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Bone & Joint Research
Vol. 8, Issue 2 | Pages 41 - 48
1 Feb 2019
Busse P Vater C Stiehler M Nowotny J Kasten P Bretschneider H Goodman SB Gelinsky M Zwingenberger S

Objectives

Intra-articular injections of local anaesthetics (LA), glucocorticoids (GC), or hyaluronic acid (HA) are used to treat osteoarthritis (OA). Contrast agents (CA) are needed to prove successful intra-articular injection or aspiration, or to visualize articular structures dynamically during fluoroscopy. Tranexamic acid (TA) is used to control haemostasis and prevent excessive intra-articular bleeding. Despite their common usage, little is known about the cytotoxicity of common drugs injected into joints. Thus, the aim of our study was to investigate the effects of LA, GC, HA, CA, and TA on the viability of primary human chondrocytes and tenocytes in vitro.

Methods

Human chondrocytes and tenocytes were cultured in a medium with three different drug dilutions (1:2; 1:10; 1:100). The following drugs were used to investigate cytotoxicity: lidocaine hydrochloride 1%; bupivacaine 0.5%; triamcinolone acetonide; dexamethasone 21-palmitate; TA; iodine contrast media; HA; and distilled water. Normal saline served as a control. After an incubation period of 24 hours, cell numbers and morphology were assessed.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_8 | Pages 38 - 38
1 Apr 2017
Ray S El Khassawna T Thormann U Sommer U Rhonke M Henns A Gelinsky M Hanke T Schnettler R Heiss C Alt V
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Objectives

Osteoporosis and osteomalacia lead to increased fracture risk. Previous studies documented dysregulated osteoblast and osteoclast activity, leading to a high-turnover phenotype, reduced bone mass and low bone mineral content. Osteocytes, the most abundant bone cell type, are involved in bone metabolism by enabling cell to cell interaction. Osteocytes presence and viability are crucial for bone tissue homeostasis and mechanical integrity. Osseo-integration and implant degradation are the main problems in developing biomaterials for systemically diseased bone. This study examines osteocyte localisation, morphology and on the implant surface and at the implant bone interface. Furthermore, the study investigates ECM proteins regulation correlated to osteocytes and mechanical competence in an ovariectomised rat model with a critical size metaphyseal defect.

Methodology

After induction of osteoporosis, 60 female Sprague-Dawley rats were randomised into five groups: SrCPC (n=15), CPC (n=15), ScB30 (n=15), ScB30Sr20 (n=15) and empty defect (n=15). The left femur of all animals underwent a 4mm wedge-shaped metaphyseal osteotomy that was internally fixed with a T-shaped plate. The defect was then either filled with the above mentioned implants or left empty. After six weeks, histomorphometric analysis showed a statistically significant increase in bone formation at the tissue-implant interface in the SrCPC group compared to the other groups (p<0.01). Osteocyte morphology and networks were detected using silver and staining. ECM proteins were investigated through immunohistochemistry. Cellular populations were tested using enzyme histochemistry. Mineralisation was assessed using time of flight secondary ion mass spectrometry (TOF-SIMS). Statistical analysis was performed using Mann Whitney U test with Bonferroni correction.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_8 | Pages 36 - 36
1 Apr 2017
Ray S Thormann U Sommer U ElKhassawna T Rhonke M Henns A Gelinsky M Hanke T Schnettler R Heiss C Alt V
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Background

Multiple Myeloma is a hematological malignancy of terminally differentiated plasma cells associated with increased osteoclast activity and decreased osteoblast functions. Systemic antiproliferative treatment includes proteasome inhibitors such as bortezomib, a clinical potent antimyeloma agent. Local delivery of biological active molecules via biomaterial composite implants to the site of the lesion has been shown to be beneficial for bone and implant-associated infections. In anticancer treatment local delivery of anticancer agents to the neoplasia via biomaterial carriers has never been reported before. The purpose of the current is to present the concepts and the first in vivo results for proteasome inhibitor composite biomaterials for local delivery of bortezomib to proliferative multiple myeloma bone lesions including concentration measurements at different anatomical regions in a rat model.

Methods

80 female Sprague-Dawley rats were randomised into five different treatment groups (n=16/group): 1) Empty (2) Xerogel-granulat: XG (3) Xerogel-granulat+100mgbortezomib [b]: XG100b (4) Xerogel-granulat+500mgb:XG500b (5) Xerogel-granulat+2500mgb:XG2500b. A 2.5 mm drill hole was then created in the metaphysis of the left femur. The defect was then either filled with the previously mentioned substitutes or left empty to serve as a control. After 4 weeks femora were harvested followed by histological, histomorphometrical and immunohistochemical (BMP2; bone-morphogenic protein 2, OPG; osteoprotegerin, RANKL; Receptor activator of nuclear factor kappa-B ligand, ASMA; alpha smooth muscle actin, ED1;CD68 antibody). TOF-SIMS was used to assess the distribution of released strontium ions. Statistical analysis was done using SPSS software. Data was not found normally distributed and hence Mann-Whitney U with bonferroni correction was used. To avoid type I errors due to unequal variances and group sizes Games-Howell test was also performed.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_III | Pages 446 - 446
1 Sep 2009
Bertram H Walther A Gelinsky M Mrozik B Richter W
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Flock technology is well known from textile industry. Short fibres are applied vertically on a substrate, coated with a flocking adhesive. Until now this technology has not been used in the field of biomaterials although it offers the possibility to create anisotrophic matrices with a high compressive strength despite of high porosity. Matrices presently used in matrix assisted autologous chondrocyte implantation do not show any orientation of the embedded chondrocytes. However column orientation and anisotropic direction of embedded cells and collagen fibers are thought to be necessary for proper cartilage matrix biomechanics. Combination of matrices as a guiding structure and chondrogenically differentiated mesenchymal stem cells (MSC) could offer new possibilities in the treatment of cartilage defects. Our aim was to evaluate whether anisotropic scaffolds are capable to support a cellular cartilaginous phenotype in vitro.

Electrostatically flocked matrices consisted of a collagen substrate, gelatine as adhesive and polyamide flock fibres. Chondrogenic cells and MSC were embedded in the scaffolds. Adherence, vitality and proliferation was assessed using confocal laser-scan microscopy (cLSM). Chondrogenic induction was performed in the presence of TGF-beta 3. Accumulation of proteoglycans was quantified by alcian-blue stain and collagen type II synthesis after extraction of the newly synthesized matrix.

cLSM showed proliferation of embedded MSC as evidenced by DAPI/Phalloidin stain. Vitality of embedded cells remained high over time. Articular chondrocytes and nucleus pulposus cells synthesized proteoglycans and collagen type II in the scaffolds. Also MSC embedded in the flock scaffolds differentiated and increased their chondrogenic phenotype over time.

Using cLSM and biochemical analyses we demonstrated that cells adhered and proliferated well in the new scaffolds. Furthermore we showed that the scaffolds are capable to support induction and maintenance of the chondrogenic phenotype. We conclude that flocking technology is suitable for fabrication of scaffolds for cell cultivation and cartilage tissue engineering.