Page 149 - IJB-9-4

P. 149

International Journal of Bioprinting 3D-printed scaffolds for osteochondral defects

16. Mente P, Lewis J, 1994, Elastic modulus of calcified cartilage 32. Demaria M, Ohtani N, Youssef SA, et al., 2014, An essential
is an order of magnitude less than that of subchondral bone. role for senescent cells in optimal wound healing through
J Orthop Res, 12(5):637–647. secretion of PDGF-AA. Dev Cell, 31(6):722–733.
17. Schinagl RM, Gurskis D, Chen AC, et al., 1997, Depth- 33. Yao Z, Chen P, Wang S, et al., 2019, Reduced PDGF‐AA in
dependent confined compression modulus of full‐ subchondral bone leads to articular cartilage degeneration
thickness bovine articular cartilage. J Orthop Res, 15(4): after strenuous running. J Cell Physiol, 234(10):17946–
499–506. 17958.
18. Blumer MJ, Longato S, Fritsch H, 2008, Structure, formation 34. Udalova IA, Mantovani A, Feldmann M, 2016, Macrophage
and role of cartilage canals in the developing bone. Ann heterogeneity in the context of rheumatoid arthritis. Nat Rev
Anat Anatom Anzeiger, 190(4):305–315. Rheumatol, 12(8):472–485.
19. Youn I, Choi J, Cao L, et al., 2006, Zonal variations in the 35. Boutet M-A, Courties G, Nerviani A, et al., 2021, Novel
three-dimensional morphology of the chondron measured insights into macrophage diversity in rheumatoid arthritis
in situ using confocal microscopy. Osteoarthritis Cartilage, synovium. Autoimmun Rev, 20(3):102758.
14(9):889–897.
36. Moelants EA, Mortier A, van Damme J, et al., 2013,
20. Hunziker EB, 2002, Articular cartilage repair: Basic science Regulation of TNF‐α with a focus on rheumatoid arthritis.
and clinical progress. A review of the current status and Immunol Cell Biol, 91(6):393–401.
prospects. Osteoarthritis Cartilage, 10(6):432–463.
37. Romas E, Gillespie M, Martin T, 2002, Involvement of
21. Buckwalter J, Mankin H, 1998, Articular cartilage: receptor activator of NFκB ligand and tumor necrosis
Degeneration and osteoarthritis, repair, regeneration, and factor-α in bone destruction in rheumatoid arthritis. Bone,
transplantation. Instr Course Lect, 47:487–504. 30(2):340–346.
22. Mort JS, Billington CJ, 2001, Articular cartilage and changes 38. Yang P, Qian FY, Zhang MF, et al., 2019, Th17 cell
in arthritis: Matrix degradation. Arthritis Res Ther, 3(6):1–5. pathogenicity and plasticity in rheumatoid arthritis. J Leukoc
Biol, 106(6):1233–1240.
23. Mcculloch K, Litherland GJ, Rai TS, 2017, Cellular senescence
in osteoarthritis pathology. Aging Cell, 16(2):210–218. 39. Niu Q, Cai B, Huang Z-C, et al., 2012, Disturbed Th17/Treg
balance in patients with rheumatoid arthritis. Rheumatol
24. Jeon OH, David N, Campisi J, et al., 2018, Senescent cells Int, 32(9):2731–2736.
and osteoarthritis: A painful connection. J Clin Investig,
128(4):1229–1237. 40. Peal BT, Gagliardi R, Su J, et al., 2020, Synovial fluid
lubricin and hyaluronan are altered in equine osteochondral
25. Di Micco R, Krizhanovsky V, Baker D, et al., 2021, Cellular fragmentation, cartilage impact injury, and full‐thickness
senescence in ageing: From mechanisms to therapeutic cartilage defect models. J Orthop Res, 38(8):1826–1835.
opportunities. Nat Rev Mol Cell Biol, 22(2):75–95.
41. Costouros JG, Dang AC, Kim HT, 2004, Comparison of
26. Martin JA, Buckwalter JA, 2002, Human chondrocyte chondrocyte apoptosis in vivo and in vitro following acute
senescence and osteoarthritis. Biorheology, 39(1-2): osteochondral injury. J Orthop Res, 22(3):678–683.
145–152.
42. Bornes TD, Adesida AB, Jomha NM, 2014, Mesenchymal stem
27. Price JS, Waters JG, Darrah C, et al., 2002, The role of cells in the treatment of traumatic articular cartilage defects:
chondrocyte senescence in osteoarthritis. Aging Cell, A comprehensive review. Arthritis Res Ther, 16(5):1–19.
1(1):57–65. 43. Carballo CB, Nakagawa Y, Sekiya I, et al., 2017, Basic science
28. Loeser RF, 2009, Aging and osteoarthritis: The role of of articular cartilage. Clin Sports Med, 36(3):413–425.
chondrocyte senescence and aging changes in the cartilage 44. Steadman JR, Briggs KK, Rodrigo JJ, et al., 2003, Outcomes
matrix. Osteoarthritis Cartilage, 17(8):971–979. of microfracture for traumatic chondral defects of the
29. Gao SG, Zeng C, Li LJ, et al., 2016, Correlation between knee: Average 11-year follow-up. Arthroscopy, 19(5):
senescence‐associated beta‐galactosidase expression in 477–484.
articular cartilage and disease severity of patients with knee 45. Bajpayee AG, Grodzinsky AJ, 2017, Cartilage-targeting
osteoarthritis. Int J Rheum Dis, 19(3):226–232. drug delivery: Can electrostatic interactions help? Nat Rev
Rheumatol, 13(3):183–193.
30. Jacob J, Aggarwal A, Aggarwal A, et al., 2022, Senescent
chondrogenic progenitor cells derived from articular 46. Niu X, Li N, Du Z, et al., 2023, Integrated gradient tissue-
cartilage of knee osteoarthritis patients contributes to engineered osteochondral scaffolds: Challenges, current
senescence-associated secretory phenotype via release of efforts and future perspectives. Bioact Mater, 20:574–597.
IL-6 and IL-8. Acta Histochem, 124(3):151867. 47. O’Connell C, Ren J, Pope L, et al., 2020, Characterizing
31. Childs BG, Gluscevic M, Baker DJ, et al., 2017, Senescent bioinks for extrusion bioprinting: Printability and rheology,
cells: An emerging target for diseases of ageing. Nat Rev in 3D Bioprinting, 111–133.
Drug Discov, 16(10):718–735.

Volume 9 Issue 4 (2023) 141 https://doi.org/10.18063/ijb.724

144 145 146 147 148 149 150 151 152 153 154