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Abstract Osteoarthritis (OA) can incapacitate the individual to perform their activities of daily living due to pain. This is an important public health issue that worsens worldwide and in Brazil, since the population goes through an aging process, and has caused increased public spending on the monitoring and maintenance of treatments that can last for years and still not be resolutive. Thus, the search for innovative and effective therapies that can reduce costs becomes necessary. In this context, the present study reports the first application of cell therapy with adipose-derived stem cells in the treatment of cases of OA that are refractory to the conservative treatment, performed in the Brazilian Unified Health System (Sistema Único de Saúde, SUS). The evaluation was performed with the application of the Visual Analog Scale (VAS), the Short Form Health Survey (SF-36) and the Western Ontario and McMaster Universities (WOMAC), specifics for OA evaluation, and also an analysis of the synovial fluid (inflammatory cytokines). The cell therapy improved the scores on the WOMAC, SF-36 and EVA, and reduced the inflammatory process. We observed a decrease of 0.73x in the TNF, of 0,71x in IL-1b, of 0,68x in IL-8, and of 0,70x in IL-10. For IL-6, an increase of 1,48x was observed. Therefore, this cell therapy can be considered promising in aiding the management of this disease, since it improved the patient's pain, decrease inflammatory markers, and enabled the return to activities of daily living, which resulted in an improvement in their quality of life.
Resumo A osteoartrite (OA) pode deixar o indivíduo incapacitado para realizar suas atividades da vida diária devido ao quadro álgico. Essa é uma importante questão de saúde pública que se agrava no mundo inteiro e no Brasil, uma vez que a população passa pelo processo de envelhecimento, e isso causa um aumento nos gastos públicos com o acompanhamento e manutenção dos tratamentos que podem perdurar por anos e mesmo assim não serem resolutivos. Assim, torna-se necessária a busca por terapias inovadoras e eficazes que possam reduzir esses custos. Nesse contexto, o presente estudo relata a primeira aplicação de terapia celular com células-tronco mesenquimais do tecido adiposo no tratamento de OA refratária ao tratamento conservador realizada no Sistema Único de Saúde (SUS). Na avaliação, foram usados os instrumentos Escala Visual Analógica (EVA), os questionários de qualidade de vida Short Form Health Survey (SF-36) e Western Ontario and McMaster Universities (WOMAC), específicos para avaliação da OA, e fez-se uma análise do líquido sinovial (citocinas inflamatórias). A terapia celular melhorou as pontuações no WOMAC, SF-36, e EVA, e reduziu o processo inflamatório. Observou-se redução de 0,73 × do TNF, de 0,71 × da IL-1b, de 0,68 × da IL-8, e de 0,70 × da IL-10. Já para a IL-6, observou-se aumento de 1,48 ×. Portanto, considera-se este tipo de terapia celular promissora no auxílio do manejo desta doença, pois melhorou o quadro álgico do paciente, reduziu os marcadores inflamatórios, e possibilitou o retorno às atividades da vida diária, o que resultou em uma melhora de sua qualidade de vida.
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Mesenchymal stromal cells (MSCs) have therapeutic potential due to their abilities of differentiation, immunomodulation, and migration to injured tissues, potentiating such effects when cells are activated. Guarana (Paullinia cupana) is a tropical plant species found in South America that is known for its antioxidant, stimulant, and cicatricial effects. The guarana extract is composed of many substances and caffeine is the main component. The objective was to evaluate the effects of guarana and caffeine on MSCs. After the initial characterization, MSCs were treated with Paullinia cupana (10, 100, and 1000 μg/mL) or caffeine (0.4, 4, and 40 μg/mL) for 24 h. MSCs treatment with 1000 μg/mL guarana increased cell polarity, viability, cell migration to chemoattractant, antioxidant potential, and liberation of extracellular vesicles (EVs), while it reduced the levels of autophagy. MSCs treated with 100 and 1000 μg/mL guarana or 40 μg/mL caffeine showed a decrease of cell proliferation. No treatment affected the cellular area and cell cycle of MSCs. The study shows in vitro evidence that guarana could be a promising alternative for activating MSCs to promote better cellular products for future clinical therapies.
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Due to the limited treatment options of advanced gastric cancer and prone to chemoresistance,there is an urgent need for novel treatment methods to improve the prognosis of these patients.At present,immunotherapy including immune checkpoint inhibitor,adoptive cell therapy,tumor vaccine,nonspecific immune enhancer and cytokine therapy has shown good curative effect on gastric cancer.Additionally,carrier drugs and 3D printing technology have also achieved curative effects in preclinical experiments.Clinical trials used immunooncology monotherapy or combined immunochemotherapy to improve the overall survival time and objective response rate of patients with gastric cancer.Based on the preliminary evidence,we believe that immunotherapy can positively affect the natural history and improve the prognosis of patients with gastric cancer.
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The subretinal space is a potential area between the retinal pigment epithelium layer and the photoreceptor layer.Subretinal injection is a way of drug administration to the subretinal space.Compared with intravitreal injection,subretinal injection allowed drugs to take more direct and effective action on retinal photoreceptor cells and retinal pigment epithelial cells.In recent years,thanks to advances in medical technology and surgical instrumentation subretinal injection realizes a gradually expanded clinical application,becoming an important drug delivery method for gene therapy and cell therapy of various fundus oculi diseases and playing an increasingly prominent role in vitreoretinal surgery.This article will explore the indications,techniques,potential risks,and complications of subretinal injection.
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Diabetic retinopathy(DR)is one of the most common fundus vascular diseases and a leading cause of blindness in adults of working age.The occurrence and development of DR involves a variety of pathophysiologic mecha-nisms,including metabolic dysregulation,oxidative stress,inflammation,and neurovascular unit hypofunction.Conven-tional clinical treatments,such as anti-vascular endothelial growth factor drugs and retinal laser photocoagulation,have long treatment cycles and variable outcomes in some patients and sometimes require vitrectomy in the later stages of the disease.With the in-depth research on the molecular level of the pathogenesis of DR,a number of biological therapeutic modalities,such as targeted therapy,gene therapy,immunotherapy and cell therapy,have received more and more atten-tion from researchers.This review summarizes the biologic therapeutic modalities currently available for DR and outlines the benefits and limitations of these approaches with a view to informing researchers.
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The final outcome of the retinal degenerative diseases is the massive loss of photoreceptors, resulting in irreversible visual impairment which lacks effective treatment at present.As a potential therapeutic approach, photoreceptor transplantation can be used to restore retinal function to a certain extent by replacing the lost photoreceptors and rebuilding the retinal circuits.However, the discovery of material exchange unveiled a number of problems in previous studies, including low cellular integration, insufficient outer segment and synapse formation, highlighting the challenges of clinical translation.To explore the possibility of increasing the functional integration of photoreceptors, this article reviewed a variety of strategies, including selection of the transplanted cells with optimal developmental stage to enhance the interaction with the host retina, disruption of the outer limiting membrane and alleviation of retinal remodeling to improve the migration and integration of the transplanted photoreceptors, regulation of immunity can be used to reduce microglial activation to create a better host microenvironment for transplantation, use of retinal sheets or biological scaffolds to improve photoreceptor organization, rational development and use of biomaterials to optimize the physiological microenvironment of the transplanted cells, adequate evaluation of surgical parameters to reduce the effect of surgery on the transplanted cells and the host retina.
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NK cells are important components of innate immune system and play a key role in immune responses.Activation of NK cells mainly depends on dynamic balance between activatory and inhibitory receptors expressed on surface.However,in many chronic diseases,balance between these receptors of NK cells is disorder,resulting in reduced cytolysis activity and cytokine produc-tion,which is in a state of immune inactivation.In recent years,many studies have shown that intracellular metabolism is crucial for immune cells such as NK cells,and changes of metabolism will regulate functions of immune cells by affecting cell development,pro-liferation and activity.In view of powerful anti-tumor and anti-viral effects of NK cells and their important clinical application value,it is important to study their metabolic characteristics and mechanisms.This review mainly introduces metabolic patterns of NK cell,related regulatory pathways,regulatory effects of metabolism on NK cell development,memory and functions,and metabolism-based NK cell therapy,also expounds important role of metabolism on NK cell biosynthesis,stability and effector function in vivo,as well as metabolism-related factors involved in NK cell inactivation in different chronic diseases,providing a solid research basis for clinical application of NK cell therapy.
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OBJECTIVE To systematically evaluate the efficacy and safety of the four most common cell therapies, namely purified CD34+ (PCCs), bone marrow mononuclear cells (BMMNCs), bone marrow mesenchymal stem cells (BMMSCs) and peripheral blood mononuclear cells (PBMNCs) in the treatment of critical limb ischemia (CLI). METHODS PubMed, Scopus, Embase, Cochrane Central Register of Controlled Trials (CENTRAL) and Web of Science databases were searched from the establishment of each database to June 2023 to collect randomized controlled trials (RCTs) comparing the efficacy and safety of four different cell therapies, namely PCCs, BMMNCs, BMMSCs and PBMNCs, with other cell therapies or standard therapy (ST) in the treatment of CLI. The outcomes indexes included amputation rate, ankle-brachial index (ABI), transcutaneous oxygen partial pressure (TCPO2), ulcer healing rate, pain-free walking distance (PFWD) and angiogenesis. After data extraction from clinical studies that met the inclusion criteria, the RoB 2.0 tool was used to assess the risk of bias, and Stata 15.0 software was used for statistical analysis. RESULTS Meta-analysis included 22 studies, involving 1 318 patients. The treatment groups involved 4 types of cell therapies, namely PCCs,BMMNCs, BMMSCs, and PBMNCs. Network meta-analysis showed that the amputation rates of the four cell therapies groups were lower than that of ST group, and only the difference in PBMNCs group was statistically significant(P<0.05). Four cell interventions were better than ST in improving ABI (P<0.05), and BMMNCs had the most significant effect on improving ABI. PBMNCs and BMMNCs groups had statistically significant differences in improving TCPO2, compared with ST group and BMMSCs group (P<0.05). Four cell interventions were better than ST in improving ulcer healing rate, among which BMMNCs group had no statistical difference with ST group (P>0.05); ulcer healing rates of the other three groups were higher than that of ST group (P<0.05), and those of PBMNCs and BMMSCs groups were significantly higher than that of BMMNCs group (P< 0.05). BMMSCs group had a significantly better effect on improving the PFWD of patients than the ST group after transplantation, with statistical significance (P<0.05), but there was no significant difference in PBMNCs and BMMNCs groups compared with ST group (P>0.05). The three cell therapies of BMMSCs, BMMNCs and PBMNCs had a significantly better effect on angiogenesis than the ST group, and the BMMSCs group had a significantly better effect than the BMMNCs and PBMNCs groups, with statistical significance (P<0.05). CONCLUSIONS The four cell therapies can improve the prognosis of CLI patients to varying degrees. PBMNCs show the lowest amputation rate after transplantation and have the most significant effect on improving TCPO2 and improving the ulcer healing rate. BMMNCs possess the most significant effect on improving ABI. BMMSCs represent obvious advantages in PFWD and angiogenesis.
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Renal allograft fibrosis is one of the common and severe complications after kidney transplantation, which seriously affects the function and survival rate of renal allograft, and may even lead to organ failure and patient death. At present, the researches on renal allograft fibrosis are highly complicated, including immunity, ischemia-reperfusion injury, infection and drug toxicity, etc. The diagnosis and treatment of renal allograft fibrosis remain extremely challenging. In this article, the latest research progress was reviewed and the causes, novel diagnosis and treatment strategies for renal allograft fibrosis were investigated. By improving diagnostic accuracy and optimizing treatment regimen, it is expected to enhance clinical prognosis of kidney transplant recipients, aiming to provide reference for clinicians to deliver proper management for kidney transplant recipients.
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Ischemia-reperfusion injury (IRI) is an extremely complicated pathophysiological process, which may occur during the process of myocardial infarction, stroke, organ transplantation and temporary interruption of blood flow during surgery, etc. As key molecules of immune system, macrophages play a vital role in the pathogenesis of IRI. M1 macrophages are pro-inflammatory cells and participate in the elimination of pathogens. M2 macrophages exert anti-inflammatory effect and participate in tissue repair and remodeling and extracellular matrix remodeling. The balance between macrophage phenotypes is of significance for the outcome and treatment of IRI. This article reviewed the role of macrophages in IRI, including the balance between M1/M2 macrophage phenotype, the mechanism of infiltration and recruitment into different ischemic tissues. In addition, the potential therapeutic strategies of targeting macrophages during IRI were also discussed, aiming to provide reference for alleviating IRI and promoting tissue repair.
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Corneal stroma is a significant part of the cornea and plays a significant role in the eye's refractive system. Although corneal transplantation is now the most effective treatment for corneal stromal disease, its advancement has been constrained by a shortage of donors, the need for prolonged immunosuppressive medicine to prevent rejection, and low graft survival rates. An alternate strategy is to use the corneal stroma's natural capacity for regeneration to create the ideal conditions for the collagenous extracellular matrix of the stroma to self-renew. However, it is challenging to replicate the intricate ultrastructure of the corneal stroma in vitro. Regenerative medicine has so been used to address these issues. These approaches refer to numerous disciplines, including stem cell-induced differentiation, tissue engineering and gene editing. This article provides potential directions for the future clinical applications of corneal stromal regeneration and repair while summarizing pertinent techniques, research progress, and issues.
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Objective@#To investigate the osteogenic properties of a methacrylated gelatin (GelMA) / bone marrow mesenchymal stem cells (BMSCs) composite hydrogel applied to the skull defect area of rats and to provide an experimental basis for the development of bone regeneration biomaterials.@*Methods@#This study was approved by the Animal Ethics Committee of Nanjing University. A novel photocurable composite biohydrogel was developed by constructing photoinitiators [lthium phenyl (2,4,6-trimethylbenzoyl) phosphinate, LAP], GelMA, and BMSCs. The surface morphology and elemental composition of the gel were examined using scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy (EDX). The compressive strength of the gel was evaluated using an electronic universal testing machine. After in vitro culture for 1, 2, and 5 days, the proliferation of the BMSCs in the hydrogels was assessed using a CCK-8 assay, and their survival and morphology were examined through confocal microscopy. A 5 mm critical bone deficiency model was generated in a rat skull. The group receiving composite hydrogel treatment was referred to as the GelMA/BMSCs group, whereas the untreated group served as the control group. At the 4th and 8th weeks, micro-CT scans were taken to measure the bone defect area and new bone index, while at the 8th week, skull samples from the defect area were subjected to H&E staining, van Gieson staining, and Goldner staining to evaluate the quality of bone regeneration and new bone formation.@*Results@#SEM observed that the solidified GelMA showed a 3D spongy gel network with uniform morphology, the porosity of GelMA was 73.41% and the pore size of GelMA was (28.75 ± 7.13) μm. EDX results showed that C and O were evenly distributed in the network macroporous structure of hydrogel. The hydrogel compression strength was 152 kPa. On the 5th day of GelMA/BMSCs culture, the cellular morphology transitioned from oval to spindle shaped under microscopic observation, accompanied by a significant increase in cell proliferation (159.4%, as determined by the CCK-8 assay). At 4 weeks after surgery, a 3D reconstructed micro-CT image revealed a minimal reduction in bone defect size within the control group and abundant new bone formation in the GelMA/BMSCs group. At 8 weeks after surgery, no significant changes were observed in the control group's bone defect area, with only limited evidence of new bone growth; however, substantial healing of skull defects was evident in the GelMA/BMSCs group. Quantitative analysis at both the 4- and 8-week examinations indicated significant improvements in the new bone volume (BV), new bone volume/total bone volume (BV/TV), bone surface (BS), and bone surface/total bone volume (BS/TV) in the GelMA/BMSCs group compared to those in the control group (P<0.05). Histological staining showed continuous and dense formation of bone tissue within the defects in the GelMA/BMSCs group and only sporadic formation of new bone, primarily consisting of fibrous connective tissue, at the defect edge in the control group.@*Conclusion@#Photocuring hydrogel-based stem cell therapy exhibits favorable biosafety profiles and has potential for clinical application by inducing new bone formation and promoting maturation within rat skull defects.
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The central nervous system (CNS) is home to neuronal and glial cells. Traditionally, glia was disregarded as just the structural support across the brain and spinal cord, in striking contrast to neurons, always considered critical players in CNS functioning. In modern times this outdated dogma is continuously repelled by new evidence unravelling the importance of glia in neuronal maintenance and function. Therefore, glia replacement has been considered a potentially powerful therapeutic strategy. Glial progenitors are at the center of this hope, as they are the source of new glial cells. Indeed, sophisticated experimental therapies and exciting clinical trials shed light on the utility of exogenous glia in disease treatment. Therefore, this review article will elaborate on glial-restricted progenitor cells (GRPs), their origin and characteristics, available sources, and adaptation to current therapeutic approaches aimed at various CNS diseases, with particular attention paid to myelin-related disorders with a focus on recent progress and emerging concepts. The landscape of GRP clinical applications is also comprehensively presented, and future perspectives on promising, GRP-based therapeutic strategies for brain and spinal cord diseases are described in detail.
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Introduction: Perianal fistula is a common colorectal disease which is caused mainly by cryptoglandular disease. Although most cases are treated successfully by surgery, management of complex perianal fistulas (CPAF) remains a challenge with limited results in recurrence and sometimes associated with fecal incontinence. The CPAF treatment with autologous adipose-derived mesenchymal stem cells (ASCs) had become a research hotspot. The technique started to be used in the treatment of Crohn's disease (CD) fistulas, where the studies showed safe and goods result from the procedure. Cultured ASCs have been used but this approach requires the preceding collection of adipose tissue, time for isolation of ASCs and subsequent in vitro expansion, need for laboratory facilities, and expertise in cell culturing. These factors have been getting over by using the commercially available alternative, allogenic ASCs. Treatment with allogeneic ASCs has shown good results in patients with CD fistulas, however with the disadvantage of being expensive. Objective: To show that the injection with freshly collected adipose tissue is an alternative to treatment with autologous or allogenic ASCs with several advantages. Methods: In this case report, we show our first experience in the treatment of CPAF with the application of collected adipose tissue in a tertiary referral hospital from Belo Horizonte, Brazil. Results The patient had a good postoperative recuperation with a complete fistula healing after 8 months without adverse effects. Conclusion: Injection with freshly collected adipose tissue is a promising and apparently safe sphincter-sparing technique in the treatment of CPAF. (AU)
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Humanos , Feminino , Adulto , Fístula Retal/cirurgia , Células-Tronco Mesenquimais , Doença de CrohnRESUMO
As an effective treatment for end-stage liver disease, liver transplantation has been widely carried out worldwide and gradually captivated widespread recognition. With the advancement of liver transplantation techniques, the incidence of postoperative complications has been gradually declined, and the short-term and long-term prognosis of recipients have been constantly improved. However, a huge gap has existed between the supply and demand of donor organs, which is a major factors restricting the development of liver transplantation. The amount of liver transplantation operation in China is increasing year by year, the shortage of donor liver is becoming more and more prominent, and marginal donor liver is increasingly used in clinic. In recent years, the selection criteria of donor organs, organ preservation and functional maintenance have been continuously improved. In this article, the application and development trend of different techniques were reviewed from the perspectives of donor liver preservation and functional maintenance, and recent technical development and research results were summarized, aiming to provide reference for further enhancing the survival rate of grafts and recipients and promoting the development of liver transplantation in China.
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Alzheimer's disease (AD) is a neurodegenerative disease associated with aging and age-related cognitive decline. It is characterized by insidious onset and progressive development, and has become a major global health and socioeconomic issue. The exact mechanisms underlying AD have not been fully elucidated, and various hypotheses have been proposed by researchers based on different etiologies, including the amyloid β (Aβ) cascade hypothesis, Tau protein hyperphosphorylation hypothesis, mitochondrial dysfunction and oxidative stress hypothesis, and neurotransmitter hypothesis. Therefore, there is an urgent need for comprehensive interventions targeting multiple pathways, links, and targets. Based on traditional Chinese medicine (TCM) theory and modern research findings, kidney-tonifying and anti-aging Chinese medicines have unique advantages of toxicity reduction, long-lasting effects, and treating both the root cause and the symptoms. They have been shown to counteract immune-inflammatory responses, clear reactive oxygen species, exhibit antioxidant properties, inhibit abnormal aggregation of Aβ and Tau proteins, reduce neuronal apoptosis, regulate central neurotransmitters, and modulate gut microbiota in AD. In recent years, stem cell therapy has been explored for the treatment of AD through two strategies: endogenous activation and exogenous transplantation, thereby replenishing and replacing damaged neurons. However, factors such as blood-brain barrier permeability, targeted delivery to the affected area, immune rejection, and cell survival rate can affect the efficacy of stem cell transplantation. Therefore, combining stem cell therapy with medication and other methods can further enhance the effectiveness of stem cell transplantation. Kidney-tonifying and anti-aging Chinese medicines can activate dormant neural stem cells(NSCs) in the body, promote neuroregeneration, and facilitate tissue and organ repair and reconstruction in AD. The combined treatment of these Chinese medicines and stem cell transplantation has shown more significant efficacy compared to either treatment alone. This combination therapy provides a new integration point for the modernization of TCM and offers new ideas and approaches for the prevention and treatment of AD, as well as improving the effectiveness of stem cell transplantation.
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Chimeric antigen receptor T cell (CAR-T) therapy has shown remarkable success in treating hematological malignancies. However, CAR-T therapy for solid tumors is still limited due to the unique solid-tumor microenvironment and heterogeneous target antigen expression, which leads to an urgent need of combining other therapies. At present, nano delivery system has become one of the most promising directions for the development of anti-tumor drugs. Based on the background of CAR-T and tumor treatment, we focus on the research progress of nanomedicine combined with CAR-T therapy, and systematically review the strategies and examples in recent years in the aspects of in vivo delivery of mRNA, regulation of tumor microenvironment, combination with photothermal therapy. And we also look forward to the future direction of this filed. .
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Humanos , Receptores de Antígenos Quiméricos/uso terapêutico , Preparações Farmacêuticas/metabolismo , Antígenos de Neoplasias/metabolismo , Neoplasias Pulmonares/metabolismo , Neoplasias/metabolismo , Linfócitos T , Microambiente Tumoral , Nanopartículas/uso terapêuticoRESUMO
Cell therapy is an emerging therapy different from traditional drug therapy, among which immune cells and mesenchymal stem cells are the two types of most promising cells in the treatment of liver diseases at present, and preliminary results have been achieved for their therapeutic effects. This article summarizes the advances in cell therapy in the field of liver diseases, analyzes the challenges and coping strategies of different cell therapies, and discusses the application prospects of cell therapy in liver-related diseases.
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Hydrogels are hydrophilic three-dimensional networks that exhibit soft and flexible textures after absorbing water, making them biocompatible and biodegradable. Due to their similarity to biological tissues, hydrogels find extensive applications in the field of biomedical mechanism. In this paper, the preparation methods of physical hydrogels and chemical hydrogels are introduced according to the different cross-linking agents, and the application progress of hydrogels in cell therapy is reviewed.
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Myocardial infarction caused by myocardial ischemia can lead to the loss of cardiomyocytes, resulting in the replacement of the myocardial infarction area with scar tissue and ultimately leading to heart failure. However, the treatment options are currently very limited. Currently, myocardial patch therapy is a promising strategy for treating severe myocardial infarction. This approach is based on engineering principles and involves combining seed cells or biological active substances with suitable scaffold materials to construct biomaterials that can be used for transplantation, repair, or replacement of autologous myocardium. The biomaterial scaffolds for engineered myocardial patches are usually prepared by means of acellular matrix, electrospinning technology, 3D biological printing, hydrogel, cell patch and other methods. In this paper, the preparation methods of myocardial patches and their application progress in myocardial infarction treatment are reviewed.