Advertisement for orthosearch.org.uk
Results 1 - 3 of 3
Results per page:
Applied filters
Content I can access

Include Proceedings
Dates
Year From

Year To
Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_13 | Pages 16 - 16
1 Nov 2019
Saha S Rex C Premanand C Niraj T
Full Access

Purpose

Isolated fractures of femoral condyle in the coronal plane (Hoffa fracture) is rare and is surgically challenging to treat. 44 patients were operated between 2004–2014. The aim was to retrospectively assess the fracture patterns, fixation done and functional outcome.

Methods

All injuries resulted from direct trauma to the knee out of which 36 were due to road traffic accidents.38 were closed injuries and the rest open.35 involved lateral condyle, 8 involved medial condyle and one was bicondylar type. All were anatomically reduced with fixation decided based on preoperative radiographs, CT scan and intra-op observation. Early passive motion and isometric exercises were started but kept non-weight bearing for 6–8 weeks. The mean follow up period was five years. Outcomes were measured using Neer's scoring system and International Knee Society Documentation Committee (IKDC) Functional Score.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_I | Pages 71 - 71
1 Jan 2011
Saha* S Kirkham J Wood D Curran S Yang X
Full Access

Introduction: Articular cartilage has limited capacity for regeneration. Tissue engineering strategies offer future hope for cartilage replacement and repair. In an attempt to mimic functional native cartilage for tissue repair, current research focuses on construct/implant designs that simulate an embryonic like microenvironment to promote cellular differentiation along a chondrogenic lineage. The aim of the present study was, for the first time, to illustrate the differences between human neonatal and adult chondrocytes along with bone marrow stromal cells (HBMSCs) to differentiate the factors that promote chondrogenesis and maintain functional homeostasis.

Material and Methods: Adult chondrocytes, neonatal chondrocytes and HBMSCs were cultured in monolayers for 1, 2 and 3 weeks in basal or chondrogenic media. Expression of transcription factor Sox9, Aggrecan (ACAN) and Collagen type II (COL2A)was compared via real time polymerase chain reaction (q-PCR). Alternatively, cells were seeded onto 3D PLGA scaffolds and cultured in vitro for 3 and 6 weeks in basal or chondrogenic media. Paraffin sections of the constructs were stained with Alcian blue/ Sirius red and expression of Collagen type II and Aggrecan was visualised via immunohistochemistry.

Results: For monolayer cultures of all three cell types, at week 1, expression of all three genes was down regulated in basal medium compared to levels in chondrogenic medium. By week 2, q-PCR revealed an increased expression of Col2A in chondroinduced neonatal chondrocytes compared to adult chondrocytes and HBMSCs. A steady increase in SOX9 expression was observed with time in all three cell types in chondrogenic medium. However, SOX9 expression in week 2 was higher for each cell type in basal medium compared with chondrogenic medium. ACAN expression by HBMSCs was greatly enhanced compared with that of neonatal and adult chondrocytes after 2 weeks in chondrogenic medium. By week 3, basal cultures of all cell types showed an overall lower level of gene expression compared with chondroinduced cells. 3D constructs revealed the formation of cartilage like tissue for all three cell types with the presence of a prominent superficial layer and middle zone in the chondroinduced constructs. A superficial layer was also observed in constructs cultured in basal media but there was no evidence of any other characteristic zones. A fibrous capsule had formed around the chondroinduced tissue by week 6. Thinnest capsules were observed for constructs seeded with neonatal cells, with thickest capsules in constructs seeded with HBMSCs. Immunohistochemistry revealed a greater presence of aggrecan and type II collagen in the chondroinduced constructs compared to those cultures in basal media.

Conclusion: This comparative study indicates a major difference between the microenvironment of human neonatal chondrocytes, adult chondrocytes and HBMSCs. The expression of high amounts of COL2A and ACAN (considered to be middle to late markers in chondrogenesis) in week 1 in neonatal chondrocytes indicates a difference in temporal gene expression during chondrogenesis or in maintaining cartilage homeostasis. The study provides potentially useful information to inform cell-based therapies for cartilage regeneration.


Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_I | Pages 60 - 60
1 Mar 2010
Saha* S Kirkham J Wood D Curran S Yang X
Full Access

Articular cartilage has limited regenerative potential. Regeneration via autografts or cell therapy is clinically efficacious but the extent of regenerative success depends upon use of an appropriate cell source. The aim of this study was to compare the proliferative and chondrogenic potentials of three human cell types (human bone marrow stromal cells - HBMSCs, neonatal and adult chondrocytes) commonly used in cartilage tissue engineering.

HBMSCs, neonatal and adult chondrocytes (passage 2) were cultured in basal and chondrogenic media. At 2, 4 and 6 days, the cells were analysed for morphology and doubling time. Alkaline phosphatase specific activity (ALPSA) was quantified for each group at 2, 4 and 6 weeks. Chondrogenic potential of each cell type was assessed via a pellet culture model. Cryosections were stained with Alcian blue/Sirius Red.

HBMSCs showed either elongated or polymorphic phenotypes, with a doubling time of 40 h. Neonatal chondrocytes showed a uniform spindle shape and had the shortest doubling time (16 h). Adult chondrocytes, were also spindle shaped, though slightly larger than the neonatal cells, with a longer doubling time of 22 h. Expression of ALPSA in basal media was of the order HBMSCs > adult chondrocytes > , neonatal chondrocytes. In chondrogenic culture, this order changed to adult chondrocytes > HBMSCs > neonatal chondrocytes. In 3D pellet cultures, all three cell types stained positive for Alcian Blue and showed the presence of chondrocyte-like cells enclosed in lacunae.

This comparative study suggests that neonatal chondrocytes are the most proliferative with lowest ALP expression. However, in terms of clinical applications, HBMSCs may be better for cartilage regeneration given their lower ALP expression under chondrogenic conditions when compared with adult chondrocytes under the same conditions. The study has provided information to inform clinical cell therapy for cartilage regeneration.