Crosslinker concentration controls TGFβ-3 release and annulus fibrosus cell apoptosis in genipin-crosslinked fibrin hydrogels

Panebianco, CJ; DiStefano, TJ; Hom, WW; Iatridis, JC

doi:10.22203/ecm.v039a14

Cited by 21 publications

(21 citation statements)

References 61 publications

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“…In the case of Bombyx mori silk, for instance, it was found that staining with EthD-1 was not possible due to a very strong autofluorescence of the silk material (Figure 9A and B). Moreover, integration of genipin, which is a natural cross-linker to increase stiffness of hydrogels, has been proposed [66][67][68][69]. The increasing concentration of genipin leads to increasing autofluorescence, noticeable as 'noisy background' on the red fluorescent channel.…”

Section: Trouble Shooting Of Difficult Carriers With Strong Fluorescent Interferencementioning

confidence: 99%

Mammalian Cell Viability Methods in 3D Scaffolds for Tissue Engineering

Gantenbein¹,

Croft²,

Larraillet³

2020

Fluorescence Methods for Investigation of Living Cells and Microorganisms

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Modern methods have evolved in tissue engineering to evaluate cell viability (CV) in 3D scaffolds and tissues. These involve either the usage of 3D confocal laser microscopy of live or fixed tissues, or separation of cells from the tissue, either live or fixed, and then their analysis by flow cytometry. Generally, working with live cells has the disadvantage that all the scanning needs to be completed immediately at the end of an experiment. Two different approaches can be distinguished: staining intact cell membranes and staining fixed cells. The entire cytoplasm is stained with amine-reactive dyes (ARDs), these use the principle of dead cell exclusion. Here, we list and compare live-cell versus fixed-cells fluorescence-based methods and also show their limitations, especially when working with autofluorescent or cross-linking materials like silk or genipin-reinforced hydrogels. Microscopic techniques have the advantage over flow cytometry-based methods in that these provide the spatial distribution and morphology of the cells. Calcein AM combined with ethidium-homodimer works for most 3D constructs, where no strong fluorescent background is found on the tissue or scaffold. Frequently, however, concentrations and incubation times need to be adjusted for a specific tissue to ensure diffusion of dyes and optimise emittance for detection.

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Section: Trouble Shooting Of Difficult Carriers With Strong Fluorescent Interferencementioning

confidence: 99%

Mammalian Cell Viability Methods in 3D Scaffolds for Tissue Engineering

Gantenbein¹,

Croft²,

Larraillet³

2020

Fluorescence Methods for Investigation of Living Cells and Microorganisms

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“…Several mechanisms can explain this ‘seesaw’ phenomenon. First, crosslinking reagents that are somewhat benign at low concentrations, can become cytotoxic to cells at high concentrations ( Cao et al ., 2012 ; Panebianco et al ., 2020 ; Saito et al ., 2008 ); thus, the amount of crosslinker required for a biomaterial to achieve the modulus of a load-bearing tissue like the IVD could be too high to simultaneously achieve cytocompatibility, motivating need for innovation. Second, increasing the concentration of macromers and additional crosslinkers reduces biomaterial porosity ( Brown and Barker, 2014 ; Cruise et al ., 1998 ), which can limit cell functionality by inhibiting nutrient transport, preventing cell-biomaterial interactions and physically constraining cells ( Fan and Wang, 2017 ).…”

Section: Discussionmentioning

confidence: 99%

Balancing biological and biomechanical performance in intervertebral disc repair: a systematic review of injectable cell delivery biomaterials

Panebianco¹,

Meyers²,

Gansau³

et al. 2020

eCM

Self Cite

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Discogenic back pain is a common condition without approved intervertebral disc (IVD) repair therapies. Cell delivery using injectable biomaterial carriers offers promise to restore disc height and biomechanical function, while providing a functional niche for delivered cells to repair degenerated tissues. This systematic review advances the injectable IVD cell delivery biomaterials field by characterising its current state and identifying themes of promising strategies. Preferred Reporting Items for Systematic Reviews and Meta- Analyses (PRISMA) guidelines were used to screen the literature and 183 manuscripts met the inclusion criteria. Cellular and biomaterial inputs, and biological and biomechanical outcomes were extracted from each study. Most identified studies targeted nucleus pulposus (NP) repair. No consensus exists on cell type or biomaterial carrier, yet most common strategies used mesenchymal stem cell (MSC) delivery with interpenetrating network/co-polymeric (IPN/CoP) biomaterials composed of natural biomaterials. All studies reported biological outcomes with about half the studies reporting biomechanical outcomes. Since the IVD is a load-bearing tissue, studies reporting compressive and shear moduli were analysed and two major themes were found. First, a competitive balance, or ‘seesaw’ effect, between biomechanical and biological performance was observed. Formulations with higher moduli had inferior cellular performance, and vice versa. Second, several low-modulus biomaterials had favourable biological performance and matured throughout culture duration with enhanced extracellular matrix synthesis and biomechanical moduli. Findings identify an opportunity to develop next-generation biomaterials that provide high initial biomechanical competence to stabilise and repair damaged IVDs with a capacity to promote cell function for long-term healing.

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“…In the gelation step, some photo‐cross‐linked hydrogel may cause damage to cells due to the ultraviolet, while some chemical crosslinkers are potentially toxic to the encapsulated cells (Lin et al., 2013). An example is that genipin, the crosslinker in the FibGen, may cause AF cells apoptosis by inhibiting integrin binding (Panebianco, DiStefano, Mui, Hom, & Iatridis, 2020). When cells are encapsulated, nutrient diffusion related to the pore size and osmolarity of hydrogels should be well designed in case to impede cell proliferation and matrix synthesis (Krouwels et al., 2018; P. Li et al., 2016; Nativel et al., 2018).…”

Section: Current Limitations and Challengesmentioning

confidence: 99%

“…In the gelation step, some photo-crosslinked hydrogel may cause damage to cells due to the ultraviolet, while some chemical crosslinkers are potentially toxic to the encapsulated cells (Lin et al, 2013). An example is that genipin, the crosslinker in the FibGen, may cause AF cells apoptosis by inhibiting integrin binding (Panebianco, DiStefano, Mui, Hom, & Iatridis, 2020).…”

Section: Current Limitations and Challengesmentioning

confidence: 99%

Recent advances of hydrogel‐based biomaterials for intervertebral disc tissue treatment: A literature review

Zheng

2021

J Tissue Eng Regen Med

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Low back pain is an increasingly prevalent symptom mainly associated with intervertebral disc (IVD) degeneration. It is highly correlated with aging, as the nucleus pulposus (NP) dehydrates and annulus fibrosus fissure formatting, which finally results in the IVD herniation and related clinical symptoms. Hydrogels have been drawing increasing attention as the ideal candidates for IVD degeneration because of their unique properties such as biocompatibility, highly tunable mechanical properties, and especially the water absorption and retention ability resembling the normal NP tissue. Numerous innovative hydrogel polymers have been generated in the most recent years. This review article will first briefly describe the anatomy and pathophysiology of IVDs and current therapies with their limitations. Following that, the article introduces the hydrogel materials in the classification of their origins. Next, it reviews the recent hydrogel polymers explored for IVD regeneration and analyses what efforts have been made to overcome the existing limitations. Finally, the challenges and prospects of hydrogel‐based treatments for IVD tissue are also discussed. We believe that these novel hydrogel‐based strategies may shed light on new possibilities in IVD degeneration disease.

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Crosslinker concentration controls TGFβ-3 release and annulus fibrosus cell apoptosis in genipin-crosslinked fibrin hydrogels

Cited by 21 publications

References 61 publications

Mammalian Cell Viability Methods in 3D Scaffolds for Tissue Engineering

Mammalian Cell Viability Methods in 3D Scaffolds for Tissue Engineering

Balancing biological and biomechanical performance in intervertebral disc repair: a systematic review of injectable cell delivery biomaterials

Recent advances of hydrogel‐based biomaterials for intervertebral disc tissue treatment: A literature review

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