Biomaterials-Induced Stem Cells Specific Differentiation Into Intervertebral Disc Lineage Cells

Peng, Yizhong; Huang, Danfeng; Liu, Sheng; Li, Jinye; Xia, Qing; Shao, Zengwu

doi:10.3389/fbioe.2020.00056

Cited by 13 publications

(9 citation statements)

References 128 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…To overcome obstacles for successful disc repair, the selection of appropriate stem cells and the development of biomaterial-based cellular delivery systems that combine cells with cell-carrying matrix molecules such as fibrin and hyaluronan have become increasingly implemented [ 3 ]. Recently, various types of biomaterials have been reported to have the ability to prevent cell leakage and promote cell survival and stem cell differentiation toward the IVD cell phenotype [ 39 ]. Reports demonstrated that utilization of a carrier such as hyaluronan or annular sealant significantly prevented cell leakage, and the rate of osteophyte formation resulting from cell leakage has been reported to be less than 2.7% in rabbit IVD model [ 40 ].…”

Section: Discussionmentioning

confidence: 99%

An Injectable Hyaluronan–Methylcellulose (HAMC) Hydrogel Combined with Wharton’s Jelly-Derived Mesenchymal Stromal Cells (WJ-MSCs) Promotes Degenerative Disc Repair

Choi

Joshi

Payne

et al. 2020

IJMS

View full text Add to dashboard Cite

Intervertebral disc (IVD) degeneration is one of the predominant causes of chronic low back pain (LBP), which is a leading cause of disability worldwide. Despite substantial progress in cell therapy for the treatment of IVD degeneration, significant challenges remain for clinical application. Here, we investigated the effectiveness of hyaluronan–methylcellulose (HAMC) hydrogels loaded with Wharton’s Jelly-derived mesenchymal stromal cell (WJ-MSCs) in vitro and in a rat coccygeal IVD degeneration model. Following induction of injury-induced IVD degeneration, female Sprague-Dawley rats were randomized into four groups to undergo a single intradiscal injection of the following: (1) phosphate buffered saline (PBS) vehicle, (2) HAMC, (3) WJ-MSCs (2 × 104 cells), and (4) WJ-MSCs-loaded HAMC (WJ-MSCs/HAMC) (n = 10/each group). Coccygeal discs were removed following sacrifice 6 weeks after implantation for radiologic and histologic analysis. We confirmed previous findings that encapsulation in HAMC increases the viability of WJ-MSCs for disc repair. The HAMC gel maintained significant cell viability in vitro. In addition, combined implantation of WJ-MSCs and HAMC significantly promoted degenerative disc repair compared to WJ-MSCs alone, presumably by improving nucleus pulposus cells viability and decreasing extracellular matrix degradation. Our results suggest that WJ-MSCs-loaded HAMC promotes IVD repair more effectively than cell injection alone and supports the potential clinical use of HAMC for cell delivery to arrest IVD degeneration or to promote IVD regeneration.

show abstract

Section: Discussionmentioning

confidence: 99%

An Injectable Hyaluronan–Methylcellulose (HAMC) Hydrogel Combined with Wharton’s Jelly-Derived Mesenchymal Stromal Cells (WJ-MSCs) Promotes Degenerative Disc Repair

Choi

Joshi

Payne

et al. 2020

IJMS

View full text Add to dashboard Cite

show abstract

“…The storage modulus (G') of g-DAF-G was superior to that of DAF-G and increased with higher concentration of genipin (DAF-G: 465.51 Pa; 0.01 % genipin: 2.57 MPa; 0.02 % genipin: 3.29 MP; 0.04 %genipin: 4.34 MPa). Therefore, g-DAF-G showed improved biomechanical properties when compared to DAF-G (Peng et al, 2020).…”

Section: Injectable Strategies For Decellularised Matrix Administrationmentioning

confidence: 94%

“…However, other cell types and different repopulation methods have been widely investigated. As summarised in Table 3, successful recellularisation of IVD scaffolds [either injectable (Illien-Junger et al, 2016;Lin et al, 2016;Peng et al, 2020;Wachs et al, 2017;Xu et al, 2019;Yu et al, 2020;Zhou et al, 2018) or not] has already been reported with bovine and human (Illien-Junger et al, 2016;Wachs et al, 2017) NP cells as well as with rabbit (Liu et al, 2019) [either stem or not (Xu et al, 2014)] and human (Huang et al, 2016) AF cells.…”

Section: Recellularisation Of Decellularised Ivd Scaffoldsmentioning

confidence: 95%

“…Badylak's group demonstrated that a high dose of gamma-irradiation (30 kGy) prevented hydrogel formation from ECM of several tissues (porcine intestinal submucosa, liver and urinary bladder, bovine bone), when compared to the supercritical CO 2 method (White et al, 2018). Finally, Peng et al (2020) All in all, it is crucial to choose an adequate sterilisation method to maximise the properties and in vivo performance of biomaterials (Destefani et al, 2017).…”

Section: Sterilisation Of Decellularised Ivd Matricesmentioning

confidence: 99%

“…Moreover, MSCs have long-term self-renewal capability, are reservoirs of growth factors and cytokines and can contribute to the restoration of the disc matrix (Wang et al, 2015;Watanabe et al, 2010;Yang et al, 2008;Zhang et al, 2005). MSCs used for IVD regeneration studies are mainly bone-marrowor adipose-tissue-derived as they can be obtained through minimally invasive procedures (Huang et al, 2016;Illien-Junger et al, 2016;Lin et al, 2016;Mercuri et al, 2011;Mercuri et al, 2013;Peng et al, 2020;Yu et al, 2020;Yuan et al, 2013;Zhou et al, 2018). However, stem cells from other sources such as amniotic fluid (Fernandez et al, 2016) or synovial tissue (Pei et al, 2012;Shoukry et al, 2013) also exhibit promising results.…”

Section: Recellularisation Of Decellularised Ivd Scaffoldsmentioning

confidence: 99%

See 2 more Smart Citations

Intervertebral disc decellularisation: progress and challenges

Fiordalisi¹,

Silva²,

Barbosa³

et al. 2021

eCM

View full text Add to dashboard Cite

Intervertebral disc (IVD) degeneration and the consequent low-back pain (LBP) affect over 80 % of people in western societies, constituting a tremendous socio-economic burden worldwide and largely impairing patients’ life quality. Extracellular matrix (ECM)-based scaffolds, derived from decellularised tissues, are being increasingly explored in regenerative medicine for tissue repair. Decellularisation plays an essential role for host cells and antigen removal, while maintaining native microenvironmental signals, including ECM structure, composition and mechanical properties, which are essential for driving tissue regeneration. With the lack of clinical solutions for IVD repair/regeneration, implantation of decellularised IVD tissues has been explored to halt and/or revert the degenerative cascade and the associated LBP symptoms. Over the last few years, several researchers have focused on the optimisation of IVD decellularisation methods, combining physical, chemical and enzymatic treatments, in order to successfully develop a cell-free matrix. Recellularisation of IVD-based scaffolds with different cell types has been attempted and numerous methods have been explored to address proper IVD regeneration. Herein, the advances in IVD decellularisation methods, sterilisation procedures, repopulation and biocompatibility tests are reviewed. Additionally, the importance of the donor profile for therapeutic success is also addressed. Finally, the perspectives and major hurdles for clinical use of the decellularised ECM-based biomaterials for IVD are discussed. The studies reviewed support the notion that tissue-engineering-based strategies resorting to decellularised IVD may represent a major advancement in the treatment of disc degeneration and consequent LBP.

show abstract

Extracellular matrix in intervertebral disc: basic and translational implications

et al. 2022

View full text Add to dashboard Cite

Biomaterials-Induced Stem Cells Specific Differentiation Into Intervertebral Disc Lineage Cells

Cited by 13 publications

References 128 publications

An Injectable Hyaluronan–Methylcellulose (HAMC) Hydrogel Combined with Wharton’s Jelly-Derived Mesenchymal Stromal Cells (WJ-MSCs) Promotes Degenerative Disc Repair

An Injectable Hyaluronan–Methylcellulose (HAMC) Hydrogel Combined with Wharton’s Jelly-Derived Mesenchymal Stromal Cells (WJ-MSCs) Promotes Degenerative Disc Repair

Intervertebral disc decellularisation: progress and challenges

Extracellular matrix in intervertebral disc: basic and translational implications

Contact Info

Product

Resources

About