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1.
J Anat ; 2024 Feb 23.
Artigo em Inglês | MEDLINE | ID: mdl-38400563

RESUMO

The enthesis, the specialized junction between tendon and bone, is a common site of injury. Although notoriously difficult to repair, advances in interfacial tissue engineering techniques are being developed for restorative function. Most notably are 3D in vitro co-culture models, built to recreate the complex heterogeneity of the native enthesis. While cell and matrix properties are often considered, there has been little attention given to native enthesis anatomical morphometrics and replicating these to enhance clinical relevance. This study focuses on the flexor digitorum profundus (FDP) tendon enthesis and, by combining anatomical morphometrics with computer-aided design, demonstrates the design and construction of an accurate and scalable model of the FDP enthesis. Bespoke 3D-printed mould inserts were fabricated based on the size, shape and insertion angle of the FDP enthesis. Then, silicone culture moulds were created, enabling the production of bespoke anatomical culture zones for an in vitro FDP enthesis model. The validity of the model has been confirmed using brushite cement scaffolds seeded with osteoblasts (bone) and fibrin hydrogel scaffolds seeded with fibroblasts (tendon) in individual studies with cells from either human or rat origin. This novel approach allows a bespoke anatomical design for enthesis repair and should be applied to future studies in this area.

2.
BMC Musculoskelet Disord ; 22(1): 1032, 2021 Dec 10.
Artigo em Inglês | MEDLINE | ID: mdl-34893040

RESUMO

BACKGROUND: The enthesis possesses morphological adaptations across the soft-hard tissue junction which are not fully restored during surgical avulsion repairs. This loss of anatomical structure, highly related to function, contributes to poor clinical outcomes. Investigating the native macro- and micro-structure of a specific enthesis can provide functional and biomechanical insights to develop specialised, novel tissue-engineered therapeutic options and potentially improve current surgical treatments for avulsion injuries. METHODS: This study examines the anatomy and histomorphology of the flexor digitorum profundus (FDP) enthesis in 96 fresh-frozen human cadaveric fingers, quantitatively and qualitatively analyzing the shape, size, angle of tendon fibres and histological architecture, and explores differences in sex, finger and distance along the enthesis using linear mixed effects models. RESULTS: Macroscopically, results showed a consistent trapezoidal insertion shape of 29.29 ± 2.35 mm2 mean surface area, but with significant morphometric size differences influenced primarily by the smaller dimensions of the little finger. Microscopically, a fibrocartilaginous enthesis was apparent with a 30.05 ± 0.72o mean angle of inserting tendon fibres, although regional variation in fibrocartilage and the angle change of tendon fibres before insertion existed. CONCLUSIONS: The implication of these findings on native and specific FDP enthesis function is discussed whilst providing recommendations for optimal FDP enthesis recreation for interfacial tissue engineers and hand surgeons. The study emphasizes the importance of region-specific knowledge whilst also describing methods applicable to assessing any soft tissue insertion.


Assuntos
Tendões , Engenharia Tecidual , Dedos , Antebraço , Humanos , Músculo Esquelético , Tendões/cirurgia
3.
J Wrist Surg ; 10(6): 467-475, 2021 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-34881102

RESUMO

Background The scapholunate interosseous ligament (SLIL) has three subregions: dorsal, proximal, and volar. The SLIL enthesis has not previously been studied despite its important mechanical function in wrist joint biomechanics. Questions/Purposes This study aims to compare the histomorphological differences between the SLIL subregions, including at their entheses. Three questions are explored: Do the gross dimensions differ between SLIL subregions? Does the enthesis qualitatively, and its calcified fibrocartilage (CF) quantitatively, differ between (a) SLIL subregions and (b) scaphoid and lunate attachments? Methods Twelve fresh-frozen human cadaveric wrists were dissected and the gross dimensions of the SLIL subregions measured. Subregions were histologically processed for morphological and compositional analyses, including quantification of enthesis CF area. Results The dorsal subregion was the thickest. The dorsal and volar subregions had fibrocartilaginous entheses, while the proximal subregion was attached to articular cartilage. The dorsal subregion had significantly more CF than the volar subregion. There was no significant difference in the enthesis CF between scaphoid and lunate attachments in the three subregions. Conclusions There are significant morphological differences between the SLIL subregions. The dorsal subregion has the largest amount of CF, which is consistent with the greater biomechanical force subjected to this subregion. The similar histomorphology of the ligament at the scaphoid and lunate entheses suggests that similar biomechanical forces are applied to both attachments. Clinical Relevance The histomorphological results confirm that the dorsal subregion is the strongest of the three subregions. The results from the entheseal region may have important implications in the study of graft incorporation during SLIL reconstruction.

4.
Int J Surg ; 96: 106172, 2021 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-34763111

RESUMO

BACKGROUND: It is well recognized that a sound foundation in surgical anatomy is a cornerstone of safe surgical practice, yet many trainees struggle with the upskilling in anatomy that is required to support their day-to-day practice. In the context of the UK-wide Improving Surgical Training pilot, we set out to establish a surgical anatomy programme for core surgical trainees in the Scotland Deanery. The aim was to enable all trainees to review the surgical anatomy of the whole body to MRCS level at least once during core surgical training. MATERIALS AND METHODS: Teaching was delivered in Edinburgh, with trainees commuting from all parts of the Scotland Deanery. Individual teaching days focused on the surgical anatomy of the head and neck, trunk and limbs, using a combination of lectures (principles and cases) and interactive demonstrations on prosected specimens. Faculty comprised a balance of surgical demonstrators and senior academic staff, including MRCS examiners. RESULTS: In total, 16 individual teaching sessions were attended by over 300 trainees across the first 2 years of the programme. Evaluation form response rate was nearly 80%. The programme was highly rated by trainees in relation to the method of delivery, level of teaching and surgical focus. CONCLUSION: Surgical anatomy remains an integral part of surgical training. Our experience in developing a deanery-wide surgical anatomy programme highlights the crucial links between medical school, training deanery and surgical college. This collaborative approach can be extended to higher surgical training and continuing professional development, and the methods can be adapted to meet the needs of trainees in different parts of the globe.


Assuntos
Competência Clínica , Educação de Pós-Graduação em Medicina , Humanos , Escócia
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