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1. Photovoice as a participatory health promotion strategy.

Author

Wang, CC, Yi, WK, Tao, ZW, and Carovano, K

Subjects
PARTICIPANT observation, METHODOLOGY, HEALTH promotion
Abstract

Presents a study which examined the claims made for the effectiveness of photovoice as a participatory action research strategy in health promotion. Definition of photovoice; Modes of participation in the realm of research; Costs and problems of participation.

Published
1998
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2. Supramolecular interactions in cocrystals of benzoic acid derivatives with selective COX-2 inhibitor etoricoxib.

Author

Ma YH, Yang K, Qian YL, Hong WP, Zhang KY, Tao ZW, Meng H, and Ma WJ

Abstract

The structures of three 1:1 cocrystal forms of etoricoxib {ETR; systematic name: 5-chloro-2-(6-methylpyridin-3-yl)-3-[4-(methylsulfonyl)phenyl]pyridine, C 18 H 15 ClN 2 O 2 S} have been synthesized and characterized by single-crystal X-ray diffraction; these are etoricoxib-benzoic acid (1/1), C 18 H 15 ClN 2 O 2 S·C 7 H 6 O 2 (ETR-Bz), etoricoxib-4-fluorobenzoic acid (1/1), C 18 H 15 ClN 2 O 2 S·C 7 H 5 FO 2 (ETR-PFB), and etoricoxib-4-nitrobenzoic acid (1/1), C 18 H 15 ClN 2 O 2 S·C 7 H 5 NO 4 (ETR-PNB). Powder X-ray diffraction and thermal differential scanning calorimetry-thermogravimetry (DSC-TG) techniques were also used to characterize these multicomponent systems. Due to the influence of the corresponding acids, ETR shows different conformations. Furthermore, the energetic contributions of the supramolecular motifs have been established by energy framework studies of the stabilizing interaction forces and are consistent with the thermal stability of the cocrystals.

Published
2024
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3. Elimination of Intragrain Defect to Enhance the Performance of FAPbI 3 Perovskite Solar Cells by Ionic Liquid.

Author

Wan YX, Du HQ, Jiang Y, Zhi R, Xie ZW, Zhou YC, Rothman MU, Tao ZW, Yin ZW, Liang GJ, Li WN, Cheng YB, and Li W

Abstract

Ionic liquids have been widely used to improve the efficiency and stability of perovskite solar cells (PSCs), and are generally believed to passivate defects on the grain boundaries of perovskites. However, few studies have focused on the relevant effects of ionic liquids on intragrain defects in perovskites which have been shown to be critical for the performance of PSCs. In this work, the effect of ionic liquid 1-hexyl-3-methylimidazolium iodide (HMII) on intragrain defects of formamidinium lead iodide (FAPbI 3 ) perovskite is investigated. Abundant {111} c intragrain planar defects in pure FAPbI 3 grains are found to be significantly reduced by the addition of the ionic liquid HMII, shown by using ultra-low-dose selected area electron diffraction. As a result, longer charge carrier lifetimes, higher photoluminescence quantum yield, better charge carrier transport properties, lower Urbach energy, and current-voltage hysteresis are achieved, and the champion power conversion efficiency of 24.09% is demonstrated. These observations suggest that ionic liquids significantly improve device performance resulting from the elimination of {111} c intragrain planar defects., (© 2024 Wiley‐VCH GmbH.)

Published
2024
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6. Evaluation of inactivated COVID-19 vaccine on semen parameters in reproductive-age males: a retrospective cohort study.

Author

Zhu H, Wang X, Zhang F, Zhu Y, Du MR, Tao ZW, Sun C, Ma HT, Li YD, Liang GQ, Ren J, Feng BL, and Jiang F

Subjects
COVID-19 Vaccines, Female, Humans, Male, Pregnancy, Retrospective Studies, Semen, Sperm Count, Sperm Motility, Spermatozoa, Vaccination, Vaccines, Inactivated, COVID-19, Semen Analysis
Abstract

During the coronavirus disease (COVID-19) epidemic, there have been concerns about the impact of vaccines on people's fertility, including the fertility of those who are currently preparing for pregnancy and those who might become pregnant in future. However, there is still a lack of research on the effect of the COVID-19 vaccine on male fertility, and it is not surprising that couples and donors have concerns regarding vaccination. In this study, a retrospective cohort study was conducted to examine semen quality before and after receipt of the inactivated COVID-19 vaccine. There were no statistically significant changes in semen parameters (volume, sperm concentration, progressive motility, and total progressive motile count) after two doses of vaccine (all P > 0.05). In summary, our study updates the most recent studies on the effects of the COVID-19 vaccine on male fertility, and the information from this study could be used to guide fertility recommendations for assisted reproductive technology (ART) patients and donors., Competing Interests: None

Published
2022
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7. Management of hepatocellular carcinoma patients with portal vein tumor thrombosis: A narrative review.

Author

Tao ZW, Cheng BQ, Zhou T, and Gao YJ

Subjects
Humans, Portal Vein pathology, Retrospective Studies, Sorafenib therapeutic use, Treatment Outcome, Carcinoma, Hepatocellular drug therapy, Carcinoma, Hepatocellular therapy, Chemoembolization, Therapeutic adverse effects, Liver Neoplasms drug therapy, Liver Neoplasms therapy, Venous Thrombosis etiology, Venous Thrombosis therapy
Abstract

Background: Hepatocellular carcinoma (HCC) is one of the main reasons for malignancy-related death. Portal vein tumor thrombosis (PVTT) is the most common form of macrovascular invasion related to HCC occurring in 10%-60% of patients. HCC with PVTT is usually characterized by worsening liver function, vulnerability to blood metastasis, higher incidence of complications associated with portal hypertension, and intolerance to treatment when compared with that without PVTT. If only treated with supportive care, the median survival of HCC with PVTT is about 2.7 months. In the past, sorafenib was the only recommended therapy by guidelines with limited effectiveness. This narrative review aimed to describe the current management options for HCC with PVTT., Data Sources: We have reviewed literature from PubMed on the treatment of HCC with PVTT and compiled evidence-based facts on effective therapies available for different types of PVTT., Results: Sorafenib monotherapy is not much effective, but combining it with other methods can improve survival. Each type of PVTT can benefit from the combination of transarterial chemoembolization and sorafenib than sorafenib monotherapy. The tumor downstaging can be realized possibly after transarterial chemoembolization, but tumor invasion into the main trunk of the portal vein greatly impairs efficacy. Although surgery is a curative approach, it is often not recommended for Vp4 PVTT. Some new methods can broaden the indication, but further explorations are needed. Radiotherapy can decrease the possibility of Vp3 progression to Vp4, but building a forecast model of best radiation dose and response is necessary. Systemic chemotherapy, hepatic arterial infusion chemotherapy, radiofrequency ablation, portal stenting, and traditional Chinese medicine are also beneficial in Vp3-4 PVTT. The accurate diagnosis of PVTT can be made by radiomics, and prognostic classification models can be used to design personalized treatments. The application of new treatment methods such as the atezolizumab plus bevacizumab scheme may increase survival., Conclusions: HCC with PVTT is still a thorny problem, and effective therapeutics need to be explored., (Copyright © 2021. Published by Elsevier B.V.)

Published
2022
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8. A Prevascularized Polyurethane-Reinforced Fibrin Patch Improves Regenerative Remodeling in a Rat Right Ventricle Replacement Model.

Author

Tao ZW, Jarrell DK, Robinson A, Cosgriff-Hernandez EM, and Jacot JG

Subjects
Animals, Endothelial Cells, Fibrin, Pericardium, Rats, Heart Ventricles, Polyurethanes
Abstract

Congenital heart defects (CHDs) affect 1 in 120 newborns in the United States. Surgical repair of structural heart defects often leads to arrhythmia and increased risk of heart failure. The laboratory has previously developed an acellular fibrin patch reinforced with a biodegradable poly(ether ester urethane) urea mesh that result in improved heart function when tested in a rat right ventricle wall replacement model compared to fixed pericardium. However, this patch does not drive significant neotissue formation. The patch materials are modified here and this patch is prevascularized with human umbilical vein endothelial cells and c-Kit + human amniotic fluid stem cells. Rudimentary capillary-like networks form in the fibrin after culture of cell-encapsulated patches for 3 d in vitro. Prevascularized patches and noncell loaded patch controls are implanted onto full-thickness heart wall defects created in the right ventricle of athymic nude rats. Two months after surgery, defect repair with prevascularized patches results in improved heart function and the patched heart area exhibited greater vascularization and muscularization, less fibrosis, and increased M2 macrophage infiltration compared to acellular patches., (© 2021 Wiley-VCH GmbH.)

Published
2021
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9. Upregulation of CENPF is linked to aggressive features of osteosarcoma.

Author

Zou PA, Yang ZX, Wang X, and Tao ZW

Abstract

Centromere protein F (CENPF) plays a key role in the regulation of the cell cycle. The present study revealed that CENPF was overexpressed in a variety of tumors and associated with the poor prognosis of osteosarcoma. The mRNA expression levels of CENPF were analyzed using the Gene Expression Profiling Interactive Analysis database and the protein levels of CENPF were detected in the specimens from patients with osteosarcoma using immunohistochemistry. Cell proliferation, cell cycle and flow cytometry assays were performed after the transfection of control or CENPF plasmids into osteosarcoma cells. A xenografts assay was used to determine the effects of CENPF on tumor growth in vivo . The results showed that CENPF was upregulated in osteosarcoma tissues and associated with high-grade tumor stage (P=0.023) and intraglandular dissemination (P=0.046). The transfection-induced depletion of CENPF in human osteosarcoma MG-63 and U-2 OS cell lines inhibited cell proliferation, stimulated apoptosis and induced cell cycle arrest. Induced CENPF depletion in MG-63 cells inhibited tumor growth of osteosarcoma cells in mice. These findings suggested that elevated CENPF levels contributed to increased cell proliferation by mediating apoptosis and cell cycle in osteosarcoma. Therefore, CENPF might be a potential biomarker for poor prognosis of osteosarcoma., Competing Interests: The authors declare that they have no competing interests., (Copyright: © Zou et al.)

Published
2021
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10. Analysis of factors associated with disease outcomes in hospitalized patients with 2019 novel coronavirus disease.

Author

Liu W, Tao ZW, Wang L, Yuan ML, Liu K, Zhou L, Wei S, Deng Y, Liu J, Liu HG, Yang M, and Hu Y

Subjects
Adult, Aged, COVID-19, Female, Hospitals, Humans, Logistic Models, Male, Middle Aged, Risk Factors, SARS-CoV-2, Betacoronavirus, Coronavirus Infections, Pandemics, Pneumonia, Viral
Abstract

Background: Since early December 2019, the 2019 novel coronavirus disease (COVID-19) has caused pneumonia epidemic in Wuhan, Hubei province of China. This study aimed to investigate the factors affecting the progression of pneumonia in COVID-19 patients. Associated results will be used to evaluate the prognosis and to find the optimal treatment regimens for COVID-19 pneumonia., Methods: Patients tested positive for the COVID-19 based on nucleic acid detection were included in this study. Patients were admitted to 3 tertiary hospitals in Wuhan between December 30, 2019, and January 15, 2020. Individual data, laboratory indices, imaging characteristics, and clinical data were collected, and statistical analysis was performed. Based on clinical typing results, the patients were divided into a progression group or an improvement/stabilization group. Continuous variables were analyzed using independent samples t-test or Mann-Whitney U test. Categorical variables were analyzed using Chi-squared test or Fisher's exact test. Logistic regression analysis was performed to explore the risk factors for disease progression., Results: Seventy-eight patients with COVID-19-induced pneumonia met the inclusion criteria and were included in this study. Efficacy evaluation at 2 weeks after hospitalization indicated that 11 patients (14.1%) had deteriorated, and 67 patients (85.9%) had improved/stabilized. The patients in the progression group were significantly older than those in the disease improvement/stabilization group (66 [51, 70] vs. 37 [32, 41] years, U = 4.932, P = 0.001). The progression group had a significantly higher proportion of patients with a history of smoking than the improvement/stabilization group (27.3% vs. 3.0%, χ = 9.291, P = 0.018). For all the 78 patients, fever was the most common initial symptom, and the maximum body temperature at admission was significantly higher in the progression group than in the improvement/stabilization group (38.2 [37.8, 38.6] vs. 37.5 [37.0, 38.4]°C, U = 2.057, P = 0.027). Moreover, the proportion of patients with respiratory failure (54.5% vs. 20.9%, χ = 5.611, P = 0.028) and respiratory rate (34 [18, 48] vs. 24 [16, 60] breaths/min, U = 4.030, P = 0.004) were significantly higher in the progression group than in the improvement/stabilization group. C-reactive protein was significantly elevated in the progression group compared to the improvement/stabilization group (38.9 [14.3, 64.8] vs. 10.6 [1.9, 33.1] mg/L, U = 1.315, P = 0.024). Albumin was significantly lower in the progression group than in the improvement/stabilization group (36.62 ± 6.60 vs. 41.27 ± 4.55 g/L, U = 2.843, P = 0.006). Patients in the progression group were more likely to receive high-level respiratory support than in the improvement/stabilization group (χ = 16.01, P = 0.001). Multivariate logistic analysis indicated that age (odds ratio [OR], 8.546; 95% confidence interval [CI]: 1.628-44.864; P = 0.011), history of smoking (OR, 14.285; 95% CI: 1.577-25.000; P = 0.018), maximum body temperature at admission (OR, 8.999; 95% CI: 1.036-78.147, P = 0.046), respiratory failure (OR, 8.772, 95% CI: 1.942-40.000; P = 0.016), albumin (OR, 7.353, 95% CI: 1.098-50.000; P = 0.003), and C-reactive protein (OR, 10.530; 95% CI: 1.224-34.701, P = 0.028) were risk factors for disease progression., Conclusions: Several factors that led to the progression of COVID-19 pneumonia were identified, including age, history of smoking, maximum body temperature at admission, respiratory failure, albumin, and C-reactive protein. These results can be used to further enhance the ability of management of COVID-19 pneumonia.

Published
2020
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12. A new coronavirus associated with human respiratory disease in China.

Author

Wu F, Zhao S, Yu B, Chen YM, Wang W, Song ZG, Hu Y, Tao ZW, Tian JH, Pei YY, Yuan ML, Zhang YL, Dai FH, Liu Y, Wang QM, Zheng JJ, Xu L, Holmes EC, and Zhang YZ

Subjects
Adult, Betacoronavirus genetics, COVID-19, China, Communicable Diseases, Emerging diagnostic imaging, Communicable Diseases, Emerging pathology, Coronavirus Infections diagnostic imaging, Coronavirus Infections pathology, Genome, Viral genetics, Humans, Lung diagnostic imaging, Male, Phylogeny, Pneumonia, Viral diagnostic imaging, Pneumonia, Viral pathology, RNA, Viral genetics, Recombination, Genetic genetics, SARS-CoV-2, Severe Acute Respiratory Syndrome diagnostic imaging, Severe Acute Respiratory Syndrome pathology, Tomography, X-Ray Computed, Whole Genome Sequencing, Betacoronavirus classification, Communicable Diseases, Emerging complications, Communicable Diseases, Emerging virology, Coronavirus Infections complications, Coronavirus Infections virology, Pneumonia, Viral complications, Pneumonia, Viral virology, Severe Acute Respiratory Syndrome etiology, Severe Acute Respiratory Syndrome virology
Abstract

Emerging infectious diseases, such as severe acute respiratory syndrome (SARS) and Zika virus disease, present a major threat to public health 1-3 . Despite intense research efforts, how, when and where new diseases appear are still a source of considerable uncertainty. A severe respiratory disease was recently reported in Wuhan, Hubei province, China. As of 25 January 2020, at least 1,975 cases had been reported since the first patient was hospitalized on 12 December 2019. Epidemiological investigations have suggested that the outbreak was associated with a seafood market in Wuhan. Here we study a single patient who was a worker at the market and who was admitted to the Central Hospital of Wuhan on 26 December 2019 while experiencing a severe respiratory syndrome that included fever, dizziness and a cough. Metagenomic RNA sequencing 4 of a sample of bronchoalveolar lavage fluid from the patient identified a new RNA virus strain from the family Coronaviridae, which is designated here 'WH-Human 1' coronavirus (and has also been referred to as '2019-nCoV'). Phylogenetic analysis of the complete viral genome (29,903 nucleotides) revealed that the virus was most closely related (89.1% nucleotide similarity) to a group of SARS-like coronaviruses (genus Betacoronavirus, subgenus Sarbecovirus) that had previously been found in bats in China 5 . This outbreak highlights the ongoing ability of viral spill-over from animals to cause severe disease in humans.

Published
2020
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13. Evaluation of a polyurethane-reinforced hydrogel patch in a rat right ventricle wall replacement model.

Author

Tao ZW, Wu S, Cosgriff-Hernandez EM, and Jacot JG

Subjects
Animals, Heart Ventricles, Male, Myocardium, Rats, Rats, Sprague-Dawley, Ventricular Remodeling, Cardiac Output, Electrocardiography, Heart-Assist Devices, Hydrogels chemistry, Polyurethanes chemistry, Ventricular Function, Left
Abstract

Congenital heart defects affect about 1% births in the United States. Many of the defects are treated with surgically implanted patches made from inactive materials or fixed pericardium that do not grow with the patients, leading to an increased risk of arrhythmia, sudden cardiac death, and heart failure. This study investigated an angiogenic poly(ethylene glycol) fibrin-based hydrogel reinforced with an electrospun biodegradable poly(ether ester urethane) urea (BPUR) mesh layer that was designed to encourage cell invasion, angiogenesis, and regenerative remodeling in the repair of an artificial defect created onto the rat right ventricle wall. Electrocardiogram signals were analyzed, heart function was measured, and fibrosis, macrophage infiltration, muscularization, vascularization, and defect size were evaluated at 4- and 8-weeks post-surgery. Compared with rats with fixed pericardium patches, rats with BPUR-reinforced hydrogel patches had fewer arrhythmias and greater right ventricular ejection fraction and cardiac output, as well as greater left ventricular ejection fraction, fractional shorting, stroke work and cardiac output. Histology and immunofluorescence staining showed less fibrosis and less patch material remaining in rats with BPUR-reinforced hydrogel patches at 4- and 8-weeks. Rats with BPUR-reinforced hydrogel patches also had a greater volume of granular tissue, a greater volume of muscularized tissue, more blood vessels, and a greater number of leukocytes, pan-macrophages, and M2 macrophages at 8 weeks. Overall, this study demonstrated that the engineered BPUR-reinforced hydrogel patch initiated greater regenerative vascular and muscular remodeling with a limited fibrotic response, resulting in fewer incidences of arrhythmia and improved heart function compared with fixed pericardium patches when applied to heal the defects created on the rat right ventricle wall. STATEMENT OF SIGNIFICANCE: The study tested a polyurethane-reinforced hydrogel patch in a rat right ventricle wall replacement model. Compared with fixed pericardium patches, these reinforced hydrogel patches initiated greater regenerative vascular and muscular remodeling with a reduced fibrotic response, resulting in fewer incidences of arrhythmia and improved heart function at 4- and 8-weeks post surgery. Overall, the new BPUR-reinforced hydrogel patches resulted in better heart function when replacing contractile myocardium than fixed pericardium patches., (Copyright © 2019. Published by Elsevier Ltd.)

Published
2020
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14. [The role of cell-crystal reaction mediated inflammation in the formation of intrarenal calcium oxalate crystals].

Author

Deng YL, Liu YL, Tao ZW, and Wang X

Subjects
Autophagy, Humans, Kidney immunology, Kidney Calculi, Calcium Oxalate metabolism, Inflammation, Nephrolithiasis immunology
Abstract

Calcium oxalate nephrolithiasis is the common disease of urinary surgery, its exact pathogenesis is still unclear.It is believed that the renal inflammatory injury induced by cell-crystal reaction plays an important role in the formation of intrarenal calcium oxalate crystals. Recent studies indicated that inflammation induced by cell-crystal reaction can cause renal cell damage, stimulate intracellular expression of NADPH oxidase, trigger the massive production of reactive oxygen species, activate nuclear factor-κB signaling pathway, release a large number of inflammatory factors, and cause inflammatory cascade effect of the kidney, thus promoting the accumulation, nucleation and growth of calcium salt crystals, eventually leading to the formation of intrarenal crystals and even stones. In this process, the regulatory factors and mechanisms involved include macrophages, NLRP3-high mobility group box-1 protein inflammation network, fetuin A, autophagy activation and other factors.

Published
2018
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15. Bioengineering Cardiac Tissue Constructs With Adult Rat Cardiomyocytes.

Author

Tao ZW, Mohamed M, Jacot JG, and Birla RK

Subjects
Aging, Animals, Cells, Cultured, Electrocardiography, Male, Rats, Rats, Sprague-Dawley, Tissue Engineering methods, Bioengineering, Myocardial Contraction, Myocytes, Cardiac physiology
Abstract

Bioengineering cardiac tissue constructs with adult cardiomyocytes may help treat adult heart defects and injury. In this study, we fabricated cardiac tissue constructs by seeding adult rat cardiomyocytes on a fibrin gel matrix and analyzed the electromechanical properties of the formed cardiac tissue constructs. Adult rat cardiomyocytes were isolated with a collagenase type II buffer using an optimized Langendorff perfusion system. Cardiac tissue constructs were fabricated using either indirect plating with cardiomyocytes that were cultured for 1 week and dedifferentiated or with freshly isolated cardiomyocytes. The current protocol generated (3.1 ± 0.5) × 10 (n = 5 hearts) fresh cardiomyocytes from a single heart. Tissue constructs obtained by both types of plating contracted up to 30 days, and electrogram (ECG) signals and contractile twitch forces were detected. The constructs bioengineered by indirect plating of dedifferentiated cardiomyocytes produced an ECG R wave amplitude of 15.1 ± 5.2 µV (n = 7 constructs), a twitch force of 70-110 µN, and a spontaneous contraction rate of about 390 bpm. The constructs bioengineered by direct plating of fresh cardiomyocytes generated an ECG R wave amplitude of 6.3 ± 2.5 µV (n = 8 constructs), a twitch force of 40-60 µN, and a spontaneous contraction rate of about 230 bpm. This study successfully bioengineered three-dimensional cardiac tissue constructs using primary adult cardiomyocytes.

Published
2018
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16. Adenovirus-mediated small interfering RNA targeting ezrin induces apoptosis and inhibits metastasis of human osteosarcoma MG-63 cells.

Author

Tao ZW and Zou PA

Subjects
Apoptosis, Bone Neoplasms genetics, Bone Neoplasms pathology, Cell Line, Tumor, Humans, Osteosarcoma genetics, Osteosarcoma pathology, RNA, Small Interfering administration & dosage, Adenoviridae genetics, Bone Neoplasms therapy, Cytoskeletal Proteins genetics, Osteosarcoma therapy, RNA, Small Interfering genetics, RNA, Small Interfering therapeutic use, RNAi Therapeutics methods
Abstract

Osteosarcoma is a disease prone to recurrence and metastasis, and adenovirus expression vector is frequently studied as a therapeutic target of osteosarcoma in recent years. The present study attempts to explore the effect of adenovirus-mediated siRNA targetting ezrin on the proliferation, migration, invasion, and apoptosis of human osteosarcoma MG-63 cells. Human osteosarcoma MG-63 cell line was selected for construction of recombinant adenovirus vector. The mRNA and protein levels of ezrin, Bcl2-associated X protein (Bax), B cell lymphoma-2 (Bcl-2), p21, p53, Caspase-3, matrix metalloproteinase (MMP) 2 (MMP-2) and MMP-9, Cyclin D1, and cyclin-dependent kinase 4a (CDK4a) were determined. Through ELISA, the levels of Caspase-3, MMP-2 and MMP-9 were examined. Finally, human osteosarcoma MG-63 cell viability, growth, invasion, migration, and apoptosis were detected. Initially, adenovirus expression vector of ezrin was constructed by ezrin 2 siRNA sequence. Adenovirus-mediated siRNA targetting ezrin reduced expression of ezrin in MG-63 cells. The results revealed that adenovirus-mediated siRNA targetting ezrin elevated expression levels of Bax, p21, p53, and Caspase-3, Cyclin D1, and CDK4a and reduced expression levels of Bcl-2, MMP-2 and MMP-9. Furthermore, adenovirus-mediated siRNA targetting ezrin inhibited human osteosarcoma MG-63 cell viability, growth, invasion, and migration, and promoted apoptosis. Our study demonstrates that adenovirus-mediated siRNA targetting ezrin can induce apoptosis and inhibit the proliferation, migration, and invasion of human osteosarcoma MG-63 cells., (© 2018 The Author(s).)

Published
2018
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17. Evaluation on the impact of spontaneous reperfusion on cardiac muscle of acute myocardial infarction by three-dimensional speckle tracking imaging.

Author

Tao ZW, Ma XW, Liu NN, Tian NL, Gao XF, and Xiao PX

Subjects
Echocardiography, Three-Dimensional, Female, Heart Ventricles diagnostic imaging, Heart Ventricles physiopathology, Humans, Image Processing, Computer-Assisted, Length of Stay, Male, Myocardial Infarction diagnostic imaging, Myocardial Infarction therapy, Percutaneous Coronary Intervention, Reperfusion, Ventricular Remodeling, Myocardial Infarction physiopathology, Ventricular Function, Left
Abstract

Objective: To explore the effect of spontaneous reperfusion (SR) on three-dimensional myocardial strain in patients with acute anterior myocardial infarction by three-dimensional speckle tracking imaging (3D-STI) technology., Patients and Methods: Patients diagnosed with acute anterior myocardial infarction during 2013 to 2016 were consecutively selected and divided into SR group and non-spontaneous reperfusion (Non-SR) group based on whether there was SR. Patients in both groups received direct percutaneous coronary intervention (PCI) in time window. Baseline information, patency rates of culprit vessel, durations of operation, intraoperative non-reflow phenomenon ratios, and thrombolysis in myocardial infarction (TIMI) blood flows after reperfusion of patients in each group were recorded. Hospital stays of patients were compared between the two groups. Before discharge, left ventricular ejection fraction (LVEF) and left ventricular end-diastolic diameter (LVEDd) were measured. Global longitudinal strain (GLS), global radial strain (GRS), and global circumferential strain (GCS) of left ventricular (LV) were also detected by 3D-STI, so as to assess movement situations of ventricular wall and cardiac muscle in occlusive blood vessel distribution area. LVEF, LVEDd and various 3D-STI parameters were reexamined and compared one year after discharge., Results: There were no significant differences between the Non-SR group and the SR group regarding the patency rate of culprit vessel, duration of operation, intraoperative non-reflow phenomenon ratio, TIMI blood flow after reperfusion, and LVEDd (p>0.05). Both LVEF before discharge and LV three-dimensional strain indexes of the SR group, were clearly higher than those of the Non-SR group (p<0.05). After one-year follow-up, the SR group had a remarkably lower LVEDd than the Non-SR group (p<0.05). LVEF of the SR group was overtly higher than that of the Non-SR group (p<0.05). LV three-dimensional strain indexes were also distinctly higher in the SR group than in the Non-SR group (p<0.05). There were good correlations between GLS, GRS, GCS and LVEF (r values were -0.620, -0.674 and 0.723, respectively)., Conclusions: SR can improve nosocomial and long-term LV remodeling in patients with acute anterior myocardial infarction, and 3D-STI is able to assess ventricular remodeling after myocardial infarction.

Published
2017
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18. Full-Thickness Heart Repair with an Engineered Multilayered Myocardial Patch in Rat Model.

Author

Pok S, Stupin IV, Tsao C, Pautler RG, Gao Y, Nieto RM, Tao ZW, Fraser CD Jr, Annapragada AV, and Jacot JG

Subjects
Animals, Disease Models, Animal, Female, Male, Polyesters chemistry, Polyesters pharmacology, Rats, Rats, Sprague-Dawley, Chitosan chemistry, Chitosan pharmacology, Hydrogels chemistry, Hydrogels pharmacology, Materials Testing, Membranes, Artificial, Myocardium, Pericardium
Abstract

In a rat model of right free wall replacement, the transplantation of an engineered multilayered myocardial patch fabricated from a polycaprolactone membrane supporting a chitosan/heart matrix hydrogel induces significant muscular and vascular remodeling and results in a significantly higher right ventricular ejection fraction compared to use of a commercially available pericardium patch., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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19. Optimizing a spontaneously contracting heart tissue patch with rat neonatal cardiac cells on fibrin gel.

Author

Tao ZW, Mohamed M, Hogan M, Gutierrez L, and Birla RK

Subjects
Animals, Animals, Newborn, Cell Adhesion, Cell Nucleus metabolism, Cell Survival, Cells, Cultured, Electrocardiography, Gels chemistry, Myocardial Contraction, Myocardium cytology, Rats, Rats, Sprague-Dawley, Fibrin chemistry, Heart physiology, Myocytes, Cardiac cytology, Tissue Engineering methods, Tissue Scaffolds
Abstract

Engineered cardiac tissues have been constructed with primary or stem cell-derived cardiac cells on natural or synthetic scaffolds. They represent a tremendous potential for the treatment of injured areas through the addition of tensional support and delivery of sufficient cells. In this study, 1-6 million (M) neonatal cardiac cells were seeded on fibrin gels to fabricate cardiac tissue patches, and the effects of culture time and cell density on spontaneous contraction rates, twitch forces and paced response frequencies were measured. Electrocardiograms and signal volume index of connexin 43 were also analysed. Patches of 1-6 M cell densities exhibited maximal contraction rates in the range 305-410 beats/min (bpm) within the first 4 days after plating; low cell density (1-3 M) patches sustained rhythmic contraction longer than high cell density patches (4-6 M). Patches with 1-6 M cell densities generated contractile forces in the range 2.245-14.065 mN/mm 3 on days 4-6. Upon patch formation, a paced response frequency of approximately 6 Hz was obtained, and decreased to approximately 3 Hz after 6 days of culture. High cell density patches contained a thicker real cardiac tissue layer, which generated higher R-wave amplitudes; however, low-density patches had a greater signal volume index of connexin 43. In addition, all patches manifested endothelial cell growth and robust nuclear division. The present study demonstrates that the proper time for in vivo implantation of this cardiac construct is just at patch formation, and patches with 3-4 M cell densities are the best candidates. Copyright © 2014 John Wiley & Sons, Ltd., (Copyright © 2014 John Wiley & Sons, Ltd.)

Published
2017
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20. Delivering stem cells to the healthy heart on biological sutures: effects on regional mechanical function.

Author

Tao ZW, Favreau JT, Guyette JP, Hansen KJ, Lessard J, Burford E, Pins GD, and Gaudette GR

Subjects
Animals, Cell Differentiation, Cell Survival, Cell Transplantation, Fibrin pharmacology, Fibrosis, Humans, Male, Quantum Dots, Rats, Rats, Nude, Stress, Mechanical, Tissue Engineering, Tissue Scaffolds, Heart physiology, Mesenchymal Stem Cell Transplantation methods, Mesenchymal Stem Cells cytology, Sutures
Abstract

Current cardiac cell therapies cannot effectively target and retain cells in a specific area of the heart. Cell-seeded biological sutures were previously developed to overcome this limitation, demonstrating targeted delivery with > 60% cell retention. In this study, both cell-seeded and non-seeded fibrin-based biological sutures were implanted into normal functioning rat hearts to determine the effects on mechanical function and fibrotic response. Human mesenchymal stem cells (hMSCs) were used based on previous work and established cardioprotective effects. Non-seeded or hMSC-seeded sutures were implanted into healthy athymic rat hearts. Before cell seeding, hMSCs were passively loaded with quantum dot nanoparticles. One week after implantation, regional stroke work index and systolic area of contraction (SAC) were evaluated on the epicardial surface above the suture. Cell delivery and retention were confirmed by quantum dot tracking, and the fibrotic tissue area was evaluated. Non-seeded biological sutures decreased SAC near the suture from 0.20 ± 0.01 measured in sham hearts to 0.08 ± 0.02, whereas hMSC-seeded biological sutures dampened the decrease in SAC (0.15 ± 0.02). Non-seeded sutures also displayed a small amount of fibrosis around the sutures (1.0 ± 0.1 mm 2 ). Sutures seeded with hMSCs displayed a significant reduction in fibrosis (0.5 ± 0.1 mm 2 , p < 0.001), with quantum dot-labelled hMSCs found along the suture track. These results show that the addition of hMSCs attenuates the fibrotic response observed with non-seeded sutures, leading to improved regional mechanics of the implantation region. Copyright © 2014 John Wiley & Sons, Ltd., (Copyright © 2014 John Wiley & Sons, Ltd.)

Published
2017
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21. Functional Effects of Delivering Human Mesenchymal Stem Cell-Seeded Biological Sutures to an Infarcted Heart.

Author

Hansen KJ, Favreau JT, Guyette JP, Tao ZW, Coffin ST, Cunha-Gavidia A, D'Amore B, Perreault LR, Fitzpatrick JP, DeMartino A, and Gaudette GR

Abstract

Stem cell therapy has the potential to improve cardiac function after myocardial infarction (MI); however, existing methods to deliver cells to the myocardium, including intramyocardial injection, suffer from low engraftment rates. In this study, we used a rat model of acute MI to assess the effects of human mesenchymal stem cell (hMSC)-seeded fibrin biological sutures on cardiac function at 1 week after implant. Biological sutures were seeded with quantum dot (Qdot)-loaded hMSCs for 24 h before implantation. At 1 week postinfarct, the heart was imaged to assess mechanical function in the infarct region. Regional parameters assessed were regional stroke work (RSW) and systolic area of contraction (SAC) and global parameters derived from the pressure waveform. MI (n = 6) significantly decreased RSW (0.026 ± 0.011) and SAC (0.022 ± 0.015) when compared with sham operation (RSW: 0.141 ± 0.009; SAC: 0.166 ± 0.005, n = 6) (p < 0.05). The delivery of unseeded biological sutures to the infarcted hearts did not change regional mechanical function compared with the infarcted hearts (RSW: 0.032 ± 0.004, SAC: 0.037 ± 0.008, n = 6). The delivery of hMSC-seeded sutures exerted a trend toward increase of regional mechanical function compared with the infarcted heart (RSW: 0.057 ± 0.011; SAC: 0.051 ± 0.014, n = 6). Global function showed no significant differences between any group (p > 0.05); however, there was a trend toward improved function with the addition of either unseeded or seeded biological suture. Histology demonstrated that Qdot-loaded hMSCs remained present in the infarcted myocardium after 1 week. Analysis of serial sections of Masson's trichrome staining revealed that the greatest infarct size was in the infarct group (7.0% ± 2.2%), where unseeded (3.8% ± 0.6%) and hMSC-seeded (3.7% ± 0.8%) suture groups maintained similar infarct sizes. Furthermore, the remaining suture area was significantly decreased in the unseeded group compared with that in the hMSC-seeded group (p < 0.05). This study demonstrated that hMSC-seeded biological sutures are a method to deliver cells to the infarcted myocardium and have treatment potential.

Published
2016
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22. Synthesis, structure-activity relationship and biological evaluation of novel nitrogen mustard sophoridinic acid derivatives as potential anticancer agents.

Author

Li DD, Dai LL, Zhang N, and Tao ZW

Subjects
Antineoplastic Agents chemistry, Cell Proliferation drug effects, Dose-Response Relationship, Drug, Drug Screening Assays, Antitumor, Hep G2 Cells, Humans, Molecular Docking Simulation, Molecular Structure, Nitrogen Mustard Compounds chemical synthesis, Nitrogen Mustard Compounds chemistry, Structure-Activity Relationship, Antineoplastic Agents chemical synthesis, Antineoplastic Agents pharmacology, Nitrogen Mustard Compounds pharmacology
Abstract

A series of novel nitrogen mustard sophoridinic acid derivatives were designed, synthesized and evaluated for their cytotoxicity. Of the newly synthesized compounds, compound 6 exhibited a potent effect against hepatocellular carcinoma in vitro and in vivo. SAR analysis indicated that introduction of a nitrogen mustard group to the structure of sophoridinic acid significantly enhance the antitumor activity. Moreover, molecular docking study exhibited benzyl group introduced to the nitrogen atom at the 12-position and aryl nitrogen mustard group at the 4'-carboxyl region for compound 6 were beneficial for the higher anticancer activity. This work provides useful information for further structural modifications of these compounds and for the synthesis of new, potent antitumor agents., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
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23. Establishing the Framework for Tissue Engineered Heart Pumps.

Author

Mohamed MA, Hogan MK, Patel NM, Tao ZW, Gutierrez L, and Birla RK

Subjects
Animals, Cells, Cultured, Models, Cardiovascular, Myocytes, Cardiac cytology, Rats, Rats, Sprague-Dawley, Heart physiology, Heart, Artificial, Myocytes, Cardiac physiology, Tissue Engineering methods, Tissue Scaffolds
Abstract

Development of a natural alternative to cardiac assist devices (CADs) will pave the way to a heart failure therapy which overcomes the disadvantages of current mechanical devices. This work provides the framework for fabrication of a tissue engineered heart pump (TEHP). Artificial heart muscle (AHM) was first fabricated by culturing 4 million rat neonatal cardiac cells on the surface of a fibrin gel. To form a TEHP, AHM was wrapped around an acellular goat carotid artery (GCA) and a chitosan hollow cylinder (CHC) scaffold with either the cardiac cells directly contacting the construct periphery or separated by the fibrin gel. Histology revealed the presence of cardiac cell layer cohesion and adhesion to the fibrin gel scaffold, acellular GCA, and synthesized CHC. Expression of myocytes markers, connexin43 and α-actinin, was also noted. Biopotential measurements revealed the presence of ~2.5 Hz rhythmic propagation of action potential throughout the TEHP. Degradation of the fibrin gel scaffold of the AHM via endogenous proteases may be used as a means of delivering the cardiac cells to cylindrical scaffolds. Further development of the TEHP model by use of multi-stimulus bioreactors may lead to the application of bioengineered CADs.

Published
2015
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24. Establishing the Framework for Fabrication of a Bioartificial Heart.

Author

Tao ZW, Mohamed M, Hogan M, Salazar B, Patel NM, and Birla RK

Subjects
Animals, Disease Models, Animal, Myocytes, Cardiac, Rats, Rats, Sprague-Dawley, Tissue Scaffolds, Heart, Tissue Engineering methods
Abstract

There is a chronic shortage of donor hearts. The ability to fabricate complete bioartificial hearts (BAHs) may be an alternative solution. The current study describes a method to support the fabrication and culture of BAHs. Rat hearts were isolated and subjected to a detergent based decellularization protocol to remove all cellular components, leaving behind an intact extracellular matrix. Primary cardiac cells were isolated from neonatal rat hearts, and direct cell transplantation was used to populate the acellular scaffolds. Bioartificial hearts were maintained in a custom fabrication gravity fed perfusion culture system to support media delivery. The functional performance of BAHs was assessed based on left ventricle pressure and on electrocardiogram. Furthermore, BAHs were sectioned and stained for the whole heart cardiac tissue distribution and for cardiac molecules, such as α-actinin, cardiac troponin I, collagen type I, connexin 43, von Willebrand factor, and ki67. Bioartificial hearts replicated a partial subset of properties of natural rat hearts. The current study provided a method for fabrication of a BAH and revealed challenges toward BAH fabrication with functional performance metrics of natural mammalian hearts.

Published
2015
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25. Establishing the framework to support bioartificial heart fabrication using fibrin-based three-dimensional artificial heart muscle.

Author

Hogan M, Mohamed M, Tao ZW, Gutierrez L, and Birla R

Subjects
Animals, Cells, Cultured, Humans, Myocardium chemistry, Rats, Rats, Sprague-Dawley, Bioprosthesis, Fibrin chemistry, Myocardium cytology, Myocytes, Cardiac cytology, Tissue Engineering methods, Tissue Scaffolds chemistry
Abstract

Only 3000 heart transplants are performed in the USA every year, leaving some 30 000-70 000 Americans without proper care. Current treatment modalities for heart failure have saved many lives yet still do not correct the underlying problems of congestive heart failure. Tissue engineering represents a potential field of study wherein a combination of cells, scaffolds, and/or bioreactors can be utilized to create constructs to mimic, replace, and/or repair defective tissue. The focus of this study was to generate a bioartificial heart (BAH) model using artificial heart muscle (AHM), composed of fibrin gel and neonatal rat cardiac myocytes, and a decellularized scaffold, formed by subjecting an adult rat heart to a series of decellularization solutions. By suturing the AHM around the outside of the decellularized heart and culturing while suspended in media, we were able to retain functional cardiac cells on the scaffold as evinced by visible contractility. Observed contractility rate was correlated with biopotential measurements to confirm essential functionality of cardiac constructs. Cross-sections of the BAH show successful decellularization of the scaffold and contiguous cell-rich AHM around the perimeter of the heart., (Copyright © 2014 International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc.)

Published
2015
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26. Polyanthumin, a novel cyclobutane chalcone trimmer from Memecylon polyanthum.

Author

Chen G, Cui CB, Qi AD, Li CW, Tao ZW, and Ren R

Subjects
Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Benzofurans isolation & purification, Chalcone chemistry, Chalcone pharmacology, Chalcones, Cyclobutanes chemistry, Cyclobutanes pharmacology, Drug Screening Assays, Antitumor, Drugs, Chinese Herbal chemistry, Drugs, Chinese Herbal pharmacology, Electron Spin Resonance Spectroscopy, Flavonoids isolation & purification, Gallic Acid analogs & derivatives, Gallic Acid isolation & purification, Humans, K562 Cells, Molecular Structure, Plant Stems chemistry, Stereoisomerism, Antineoplastic Agents isolation & purification, Chalcone isolation & purification, Cyclobutanes isolation & purification, Drugs, Chinese Herbal isolation & purification, Melastomataceae chemistry
Abstract

A novel unusual trimmer chalcone, polyanthumin (1), together with five known compounds myricetin 3-O-(3″-O-galloyl)-α-l-rhamnopyranoside (2), sulfuretin (3), fustin (4), gallic acid (5), and ethyl gallate (6), was isolated from the dry stems of Memecylon polyanthum H.L. Li. Among them, compound 1 is a new chalcone trimmer with a novel cyclobutane skeleton in nature. Compounds 3 and 4 are flavonoids carrying a single 7-OH in A ring, which provided the first example of these class flavonoids from the family Melastomataceae. In addition, the antitumor activities for 2-4 were reported for the first time in this study. The antitumor effects of the isolated compounds 1-6 in vitro were assayed by the SRB method using human cancer K562 cells, with the inhibition rates ranging from 39.4% to 54.5% at 100 μg/ml. The IC50 values of compounds 1 and 3 for the inhibition of K562 cell proliferation were determined to be 45.4 and 30.5 μg/ml, respectively. To the best of our knowledge, compound 1 was the second sample as chalcone trimer. In addition, the antitumor activities for 2-4 were reported for the first time in this study.

Published
2015
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27. Engineering 3D bio-artificial heart muscle: the acellular ventricular extracellular matrix model.

Author

Patel NM, Tao ZW, Mohamed MA, Hogan MK, Gutierrez L, and Birla RK

Subjects
Animals, Bioprosthesis, Cell Culture Techniques, Heart Ventricles cytology, Myocardial Contraction, Rats, Regeneration, Tissue Scaffolds, Ventricular Function, Extracellular Matrix physiology, Heart, Artificial, Myocytes, Cardiac cytology, Myocytes, Cardiac physiology, Tissue Engineering methods
Abstract

Current therapies in left ventricular systolic dysfunction and end-stage heart failure include mechanical assist devices or transplant. The development of a tissue-engineered integrative platform would present a therapeutic option that overcomes the limitations associated with current treatment modalities. This study provides a foundation for the fabrication and preliminary viability of the acellular ventricular extracellular matrix (AVEM) model. Acellular ventricular extracellular matrix was fabricated by culturing 4 million rat neonatal cardiac cells around an excised acellular ventricular segment. Acellular ventricular extracellular matrix generated a maximum spontaneous contractile force of 388.3 μN and demonstrated a Frank-Starling relationship at varying pretensions. Histologic assessment displayed cell cohesion and adhesion within the AVEM as a result of passive cell seeding.

Published
2015
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28. A correlation between acute kidney injury and myonecrosis after scheduled percutaneous coronary intervention.

Author

Zhang M, Meng HY, Zhao YM, Tao ZW, Gong XX, Wang ZM, Chen B, Tao ZX, Li CJ, Zhu TB, Wang LS, and Yang ZJ

Subjects
Acute Coronary Syndrome blood, Acute Coronary Syndrome complications, Acute Coronary Syndrome therapy, Acute Kidney Injury blood, Acute Kidney Injury physiopathology, Aged, Albuminuria complications, Contrast Media adverse effects, Creatinine blood, Female, Humans, Logistic Models, Male, Middle Aged, Necrosis, Prospective Studies, Risk Factors, Troponin I blood, Troponin T blood, Acute Kidney Injury etiology, Myocardium pathology, Percutaneous Coronary Intervention adverse effects
Abstract

Slight elevations in cardiac troponin I and T are frequently observed after percutaneous coronary intervention (PCI). Contrast-induced acute kidney injury (CI-AKI) is a complex syndrome induced by exposure to intravascular contrast media (CM). Currently, the relationships between the CM, pre-existing kidney insufficiency, CI-AKI, and myonecrosis after elective PCI are unclear. To investigate the relationship between CI-AKI and post-procedural myonecrosis (PMN) after PCI, we analyzed 327 non-ST-segment elevation acute coronary syndrome subjects undertaking elective PCI. The levels of cardiac troponins (cTns), cTnI and cTnT, at baseline and on at least one occasion 18-24 h after PCI were measured. We also recorded serum levels of creatinine (SCr) and the urine albumin:creatinine ratio (ACR) before coronary angiography, and 24-48 h and 48-72 h after contrast administration. A post-procedure increase in cTns was detected in 16.21% (53/327) of subjects with cTns levels >99th to 5×99th percentile upper reference limit (URL). Twenty-seven patients (8.26%) developed CI-AKI. CI-AKI occurred more often in subjects with PMN than in those without PMN (20.8% versus 5.8%, respectively, P=0.001). Multiple logistic regression analysis revealed that pre-existing microalbuminuria (MA) was an important independent predictor of PMN (OR: 3.31; 95% CI: 1.26-8.65, P=0.01). However, there was no correlation between the incidence of CI-AKI and PMN (OR: 2.38; 95% CI: 0.88-6.46, P=0.09). We conclude that pre-existing MA was not only an important independent predictor of CI-AKI but also of PMN.

Published
2013
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29. A novel suture-based method for efficient transplantation of stem cells.

Author

Guyette JP, Fakharzadeh M, Burford EJ, Tao ZW, Pins GD, Rolle MW, and Gaudette GR

Subjects
Animals, Humans, Mesenchymal Stem Cell Transplantation instrumentation, Rats, Rats, Sprague-Dawley, Transplantation, Heterologous, Heart Ventricles metabolism, Mesenchymal Stem Cell Transplantation methods, Mesenchymal Stem Cells metabolism, Myocardium metabolism, Sutures
Abstract

Advances in regenerative medicine have improved the potential of using cellular therapy for treating several diseases. However, the effectiveness of new cellular therapies is largely limited by low cell engraftment and inadequate localization. To improve on these limitations, we developed a novel delivery mechanism using cell-seeded biological sutures. We demonstrate the ability of cell-seeded biological sutures to efficiently implant human mesenchymal stem cells (hMSCs) to specific regions within the beating heart; a tissue known to have low cell retention and engraftment shortly after delivery. Cell-seeded biological sutures were developed by bundling discrete microthreads extruded from extracellular matrix proteins, attaching a surgical needle to the bundle and seeding the bundle with hMSCs. During cell preparation, hMSCs were loaded with quantum dot nanoparticles for cell tracking within the myocardium. Each biological suture contained an average of 5903 ± 1966 hMSCs/cm suture length. Delivery efficiency was evaluated by comparing cell-seeded biological suture implantation with intramyocardial (IM) cell injections (10,000 hMSCs in 35 μL) into the left ventricle of normal, noninfarcted rat hearts after 1 h. Delivery efficiency of hMSCs by biological sutures (63.6 ± 10.6%) was significantly higher than IM injection (11.8 ± 6.2%; p < 0.05). Cell-tracking analysis indicated suture-delivered hMSCs were found throughout the thickness of the ventricular myocardium: along the entire length of the biological suture track, localizing closely with native myocardium. These results suggest cell-seeded biological sutures can deliver cells to the heart more efficiently than conventional methods, demonstrating an effective delivery method for implanting cells in soft tissue., (Copyright © 2012 Wiley Periodicals, Inc.)

Published
2013
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30. Growth factors induce the improved cardiac remodeling in autologous mesenchymal stem cell-implanted failing rat hearts.

Author

Tao ZW, Li LG, Geng ZH, Dang T, and Zhu SJ

Subjects
Animals, Cell Separation, Collagen metabolism, Heart Failure metabolism, Hepatocyte Growth Factor metabolism, Insulin-Like Growth Factor I metabolism, Male, Myocardium pathology, Rats, Rats, Sprague-Dawley, Vascular Endothelial Growth Factor A metabolism, Heart physiology, Intercellular Signaling Peptides and Proteins metabolism, Mesenchymal Stem Cells cytology, Myocardium metabolism, Ventricular Remodeling
Abstract

Therapeutically delivered mesenchymal stem cells (MSCs) improve ventricular remodeling. However, the mechanism underlying MSC cardiac remodeling has not been clearly determined. Congestive heart failure (CHF) was induced in rats by cauterization of the left ventricular free wall. MSCs were cultured from autologous bone marrow and injected into the border zone and the remote myocardium 5 d after injury. Ten weeks later, when compared with sham operation, CHF significantly increased nucleus mitotic index, capillary density, and expression of insulin-like growth factor 1, hepatocyte growth factor and vascular endothelial growth factor in the border zone (P<0.01) and decreased each of them in the remote myocardium (P<0.05 or P<0.01). MSC implantation in CHF dramatically elevated expression of these growth factors in the remote myocardium and further elevated their expression in the border zone when compared with CHF without MSC addition (P<0.05 or P<0.01). This was paralleled by a higher nucleus mitotic index and a significantly increased capillary density both in the remote myocardium and in the border zone, and by a lower percentage of area of collagen and a higher percentage of area of myocardium in the border zone (P<0.05 or P<0.01), and cardiac remodeling markedly improved. Autologous MSC implantation promoted expression of growth factors in rat failing myocardium, which might enhance cardiomyogenesis and angiogenesis, and improved cardiac remodeling.

Published
2010
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31. [Autologous mesenchymal stem cell implantation promotes myocardial expressions of growth factors and improves cardiac function in failing rat hearts].

Author

Tao ZW, Li LG, Geng ZH, Song MB, Zheng JR, Yu SY, Dang T, Kang HL, and Zhu SJ

Subjects
Animals, Disease Models, Animal, Hepatocyte Growth Factor metabolism, Insulin-Like Growth Factor I metabolism, Male, Rats, Rats, Sprague-Dawley, Transplantation, Autologous, Vascular Endothelial Growth Factor A metabolism, Ventricular Remodeling, Heart Failure metabolism, Heart Failure therapy, Mesenchymal Stem Cell Transplantation, Myocardium metabolism
Abstract

Objective: To explore the underlying mechanism of mesenchymal stem cells (MSCs) transfer induced cardiac function improvement in failing hearts., Methods: Congestive heart failure (CHF) was induced in rats by cauterization of the heart wall. MSCs were cultured from autologous bone marrow and injected into the border zone and the remote myocardium 5 days after cauterization., Results: Ten weeks later, cardiomyocyte nucleus mitotic index, capillary density and expression of insulin-like growth factor 1 (IGF-1), hepatocyte growth factor (HGF) and vascular endothelial growth factor (VEGF) were significantly increased in the border zone and significantly reduced in the remote myocardium in CHF rats (all P<0.05 vs. sham). Besides cardiac function improvement and left ventricular remodeling attenuation evidenced by hemodynamic and echocardiographic examinations, expressions of IGF-1, HGF and VEGF in the remote myocardium and in the border zone were also significantly upregulated (P<0.05 or P<0.01 vs. CHF), and cardiomyocyte nucleus mitotic index as well as capillary density were significantly increased in CHF rats with MSCs (P<0.05 or P<0.01 vs. CHF). Moreover, collagen area was significantly reduced and myocardial area was significantly increased in the border zone in these rats too., Conclusion: Autologous MSC implantation upregulated expressions of growth factors enhanced cardioangiogenesis which might be the underlying mechanisms for improved cardiac function and attenuated left ventricular remodeling induced by MSCs transplantation in failing rat myocardium.

Published
2009

32. Cell therapy in congestive heart failure.

Author

Tao ZW and Li LG

Subjects
Animals, Clinical Trials as Topic trends, Humans, Mesenchymal Stem Cell Transplantation trends, Practice Guidelines as Topic, Practice Patterns, Physicians' trends, Heart Failure pathology, Heart Failure surgery, Mesenchymal Stem Cell Transplantation methods, Myocytes, Cardiac transplantation
Abstract

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 animal 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.

Published
2007
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33. Combined effects of ramipril and angiotensin II receptor blocker TCV116 on rat congestive heart failure after myocardial infarction.

Author

Tao ZW, Huang YW, Xia Q, and Xu QW

Subjects
Animals, Blood Pressure drug effects, Drug Therapy, Combination, Heart Failure pathology, Heart Failure physiopathology, Male, Myocardium pathology, Rats, Rats, Sprague-Dawley, Ventricular Function, Left drug effects, Angiotensin-Converting Enzyme Inhibitors administration & dosage, Benzimidazoles administration & dosage, Biphenyl Compounds administration & dosage, Heart Failure drug therapy, Myocardial Infarction complications, Ramipril administration & dosage, Receptor, Angiotensin, Type 1 drug effects, Tetrazoles administration & dosage
Abstract

Background: Congestive heart failure (CHF) is a major cause of morbidity and mortality worldwide and angiotensin converting-enzyme inhibitor (ACEI) is the cornerstone in its treatment. However, CHF continues to progress despite this therapy, perhaps because of production of angiotensin II (Ang II) by alternative pathways. The present study was conducted to examine the combined effects of a chronic ACEI, ramipril, and a chronic Ang II type 1 receptor blocker, TCV116, on rat CHF after myocardial infarction (MI)., Methods: Congestive heart failure was caused by MI in rats, which was induced by ligating the left anterior descending coronary artery. The experiment protocol included sham-operated rats (Sham), MI-control rats (MI-control), MI rats treated with ramipril 3 mg/kg (MI-ramipril) or TCV116 2 mg/kg (MI-TCV116) per day, half dosage (MI-1/2R&T) or full dosage (MI-R&T) combination of the two. At 22 weeks, cardiac hemodynamic parameters such as mean arterial pressure (MAP), left ventricular systolic pressure (LVSP), maximal rate of left ventricule pressure development and decline (LV dP/dtmax) and left ventricular end diastolic pressure (LVEDP), and cardiac morphometric parameters such as heart weight (HW), left ventricular weight (LVW) and left ventricular cavity area (LVCA) were measured, mRNA expressions of cardiac molecule genes such as beta myosin heavy chain (betaMHC), B-type natriuretic peptide (BNP), transforming growth factor-beta1 (TGF-beta1), collagen I and III were quantified with reverse transcription polymerase chain reaction (RT-PCR) in the surviving septum myocardium, and survival rates were calculated., Results: There were no significant differences in MI sizes (%) among each MI related experimental groups (33 +/- 13, 34 +/- 14, 33 +/- 13, 35 +/- 13 and 33 +/- 14 for MI-control, MI-ramipril, MI-TCV116, MI-1/2R&T and MI-R&T, respectively, no statistical significance for all). Compared with sham-operated rats, MI rats without therapy showed significant increases in morphometric parameters as well as in mRNA expressions of cardiac molecule genes (P < 0.01); while their hemodynamic parameters were significantly impaired (P < 0.01), and in terms of spontaneous deaths survival rate shortened (P < 0.05). Compared with MI rats without therapy, MI rats treated with each single drug showed significant attenuation of mRNA expressions of cardiac molecule genes (P < 0.01); while their hemodynamic parameters were significantly improved (P < 0.05 or P < 0.01), and in terms of spontaneous deaths survival rate prolonged (P < 0.05). Both half and full dosage combined treatments exerted more powerful effects on improvement of cardiac phenotypic changes and on attenuation of betaMHC, BNP mRNA expressions (P < 0.05 vs monotherapy); while LVEDP was further lowered (P < 0.05 vs monotherapy). However, the total death in MI rats with full dosage combined treatment was more though there were no significant differences when compared with other treatments., Conclusions: The results suggest that treatment with appropriate dosage combination of a chronic ACEI and a chronic ARB may further improve cardiac remodeling and cardiac function after MI.

Published
2005

34. [Long-term effects of TCV116 on cardiac function changes after myocardial infarction].

Author

Tao ZW, Wang YW, and Wang Y

Subjects
Animals, Benzimidazoles administration & dosage, Biphenyl Compounds administration & dosage, Heart Failure etiology, Heart Failure physiopathology, Male, Myocardium metabolism, Random Allocation, Rats, Rats, Sprague-Dawley, Receptor, Angiotensin, Type 2 administration & dosage, Tetrazoles administration & dosage, Ventricular Myosins metabolism, Ventricular Remodeling drug effects, Angiotensin II Type 2 Receptor Blockers, Benzimidazoles pharmacology, Biphenyl Compounds pharmacology, Heart Failure drug therapy, Myocardial Infarction complications, Tetrazoles pharmacology, Ventricular Function, Left drug effects
Abstract

Objective: To investigate the long-term effects of TCV116 (candesartan cilexetil) on cardiac function changes after myocardial infarction., Methods: Myocardial infarction (MI) was induced by ligation of the left anterior descending coronary artery in rats. One week after the surgical performance,the surviving rats were randomly assigned to the following treatment groups: (1) MI rats with no therapy; (2) MI rats treated with TCV116 2 mg/kg per day; (3) Sham-operated control and (4) Sham-operated rats treated with TCV116 2 mg/kg per day. At 22 weeks, left ventricular function and cardiac histomorphometric parameters were measured, mRNA expression of cardiac genes such as beta myosin heavy chain, B-type natriuretic peptide, transforming growth factor beta1, collagen I and III quantified, and survival rates calculated., Results: Treatment with TCV116 significantly improved LV function, suppressed mRNA expression of cardiac genes,and extended the survival period compared with MI rats with no therapy (P<0.05)., Conclusion: Treatment with long-term angiotensin II type 1 receptor blocker may improve LV function and prolong the survival of rats after MI.

Published
2004
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35. Early association of electrocardiogram alteration with infarct size and cardiac function after myocardial infarction.

Author

Tao ZW, Huang YW, Xia Q, Fu J, Zhao ZH, Lu X, and Bruce IC

Subjects
Animals, Echocardiography, Hemodynamics, Male, Myocardium pathology, Rats, Rats, Sprague-Dawley, Ventricular Dysfunction, Left pathology, Ventricular Dysfunction, Left physiopathology, Electrocardiography, Myocardial Infarction pathology, Myocardial Infarction physiopathology
Abstract

Objective: Myocardial infarction (MI) is the main cause of heart failure, but the relationship between the extent of MI and cardiac function has not been clearly determined. The present study was undertaken to investigate early changes in the electrocardiogram associated with infarct size and cardiac function after MI., Methods: MI was induced by ligating the left anterior descending coronary artery in rats. Electrocardiograms, echocardiographs and hemodynamic parameters were assessed and myocardial infarct size was measured from mid-transverse sections stained with Masson's trichrome., Results: The sum of pathological Q wave amplitudes was strongly correlated with myocardial infarct size (r = 0.920, P < 0.0001), left ventricular ejection fraction (r = -0.868, P < 0.0001) and left ventricular end diastolic pressure (r = 0.835, P < 0.0004). Furthermore, there was close relationship between MI size and cardiac function as assessed by left ventricular ejection fraction (r = -0.913, P < 0.0001) and left ventricular end diastolic pressure (r = 0.893, P < 0.0001)., Conclusion: The sum of pathological Q wave amplitudes after MI can be used to estimate the extent of MI as well as cardiac function.

Published
2004
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36. Attenuation of myocardial injury due to oxygen free radicals (OFR) by pretreatment with OFR or calcitonin gene-related peptide.

Author

Tao ZW, Li YJ, and Deng HW

Subjects
Animals, Coronary Circulation drug effects, Creatine Kinase metabolism, Female, Free Radicals, In Vitro Techniques, Ischemic Preconditioning, Myocardial, Male, Protein Kinase C antagonists & inhibitors, Rats, Rats, Wistar, 1-(5-Isoquinolinesulfonyl)-2-Methylpiperazine pharmacology, Calcitonin Gene-Related Peptide pharmacology, Myocardial Contraction drug effects, Oxygen metabolism
Abstract

Aim: To study the cardioprotective effects of oxygen free radicals (OFR) and calcitonin gene-related peptide (OGRP) pretreatment on myocardial damages due to OFR in isolated perfused rat heart., Methods: The hearts were perfused in a Langendorff mode. OFR were generated by electrolysis of Krebs-Henseleit (K-H) solution., Results: OFR pretreatment reduced the impairment of cardiac contractile function, the decrease of coronary flow and the increase of creatinine kinase (CK) release due to OFR, and the effect exhibited period dependence and cycle-dependence. 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), an inhibitor of protein kinase C, abolished the protection of OFR pretreatment (CK release = 110 +/- 7, 215 +/- 23, 169 +/- 14, 240 +/- 30, and 113 +/- 19 kU.L-1 for control, OFR, OFR pretreatment, OFR pretreatment plus H-7, and H-7, respectively). CGRP pretreatment also protected the myocardium damages elicited by OFR in isolated perfused rat heart., Conclusions: OFR or CGRP pretreatment protected myocardium against injury elicited by OFR, and the effect of OFR pretreatment was related to the activation of PKC.

Published
1997

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