Establishing delivery route-dependent safety and efficacy of living biodrug mesenchymal stem cells in heart failure patients

BACKGROUND Mesenchymal stem cells(MSCs)as living biopharmaceuticals with unique properties,i.e.,stemness,viability,phenotypes,paracrine activity,etc.,need to be administered such that they reach the target site,maintaining these properties unchanged and are retained at the injury site to participate in the repair process.Route of delivery(RoD)remains one of the critical determinants of safety and efficacy.This study elucidates the safety and effectiveness of different RoDs of MSC treatment in heart failure(HF)based on phase II randomized clinical trials(RCTs).We hypothesize that the RoD modulates the safety and efficacy of MSCbased therapy and determines the outcome of the intervention.AIM To investigate the effect of RoD of MSCs on safety and efficacy in HF patients.METHODS RCTs were retrieved from six databases.Safety endpoints included mortality and serious adverse events(SAEs),while efficacy outcomes encompassed changes in left ventricular ejection fraction(LVEF),6-minute walk distance(6MWD),and pro-B-type natriuretic peptide(pro-BNP).Subgroup analyses on RoD were performed for all study endpoints.RESULTS Twelve RCTs were included.Overall,MSC therapy demonstrated a significant decrease in mortality[relative risk(RR):0.55,95%confidence interval(95%CI):0.33-0.92,P=0.02]compared to control,while SAE outcomes showed no significant difference(RR:0.84,95%CI:0.66-1.05,P=0.11).RoD subgroup analysis revealed a significant difference in SAE among the transendocardial(TESI)injection subgroup(RR=0.71,95%CI:0.54-0.95,P=0.04).The pooled weighted mean difference(WMD)demonstrated an overall significant improvement of LVEF by 2.44%(WMD:2.44%,95%CI:0.80-4.29,P value≤0.001),with only intracoronary(IC)subgroup showing significant improvement(WMD:7.26%,95%CI:5.61-8.92,P≤0.001).Furthermore,the IC delivery route significantly improved 6MWD by 115 m(WMD=114.99 m,95%CI:91.48-138.50),respectively.In biochemical efficacy outcomes,only the IC subgroup showed a significant reduction in pro-BNP by-860.64 pg/mL(WMD:-860.64 pg/Ml,95%CI:-944.02 to-777.26,P=0.001).CONCLUSION Our study concluded that all delivery methods of MSC-based therapy are safe.Despite the overall benefits in efficacy,the TESI and IC routes provided better outcomes than other methods.Larger-scale trials are warranted before implementing MSC-based therapy in routine clinical practice.

Tissue-source effect on mesenchymal stem cells as living biodrugs for heart failure:Systematic review and meta-analysis

BACKGROUND Mesenchymal stem cells(MSCs),as living biodrugs,have entered advanced phases of clinical assessment for cardiac function restoration in patients with myocardial infarction and heart failure.While MSCs are available from diverse tissue sources,bone-marrow-derived MSCs(BM-MSCs)remain the most wellstudied cell type,besides umbilical-cord-derived MSCs(UC-MSCs).The latter offers advantages,including noninvasive availability without ethical considerations.AIM To compare the safety and efficacy of BM-MSCs and UC-MSCs in terms of left ventricular ejection fraction(LVEF),6-min walking distance(6MWD),and major adverse cardiac events(MACEs).METHODS Five databases were systematically searched to identify randomized controlled trials(RCTs).Thirteen RCTs(693 patients)were included using predefined eligibility criteria.Weighted mean differences and odds ratio(OR)for the changes in the estimated treatment effects.RESULTS UC-MSCs significantly improved LVEF vs controls by 5.08%[95%confidence interval(CI):2.20%-7.95%]at 6 mo and 2.78%(95%CI:0.86%-4.70%)at 12 mo.However,no significant effect was observed for BM-MSCs vs controls.No significant changes were observed in the 6MWD with either of the two cell types.Also,no differences were observed for MACEs,except rehospitalization rates,which were lower only with BM-MSCs(odds ratio 0.48,95%CI:0.24-0.97)vs controls.CONCLUSION UC-MSCs significantly improved LVEF compared with BM-MSCs.Their advant-Safwan M et al.Tissue-source and MSCs as living biodrugs ageous characteristics position them as a promising alternative to MSC-based therapy.

Living biodrugs and how tissue source influences mesenchymal stem cell therapeutics for heart failure

In this editorial we comment on the article by Safwan M et al.We especially fo-cused on the cardiac function restoration by the use of mesenchymal stem cells(MSCs)therapy for heart failure(HF),which has emerged as a new treatment approach as“Living Biodrugs”.HF remains a significant clinical challenge due to the heart’s inability to pump blood effectively,despite advancements in medical and device-based therapies.MSCs have emerged as a promising therapeutic approach,offering benefits beyond traditional treatments through their ability to modulate inflammation,reduce fibrosis,and promote endogenous tissue rege-neration.MSCs can be derived from various tissues,including bone marrow and umbilical cord.Umbilical cord-derived MSCs exhibit superior expansion ca-pabilities,making them an attractive option for HF therapy.Conversely,bone marrow-derived MSCs have been extensively studied for their potential to im-prove cardiac function but face challenges related to cell retention and delivery.Future research is focusing on optimizing MSC sources,enhancing differentiation and immune modulation,and improving delivery methods to overcome current limitations.

Large-Scale Surface Modification of Decellularized Matrix with Erythrocyte Membrane for Promoting In Situ Regeneration of Heart Valve

In situ regeneration is a promising strategy for constructing tissue engineering heart valves(TEHVs).Currently,the decellularized heart valve(DHV)is extensively employed as a TEHV scaffold.Nevertheless,DHV exhibits limited blood compatibility and notable difficulties in endothelialization,resulting in thrombosis and graft failure.The red blood cell membrane(RBCM)exhibits excellent biocompatibility and prolonged circulation stability and is extensively applied in the camouflage of nanoparticles for drug delivery;however,there is no report on its application for large-scale modification of decellularized extracellular matrix(ECM).For the first time,we utilized a layer-by-layer assembling strategy to immobilize RBCM on the surface of DHV and construct an innovative TEHV scaffold.Our findings demonstrated that the scaffold significantly improved the hemocompatibility of DHV by effectively preventing plasma protein adsorption,activated platelet adhesion,and erythrocyte aggregation,and induced macrophage polarization toward the M2 phenotype in vitro.Moreover,RBCM modification significantly enhanced the mechanical properties and enzymatic stability of DHV.The rat models of subcutaneous embedding and abdominal aorta implantation showed that the scaffold regulated the polarization of macrophages into the anti-inflammatory and pro-modeling M2 phenotype and promoted endothelialization and ECM remodeling in the early stage without thrombosis and calcification.The novel TEHV exhibits excellent performance and can overcome the limitations of commonly used clinical prostheses.

Application of neutrophil-lymphocyte ratio and red blood cell distribution width in diabetes mellitus complicated with heart failure

BACKGROUND Accumulating clinical evidence has shown that diabetes mellitus(DM)is a serious risk factor for cardiovascular disorders and an important factor for adverse cardiovascular events.AIM To explore the value of the combined determination of the neutrophil-lymphocyte ratio(NLR)and red blood cell distribution width(RDW)in the early diagnosis and prognosis evaluation of DM complicated with heart failure(HF).METHODS We retrospectively analyzed clinical data on 65 patients with type 2 DM(T2DM)complicated with HF(research group,Res)and 60 concurrent patients with uncomplicated T2DM(control group,Con)diagnosed at Zhejiang Provincial People’s Hospital between January 2019 and December 2021.The NLR and RDW values were determined and comparatively analyzed,and their levels in T2DM+HF patients with different cardiac function grades were recorded.The receiver operating characteristic(ROC)curves were plotted to determine the NLR and RDW values(alone and in combination)for the early diagnosis of HF.The correlation between NLR and RDW with the presence or absence of cardiac events was also investigated.RESULTS Higher NLR and RDW levels were identified in the Res vs the Con groups(P<0.05).The NLR and RDW increased gradually and synchronously with the deterioration of cardiac function in the Res group,with marked differences in their levels among patients with grade II,III,and IV HF(P<0.05).ROC curve analysis revealed that NLR combined with RDW detection had an area under the curve of 0.915,a sensitivity of 76.9%,and a specificity of 100%for the early diagnosis of HF.Furthermore,HF patients with cardiac events showed higher NLR and RDW values compared with HF patients without cardiac events.CONCLUSION NLR and RDW were useful laboratory indicators for the early diagnosis of DM complicated with HF,and their joint detection was beneficial for improving diagnostic efficiency.Additionally,NLR and RDW values were directly proportional to patient outcomes.

Red blood cell distribution width in heart failure: A narrative review

The red blood cell distribution width(RDW) is a simple, rapid, inexpensive and straightforward hematological parameter, reflecting the degree of anisocytosis in vivo. The currently available scientific evidence suggests that RDW assessment not only predicts the risk of adverse outcomes(cardiovascular and all-cause mortality, hospitalization for acute decompensation or worsened left ventricular function) in patients with acute and chronic heart failure(HF), but is also a significant and independent predictor of developing HF in patients free of this condition. Regarding the biological interplay between impaired hematopoiesis and cardiac dysfunction, many of the different conditions associated with increased heterogeneity of erythrocyte volume(i.e., ageing, inflammation, oxidative stress, nutritional deficiencies and impaired renal function), may be concomitantly present in patients with HF, whilst anisocytosis may also directly contribute to the development and worsening of HF. In conclusion, the longitudinal assessment of RDW changes over time may be considered an efficient measure to help predicting the risk of both development and progression of HF.

Cardiac autonomic nerve fiber regeneration in chronic heart failure Do Akt gene-transduced mesenchymal stem cells promote repair?

BACKGROUND： Transplantation of Akt-over-expressing mesenchymal stem ceils （Akt-MSCs） has been shown to repair infarcted myocardium and improve cardiac function. However, little is known about the therapeutic effects of Akt-MSCs on cardiac autonomic neuropathy in chronic heart failure （CHF）. OBJECTIVE： The present study used adriamycin-induced CHF rat models to observe the effect of Akt-MSCs on cardiac autonomic nervous regeneration and the factors mediating this effect. DESIGN, TIME AND SETTING： A randomized, controlled animal experiment was performed at the Central Laboratory of Basic Medical College, China Medical University, between September 2008 and April 2009. MATERIALS： Rabbit anti-choline acetyltransferase （CHAT）, growth associated protein-43 （GAP-43） synaptophysin （SYN） polyclonal antibodies and the secondary antibody （goat anti-rabbit IgG） were purchased from Boster, China. Cat-A-Kit assay system was provided by Amersham, USA. METHODS： （1） Adult rat MSCs were isolated and cultured for the preparation of Akt-MSCs. （2） Forty male Wistar rats were intramyocardially administered adriamycin at 2 mg/kg over 3 days for a total of five times and once a week for additional five times thereafter to establish CHF models. At 2 weeks after final adriamycin treatment, 34 successful CHF rat models were randomized to three groups： Akt-MSCs （n = 11）, simple MSCs （s-MSCs, n =11）, and control （n = 12）. Each group was intravenously administered Akt-MSCs （2x106 cells in 100 IJL PBS）, s-MSCs （2×10^6 cells in 100 μL PBS） or equal volume of phosphate buffered saline, once a day for a total of three times. MAIN OUTCOME MEASURES： At 4 weeks after final adriamycin treatment, myocardial norepinephrine （NE） content was detected using a Cat-A-Kit assay system. Myocardial CHAT, SYN and GAP-43 were performed by immunohistochemistry and Western blot analysis. Prior to, 2 and 4 weeks after adriamycin treatment, echocardiographic examination was performed and left ventricular ejection fraction （LVEF） was determined. RESULTS： Myocardial NE content, as well as SYN-positive and GAP-43-positive nerve fiber density and expression, and LVEF, was the greatest in the Akt-MSCs group, followed by the s-MSCs group, and lastly the control group （P 〈 0.05 or P 〈 0.01）. ChAT expression was similar between Akt-MSCs and s-MSCs groups, but it was higher compared with the control group （P 〈 0.05）. NE contents were negatively correlated to LVEF （r = -0.64, P = 0.015）. CONCLUSION： Transplantation of MSCs, in particular Akt-MSCs, promotes cardiac nervous regeneration in failing heart, which might be mediated by GAP-43.

Differences in the predictive value of red cell distribution width for the mortality of patients with heart failure due to various heart diseases

Background Increased red blood cell distribution width （RDW） is associated with adverse outcomes in patients with heart failure （HF）. The objective of this study was to compare the differences in the predictive value of RDW in patients with HF due to different causes. Methods We retrospectively investigated 1,021 HF patients from October 2009 to December 2011 at Fuwai Hospital （Beijing, China）. HF in these patients was caused by three diseases; coronary heart disease （CHD）, dilated cardiomyopathy （DCM） and valvular heart disease （VHD）. Patients were followed-up for 21 ~ 9 months. Results The RDW, mortality and survival duration were significantly different among the three groups. Kaplan-Meier analysis showed that the cumulative survival decreased significantly with increased RDW in patients with HF caused by CHD and DCM, but not in those with HF patients caused by VHD. In a multivariable model, RDW was identified as an independent predictor for the mortality of HF patients with CHD （P 〈 0.001, HR 1.315, 95% CI 1.122-1.543）. The group with higher N-terminal pro-brain natriuretic peptide （NT-proBNP） and higher RDW than median had the lowest cumulative survival in patients with HF due to CHD, but not in patients with HF due to DCM. Conclusions RDW is a prognostic indicator for patients with HF caused by CHD and DCM; thus, RDW adds important information to NT-proBNP in CHD caused HF patients.

Electrophysiological changes of autonomic cells in left ventricular outflow tract in guinea pigs with iron deficiency anemia complicated with chronic heart failure

Objective: To investigate the electrophysiological changes of autonomic cells in left ventricular outflow tract in guinea pigs with iron deficiency anemia complicated with chronic heart failure.Methods: Guinea pigs model of iron deficiency anemia complicated with chronic heart failure in 10 guinea pigs of the experimental group was made by feeding a low iron diet,pure water and subcutaneous injection of isoproterenol. The control group consisting of 11 guinea pigs was given normal food, normal water and injected with normal saline. The left ventricular outflow tract model specimen was also prepared. The standard microelectrode technique was used to observe electrophysiological changes of autonomic cells in the outflow tract of left ventricular heart failure complicated with iron deficiency anemia in guinea pig model. The indicators of observation were maximal diastolic potential, action potential amplitude, 0 phase maximal depolarization velocity, 4 phase automatic depolarization velocity, repolarization 50% and 90%, and spontaneous discharge frequency.Results: Compared with the control group, 4 phase automatic depolarization velocity,spontaneous discharge frequency and 0 phase maximal depolarization velocity decreased significantly(P < 0.01) and action potential amplitude reduced(P < 0.01) in model group. Moreover, repolarization 50% and 90% increased(P < 0.01).Conclusions: There are electrophysiological abnormalities of the left ventricular outflow tract in guinea pigs with iron deficiency anemia complicated with heart failure.

Protecting the delivery of heart failure: Regenerative Medicine/Stem Cell Therapeutics:Potential protections afforded by the Department of Health and Human Services and Health Resources Service Administration’s Bureau of Special Programs

Advances in stem cell science and potential clinical applications have brought clinical medicine closer to the actualization of Regenerative Medicine—an extension of transplantation of organs and cells and implantation of bioprosthetics and biodevices. The goal of such therapeutics will be intervention prior to onset of severe individual disability, enhance organ function and enhance patient performance status without incurring the economic impacts of standard organ transplantation. Regenerative Medicine is already demonstrating proof of principle or efficacy in restora- tion of myocardial contractility, joint mobility and function, immune competence, pulmonary function, immunologic self- tolerance, motor function and normal hemoglobin production with the next targets—diabetes mellitus (type I and type II), neurologic injury, hepatic dysfunction preparing to enter trials. Expenditures on health care needs of an aging U.S. citizenry approximate 20-25% ($3 trillion) of U.S. GDP currently and may to grow to 40% of U.S. GDP by 2025. As the potential of Regenerative Medicine is clinically realized, the societal impact and economic benefits will be disproportionately magnified in the economies of industrialized nations. The experi- ence of the Department of Health and Human Services (HHS), United Network for Organ Sharing (UNOS), the National Bone Marrow Donor Registry (NBMDR), and the National Vaccine Injury Compensation Programs (NVICP) can help ensure that as Regenerative Medicine strives to achieve clinical benefits while avoiding decimation of therapeutic options by product liability and medical malpractice concerns—concerns that crippled the U.S. vaccine manufacturing industry until the creation of the NVICP. The first 50 years of organ/cell/tissue transplantation demonstrates that clinical reality of allogeneic and autologous transplantation can antedate complete understanding of the basic science underlying successful transplantation. Product liability and medical malpractice liability have not impeded the development and growth of organ/cell/tissue transplanta- tion despite increased risks of infection, malignancy and cardiovascular disease in transplant recipients. Currently, human transplantation is only performed using FDA/CBER-approved, non-embryonic stem cells from peripheral blood, bone marrow or umbilical cord blood. Federal legislation passed in 2005 (HR2520 and S1317: The Bone Marrow and Cord Blood Cell Transplantation Program) authorizes the Secretary of Health and Human Services acting through the Director of HRSA to ensure uniform stem cell units distribution and outcomes monitoring via the federally-designated C.W. Bill Young Cell Transplant Program. Historically in the U.S., human biological therapies (vaccines, organ transplant and stem cell transplant) have re- quired federal protections to ensure continued distribution, fair access and avoidance of inhibitory product liability via protections afforded under the “stewardship” of the Secretary of Health and Human Services. The National Childhood Vaccine Injury Act of 1986 established the NVICP to equitably and expeditiously compensate individuals, or families of individuals, who have been declared injured by vaccines, thereby stabilizing a once imperiled vaccine supply by substan-tially reducing the threat of liability for vaccine companies, physicians, and other health care professionals who administer vaccines. Vaccines were the first biologics administered to U.S. citizens en masse and presage stem cell therapeutics (which may similarly be administered to millions) will similarly necessitate that a Stem Cell Injury Compensation Program (SCICP) will also need to be in place to demonstrate an intention to do good, an understanding that industry may do well, but that the health care consumer has a right of protection—all recognized from the outset. The Federal Tort Claims Act (FTCA) addresses liability claims via the Executive, Judicial and Legislative branches of Government, providing an um- brella of liability protection to other participants in the stem cell unit “chain of custody” under the FTCA—similar to the protection from product liability seen in organ and stem cell transplantation for the past 40-50 years. Efficacious development of regenerative medicine capabilities will mandate controlled access must first be provided for individuals with life-threatening diseases without therapeutic options or unable to benefit from or receive proven therapeutic options (ALS, cardiomyopathy and deemed not a candidate for heart transplantation, IDDM with hypoglyce- mic unawareness and no allogeneic source of traditional islet cell replacement available via HRSA) and mandates the prompt adoption of business and legal principles to ensure that the fate of the vaccine manufacturing industry does not become the fate of the stem cell therapeutics industry. If legal and regulatory concerns consume an increasing percentage of health care dollars that could be focused upon innovation, the Regenerative Medicine model will have not realized its full potential. The Diabetes Transplantation/Regenerative Medicine Model is the first organ to cell transplant model outside of oncology to demonstrate the regenerative medicine paradigm. Since all human tissues can be already recapitulated by human stem cells and key patent holders already exist, outlet or distribution of “more-than-minimally-manipulated stem cell units” as an IND approved under FDA/CBER guidelines can be accomplished via the current HHS/HRSA/Dept of Trans- plant methodology. As cardiovascular stem cell researchers develop human therapeutics utilizing more-than-minimally- manipulated stem cell products, they could be afforded protections from product liability historically enjoyed by the transplant community. Extending the Diabetes Transplant/Regenerative Medicine Model to the more than 5 million Americans with chronic heart failure, cell-based therapies to regenerate myocardial contractility could fill an existing void and be delivered in conjunction with and consistent with existing distribution of organs and tissues via HRSA/Department of Transplantation.

Correlation between Histone Deacetylase 9 and Regulatory T Cell in Patients with Chronic Heart Failure

Heart failure （HF） is the end stage of various kinds of cardiovascular diseases and leads to a high mortality worldwide. Numerous studies have demonstrated that frequencies of CD4＋CD25＋Foxp3＋ regulatory T cells （Tregs） are reduced in HF patients and properly expanding Tregs attenuates HF progression. Histone deacetylase （HDAC） 9 has been revealed to contribute to several cardiovascular and cerebrovascular diseases. Plenty of studies showed that HDAC9 negatively regulated the number and function of Tregs. Thus, we aim to investigate the expression of HDAC 9 in patients with chronic heart failure （CHF） and the relationship among HDAC9, Tregs and CHF. Our research showed a reduced number of Tregs and an increased expression of HDAC9 mRNA in CHF patients. Patients with CHF were divided into two groups by heart function grade of New York Heart Association （NYHA）, we found that the HDAC9 mRNA expression level in NYHA grade Ⅱ -Ⅲ group were lower than that in NYHA grade IV group. More importantly, the correlation study suggested that the expression of HDAC9 mRNA was negatively correlated to Tregs frequency and left ventricular ejection fraction （LVEF）, whereas positively correlated to larger left ventricular end-diastolic dimension （LVEDD） and B-type natriuretic peptide （BNP） in patients with CHF. The correlation studies also showed a positive correlation between HDAC9 and the severity of CHF. Our research suggests that HDAC9 may be a new indicator for assessing CHF and it may offer a new direction for research of CHF.

Sleep-disordered breathing is associated with depletion of circulating endothelial progenitor cells and elevation in pulmonary arterial pressure in patients with decompensated systolic heart failure

Background Sleep-disordered breathing （SDB） is known to occur frequently in and may predict worsening progression of patients with congestive heart failure （CHF）. SDB is also known to play an important role in the development of idiopathic pulmonary arterial hyper- tension （PAH） via inducing endothelial dysfunction and vascular remodeling, a pathological process that can be significantly influenced by factors such as osteoprotegerin （OPG） and endothelial progenitor cells （EPCs）. The objective of this study is to determine if CHF with SDB is associated with changes in OPG, EPCs, and PAIl. Methods EPCs were isolated, cultured, and quantified from CHF patients with SDB （n = 52）, or without SDB （n - 68）. OPG and N-terminal pro-brain natriuretic peptide （NT-proBNP） from each group was analyzed and cor- related with EPCs and the mean pulmonary artery pressure （mPAP） measured by right heart catheterization. Results A significant decrease in circulating EPCs （29.30 ± 9.01 vs. 45.17 ± 10.51 EPCs/x 200 field; P 〈 0.05） was found in CHF patients with SDB compared to those without SDB. Both OPG （789.83 ±89.38 vs. 551.29 ± 42.12 pg/mL; P 〈 0.05） and NT-proBNP （5946.50 ± 1434.50 vs. 3028.60 ± 811.90 ng/mL; P 〈 0.05） were also significantly elevated in SDB CHF patients who also had significantly elevated mPAP （50.2 ± 9.5 vs. 36.4 ± 4.1 mm Hg; P 〈 0.05）. EPC numbers correlated inversely with the episodes of apnea and hypopnea per hour （RDI, r = -0.45, P = 0.037） and blood level of OPG （r =-0.53, P = 0.011）. Although NT-proBNP was also increased significantly in patients with SDB, it had no correlation with either EPCs or RD1. Conclusions SDBdue to hypoxemia from decompensated CHF is associated with （1） OPG elevation, （2） EPC depletion, and （3） mPAP elevation. The inverse relationship of circulating OPG with EPCs suggests a likely mechanism for hypoxemia and OPG in the development of pulmonary vascular dysfunction via depleting EPCs, thus worsening prognosis of CHF.

Review:Cell therapy in congestive heart failure

Congestive heart failure （CHF） has emerged as a major worldwide epidemic and its main causes seem to be the aging of the population and the survival of patients with post-myocardial infarction. Cardiomyocyte dropout （necrosis and apoptosis） plays a critical role in the progress of CHF; thus treatment of CHF by exogenous cell implantation will be a promising medical approach. In the acute phase of cardiac damage cardiac stem cells （CSCs） within the heart divide symmetrically and/or asymmetrically in response to the change of heart homeostasis, and at the same time homing of bone marrow stem cells （BMCs） to injured area is thought to occur, which not only reconstitutes CSC population to normal levels but also repairs the heart by differentiation into cardiac tissue. So far, basic studies by using potential sources such as BMCs and CSCs to treat animat CHF have shown improved ventricular remodelling and heart function. Recently, however, a few of randomized, double-blind, placebo-controlled clinical trials demonstrated mixed results in heart failure with BMC therapy during acute myocardial infarction.

Moving forward on the pathway of cell-based therapies in ischemic heart disease and heart failure-time for new recommendations?

Although substantial advances have been made in treating ischemic heart disease and subsequent heart failure, the overall morbidity and mortality from these conditions remain high. Stem cell-based therapy has emerged as a promising approach for prompting cardiac rejuvenation. Various cell types have been tested in the clinical arena, proving consistent safety results. As for efficiency outcomes, contradictory findings have been reported, partly due to inconsistency in study protocols but also due to poor survival, engraftment and differentiation of transplanted cells in the hostile milieu of the ischemic host tissue. Studies have varied in terms of route of delivery, type and dose of implanted stem cells, patient selection and randomization, and assessment of therapeutic effect. Founded on the main achievements and challenges within almost 20 years of research, a number of official documents have been published by leading experts in the field. Core recommendations have focused on developing and optimizing effective strategies to enrich cell retention and their regenerative potential. Issued consensus and position papers have stemmed from an unmet need to provide a harmonized framework for future research, resulting in improved therapeutic application of cell-based therapies for cardiac regeneration and repair.

Noise-induced synchronous stochastic oscillations in small scale cultured heart-cell networks

This paper reports that the synchronous integer multiple oscillations of heart-cell networks or clusters are observed in the biology experiment. The behaviour of the integer multiple rhythm is a transition between super- and sub- threshold oscillations, the stochastic mechanism of the transition is identified. The similar synchronized oscillations are theoretically reproduced in the stochastic network composed of heterogeneous cells whose behaviours are chosen as excitable or oscillatory states near a Hopf bifurcation point. The parameter regions of coupling strength and noise density that the complex oscillatory rhythms can be simulated are identified. The results show that the rhythm results from a simple stochastic alternating process between super- and sub-threshold oscillations. Studies on single heart cells forming these clusters reveal excitable or oscillatory state nearby a Hopf bifurcation point underpinning the stochastic alternation. In discussion, the results are related to some abnormal heartbeat rhythms such as the sinus arrest.

Stem cell therapy for heart failure:Medical breakthrough,or dead end?

Heart failure continues to be one of the leading causes of morbidity and mortality worldwide.Myocardial infarction is the primary causative agent of chronic heart failure resulting in cardiomyocyte necrosis and the subsequent formation of fibrotic scar tissue.Current pharmacological and non-pharmacological therapies focus on managing symptoms of heart failure yet remain unable to reverse the underlying pathology.Heart transplantation usually cannot be relied on,as there is a major discrepancy between the availability of donors and recipients.As a result,heart failure carries a poor prognosis and high mortality rate.As the heart lacks significant endogenous regeneration potential,novel therapeutic approaches have incorporated the use of stem cells as a vehicle to treat heart failure as they possess the ability to self-renew and differentiate into multiple cell lineages and tissues.This review will discuss past,present,and future clinical trials,factors that influence stem cell therapy outcomes as well as ethical and safety considerations.Preclinical and clinical studies have shown a wide spectrum of outcomes when applying stem cells to improve cardiac function.This may reflect the infancy of clinical trials and the limited knowledge on the optimal cell type,dosing,route of administration,patient parameters and other important variables that contribute to successful stem cell therapy.Nonetheless,the field of stem cell therapeutics continues to advance at an unprecedented pace.We remain cautiously optimistic that stem cells will play a role in heart failure management in years to come.

Endothelial progenitor cells mobilization after maximal exercise according to heart failure severity

BACKGROUND Vascular endothelial dysfunction is an underlying pathophysiological feature of chronic heart failure(CHF).Patients with CHF are characterized by impaired vasodilation and inflammation of the vascular endothelium.They also have low levels of endothelial progenitor cells(EPCs).EPCs are bone marrow derived cells involved in endothelium regeneration,homeostasis,and neovascularization.Exercise has been shown to improve vasodilation and stimulate the mobilization of EPCs in healthy people and patients with cardiovascular comorbidities.However,the effects of exercise on EPCs in different stages of CHF remain under investigation.AIM To evaluate the effect of a symptom-limited maximal cardiopulmonary exercise testing(CPET)on EPCs in CHF patients of different severity.METHODS Forty-nine consecutive patients(41 males)with stable CHF[mean age(years):56±10,ejection fraction(EF,%):32±8,peak oxygen uptake(VO2,mL/kg/min):18.1±4.4]underwent a CPET on a cycle ergometer.Venous blood was sampled before and after CPET.Five circulating endothelial populations were quantified by flow cytometry:Three subgroups of EPCs[CD34+/CD45-/CD133+,CD34+/CD45-/CD133+/VEGFR2 and CD34+/CD133+/vascular endothelial growth factor receptor 2(VEGFR2)]and two subgroups of circulating endothelial cells(CD34+/CD45-/CD133-and CD34+/CD45-/CD133-/VEGFR2).Patients were divided in two groups of severity according to the median value of peak VO2(18.0 mL/kg/min),predicted peak VO2(65.5%),ventilation/carbon dioxide output slope(32.5)and EF(reduced and mid-ranged EF).EPCs values are expressed as median(25th-75th percentiles)in cells/106 enucleated cells.RESULTS Patients with lower peak VO2 increased the mobilization of CD34+/CD45-/CD133+[pre CPET:60(25-76)vs post CPET:90(70-103)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133+/VEGFR2[pre CPET:1(1-4)vs post CPET:5(3-8)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133-[pre CPET:186(141-361)vs post CPET:488(247-658)cells/106 enucleated cells,P<0.001]and CD34+/CD45-/CD133-/VEGFR2[pre CPET:2(1-2)vs post CPET:3(2-5)cells/106 enucleated cells,P<0.001],while patients with higher VO2 increased the mobilization of CD34+/CD45-/CD133+[pre CPET:42(19-73)vs post CPET:90(39-118)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133+/VEGFR2[pre CPET:2(1-3)vs post CPET:6(3-9)cells/106 enucleated cells,P<0.001],CD34+/CD133+/VEGFR2[pre CPET:10(7-18)vs post CPET:14(10-19)cells/106 enucleated cells,P<0.01],CD34+/CD45-/CD133-[pre CPET:218(158-247)vs post CPET:311(254-569)cells/106 enucleated cells,P<0.001]and CD34+/CD45-/CD133-/VEGFR2[pre CPET:1(1-2)vs post CPET:4(2-6)cells/106 enucleated cells,P<0.001].A similar increase in the mobilization of at least four out of five cellular populations was observed after maximal exercise within each severity group regarding predicted peak,ventilation/carbon dioxide output slope and EF as well(P<0.05).However,there were no statistically significant differences in the mobilization of endothelial cellular populations between severity groups in each comparison(P>0.05).CONCLUSION Our study has shown an increased EPCs and circulating endothelial cells mobilization after maximal exercise in CHF patients,but this increase was not associated with syndrome severity.Further investigation,however,is needed.

Correlation between endothelia cells activation and imbalance of cytokines in pulmonary hypertension of congenital heart disease

Objective To explore the correlation between endothelia cells activation and cytokines (ET-1, NO) levels in patients with pulmonary hypertension (PH), and to discuss their roles in the development of PH. Methods Twenty patients with simple ventricular septal defect (VSD) were chosen as controls, and 30 patients with PH were studied. Plasma levels of ET-1 and NO were measured by radioimmunoassay or colorimetric method. Before cardiopulmonary bypass was established, the specimens from right lung were fixed with formaldehyde solution, embedded with paraffin and stained by SP immunohistochemistry. Intercellular adhesion molecule-1 (ICAM-1) expression was measured through the determination of the light density with computer imaging technology. Results Compared with that of the patients with simple VSD, the light density of ICAM-1 and plasma level of ET-1 increased in patients with PH; but plasma level of NO decreased (P<0.05). Positive correlation was observed between ICAM-1 and ET-1/NO (P<0.05). Conclusion Endothelia cells activation and imbalance of ET-1/NO might play an important role in the development of PH.

Nursing care of a patient with programmed cell death protein-1 immunotherapy-related myocarditis combined with coronary heart disease

This report introduced and summarized the nursing care experience for a senior patient with lung cancer and developed programmed cell death protein 1(PD-1)immunotherapy-related myocarditis combined with coronary heart disease(CHD)after receiving said treatment.In this case,immune myocarditis with CHD occurred shortly after implementing the PD-1 immunotherapy,yet the patient presented no clinical symptoms.Frequent nursing attention and close observation are so required for monitoring the patient’s status and updating the physicians for a swift control of the myocarditis.For this case,nursing care procedures vital for the successful recovery of the patient included condition observation,position management,pre-and postcoronary angiography care,infection prevention,hemorrhage prevention,venous access port maintenance,pain care,trachea care,psychological care,diet care,environment management,and health education.After receiving effective,successful treatment and care,the patient was discharged after 13 days of treatment with generally satisfying overall conditions.

Blood cellular mutant LXR-α protein stability governs initiation of coronary heart disease

AIM: To investigate the role of [breast and ovarian cancer susceptibility 1（BRCA1）-associated RING domain 1（BARD1）]/BRCA1 E3-ubiquitin ligase complex in governing the stability of mutant liver X receptor-（LXR-α） protein in coronary heart disease（CHD） subjects.METHODS: The expression analysis of various genes was carried out by quantitative real time polymerase chain reaction and western blotting within blood mononuclear cells of human CHD subjects at various stages of coronary occlusion and their corresponding normal healthy counterparts.Immunoprecipitation experiments were performed to establish protein interactions between LXR-αand BARD1.Peripheral blood mononuclear cells were cultured and exposed to Vitamin D3 and Cisplatin to validate the degradation of mutant LXR-αprotein in CHD subjects by BARD1/BRCA1 complex.RESULTS: The expression of mutant LXR-αprotein in CHD subjects was found to decrease gradually with the severity of coronary occlusion exhibiting a strong negative correlation,r =-0.975 at P 【 0.001.Further,the expression of BARD1 and BRCA1 also increased with the disease severity,r = 0.895 and 0.873 respectively（P 【 0.001）.Immunoprecipitation studies established that BARD1/BRCA1 complex degrades mutant LXR-αvia ubiquitination.The absence of functional LXR-αprotein resulted in increased expression of inflammatory cytokines such as interleukin（IL）-6,IL-8 and interferon-and decreased expression of ABCA1（ATP-binding cassette A1）（r = 0.932,0.949,0.918 and-0.902 with respect to Gensini score;P 【 0.001）.Additionally,cell culture experiments proved that Vitamin D3 could prevent the degradation of mutant LXR-αand restore its functional activity to some extent.CONCLUSION: Mutant LXR-αprotein in CHD subjects is degraded by BARD1/BRCA1 complex and Vitamin D3 can rescue and restore its function.