Browsing by Author "Wang, I-Wen"
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Item Bone marrow- or adipose-mesenchymal stromal cell secretome preserves myocardial transcriptome profile and ameliorates cardiac damage following ex vivo cold storage(Elsevier, 2022) Scott, Susan R.; March, Keith L.; Wang, I-Wen; Singh, Kanhaiya; Liu, Jianyun; Turrentin, Mark; Sen, Chandan K.; Wang, Meijing; Surgery, School of MedicineBackground: Heart transplantation, a life-saving approach for patients with end-stage heart disease, is limited by shortage of donor organs. While prolonged storage provides more organs, it increases the extent of ischemia. Therefore, we seek to understand molecular mechanisms underlying pathophysiological changes of donor hearts during prolonged storage. Additionally, considering mesenchymal stromal cell (MSC)-derived paracrine protection, we aim to test if MSC secretome preserves myocardial transcriptome profile and whether MSC secretome from a certain source provides the optimal protection in donor hearts during cold storage. Methods and results: Isolated mouse hearts were divided into: no cold storage (control), 6 h cold storage (6 h-I), 6 h-I + conditioned media from bone marrow MSCs (BM-MSC CM), and 6 h-I + adipose-MSC CM (Ad-MSC CM). Deep RNA sequencing analysis revealed that compared to control, 6 h-I led to 266 differentially expressed genes, many of which were implicated in modulating mitochondrial performance, oxidative stress response, myocardial function, and apoptosis. BM-MSC CM and Ad-MSC CM restored these gene expression towards control. They also improved 6 h-I-induced myocardial functional depression, reduced inflammatory cytokine production, decreased apoptosis, and reduced myocardial H2O2. However, neither MSC-exosomes nor exosome-depleted CM recapitulated MSC CM-ameliorated apoptosis and CM-improved mitochondrial preservation during cold ischemia. Knockdown of Per2 by specific siRNA abolished MSC CM-mediated these protective effects in cardiomyocytes following 6 h cold storage. Conclusions: Our results demonstrated that using MSC secretome (BM-MSCs and Ad-MSCs) during prolonged cold storage confers preservation of the normal transcriptional "fingerprint", and reduces donor heart damage. MSC-released soluble factors and exosomes may synergistically act for donor heart protection.Item Structured review of post-cardiotomy extracorporeal membrane oxygenation: part 1 - Adult patients(Elsevier, 2019-11) Lorusso, Roberto; Raffa, Giuseppe Maria; Alenizy, Khalid; Sluijpers, Niels; Makhoul, Maged; Brodie, Daniel; McMullan, Mike; Wang, I-Wen; Meani, Paolo; MacLaren, Graeme; Kowalewski, Mariusz; Dalton, Heidi; Barbaro, Ryan; Hou, Xao-Tung; Cavarocchi, Nicholas; Chen, Yih-Sharng; Thiagarajan, Ravi; Alexander, Peta; Alsoufi, Bahaaldin; Bermudez, Christian A.; Shah, Ashish S.; Haft, Jonathan; D’Alessandro, David A.; Boeken, Udo; Whitman, Glenn J.R.; Medicine, School of MedicineCardiogenic shock, cardiac arrest, acute respiratory failure, or a combination of such events, are all potential complications after cardiac surgery which lead to high mortality. Use of extracorporeal temporary cardio-circulatory and respiratory support for progressive clinical deterioration can facilitate bridging the patient to recovery or to more durable support. Over the last decade, extracorporeal membrane oxygenation (ECMO) has emerged as the preferred temporary artificial support system in such circumstances. Many factors have contributed to widespread ECMO use, including the relative ease of implantation, effectiveness, versatility, low cost relative to alternative devices, and potential for full, not just partial circulatory support. While there have been numerous publications detailing the short and midterm outcomes of ECMO support, specific reports about post-cardiotomy ECMO (PC-ECMO), are limited, single-center experiences. Etiology of cardiorespiratory failure leading to ECMO implantation, associated ECMO complications, and overall patient outcomes may be unique to the PC-ECMO population. Despite the rise in PC-ECMO use over the past decade, short-term survival has not improved. This report, therefore, aims to present a comprehensive overview of the literature with respect to the prevalence of ECMO use, patient characteristics, ECMO management, and in-hospital and early post-discharge patient outcomes for those treated for post-cardiotomy heart, lung, or heart-lung failure.Item Structured review of post-cardiotomy extracorporeal membrane oxygenation: Part 2—pediatric patients(Elsevier, 2019) Lorusso, Roberto; Raffa, Giuseppe Maria; Kowalewski, Mariusz; Alenizy, Khalid; Sluijpers, Niels; Makhoul, Maged; Brodie, Daniel; McMullan, Mike; Wang, I-Wen; Meani, Paolo; MacLaren, Graeme; Dalton, Heidi; Barbaro, Ryan; Hou, Xaotong; Cavarocchi, Nicholas; Chen, Yih-Sharng; Thiagarajan, Ravi; Alexander, Peta; Alsoufi, Bahaaldin; Bermudez, Christian A.; Shah, Ashish S.; Haft, Jonathan; Oreto, Lilia; D’Alessandro, David A.; Boeken, Udo; Whitman, Glenn; Surgery, School of MedicineVeno-arterial extracorporeal membrane oxygenation (ECMO) is established therapy for short-term circulatory support for children with life-treating cardiorespiratory dysfunction. In children with congenital heart disease (CHD), ECMO is commonly used to support patients with post-cardiotomy shock or complications including intractable arrhythmias, cardiac arrest, and acute respiratory failure. Cannulation configurations include central, when the right atrium and aorta are utilized in patients with recent sternotomy, or peripheral, when cannulation of the neck or femoral vessels are used in non-operative patients. ECMO can be used to support any form of cardiac disease, including univentricular palliated circulation. Although veno-arterial ECMO is commonly used to support children with CHD, veno-venous ECMO has been used in selected patients with hypoxemia or ventilatory failure in the presence of good cardiac function. ECMO use and outcomes in the CHD population are mainly informed by single-center studies and reports from collated registry data. Significant knowledge gaps remain, including optimal patient selection, timing of ECMO deployment, duration of support, anti-coagulation, complications, and the impact of these factors on short- and long-term outcomes. This report, therefore, aims to present a comprehensive overview of the available literature informing patient selection, ECMO management, and in-hospital and early post-discharge outcomes in pediatric patients treated with ECMO for post-cardiotomy cardiorespiratory failure.Item Use of distal perfusion in peripheral extracorporeal membrane oxygenation(AME, 2017-03) Makdisi, George; Makdisi, Tony; Wang, I-Wen; Department of Medicine, IU School of MedicineExtra corporeal membrane oxygenation (ECMO) is a life-saving technique to manage refractory cardiopulmonary failure. Its usage and indication continue to increase. Femoral venoarterial ECMO (VA ECMO) is relatively less invasive and the cardiac support may be more rapidly instituted in in these extremely tenuous patients. Vascular injuries and limb ischemia unfortunately occur in these emergent access settings. Here we will discuss the optimal techniques of preventing this complication which might affect patient survival and impact the patient quality of life.Item Use of extracorporeal membranous oxygenator in transcatheter aortic valve replacement(AME, 2016-08) Makdisi, George; Makdisi, Peter B.; Wang, I-Wen; Department of Medicine, IU School of MedicineThe superiority of transcatheter aortic valve replacement (TAVR) compared with medical therapy for patients with aortic stenosis (AS) who are not suitable candidates for surgery had been proven. Cardiopulmonary bypass (CPB) is rarely used in TAVR. Reports of early use of extracorporeal membranous oxygenator (ECMO) have promising outcomes. ECMO offers the option of cardiac support rescue in case of intraoperative hemodynamic instability and can be instituted in advance when hemodynamic instability is expected. Here we review the English literature about the use of ECMO in TAVR procedures, and discuss the indications and rationale for its use as well as its advantages.