ABSTRACT
With the development of the 3rd-generation high-throughput sequencing technology and tissue engineering, recent studies show that many long-chain non-coding RNAs (LncRNAs) have played an important role in osteogenic differentiation of mesenchymal stem cells (MSCs). LncRNAs, which are involved in the regulation of mechanical regulation, further regulate bone-related cell functions and play a regulatory role at multiple levels, including transcription, post-transcriptional and epigenetic. LncRNAs may be involved in the osteogenic differentiation and bone remodeling of MSCs, the regulation of bone-related cell functions as a mechanical response molecule, as well as the pathological process of skeletal diseases.
ABSTRACT
BACKGROUND: Spinal cord injury is a damage to the spinal cord with a high morbidity that can be divided into primary and secondary injury. Secondary injury does more harm to the body than primary injury, which can be regulated and improved through proper interventions. In addition to the drugs, surgical decompression and other traditional treatments, hypothermia is an important physical intervention that has been shown to regulate secondary injury following spinal cord injury, and hold neuroprotective effect.OBJECTIVE: To introduce different hypothermia treatments for spinal cord injury and the effect on the disordered environment after spinal cord injury, as well as summarize the latest progression. METHODS: A computer-based search of CNKI and PubMed databases was conducted for the articles addressing the application of hypothermia in spinal cord injury published from January 2001 to June 2016, using the keywords of therapeutic hypothermia or low temperature, spinal cord injury in Chinese and English, respectively. RESULTS AND CONCLUSION: Hypothermia is divided into systematic and local hypothermia, and the former is simple and convenient, but it may lead to complications. Local hypothermia can quickly reach the target temperature, to make deep hypothermia at injury site and stablize the core temperature in the body, but it is invasive, and the necessary time of locating and maintaining effective temperature is a challenge. In general, hypothermia can improve the disordered microenvironment after spinal cord injury, reduce inflammatory infiltration, regulate the expression of relative genes and proteins, and promote the proliferation and differentiation of endogenous nerve cells. There are basic and clinical studies on hypothermia neuroprotection against spinal cord injury from various aspects; thereafter, hypothermia is a promising treatment strategy for spinal cord injury.
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Objective To investigate the effects of sivelestat sodium on early inflammatory reaction in rats with smoke inhalation injury. Methods Forty SPF male SD rats were randomly divided into 5 groups:normal control group (A), injury group (B), smoke inhalation treated with 10 mg/kg sivelestat sodium group (C), smoke inhalation treated with 20 mg/kg sivelestat sodium group (D) and smoke inhalation treated with 30 mg/kg sivelestat sodium group (E), 8 rats for each group. After smoke inhalation injury model was established, the treatment groups were intraperitoneally injected sivelestat sodium 10 mg/kg, 20 mg/kg and 30 mg/kg separately. B group was treated with the same volume of physiological saline. After 24 hours,ELISA was used for detecting serum contents of neutrophil elastase (NE), myeloperoxidase (MPO), tumor necrosis factor-α(TNF-α) and interleukin-6 (IL-6) in five groups. Meanwhile the water content of lung tissue was measured, and the pathological changes were observed by HE staining. The thickness of alveolar septum was measured and compared between groups. Results Compared with control group, the serum levels of NE, MPO, IL-6, TNF-α, water content of the lung tissue and thickness of alveolar septum were significantly higher in other four groups (P<0.05). Compared with injury group, the serum levels of NE, MPO, IL-6, TNF-α, water content of the lung tissue and thickness of alveolar septum were significantly lower in treatment groups (P<0.05). Compared with 20 mg/kg treatment group and 30 mg/kg treatment group, the serum levels of NE, MPO, IL-6, TNF-α, water content of the lung tissue and thickness of alveolar septum were significantly lower in 10 mg/kg treatment group (P<0.05). Conclusion The result shows that sivelestat sodium can reduce the early inflammatory reaction of rats with smoke inhalation injury and attenuates the lung edema. In this experiment, the treatment effect of 10 mg/kg sivelestat sodium is better than other treatment doses.
ABSTRACT
BACKGROUND:Peripheral nerve defect due to limb dysfunction has always been the difficulty faced by the medical profession. Ideal materials and processing technology for constructing a tissue engineering scaffold targeting peripheral nerve repair are stil in research stage. OBJECTIVE:To review the research progress in peripheral nerve repair using col agen/silk fibroin nerve conduits. METHODS:In this paper, the first author retrieved the PubMed and CNKI from 2003 to 2016 to search articles regarding methods of constructing artificial nerve scaffolds and selection of raw materials. Data from these articles were col ected, summarized and analyzed. RESULTS AND CONCLUSION:Forty-six articles were included for final analysis. Col agen and its degradation products trigger no inflammatory response in the host because of high biocompatibility and biodegradability. However, its use is largely limited by its rapid degradation and poor physical performance. Silk fibroin has a high flexibility and biocompatibility, and exhibits a slow degradation in vivo. As a rapid prototyping technique, three-dimensional printing can print various forms of scaffolds within a short time, characterized as high-quality pore structure and large-scale production. Given these, the col agen/silk fibroin nerve conduit prepared using the three-dimensional printing technology can maintain the biocompatibility and even improve the mechanical properties of the raw materials. Until now, more investigations on nerve repair using col agen or silk fibroin have been done, and we have never stopped improving the production process of these scaffolds. Therefore, the col agen/silk fibroin scaffold prepared using the three-dimensional printing technology is expected to become the main candidate for the repair of peripheral nerve defects.