Natural Scaffolds for Regenerative Medicine: Direct Determination of Detergents Entrapped in Decellularized Heart Valves

Dettin, Monica; Zamuner, Annj; Naso, Filippo; Monteleone, Antonella; Spina, Michele; Gerosa, Gino

doi:10.1155/2017/9274135

Cited by 12 publications

(12 citation statements)

References 40 publications

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“…Consequently, a more comprehensive and exhaustive evaluation of acellular scaffolds is needed to ensure reproducibility, efficacy of cell removal, and maintenance of ECM integrity. To address these shortcomings, new techniques have been developed to test the mechanical properties of the scaffold (Den Hondt et al, ) and to measure the amount of decellularization reagents remaining after decellularization (Dettin et al, ). Knowledge of the critical micelle concentration of detergents (Stetsenko & Guskov, ) should aid in the development of standardized decellularization solutions that prevent micelle formation and thereby the risk of deleterious protein extraction.…”

Section: Translational Limitations Of Biological Scaffoldsmentioning

confidence: 99%

Limitations of recellularized biological scaffolds for human transplantation

Bilodeau

Goltsis

Rogers

et al. 2020

J Tissue Eng Regen Med

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A shortage of donor organs for transplantation and the dependence of the recipients on immunosuppressive therapy have motivated researchers to consider alternative regenerative approaches. The answer may reside in acellular scaffolds generated from cadaveric human and animal tissues. Acellular scaffolds are expected to preserve the architectural and mechanical properties of the original organ, permitting cell attachment, growth, and differentiation. Although theoretically, the use of acellular scaffolds for transplantation should pose no threat to the recipient's immune system, experimental data have revealed significant immune responses to allogeneic and xenogeneic transplanted scaffolds. Herein, we review the various factors of the scaffold that could trigger an inflammatory and/or immune response, thereby compromising its use for human transplant therapy. In addition, we provide an overview of the major cell types that have been considered for recellularization of the scaffold and their potential contribution to triggering an immune response.

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Section: Translational Limitations Of Biological Scaffoldsmentioning

confidence: 99%

Limitations of recellularized biological scaffolds for human transplantation

Bilodeau

Goltsis

Rogers

et al. 2020

J Tissue Eng Regen Med

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“…The bile acid/salts have a strong cytotoxic effect, and their use in conjunction with non-ionic detergents has recently demonstrated a more efficient removal of their residues from the ECM, providing an environment more receptive to cell recolonization. 80 The ECM can unfortunately also express xenogeneic elements that are species-specific, responsible for the onset of a state of local inflammation and calcium site nucleation. Historically, quantification of cells and/or DNA residues in a xenogeneic tissue has been adopted as a measure of effectiveness in removing antigen content; however, cells or nucleic materials do not necessarily correlate with residual xenogeneic debris.…”

Section: Sds Is An Ionic Detergent Commonly Used In Decellularizationmentioning

confidence: 99%

“…Based on the author's experience, the best choice that allows excellent decellularization results, good matrix preservation, and cell renewal potential is the sequential use of biliary salts at low concentrations (better if conjugated) with non‐ionic detergents (such as Triton X‐100). The bile acid/salts have a strong cytotoxic effect, and their use in conjunction with non‐ionic detergents has recently demonstrated a more efficient removal of their residues from the ECM, providing an environment more receptive to cell recolonization …”

Section: Summary and Authors' Viewpointmentioning

confidence: 99%

Different approaches to heart valve decellularization: A comprehensive overview of the past 30 years

Naso¹,

Gandaglia²

2017

Xenotransplantation

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Xenogeneic decellularized heart valve scaffolds have the potential to overcome the limitations of existing bioprosthetic heart valves that have limited duration due to calcification and tissue degeneration phenomena. This article presents a review of 30 years of decellularization approaches adopted in cardiovascular tissue engineering, with a focus on the use, either individually or in combination, of different detergents. The safety and efficacy of cell-removal procedures are specifically reported and discussed, as well as the structure and biomechanics of the treated extracellular matrix (ECM). Detergent residues within the ECM, production of hyaluronan fragments, safe removal of cellular debris, and the persistence of the alpha-Gal epitope after the decellularization treatments are of particular interest as parameters for the identification of the best tissue for the manufacture of bioprostheses. Special attention has also been given to key factors that should be considered in the manufacture of the next generation of xenogeneic bioprostheses, where tissues must retain the ability to be remodeled and to grow in weight along with body reshaping.

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“…Cryopreservation and chemical processing of tissue engineered vascular grafts derived from both human and animal tissues are currently used in clinical applications of vascular repair [ 29 – 31 ]. The absolute fluorescence lifetime values of elastin and collagen vary significantly depending on sample preparation, storage, and environment, and the fluorescence lifetime values of elastin and collagen solutions differ from those in native tissue [ 32 – 34 ].…”

Section: Introductionmentioning

confidence: 99%

Label-free assessment of carotid artery biochemical composition using fiber-based fluorescence lifetime imaging

Alfonso-García

Haudenschild

Marcu

2018

Biomed. Opt. Express

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Novel diagnostic tools with the ability to monitor variations in biochemical composition and provide benchmark indicators of vascular tissue maturation are needed to create functional tissue replacements. We investigated the ability of fiber-based, label-free multispectral fluorescent lifetime imaging (FLIm) to quantify the anatomical variations in biochemical composition of native carotid arteries and validated these results against biochemical assays. FLIm-derived parameters in spectral band 415–455 nm correlated with tissue collagen content (R2 = 0.64) and cell number (R2 = 0.61) and in spectral band 465–553 nm strongly correlated with elastin content (R2 = 0.89). These results suggest that FLIm holds great potential for assessing vascular tissue maturation and functional properties based on tissue autofluorescence.

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Natural Scaffolds for Regenerative Medicine: Direct Determination of Detergents Entrapped in Decellularized Heart Valves

Cited by 12 publications

References 40 publications

Limitations of recellularized biological scaffolds for human transplantation

Limitations of recellularized biological scaffolds for human transplantation

Different approaches to heart valve decellularization: A comprehensive overview of the past 30 years

Label-free assessment of carotid artery biochemical composition using fiber-based fluorescence lifetime imaging

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