Scott D. Lick scite author profile

The authors have previously shown that acellular (AC) trachea-lung scaffolds can (1) be produced from natural rat lungs, (2) retain critical components of the extracellular matrix (ECM) such as collagen-1 and elastin, and (3) be used to produce lung tissue after recellularization with murine embryonic stem cells. The aim of this study was to produce large (porcine or human) AC lung scaffolds to determine the feasibility of producing scaffolds with potential clinical applicability. We report here the first attempt to produce AC pig or human trachea-lung scaffold. Using a combination of freezing and sodium dodecyl sulfate washes, pig trachea-lungs and human trachea-lungs were decellularized. Once decellularization was complete we evaluated the structural integrity of the AC lung scaffolds using bronchoscopy, multiphoton microscopy (MPM), assessment of the ECM utilizing immunocytochemistry and evaluation of mechanics through the use of pulmonary function tests (PFTs). Immunocytochemistry indicated that there was loss of collagen type IV and laminin in the AC lung scaffold, but retention of collagen-1, elastin, and fibronectin in some regions. MPM scoring was also used to examine the AC lung scaffold ECM structure and to evaluate the amount of collagen I in normal and AC lung. MPM was used to examine the physical arrangement of collagen-1 and elastin in the pleura, distal lung, lung borders, and trachea or bronchi. MPM and bronchoscopy of trachea and lung tissues showed that no cells or cell debris remained in the AC scaffolds. PFT measurements of the trachea-lungs showed no relevant differences in peak pressure, dynamic or static compliance, and a nonrestricted flow pattern in AC compared to normal lungs. Although there were changes in content of collagen I and elastin this did not affect the mechanics of lung function as evidenced by normal PFT values. When repopulated with a variety of stem or adult cells including human adult primary alveolar epithelial type II cells both pig and human AC scaffolds supported cell attachment and cell viability. Examination of scaffolds produced using a variety of detergents indicated that detergent choice influenced human immune response in terms of T cell activation and chemokine production.

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Postischemic Recovery of Contractile Function is Impaired in SOD2 ^+/− but Not SOD1 ^+/− Mouse Hearts

Asimakis¹,

Lick²,

Patterson³

2002

Circulation

117

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Background-Reactive oxygen species (ROS) contribute to myocardial stunning. Superoxide dismutase (SOD) is a major defense mechanism against ROS. The purpose of this study was to evaluate the contributions of cytosolic (SOD1) and mitochondrial (SOD2) isoforms to protect against myocardial stunning. Methods and Results-Isolated hearts from wild-type, heterozygous (ϩ/Ϫ) SOD1 and SOD2 knockout mice received 30 minutes of ischemia followed by 60 minutes of reperfusion. After 60 minutes of reperfusion, the heart rate multiplied by the developed pressure (HRϫDP) in the wild-type and SOD1 ϩ/Ϫ hearts recovered to 92Ϯ9 and 85Ϯ7 of preischemic baseline values, respectively (PϭNS). In contrast, the HRϫDP was significantly lower (63Ϯ7%) in the SOD2 ϩ/Ϫ hearts compared with the wild-type hearts. Western blot analysis and enzymatic activity of tissue lysates confirmed reduction of activities of specific SOD isoforms without compensatory increase in the other isoform in the knockout animals studied. Conclusions-Postischemic functional recovery is more sensitive to a partial deficiency of SOD2 than a partial deficiency of SOD1. Therefore, modulation of the mitochondrial SOD isoform is a critical determinant in the tolerance of the heart to oxidative stress.

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Clinical utilization and complications of sural nerve biopsy

Rappaport

Valente²,

Hunter³

et al. 1993

The American Journal of Surgery

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Glutathione-S-transferase A4-4 modulates oxidative stress in endothelium: possible role in human atherosclerosis

Yang

Trent

et al. 2004

Atherosclerosis

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Development of an Implantable Artificial Lung: Challenges and Progress

Zwischenberger

Anderson

Cook³

et al. 2001

ASAIO Journal

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Unlike dialysis, which functions as a bridge to renal transplantation, or a ventricular assist device, which serves as a bridge to cardiac transplantation, no suitable bridge to lung transplantation exists. Our goal is to design and build an ambulatory artificial lung that can be perfused entirely by the right ventricle and completely support the metabolic O2 and CO2 requirements of an adult. Such a device could realize a substantial clinical impact as a bridge to lung transplantation, as a support device immediately post-lung transplant, and as a rescue and/or supplement to mechanical ventilation during the treatment of severe respiratory failure. Research on the artificial lung has focused on the design, mode of attachment to the pulmonary circulation, and intracorporeal versus paracorporeal placement of the device.

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Scott D. Lick

Production and Assessment of Decellularized Pig and Human Lung Scaffolds

Postischemic Recovery of Contractile Function is Impaired in SOD2 ^+/− but Not SOD1 ^+/− Mouse Hearts

Clinical utilization and complications of sural nerve biopsy

Glutathione-S-transferase A4-4 modulates oxidative stress in endothelium: possible role in human atherosclerosis

Development of an Implantable Artificial Lung: Challenges and Progress

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Scott D. Lick

Production and Assessment of Decellularized Pig and Human Lung Scaffolds

Postischemic Recovery of Contractile Function is Impaired in SOD2 +/− but Not SOD1 +/− Mouse Hearts

Clinical utilization and complications of sural nerve biopsy

Glutathione-S-transferase A4-4 modulates oxidative stress in endothelium: possible role in human atherosclerosis

Development of an Implantable Artificial Lung: Challenges and Progress

Contact Info

Product

Resources

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Postischemic Recovery of Contractile Function is Impaired in SOD2 ^+/− but Not SOD1 ^+/− Mouse Hearts