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Background & Aim: The pro-angiogenic, immunoregulatory and anti- inflammatory properties of MSCs are being exploited for the development of cellular therapies, including the treatment of graft versus host disease (GvHD), inflammatory bowel disease and COVID-19. SNBTS have developed a GMP process to bank umbilical cord MSCs (UC-MSCs) whereby we can reliably bank 100 vials of 10 million P2 UC-MSCs per cord. Each of these vials can be extensively expanded and stored for specific applications. The ultimate aim of the bank is for off-the-shelf clinical use, e.g., in GvHD or as an adjuvant therapy in Islet transplantations. Methods, Results & Conclusion(s): During process development, different basal media and supplements were screened for proliferation and MSC marker expression. Cells grown in promising media combinations were then tested for tri-lineage differentiation (identity), their chemokine/cytokine expression and T-cell inhibition (function) assessed. Medium selected for further GMP development and scale up was ultimately determined by all round performance and regulatory compliance. GMP-like UC-MSCs were shown to have immune-modulatory activity in T-cell proliferation assays at 4:1 or 16:1 ratios. Co-culture of UC-MSCs and freshly isolated leukocytes, +/- the immune activating agent LPS, show a dose dependent survival effect on leukocytes. In particular, neutrophils, which are normally very short lived in vitro demonstrated increased viability when co-cultured with UCMSCs. The survival effect was partially reproduced when UC-MSC were replaced with conditioned medium or cell lysate indicating the involvement of soluble factors. This improved neutrophil survival also correlates with results from leukocyte migration studies that demonstrate neutrophils to be the main cell type attracted to MSCs in in vitro and in vivo. Genetic modification of UC-MSC may improve their therapeutic potential. We have tested gene editing by CRISPR/Cas9 technology in primary UC-MSCS. The CXCL8 gene, highly expressed in UC-MSC, was targeted in isolates from several different donors with editing efficiencies of 78-96% observed. This translated to significant knockdown of CXCL8 protein levels in resting cells, however after stimulation levels of CXCL8 were found to be very similar in edited and non-edited UC-MSCs. This observation requires further study, but overall the results show the potential to generate future banks of primary UC-MSCS with genetically enhanced pro-angiogenic, immunoregulatory and/or anti-inflammatory activities.Copyright © 2023 International Society for Cell & Gene Therapy
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Background & Aim: The long-term effects of human mesenchymal stem cell (MSC) treatment on COVID-19 patients have not been fully characterized. The aim of this study was to evaluate the safety and efficacy of a MSC treatment administered to severe COVID-19 patients enrolled in a randomized, double-blind, placebo-controlled clinical trial (NCT 04288102). Methods, Results & Conclusion(s): A total of 100 patients experiencing severe COVID-19 received either MSC treatment (n = 65, 4x107 cells per infusion) or a placebo (n = 35) combined with standard of care on days 0, 3, and 6. Patients were subsequently evaluated 18 and 24 months after treatment to evaluate the long-term safety and efficacy of the MSC treatment. The outcomes measured included: 6-minute walking distance (6-MWD), lung imaging, quality of life according to the Short Form 36 questionnaire, COVID-19-related symptoms, titers of SARS-CoV-2 neutralizing antibodies, MSC-related adverse events (AEs), and tumor markers. Two years after treatment, a marginally smaller proportion of patients had a 6-MWD below the lower limit of the normal range in the MSC group than in the placebo group (OR = 0.19, 95% CI: 0.04-0.80, Fisher's exact test, p = 0.015). On the SF-36 questionnaire, a marginally higher general health score was received by the MSC group at month 18 compared with the placebo group (50.00 vs. 35.00;95% CI: 0.00-20.00, Wilcoxon rank sum test, p = 0.016). In contrast, there were no differences in the total severity score of lung imaging or the titer of neutralizing antibodies between the two groups. Meanwhile, there were no MSC-related AEs reported at the 18- or 24-month follow-ups. The serum levels of most of the tumor markers examined remained within normal ranges and were similar between the MSC and placebo groups. Long-term safety was observed for the COVID-19 patients who received MSC treatment. Yet few sustained efficacy of MSC treatment was observed at the end of the 2-year follow-up period. Funding(s): The National Key Research and Development Program of China (2022YFA1105604, 2020YFC0860900), the specific research fund of The Innovation Platform for Academicians of Hainan Province (YSPTZX202216) and the Fund of National Clinical Center for Infectious Diseases, PLA General Hospital (NCRCID202105,413FZT6). [Figure presented]Copyright © 2023 International Society for Cell & Gene Therapy
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Background & Aim: Liposomes are spherical-shaped vesicles composed of one or more lipid bilayers. The ability of liposomes to encapsulate hydro- or lipophilic drugs allowed these vesicles to become a useful drug delivery system. Natural cell membranes, such as Bioxome, have newly emerged as new source of materials for molecular delivery systems. Bioxome are biocompatible and GMP-compliant liposome-like membrane that can be produced from more than 200 cell types. Bioxome self-assemble, with in-process self-loading capacity and can be loaded with a variety of therapeutic compounds. Once close to the target tissue, Bioxome naturally fuse with the cell membrane and release the inner compound. Orgenesis is interested in evaluating the potential of Bioxome as new drug delivery system for treatment of several diseases, including skin repair, local tumour or COVID19. Methods, Results & Conclusion(s): Bioxome were obtained from adipose- derived Mesenchymal Stem Cells, with a process of organic- solvent lipid extraction, followed by lyophilization and sonication assemblage. During the sonication process, Bioxome were charged or not with several cargos. Size distribution of empty Bioxome was detected by Particle Size Analyzer (NanoSight). Electron Microscopy (EM) was performed to assess Bioxome morphology. Lipid content was evaluated by electrospray ionization system. Dose response in vitro test on human lung fibroblasts treated or not with Bioxome encapsulating a specific cargo (API) against COVID19 were performed. NanoSight analysis showed that nanoparticle size in Bioxome samples ranged between 170+/-50 nm, with a concentration ranging between 109-1010+/-106 particles/mL. EM clearly showed the double phospholipid layers that composes the Bioxome. Stability study demonstrated that Bioxome are stable in size and concentration up to 90 days at +4Cdegree or even at RT. No change in size between encapsulated Bioxome with small size (~340 Da) cargo vs empty Bioxome was observed up to 30 days storage. Lipidomic analysis approach revealed that the yield of lipids and their composition are satisfactory for a therapeutic product using Bioxome. Lastly, in the in vitro model of COVID19, Bioxome encapsulating API effectively saved cells from death (20x vs untreated cells) and at lower doses of API than these of non-encapsulated cargo (0.005 microM vs 0.1 microM). Bioxome seems to be an excellent candidate for liposome mimetic tool as drug delivery system for targeting specific organs and diseases treatment.Copyright © 2023 International Society for Cell & Gene Therapy
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The year 2019 ended with the official report of an unknown pneumonia outbreak in Wuhan, Hubei Province, China. Subsequently, this novel pneumonia was named COVID-19, which mainly attacks the respiratory system, causing severe damage. Although vaccination has relieved the stress of combating pandemics around the world after one year, there are still unknowns and challenges that come with hope. In this regard, stem cell therapy has been proposed as an effective approach to treating COVID-19. Mesenchymal stem cells (MSCs) can potentially be used as a hopeful tool in the cell-based therapy due to their ability to regenerate and regulate immune response. Although research and clinical results have shown encouraging achievement in patients who were treated with MSCs, drawbacks and challenges still exist in the face of new opportunities. This review aims to introduce the challenges of the COVID-19 vaccine and the possible clinical use of MSC-based therapy. Through analysis of COVID-19 and MSC-based therapy, the author aims to find the possibilities and feasibility of using MSCs to treat acute respiratory diseases, such as COVID. As a result, the author finds that MSC treatment is very practical, and it shows significant potential to treat COVID-19. © 2023 SPIE.
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Background & Aim: Ricin is one of the most lethal toxins, particularly if inhaled, and is considered a biological threat agent due to its wide availability and ease of production. Pulmonary ricin intoxication manifests in ARDS, cytokine storm, immune infiltration, and severe edema. Passive immunization is the preferred measure against pulmonary ricinosis, but only if administered shortly after exposure. Despite their potential to remedy pulmonary injury and inflammation, mesenchymal cell (MSC) therapies were never investigated in ricinosis. Here, we report the potential for treating pulmonary ricinosis with MesenCure, a professionalized allogeneic MSC therapy shown to reduce the mortality of patients suffering from severe pulmonary manifestations of COVID by 68%. Methods, Results & Conclusion(s): Preliminary studies demonstrated positive MesenCure effects in a sub-lethal pulmonary ricinosis model in CD1 mice. This model is regarded as highly translational due to the broad heterogeneity of these outbred mice. Positive effects included a reduction in excess protein content of the bronchoalveolar lavage fluid (BALF) by 45% when MesenCure was injected intravenously (IV) at 125k cells/animal, 48h post-exposure (PE) and evaluated one day later (p<0.05, Fig. 1A). Moreover, we found up to 52% reduction in the excess BALF leukocytes, when MesenCure was injected IV, 24h PE using the same dose (p<0.05, Fig. 1B) or 6h PE using a double dose (p<0.01, Fig. 1C), and evaluated two days PE. Optimizing the dose and administration route further improved the therapeutic outcome of MesenCure applied 6h PE as assessed by weight loss. As shown in Fig. 1D-E, IV injection of 250k-500k MesenCure cells/animal slightly protected the intoxicated animals against weight loss (p for treatment x time interaction <0.01 or <0.05 for 250k and 500k cells/animal, respectively). Interestingly, one million cells IV resulted in a lesser effect (not shown), however when injected subcutaneously (SC), 1M cells were very effective (p<0.001, Fig. 1F), seemingly even more effective than 2M cells/animal SC (Fig. 1G). Surprisingly, 2M thawed cells/animal injected SC protected the animals against weight loss almost completely (p<0.0001, Fig. H). In conclusion, we provide evidence for the potential of SC MSCs, specifically MesenCure, for treating pulmonary ricinosis and possibly other forms of ARDS. In agreement with Giri and Galipeau (2020), we provide further evidence for the dependency of MSC outcomes on their specific state and administration route. [Figure presented]Copyright © 2023 International Society for Cell & Gene Therapy
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Worldwide, infectious diseases have contributed significantly to morbidity and mortality;among the leading causes of death are pneumonia, respiratory infections and Covid-19. Stem cell therapy will be used to treat virus-infected patients in an effective and safe manner. A cross-sectional questionnaire was used to collect data from doctors. Most doctors are aware of the applications of stem cells, but they do not confirm their usage because clinical trials are ongoing. Instead, they show support for using stem cells to treat patients. Stem cells have been hoping to help repair damaged tissues in the respiratory system to promote faster recovery. Stem Cells are being studied in current clinical trials for their efficacy and safety in virus severe pneumonia and respiratory infections. The doctors suggested that stem cells have been used in infectious diseases to improve their health.Copyright © 2023 Health Biotechnology And Biopharma. All rights reserved.
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Background: Global pandemic identified as coronavirus disease 2019 (COVID-19) has resulted in a variety of clinical symptoms, from asymptomatic carriers to those with severe acute respiratory distress syndrome (SARS) and moderate upper respiratory tract symptoms (URTS). This systematic review aimed to determine effectiveness of stem cell (SC) applications among COVID-19 patients. Methods: Multiple databases of PubMed, EMBASE, Science Direct, Google Scholar, Scopus, Web of Science, and Cochrane Library were used. Studies were screened, chosen, and included in this systematic review using Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) 2020 flowchart diagram and PRISMA checklist. Included studies' quality was assessed employing Critical Appraisal Skills Programme (CASP) quality evaluation criteria for 14 randomized controlled trials (RCTs). Results: Fourteen RCTs were performed between the years of 2020 to 2022, respectively, with a sample size n = 574 (treatment group (n = 318); control group (n = 256)) in multiple countries of Indonesia, Iran, Brazil, Turkey, China, Florida, UK, and France. The greatest sample size reported from China among 100 COVID-19 patients, while the lowest sample of 9 COVID-19 patients from Jakarta, Indonesia, and the patient's age ranges from 18 to 69 years. Studies applied to the type of SC were "Umbilical cord MSCs, MSCs secretome, MSCs, Placenta-derived MSCs, Human immature dental pulp SC, DW-MSC infusion, Wharton Jelly-derived MSCs". The injected therapeutic dose was 1 × 106 cells/kg, 1 × 107 cells/kg, 1 × 105 cells/kg, and 1 million cells/kg as per the evidence from the different studies. Studies focused on demographic variables, clinical symptoms, laboratory tests, Comorbidities, respiratory measures, concomitant therapies, Sequential Organ Failure Assessment score, mechanical ventilation, body mass index, adverse events, inflammatory markers, and PaO2/FiO2 ratio were all recorded as study characteristics. Conclusion: Clinical evidence on MSC's therapeutic applications during COVID-19 pandemic has proven to be a promising therapy for COVID-19 patient recovery with no consequences and applied as a routine treatment for challenging ailments.
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COVID-19 is caused by infection with the novel coronavirus SARS-CoV2, which in turn precipitates severe acute respiratory distress syndrome (ARDS) due to being associated with a cytokine release syndrome (CRS). Inflammatory endothelialitis is also implicated in disease pathophysiology. Cell-based therapy (CBT) is undergoing testing in numerous mechanistic and pivotal clinical trials due to its known immunomodulatory properties. Culture-expanded mesenchymal stem cells (CD105+ cells) may be safely administered as an allograft and can suppress exuberant immune responses, improve endothelial function, and boost T- and B-cell responses. Early-stage open-label trials have reported potential clinical responses, and pivotal trials have been rapidly initiated. Coupled with the known safety profile, CBT may emerge as a valuable addition to the therapeutic armamentarium for SARS-CoV2. © Springer Nature Switzerland AG 2009, 2022, Corrected Publication 2022.
ABSTRACT
The year 2019 ended with the official report of an unknown pneumonia outbreak in Wuhan, Hubei Province, China. Subsequently, this novel pneumonia was named COVID-19, which mainly attacks the respiratory system, causing severe damage. Although vaccination has relieved the stress of combating pandemics around the world after one year, there are still unknowns and challenges that come with hope. In this regard, stem cell therapy has been proposed as an effective approach to treating COVID-19. Mesenchymal stem cells (MSCs) can potentially be used as a hopeful tool in the cell-based therapy due to their ability to regenerate and regulate immune response. Although research and clinical results have shown encouraging achievement in patients who were treated with MSCs, drawbacks and challenges still exist in the face of new opportunities. This review aims to introduce the challenges of the COVID-19 vaccine and the possible clinical use of MSC-based therapy. Through analysis of COVID-19 and MSC-based therapy, the author aims to find the possibilities and feasibility of using MSCs to treat acute respiratory diseases, such as COVID. As a result, the author finds that MSC treatment is very practical, and it shows significant potential to treat COVID-19. © 2023 SPIE.
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The proceedings contain 63 papers. The topics discussed include: a retrospective study to optimize post-anesthetic recovery time after ambulatory lower limb orthopedic procedures at a tertiary care hospital in Canada;a virtual airway evaluation as good as the real thing?;airway management during in hospital cardiac arrest by a consultant led airway management team during the COVID-19 pandemic: a prospective and retrospective quality assurance project;prevention of cautery induced airway fire using saline filled endotracheal tube cuffs: a study in a trachea airway fire model;smart phone assisted retrograde illumination versus conventional laryngoscope illumination for orotracheal intubation: a prospective comparative trial;time to single lung isolation in massive pulmonary hemorrhage simulation using a novel bronchial blocker and traditional techniques;cannabinoid type 2 receptor activation ameliorates acute lung injury induced systemic inflammation;bleeding in patients with end-stage liver disease undergoing liver transplantation and fibrinogen level: a cohort study;endovascular Vena Cavae occlusion in right anterior mini-thoracoscopic approach for tricuspid valve in patients with previous cardiac surgery;and mesenchymal stem cell extracellular vesicles as a novel, regenerative nanotherapeutic for myocardial infarction: a preclinical systematic review.
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Purpose of Study: COVID-19 caused by the SARS-CoV-2 virus has led to a worldwide pandemic with cytokine storm as the leading cause of morbidity and mortality. It is known that pregnant women are at higher risk of viral infections given an alteration in immune response. Mothers who smoke cigarettes during pregnancy are even at higher risk. The infection varies from asymptomatic to severe disease in pregnant women depending upon the degree of inflammation and cytokine storm. At present, limited data are available to show the effects of simultaneous maternal smoking and SARS-CoV-2 infection on the biologic efficacy of human umbilical cord derived mesenchymal stem cells (MSCs). We hypothesized that SARS-CoV-2 infection in combination with smoking of the pregnant mother at the time of delivery will lead to an alteration in the growth and differential potential of cord-derived MSCs. Our aims included collection, isolation and growth of human umbilical cord derived MSCs followed by assessment of their differentiation potential. Methods Used: The study was approved by the Institutional IRB. The umbilical cords were collected from the following groups of pregnant mothers at the time of delivery: Normal (non-smoking and negative SARS-CoV-2 infection), Smoker (smoking with negative SARS-CoV-2), Covid Smoker (smoking with positive SARS-CoV-2 infection) and Covid non-smoker (non-smoking with positive SARS-CoV-2 infection). Plastic adherent cells were harvested from 3 pooled human umbilical cords from each group. These cells were cultured and underwent immunodepletion per International Society for cellular therapy guidelines to isolate MSCs. MSCs were cultured in MSC-culture media to assess the duplication time. Similarly, MSCs were cultured in differentiation media (adipocytes and osteocytes) to assess differentiation time. Summary of Results: Picture shows the duplication and differentiation time from each group. Smoker group showed the longest duplication and differentiation time. Covid non-smoker group showed the shortest duplication and differentiation time. Covid Smoker group showed similar duplication and differentiation time as normal controls. All these results were statistically significant (T-test). Conclusion(s): Maternal smoking and active SARS-CoV-2 infection at the time of delivery alters the growth and differentiation potential of cord-derived MSCs. Further in vitro and in vivo studies are currently in progress to determine how this change effects the biological potential of these cells.
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Acute respiratory distress syndrome (ARDS) is a rapidly progressive form of respiratory failure that accounts for 10% of admissions to the ICU and is associated with approximately 40% mortality in severe cases. Despite significant mortality and healthcare burden, the mainstay of management remains supportive care. The recent pandemic of SARS-CoV-2 has re-ignited a worldwide interest in exploring the pathophysiology of ARDS, looking for innovative ideas to treat this disease. Recently, many trials have been published utilizing different pharmacotherapy targets; however, the long-term benefits of these agents remain unknown. Metabolomics profiling and stem cell transplantation offer strong enthusiasm and may completely change the outlook of ARDS management in the near future.
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BACKGROUND: Long-term effects of human mesenchymal stem cell (MSC) treatment on COVID-19 patients have not been fully characterized. The aim of this study was to evaluate the safety and efficacy of a MSC treatment administered to severe COVID-19 patients enrolled in our previous randomized, double-blind, placebo-controlled clinical trial (NCT04288102). METHODS: A total of 100 patients experiencing severe COVID-19 received either MSC treatment (n = 65, 4 × 107 cells per infusion) or a placebo (n = 35) combined with standard of care on days 0, 3, and 6. Patients were subsequently evaluated 18 and 24 months after treatment to evaluate the long-term safety and efficacy of the MSC treatment. Outcomes measured included: 6-min walking distance (6-MWD), lung imaging, quality of life according to the Short Form 36 questionnaire (SF-36), COVID-19-related symptoms, titers of SARS-CoV-2 neutralizing antibodies, tumor markers, and MSC-related adverse events (AEs). FINDINGS: Two years after treatment, a marginally smaller proportion of patients had a 6-MWD below the lower limit of the normal range in the MSC group than in the placebo group (OR = 0.19, 95% CI: 0.04-0.80, Fisher's exact test, p = 0.015). At month 18, the general health score from the SF-36 was higher in the MSC group than in the placebo group (50.00 vs. 35.00, 95% CI: 0.00-20.00, Wilcoxon rank sum test, p = 0.018). Total severity score of lung imaging and the titer of neutralizing antibodies were similar between the two groups at months 18 and 24. There was no difference in AEs or tumor markers at the 2-year follow-up between the two groups. INTERPRETATION: Long-term safety was observed for the COVID-19 patients who received MSC treatment. However, efficacy of MSC treatment was not significantly sustained through the end of the 2-year follow-up period. FUNDING: The National Key Research and Development Program of China (2022YFA1105604, 2020YFC0860900, 2022YFC2304401), the specific research fund of The Innovation Platform for Academicians of Hainan Province (YSPTZX202216) and the Fund of National Clinical Center for Infectious Diseases, PLA General Hospital (NCRC-ID202105,413FZT6).
Subject(s)
COVID-19 , Mesenchymal Stem Cell Transplantation , Humans , COVID-19/therapy , SARS-CoV-2 , Mesenchymal Stem Cell Transplantation/adverse effects , Mesenchymal Stem Cell Transplantation/methods , Follow-Up Studies , Quality of Life , Double-Blind Method , Treatment OutcomeABSTRACT
BACKGROUND: Corona Virus Disease 2019 (COVID-19) is a highly contagious, rapidly variable, and dangerous infectious disease. However, no specific and effective treatment for COVID-19 is available until now. The safety and efficacy of mesenchymal stem cells and their exosomes have been well verified in numerous clinical trials. Their immunomodulatory and tissue regeneration capabilities may support them as a prospective therapy for COVID-19 application in the clinic. OBJECTIVE: To focus on the development, pathogenesis and the current treatment status of COVID-19, efficacy and possible immunomodulatory mechanisms of mesenchymal stem cells and their exosomes for COVID-19 so as to provide new insights into the clinical treatment for the disease in the future. METHODS: Articles were searched on PubMed and CNKI with the key words of "SARS-CoV-2, COVID-19, cytokine storm, acute respiratory distress syndrome, mesenchymal stem cells, exosomes, immune regulation, tissue repair” in Chinese and English. Finally, 64 articles were collected for this review. RESULTS AND CONCLUSION: Acute respiratory distress syndrome and acute lung injury caused by cytokine storm are the primary precipitating factors of death in individuals with COVID-19. Mesenchymal stem cells and their exosomes can effectively treat the symptoms of acute respiratory distress syndrome and repair the damaged lung tissue in COVID-19 patients by reducing the cytokine storm and promoting the regeneration of alveolar epithelial cells through the interaction with immune cells and their paracrine effects. All of these investigations confirmed that mesenchymal stem cells and their exosomes can fight the COVID-19 infection, and this might be a promising, safe and effective strategy. However, more preclinical studies and randomized, controlled clinical trials are needed to conduct the biodistribution, metabolic fate, and the potential treatment risks of mesenchymal stem cells and their derived exosomes in vivo to fully exploit their clinical efficacy. (English) [ FROM AUTHOR] 背景:2019 冠状病毒病 (Corona Virus Disease 2019,COVID-19) 的传播性强、变异速度快、且危害较大,目前没有针对 COVID-19 的特异治疗 策略。间充质干细胞及其外泌体的安全性和有效性已在众多临床试验中得到证实,其具有的免疫调节和组织修复能力,可作为COVID-19 前 瞻性疗法的主要应用依据,具有巨大的治疗潜力。 目的:重点阐述 COVID-19 的发生发展、致病机制、治疗现状,以及间充质干细胞与其衍生外泌体治疗 COVID-19 患者的有效性和可能的免疫 调控机制,为该疾病的临床治疗提供更多的理论参考。 方法:通过检索PubMed、中国知网数据库中收录的相关文献,英文搜索词为:"SARS-CoV-2,COVID-19,cytokine storm,acute respiratory distress syndrome,mesenchymal stem cells,exosomes,immune regulation,tissue repair”,中文搜索词为:"新型冠状病毒,2019 冠状病 毒病,细胞因子风暴,急性呼吸窘迫综合征,间充质干细胞,外泌体,免疫调节,组织修复”,最终对64篇文献进行归纳总结。 结果与结论:由细胞因子风暴所引起的急性呼吸窘迫综合征和急性肺损伤是导致 COVID-19 重症患者出现死亡的主要原因。间充质干细胞及 其外泌体通过与免疫细胞之间的相互作用及其旁分泌效应,降低 COVID-19 患者体内细胞因子风暴同时促进其肺泡上皮细胞再生,可有效治 疗急性呼吸窘迫综合征且能够修复其损伤肺组织,证明是一种能够对抗 COVID-19 感染且安全、有效的治疗策略。不过仍然需要更多的临床 前和随机对照临床试验对间充质干细胞及其外泌体移植后的生物分布、体内代谢命运、潜在风险进行更多的研究,以便于更充分发挥其临 床疗效。 (Chinese) [ FROM AUTHOR] Copyright of Chinese Journal of Tissue Engineering Research / Zhongguo zu zhi gong cheng yan jiu is the property of Chinese Journal of Tissue Engineering Research and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full . (Copyright applies to all s.)
ABSTRACT
Serious manifestations of respiratory virus infections such as influenza and coronavirus disease 2019 (COVID-19) are associated with a dysregulated immune response and systemic inflammation. Treating the immunological/inflammatory dysfunction with glucocorticoids, Janus kinase inhibitors, and monoclonal antibodies against the interleukin-6 receptor has significantly reduced the risk of respiratory failure and death in hospitalized patients with severe COVID-19, but the proportion of those requiring invasive mechanical ventilation (IMV) and dying because of respiratory failure remains elevated. Treatment of severe influenza-associated pneumonia and acute respiratory distress syndrome (ARDS) with available immunomodulators and anti-inflammatory compounds is still not recommended. New therapies are therefore needed to reduce the use of IMV and the risk of death in hospitalized patients with rapidly increasing oxygen demand and systemic inflammation who do not respond to the current standard of care. This paper provides a critical assessment of the published clinical trials that have tested the investigational use of intravenously administered allogeneic mesenchymal stem/stromal cells (MSCs) and MSC-derived secretome with putative immunomodulatory/antiinflammatory/regenerative properties as add-on therapy to improve the outcome of these patients. Increased survival rates are reported in 5 of 12 placebo-controlled or open-label comparative trials involving patients with severe and critical COVID-19 and in the only study concerning patients with influenza-associated ARDS. Results are encouraging but inconclusive for the following reasons: small number of patients tested in each trial; differences in concomitant treatments and respiratory support; imbalances between study arms; differences in MSC source, MSC-derived product, dosing and starting time of the investigational therapy; insufficient/inappropriate reporting of clinical data. Solutions are proposed for improving the clinical development plan, with the aim of facilitating regulatory approval of the MSC-based investigational therapy for life-threatening respiratory virus infections in the future. Major issues are the absence of a biomarker predicting responsiveness to MSCs and MSC-derived secretome and the lack of pharmacoeconomic evaluations.
Subject(s)
COVID-19 , Influenza, Human , Mesenchymal Stem Cell Transplantation , Respiratory Distress Syndrome , Respiratory Insufficiency , Humans , SARS-CoV-2 , Influenza, Human/complications , Influenza, Human/therapy , Secretome , Respiratory Distress Syndrome/etiology , Respiratory Distress Syndrome/therapy , Inflammation/etiology , Respiratory Insufficiency/etiology , Stromal Cells , Mesenchymal Stem Cell Transplantation/adverse effects , Mesenchymal Stem Cell Transplantation/methodsABSTRACT
Coronaviruses are enveloped positive-stranded RNA viruses that cause mild to acute respiratory illness. Coronaviruses can merge envelope proteins with the host cell membranes and de-liver their genetic material. Coronavirus disease 2019 (COVID-19) is the seventh coronavirus clos-est to the severe acute respiratory syndrome (SARS) in bats that infects humans. COVID-19 at-tacks the respiratory system and stimulates the host inflammatory responses, promotes the recruit-ment of immune cells, and enhances angiotensin-converting enzyme 2 (ACE2) activities. Patients with confirmed COVID-19 have experienced fever, dry cough, headache, dyspnea, acute kidney injury (AKI), acute respiratory distress syndrome (ARDS), and acute heart injury. Several strategies such as oxygen therapy, ventilation, antibiotic or antiviral therapy, and renal replacement therapy are commonly used to decrease COVID-19-associated mortality. Inflammation is a common and important factor in the pathogenesis of COVID-19. In recent years, stem cell-based therapies represent a promising therapeutic option against various diseases. Mesenchymal stem cells (MSCs) are multipotent stem cells that can self-renew and differentiate into various tissues of mesodermal ori-gin. MSCs can be derived from bone marrow, adipose tissue, and umbilical cord blood. MSCs, with their unique immunomodulatory properties, represent a promising therapeutic alternative against diseases associated with inflammation. Several previous studies have shown that MSCs with a strong safety profile can improve the treatment of patients with COVID-19. The information in this review provides a summary of the prevention and diagnosis of COVID-19. Also, we focus on the current clinical application of MSCs for treatments of patients with COVID-19.Copyright © 2021 Bentham Science Publishers.
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Background: Coronavirus disease 2019 (COVID-19) was originated first in Wuhan, Chi-na, in December 2019, and it is known to be caused by severe acute respiratory syndrome coron-avirus-2 (SARS CoV-2). The management of COVID-19 could be achieved by means of the usage of the repurposed drugs, inhibiting the viral entry and/or viral fusion such as umifenovir, Barici-tinib, Camostat mesylate, Nafamostat mesylate, and the drugs blocking the viral replication, which include favipiravir, remdesivir, Lopinavir/ritonavir, Ribavirin, Sofosbuvir, chloroquine and Hydrox-ychloroquine. Objective(s): Along with the drugs that target the SARS-CoV-2 virus, adjunctive therapies are also employed. This review focuses on the adjuvant therapies employed to manage the COVID-19-asso-ciated complications, such as cytokine storm, acute respiratory distress syndrome (ARDS), respiratory failure, cardiac injury, coagulopathy, and multi-organ failure. Method(s): The literature was searched in databases such as Medline/PubMed Central/PubMed, Goo-gle Scholar, Science Direct, EBSCO, Scopus, EMBASE, Directory of open access journals (DOA-J), and reference lists to identify relevant articles. Result(s): Various studies have been identified for the use of corticosteroids, interferons, monoclon-al antibodies, etoposide, ruxolitinib, anticoagulants, convalescent plasma, immunoglobulins, mes-enchymal stem cells, natural killer (NK) cells, and inhaled nitric oxide (NO) as adjuvant therapy to manage the patients with COVID-19 along with the repurposed drugs targeting SARS-CoV-2. Conclusion(s): The safety and efficacy of adjuvant therapy are needed to be confirmed by various ongoing randomized controlled clinical trials.Copyright © 2021 Bentham Science Publishers.
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The ongoing pandemic of the novel coronavirus SARS-CoV-2 (COVID-19) has created a major challenge for the public health worldwide. The reported cases indicate that the outbreak is more widespread than initially assumed. Around 18 million people have been infected with 689,000 reported deaths (August 2020;the number is increasing daily);with a high mutation rate, this virus poses an even more serious threat worldwide. The actual source of COVID-19 is still un-clear;even if the initial reports link it to the Chinese seafood wet market in Wuhan, other animals such as birds, snakes, and many small mammals including bats are also linked with this novel coro-navirus. The structure of the COVID-19 shows distinctive proteins among which spike proteins have a pivotal role in host cell attachment and virus-cell membrane fusion in order to facilitate virus infection. Currently, no specific antiviral treatment or vaccine is available. Various drug can-didates, including SARS-CoV and MERS-CoV protease inhibitors, neuraminidase inhibitors, RNA synthesis inhibitors, ACE2 inhibitors and lungs supportive therapy, are under trials. Cell-based therapy also appeared with remarkable treatment possibilities. In this article, we endeavored to succinctly cover the current and available treatment options, including pharmaceuticals, cell-based therapy, and traditional medicine. We also focused on the extent of damages by this novel coron-avirus in India, Pakistan, and Bangladesh;the strategies adopted and the research activities initiat-ed so far by these densely populated countries (neighboring China) are explained in this review.Copyright © 2021 Bentham Science Publishers.
ABSTRACT
Background: Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has taken over the world, and more than 38 lakh deaths had been reported till now due to this infectious disease. It has been declared a global pandemic by the world health organization. SARS-CoV-2 causes coronavirus disease of 2019 (COVID-19), and the major problem called "Cytokine storm" is reported, which may lead to death among the COVID-19 patients. This study aimed to review the Cytokine storm and its mechanism along with few immunomodulatory therapies for SARSCoV-2 infection suppression effectively. Method(s): The recently published works of literature were selected and reviewed based on the subject of this study. The databases, including Pubmed, ScienceDirect, Scopus, and Google Scholar, were searched extensively. Result(s): The review of the literature showed that an uncontrolled immune response causes excess inflammation. Evidence from recent trials has demonstrated that cytokine storms can be an important factor in the COVID-19 severity, leading to multiple organ failure and death. Conclusion(s): This study reviewed immunomodulatory therapies and strategies for SARS-CoV-2 infected patients to suppress the immune response. Ultimately, the cytokine storm can prove to be a boon and reduce the significant death tolls to SARS-CoV-2 infection.Copyright © 2022 Bentham Science Publishers.