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Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_2 | Pages 90 - 90
2 Jan 2024
Almeida A Miranda M Crowe L Akbar M Rodrigues M Millar N Gomes M
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MicroRNA (miR) delivery to regulate chronic inflammation hold extraordinary promise, with new therapeutic possibilities emanating from their ability to fine-tune multiple target gene regulation pathways which is an important factor in controlling aberrant inflammatory reactions in complex multifactorial disease. However, several hurdles have prevented advancements in miR-based therapies. These include off-target effects of miRs, limited trafficking, and inefficient delivery. We propose a magnetically guided nanocarrier to transport therapeutically relevant miRs to assist self- resolving inflammation processes at injury sites and reduce the impact of chronic inflammation- related diseases such as tendinopathies. The high prevalence, significant socio-economic burden and increasing recognition of dysregulated immune mediated pathways in tendon disease provide a compelling rationale for exploring inflammation-targeting strategies as novel treatments in this condition. By combining cationic polymers, miR species (e.g., miR 29a, miR155 antagonist), and magnetic nanoparticles in the form of magnetoplexes with highly efficient magnetofection procedures, we developed inexpensive, easy-to-fabricate, and biocompatible systems with competent miR-binding and fast cellular uptake into different types of human cells, namely macrophages and tendon-derived cells. The system was shown to be cell-compatible and to successfully modulate the expression and production of inflammatory markers in tendon cells, with evidence of functional pro-healing changes in immune cell phenotypes. Hence, magnetoplexes represent a simple, safe, and non-viral nanoplatform that enables contactless miR delivery and high- precision control to reprogram cell profiles toward improved pro-regenerative environments.

Acknowledgements: ERC CoG MagTendon No.772817; FCT Doctoral Grant SFRD/BD/144816/2019, and TERM

RES Hub (Norte-01-0145-FEDER-022190).


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 115 - 115
2 Jan 2024
Akbar M Crowe L Woolcock K Cole J McInnes I Millar N
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Dupuytren's disease (DD) is a fibroproliferative soft tissue disease affecting the palmar fascia of the hand causing permanent and irreversible flexion contracture. Aberrant fibrosis is likely to manifest through a combination of extrinsic, intrinsic, and environmental factors, including genetics and epigenetics. However, the role of epigenetics in soft tissue fibrosis in diseases such as DD is not well established. Therefore, we conducted a comprehensive multi-omic study investigating the epigenetic profiles that influence gene expression in DD pathology. Using control (patients undergoing carpal tunnel release) and diseased fibroblasts (patients undergoing Dupuytren's fasciectomy), we conducted ATAC-seq to assess differential chromatin accessibility between control and diseased fibroblasts. Additionally, ChIP-seq mapped common histone modifications (histone H4; H3K4me3, H3K9me3, H3K27me3, H4K16Ac, H4K20Me3) associated with fibrosis. Furthermore, we extracted RNA from control and DD tissue and performed bulk RNA-seq.

ATAC-seq analysis identified 2470 accessible genomic loci significantly more accessible in diseased fibroblasts compared to control. Comparison between diseased and control cells identified numerous significantly different peaks in histone modifications (H4K20me3, H3K27me3, H3K9me3) associated with gene repression in control cells but not in diseased cells. Pathway analysis demonstrated a substantial overlap in genes being de-repressed across these histone modifications (Figure 1). Both, ATAC-seq and ChIP-seq analysis indicated pathways such as cell adhesion, differentiation, and extracellular matrix organisation were dysregulated as a result of epigenetic changes. Moreover, de novo motif enrichment analysis identified transcription factors that possibly contributed to the differential gene expression between control and diseased tissue, including HIC1, NFATC1 and TEAD2. RNA-seq analysis found that these transcription factors were upregulated in DD tissue compared to control tissue.

The current epigenetic study provides insights into the aberrant fibrotic processes associated with soft tissue diseases such as DD and indicates that epigenetic-targeted therapies may be an interesting viable treatment option in future.

For any figures or tables, please contact the authors directly.


Bone & Joint Research
Vol. 8, Issue 1 | Pages 11 - 18
1 Jan 2019
McLean M McCall K Smith IDM Blyth M Kitson SM Crowe LAN Leach WJ Rooney BP Spencer SJ Mullen M Campton JL McInnes IB Akbar M Millar NL

Objectives

Tranexamic acid (TXA) is an anti-fibrinolytic medication commonly used to reduce perioperative bleeding. Increasingly, topical administration as an intra-articular injection or perioperative wash is being administered during surgery. Adult soft tissues have a poor regenerative capacity and therefore damage to these tissues can be harmful to the patient. This study investigated the effects of TXA on human periarticular tissues and primary cell cultures using clinically relevant concentrations.

Methods

Tendon, synovium, and cartilage obtained from routine orthopaedic surgeries were used for ex vivo and in vitro studies using various concentrations of TXA. The in vitro effect of TXA on primary cultured tenocytes, fibroblast-like synoviocytes, and chondrocytes was investigated using 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) cell viability assays, fluorescent microscopy, and multi-protein apoptotic arrays for cell death.


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_1 | Pages 5 - 5
1 Jan 2019
McLean M Akbar M McCall K Kitson S Crowe1 L Blyth M Smith I Rooney B Spencer S Leach W Campton L Gilchrist D McInnes I Millar N
Full Access

Tranexamic acid (TXA) is an anti-fibrinolytic medication commonly used to reduce peri-operative bleeding. Increasingly, topical administration as an intra-articular injection or peri-operative wash is being administered at concentrations between 10–100mg/ml. This study investigated effects of TXA on human periarticular tissues and primary cell cultures using clinically relevant concentrations.

Tendon, synovium and cartilage obtained from routine orthopaedic surgeries were used ex vivo or cultured for in vitro studies using various concentrations of TXA. They were stained with 5-chloromethylfluorescein diacetate and propidium iodide and imaged using confocal microscopy to identify the proportion of live and dead cells. The in vitro effect of TXA on primary cultured tenocytes, synovial like fibroblast (FLS) cells and chondrocytes was investigated using cell viability assays (MTT), fluorescent microscopy and multi-protein apoptotic arrays for cell death.

There was significant (p<0.01) increase in cell death in all tissue treated with 100mg/ml TXA, ex vivo. MTT assays revealed significant (p<0.05) decrease in cell viability following treatment with 50 or 100mg/ml of TXA within 4 hours of all cell types cultured in vitro. Additionally, there was significant (p<0.05) increase in cell apoptosis detected by fluorescent microscopy within 1 hour of exposure to TXA. Furthermore, multi-protein apoptotic arrays detected increased apoptotic proteins within 1 hour of TXA treatment in tenocytes and FLS cells.

Our study provides evidence of TXA cytotoxicity to human peri-articular tissues ex vivo and in vitro at concentrations and durations of treatment routinely used in clinical environments. Clinicians should therefore show caution when considering use of topical TXA administration.


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_16 | Pages 16 - 16
1 Oct 2016
Crowe L Akbar M Kitson S Reilly J Kerr S Murrell G McInnes I Gilchrist D Millar N
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Alarmins- also referred to as damage associated molecular patterns (DAMPS)- are endogenous molecules mobilized in response to tissue damage known to activate the innate immune system and regulate tissue repair and remodelling. The molecular mechanisms that regulate inflammatory and remodelling pathways in tendinopathy are largely unknown therefore identifying early immune effectors is essential to understanding the pathology. S100A8 and S100A9 are low molecular weight calcium binding proteins primarily released by activated phagocytes in an inflammatory setting and also secreted as a heterodimeric complex that exhibits cytokine like functions. Based on our previous investigations we sought evidence of S100A8/A9 expression in human tendinopathy and thereafter, to explore mechanisms whereby S100 proteins may regulate inflammatory mediators and matrix regulation in human tenocytes.

Torn supraspinatus tendon (established pathology) and matched intact subscapularis tendon (representing ‘early pathology’) biopsies were collected from patients undergoing arthroscopic shoulder surgery. Control samples of subscapularis tendon were collected from patients undergoing arthroscopic stabilisation surgery. S100A8/A9 expression was analysed at transcript and protein level using quantitative RT-PCR and immunohistochemistry, respectively. Primary human tenocytes were cultured from hamstring tendon tissue obtained during hamstring tendon ACL reconstruction. The in vitro effect of recombinant human S100 A8/A9 on primary human tenocytes was measured using quantitative RT-PCR and ELISA.

Immunohistochemistry of tendinopathic tissues demonstrated the presence of S100 A8/A9 in diseased tissues compared to control tissue. In addition, early pathological diseased tissue indicated greater S100A9 expression compared with established diseased pathology. These findings were reflected by data obtained at transcript level from diseased tissues. Recombinant human S100A8, A9 and A8/A9 complex led to significant increase in expression of inflammatory mediators, including IL-6 in vitro. Further analysis via quantitative RT-PCR demonstrated recombinant S100A8, A9 and A8/A9 complex treatment on tenocytes, in vitro, had no direct effect on the expression of genes involved in matrix remodelling.

The presence of S100A8 and S100A9 in early tendinopathic lesions suggests expression is upregulated in response to cellular damage. S100A8 and S100A9 are endogenous ligands of Toll-like receptors (TLRs) and receptor for advanced glycation end products (RAGE). These receptors have known regulatory effects on immune mediated cytokine production. We propose S100A8 and S100A9 as active alarmins in the early stages of tendinopathy and thus targeting of its downstream signalling may offer novel therapeutic approaches in the management of human tendon disorders.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 4 - 4
1 Mar 2009
Akbar M Balean G Seyler T Gerner H Loew M
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Introduction: Musculoskeletal injuries of the shoulder in paraplegic patients can result from overuse and/or incorrect use of wheelchairs. With improved long-term survival of these patients who exclusively depend on their upper extremities for weight-bearing activities such as transfers and wheelchair propulsion, they are particularly susceptible for shoulder pathologies. The purpose of this study was to compare the functional and structural changes in weight-bearing shoulders of paraplegic patients who are wheelchair dependent for more than 30 years with able-bodied volunteers.

Methods: This was a randomized study with 80 (160 shoulders) patients who had been paraplegic and wheelchair dependent for a mean of 33 years. These patients were matched for gender, age, occupation, and hobbies to a group of 80 (160 shoulders) able-bodied volunteers. The mean age for the paraplegic patients was 54 years and 51 years for the matched volunteers. Shoulders from both groups were prospectively evaluated using MRI. All films were analyzed by two board-certified radiologists who were blinded to the study. Prospectively collected outcome measures included a standardized clinical examination protocol, the Constant score, and visual analog scale (VAS) pain scores.

Results: The shoulder function according to the Constant score was significantly worse in paraplegic patients compared to able-bodied volunteers (p< 0.001). Similarly, the VAS scores were significant greater in the paraplegic patients (three-fold higher pain intensity, p< 0.001). Comparison of the MRI films of the paraplegic patients and the volunteers revealed the following significant differences: rotator cuff tears 67% (108/160) vs 5.6% (9/160); tendonitis 50% (80/160) vs 23% (37/160); tendonitis of the long head of the biceps 25% (40/160) vs 3.7% (6/160); rupture of the long head of the biceps 10% (16/160) vs 2.5% (4/160); subacromial subdeltoid bursitis 71% (113/160) vs 34% (55/160); acromioclavicular osteoarthritis 33% (53/160) vs 15% (24/160); and glenohumeral osteoarthritis 15% (24/160) vs 8% (13/160).

Conclusion: This is the first study comparing the long-term effect on shoulder pathologies of paraplegic wheelchair users to a cohort of able-bodied volunteers. The complications of weight-bearing activities in these patients require appropriate prevention including wheelchair and/or home modification, physical therapy, pharmacological pain management, surgical intervention, and patient education.