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md:flexor_tendon_adhesions
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Preventing adhesions after flexor tendon repair
Key points
- Injury (including surgery)
- breaches cell basement membrane
- sparks inflammatory response
- Interaction between inflammatory response, coagulation cascade, and angiogenesis
- Hypoxia drives fibroblast differentiation to adhesion phenotype fibroblasts
Basic science
- besides tendons also important in abdominal, intrauterine, pericardial surgery
- disruption of epithelial or mesothelial layer leads to fibrin adhesions due to
- downregulation of fibrinolytic activity
- increase in fibrin deposition
- key metabolic activities affecting adhesions: tissue healing, coagulation, inflammation, fibrinolysis, angiogenesis
Modalities
- Mechanical barriers
- Anti-adhesive agents
- Combination
- Others: e.g. gene therapy
Examples
- Heparin
- Hyaluronic acid
Other important aspects of adhesions
- Chemokines
- Protein c anticoagulation pathway
- Fibrinolytic pathway
Adhesion pathophysiology
- Fibrin clot forms scaffold for deposition of organized matrix and then adhesions
- M1 (pro) vs M2 (anti) macrophages
Preventing adhesions
- Surgical technique e.g AT, Kessler
- Barriers: polymer – natural (HA, gelatin, collagen) and synthetic (PLA, PEG), tissue grafts (allogeneic amniotic membranes)
- Commercial: hyaloglide, adcon gel, tenoglide
- Other Adjuvants
- Fibrinolysis, anti-inflammatory, anticoagulants, antioxidants, others
- Molecular biology techniques: gene therapy
References
- Capella-Monsonís, H., Kearns, S., Kelly, J. et al. Battling adhesions: from understanding to prevention. BMC biomed eng 1, 5 (2019). https://doi.org/10.1186/s42490-019-0005-0
See also
History
- created 2021-06-05
md/flexor_tendon_adhesions.txt · Last modified: 2021/06/05 07:10 by admin
