Chronic spinal cord injury repair by NT3-chitosan only occurs after clearance of the lesion scar.
Can ZhaoJia-Sheng RaoHongmei DuanPeng HaoJunkui ShangYubo FanWen ZhaoYudan GaoZhaoyang YangYi Eve SunXiaoguang LiPublished in: Signal transduction and targeted therapy (2022)
Spinal cord injury (SCI) is a severe damage usually leading to limb dysesthesia, motor dysfunction, and other physiological disability. We have previously shown that NT3-chitosan could trigger an acute SCI repairment in rats and non-human primates. Due to the negative effect of inhibitory molecules in glial scar on axonal regeneration, however, the role of NT3-chitosan in the treatment of chronic SCI remains unclear. Compared with the fresh wound of acute SCI, how to handle the lesion core and glial scars is a major issue related to chronic-SCI repair. Here we report, in a chronic complete SCI rat model, establishment of magnetic resonance-diffusion tensor imaging (MR-DTI) methods to monitor spatial and temporal changes of the lesion area, which matched well with anatomical analyses. Clearance of the lesion core via suction of cystic tissues and trimming of solid scar tissues before introducing NT3-chitosan using either a rigid tubular scaffold or a soft gel form led to robust neural regeneration, which interconnected the severed ascending and descending axons and accompanied with electrophysiological and motor functional recovery. In contrast, cystic tissue extraction without scar trimming followed by NT3-chitosan injection, resulted in little, if any regeneration. Taken together, after lesion core clearance, NT3-chitosan can be used to enable chronic-SCI repair and MR-DTI-based mapping of lesion area and monitoring of ongoing regeneration can potentially be implemented in clinical studies for subacute/chronic-SCI repair.
Keyphrases
- spinal cord injury
- wound healing
- neuropathic pain
- drug delivery
- magnetic resonance
- spinal cord
- stem cells
- drug induced
- hyaluronic acid
- gene expression
- multiple sclerosis
- contrast enhanced
- computed tomography
- high resolution
- endothelial cells
- intensive care unit
- pulmonary arterial hypertension
- respiratory failure
- acute respiratory distress syndrome
- extracorporeal membrane oxygenation
- pulmonary hypertension
- high density
- tissue engineering