fed a highly-refined carbohydrate (HC) diet develop cardiac hypertrophy and inflammation. During cardiac injury, NLRP3 inflammasome is activated which results in a local inflammatory response. In this study, we hypothesized that a nom-hypoglycemic dose of glibenclamide may reverses sugar diet-induced cardiac damage by NRLP3 inflammasome inhibition. Mice were fed the HC diet for eight weeks and divided into a group treated with glibenclamide (20 mg/kg, gavage) and another with vehicle for four weeks. Afterward, hearts were excised for morphometric analysis and ex vivo function determination. NLRP3 inflammasome activation was investigated by western blotting and in situ fluorescent detection of reactive oxygen species (ROS) and active caspase-1. The HC diet promotes heart hypertrophy and collagen deposition, which were reverted by glibenclamide without ameliorating HC diet-induced insulin resistance. Changes in cardiac performance were observed in vivo by invasive catheterization and in Langendorff-perfused hearts due to the HC diet, which were prevented by glibenclamide. Hearts from HC diet mice had increased levels of NLRP3 and cleaved IL-1β. Glibenclamide reversed ROS production and caspase-1 activity induced by HC diet. These findings suggest glibenclamide's cardioprotective effects on heart damage caused by the HC diet are related to its inhibitory action on the NLRP3 inflammasome.

Scabies.

Scabies is one of the most common and highest-burden skin diseases globally. Estimates suggest that >200 million people worldwide have scabies at any one time, with an annual prevalence of 455 million people, with children in impoverished and overcrowded settings being the most affected. Scabies infection is highly contagious and leads to considerable morbidity. Secondary bacterial infections are common and can cause severe health complications, including sepsis or necrotizing soft-tissue infection, renal damage and rheumatic heart disease. There is no vaccine or preventive treatment against scabies and, for the past 30 years, only few broad-spectrum antiparasitic drugs (mainly topical permethrin and oral ivermectin) have been widely available. Treatment failure is common because drugs have short half-lives and do not kill all developmental stages of the scabies parasite. At least two consecutive treatments are needed, which is difficult to achieve in resource-poor and itinerant populations. Another key issue is the lack of a practical, rapid, cheap and accurate diagnostic tool for the timely detection of scabies, which could prevent the cycle of exacerbation and disease persistence in communities. Scabies control will require a multifaceted approach, aided by improved diagnostics and surveillance, new treatments, and increased public awareness.

CD146 Deletion Protects against Kidney and Heart Damage after AKI

CD146 Deletion Protects against Kidney and Heart Damage after AKI

Comparative Study of the Protective Effects of Citral, Thymoquinone, and Silymarin on Methotrexate-induced Cardiotoxicity in Rats.

Methotrexate (MTX), an immunosuppressant and anti-cancer medication, can harm the heart. The goal of the current investigation was to assess the cardiotoxicity caused by MTX and the potential cardioprotective properties of silymarin, citral, and thymoquinone as antioxidants. Forty-eight rats were divided into six groups, which included control, MTX, cosolvent, citral, thymoquinone, and silymarin groups. At the end of the study, the rats were anesthetized (ketamine and xylazine) and killed using CO2. Their blood samples were collected to measure the enzymatic activities of creatine kinase-myoglobin binding (CK-MB), creatine phosphokinase (CPK), and lactate dehydrogenase (LDH). Also, the heart tissue was sampled to determine the antioxidant capacity and examine the histopathology. The findings revealed that the activity of CPK, CK-MB, and LDH enzymes significantly reduced in the thymoquinone treatment group compared to the MTX group (p < 0.05). On the other hand, total antioxidant capacity was significantly increased in the thymoquinone group compared to the MTX group (p < 0.05). The pathological modifications (i.e. severe congestion, edema fluid, the presence of inflammatory cells around the blood vessels, mild to moderate hemorrhaging between cardiac muscle fibers) were seen in the MTX group. The treatment groups, particularly thymoquinone, did not experience any appreciable pathological changes. The thymoquinone was found to have the strongest protective effect against the heart damage caused by MTX.

Is LVH a must in an amyloid heart?

Abstract Background Transthyretin amyloidosis (ATTR), an infiltrative cardiomyopathy, is characterized by the infiltration of transthyretin-derived amyloid fibrils into the cardiac extracellular space, which causes morphological and functional heart damage. Because of the vast range of symptoms that can accompany ATTR cardiac amyloidosis, the illness remains unknown. However, misdiagnosis or delayed diagnosis due to inconsistencies between clinical findings and the severity of the underlying disease hampers treatment methods. Aim and objectives This article investigates the intricate relationship between ATTR amyloidosis pathogenesis and clinical signs to understand better the challenges and advancements in early discovery, treatment, and prognosis of this concealed sickness. Methods &amp; Results Between November 2022 and April 2024, we conducted a prospective analysis on a cohort of 71 patients diagnosed with ATTR cardiac amyloidosis utilizing PYP imaging at our institution (Al Hada Armed Force Hospital, Taif, Saudi Arabia). The Medical Ethics Review Committee of the hospital accepted this project (2023-720). During our study, we faced two cases without LVH and both cases have grade II-III cardiac uptake. 1st case A 66-year-old male patient who is a known case of ischemic cardiomyopathy with EF 35% since 2018, he underwent PCI in 2018. The patient is following the cardio clinic since 2018 and on every visit he was asymptomatic, The Patient in 2021 experienced new shortness of breath within six minutes’ walk distance less than 400 meters. The patient experienced erectile dysfunction and underwent intervention for his carpal tunnel syndrome. ECG showed old Q in anterior leads. Echo showed the same EF 35% and old wall motion abnormalities. Diagnostic coronary angiography showed patent stents and no residual ischemia. When we revised his old echo study that was done in 2017, we found EF 55%, concentric LVH. PYP bone scintigraphy was decided and showed grade II-III cardiac uptake. 2nd case A 53-year-old hypothyroid female patient and she has metastatic left breast cancer. During her workup bone scan, grade III cardiac uptake was accidentally discovered using an HMDP isotope. The patient was referred to the cardio clinic where the patient denied any cardiac or non-cardiac symptoms. All her labs, ECG and Echo were within normal range. CMR showed diffuse subendocardial LGE suggestive of infiltrative disease. Conclusion Based on unique pathological features of CA that would present as morphological LVH with /without ECG evidence of LVH. We hypothesized that LVH would occur in the later stages of the disease or may be decreased due to other pathology as coronary artery disease. Clinical suspicion remains the cornerstone for early diagnosis and workup.

Fully Implantable Wireless Cardiac Pacing and Sensing System Integrated with Hydrogel Electrodes.

Cardiac pacemakers play a crucial role in arrhythmia treatment. Existing devices typically rely on rigid electrode components, leading to potential issues such as heart damage and detachment during prolonged cardiac motion due to the mechanical mismatch with cardiac tissue. Additionally, traditional pacemakers, with their batteries and percutaneous leads, introduce infection risks and limit freedom of movement. A wireless, battery-free multifunctional bioelectronic device for cardiac pacing is developed. This device integrates highly conductive (160Sm-1), flexible (Young's modulus of 80kPa is similar to that of mammalian heart tissue), and stretchable (270%) soft hydrogel electrodes, providing high signal-to-noise ratio (≈28dB) electrocardiogram (ECG)recordings and effective pacing of the beating heart. The versatile device detects physiological and biochemical signals in the cardiac environment and allows for adjustable pacing in vivo studies. Remarkably, it maintained recording and pacing capabilities 31 days post-implantation in rats. Additionally, the wireless bioelectronic device can be fully implanted in rabbits for pacing. By addressing a major shortcoming of conventional pacemakers, this device paves the way for implantable flexible bioelectronics, which offers promising opportunities for advanced cardiac therapies.

Mental disorders after myocardial infarction: potential mediator role for chemokines in heart-brain interaction?

Acute myocardial infarction (MI) remains one of the leading causes of mortality and morbidity in the global communities. A prevailing topic that has attracted increasing attentions over the past few decades is the so-called heart-brain interaction, in particular following a major traumatic event such as MI. Increased prevalence of depression and other mental disorders has been recognized in cardiac patients after MI, coronary catheterization, or cardiothoracic surgeries. In this review, we focus on the potential pathogenic mechanisms and pre-clinical transcriptomic evidence for identifying potential mediators of post-MI depression. We first summarize the conventional mechanistic understanding that leads to the current clinical management of post-MI depression with the use of selective serotonin reuptake inhibitors (SSRIs) and cognitive behavior and exercise therapies. We further envisage a possible role played by certain chemokines, e.g., Chemokine (C-X-C motif) ligand 12 (CXCL12) and Chemokine (C-C motif) ligand 2 (CCL22), in serving as signaling molecules to connect the MI-induced heart damage to the pro-depressive changes in brain during the post-MI period. Future in-depth investigations into this chemokine hypothesis will be instrumental in developing new chemokine-targeted therapies for better management of the cardiac patients suffering from post-MI depression.

Targeting SARS-CoV-2-Induced Cardiovascular Injury: Exploring the Potential of Ponatinib in Mitigating Cardiovascular Necroptosis in COVID-19.

The incidence of Coronavirus Disease 2019 (COVID-19) has increased dramatically in recent years, affecting millions of people worldwide. The primary cause of morbidity and mortality in COVID-19 patients is respiratory illness. However, the disease can also significantly impact the cardiovascular system. SARS-CoV-2, the virus responsible for COVID-19, enters cells using the angiotensin-converting enzyme 2 (ACE-2) receptor. ACE-2 is a component of the renin-angiotensin system (RAS) and plays a crucial role in regulating various pathological processes. The interaction of the virus with ACE-2 in the myocardium can lead to direct heart damage. Several mechanisms may contribute to myocardial damage in COVID-19 patients, including systemic inflammation, myocardial interstitial fibrosis, interferon-mediated immune response, exaggerated cytokine response, T-cell-mediated damage, coronary plaque instability, and hypoxia. There has been concern that ACE inhibitors (ACE-Is) and angiotensin receptor blockers (ARBs) may increase vulnerability to SARS-CoV-2 by upregulating ACE-2 expression. However, it may be advisable to continue medications for patients with underlying cardiovascular disorders. The precise mechanisms of cardiomyocyte injury in COVID-19 are not fully understood, but necroptosis appears to play a significant role. Current treatments for cardiac damage in COVID-19 patients include IL-6 blockers and antiplatelet therapy. Ponatinib, a small molecule tyrosine kinase inhibitor designed using computational and structural approaches, has shown the potential to affect cell death through its impact on tyrosine kinase activity. By reviewing studies related to ponatinib's effects on necroptosis and cell death, we propose a novel approach to potentially reduce the cardiotoxic effects of COVID-19 on cardiomyocytes. Further research is needed to fully elucidate the mechanisms of cardiac injury in COVID-19 and to develop targeted therapies to protect the heart from the devastating effects of this disease.

Hydroxytyrosol has a cardioprotective effect through dardarin and asprosin

IntroductionIn this investigation, we explored the potential involvement of dardarin (LRRK2) and asprosin in the protective efficacy of hydroxytyrosol (HT) against heart damage induced by corn syrup in rats.Material and methodsThe research was conducted at the Adıyaman University Experimental Research Center during the period from December 8, 2021, to July 12, 2023. Rats were categorized into four groups (&lt;i&gt;n&lt;/i&gt; = 6) as follows: control, HT, corn syrup, and corn syrup + HT. Over a span of 6 weeks, rats were administered water infused with 30% corn syrup. Simultaneously, a 4 ml/kg/day solution containing HT was orally administered, both independently and in conjunction with corn syrup, throughout the 6-week period. The molecular parameters of LRRK2 and asprosin in the cardiac tissue were assessed through histopathological examination.ResultsIn this study, it was observed that the LRRK2 level increased and the asprosin level decreased in the control group as a result of administration of corn syrup. After HT treatment, the LRRK2 level decreased non-significantly, while the asprosin level increased significantly. No difference was seen in the HT-only group compared to the control.ConclusionsThe protective effect of HT against damage to the heart due to corn syrup consumption may be mediated by LRRK2 and asprosin.