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<p><b>PURPOSE</b>To explore the impact of subtropical maritime monsoon climate on the frequency of ambulance use for trauma patients in a coastal region in China.</p><p><b>METHOD</b>Statistical analysis of data on ambulance use from the 120 Emergency Command Center in Shantou City, Guangdong Province, from January to December 2012 as well as daily meteorological data from a Shantou observatory was performed to determine how climatic factors (seasons, time, and weather) affect the frequency of ambulance use for trauma patients.</p><p><b>RESULTS</b>The daily ambulance use for trauma patients differed between spring and summer or autumn (p<0.05), between sunny and rainy days (p<0.05), and between cloudy and lightly or moderately rainy days (p<0.05).We found a linear correlation between daily maximum temperature and daily ambulance use for trauma patients (R² =0.103, p<0.05). In addition, there was significant difference in ambulance use between good and bad weather (p<0.05).</p><p><b>CONCLUSION</b>Frequency of ambulance use for trauma patients is affected by the subtropical maritime monsoon climate in the coastal region. Better weather contributes to increased daily frequency of ambulance use, which is the highest in autumn and lowest in spring.</p>
Subject(s)
Humans , Ambulances , China , Climate , Retrospective Studies , Wounds and Injuries , TherapeuticsABSTRACT
<p><b>OBJECTIVE</b>To induce hair follicle regeneration in rat ear by microencapsulated dermal papillae (DP) cells.</p><p><b>METHODS</b>Intact dermal papillae were obtained from human scalp follicles which were digested with collagenase I. The human hair DP cells were encapsulated with alginate-polylysine-alginate (APA) by a high-voltage electric field droplet generator. The diameters of the DP cell microcapsules were optimized by regulating the voltage, the distance between the needle head and the solution surface and the injection speed. Then DP cell microencapsulations were xenotransplanted into ears of 20 SD rats with a novel method. One rat was killed every week at the postoperative 2-12 weeks and the implantation sites were biopsied for histological observation.</p><p><b>RESULTS</b>The DP cell microencapsulations were found in a group of round, smooth and transparent microcapsules under a phase-contrast microscope. The optimal combination of parameters to obtain 0.4 mm DP cell microcapsules was voltage 7.0 kV, injection speed 55 mm/h, and distance 10 mm. After 4-12 weeks, 18 of 20 DP cell microcapsule implantations had produced high-density hair. Histological observation indicated that both large follicles and sebaceous gland structures were formed in the rat ear within 3-12 weeks.</p><p><b>CONCLUSIONS</b>These findings show that the DP cell microencapsulation maintain the capacity for initiating the follicle regeneration and can be considered as a substitute for fresh isolated dermal papillae.</p>
Subject(s)
Animals , Female , Humans , Male , Rats , Dermis , Cell Biology , Physiology , Ear , Hair Follicle , Physiology , Models, Animal , Rats, Sprague-Dawley , Regeneration , PhysiologyABSTRACT
Objective To establish a model of cervical spondylosis in rats. Methods Sixty SD rats (four months old) were ran-domly divided into control, muscle imbalance and posterior column instability group, ten rats in each group. Then the degeneration of X-ray film and motion function were evaluated by oblique board test. Results After analyzed the cervical films of control groups, the nature curve still existed, vertebral clearance had no abnormal. No ostensis spurs or ossifies in Luschka joint and joint processes were found. But in mus-cle imbalance and posterior column instability groups, the nature curve was disappeared or stiff, vertebral clearance were stenosis, osteosis spur formed, ossify or sclerosis emerged in Lnschka joint and joint process. Compared with control group in oblique board test, the muscle force decreased in muscle imbalance and posterior column instability group. There were no statistic significant difference between 2 and 4 months of control group, and also no difference in muscle imbalance and posterior column instability group, but there were significant differ-ence in 2 and 4 months of muscle imbalance and posterior column group. Conclusion Not only cervical posterior column instability but also muscle imbalance could result in cervical spendylosis, both muscle force balance and posterior column were important factors in maintaining spine stability.
ABSTRACT
<p><b>OBJECTIVE</b>To induce the hair follicle regeneration in mice ear by microencapsulated dermal papillae cells (DPs) and to investigate the permeability of fluorescein in APA microencapsulation to search the ideal diameter of microencapsulation.</p><p><b>METHODS</b>The DPs were encapsulated with alginate-polylysine-alginate by a high-voltage electric field droplet generator. The microencapsulated dermal papilla cells were xenotransplanted into the mice ears. After 6 week, the histological examination was made by microscopy. The diffusion way and speed of fluorescein into the microencapsulations were observed by confocal laser scanning microscopy. The comparison of fluorescein intensity was made in APA microencapsulations with different diameters.</p><p><b>RESULTS</b>Fully developed hair follicles could be easily identified in the skin of implanted site following xenotransplantation of microencapsulation DPs, which were different from the control groups in configuration, number, size and differentiation degree. The fluorescein was diffused gradually into the microencapsulations with a shape of concentric circularity. The fluorescein intensity inside three groups of APA microencapsulations was: small > middle > big.</p><p><b>CONCLUSIONS</b>The microencapsulated DPs retain the physiological function to induce the follicle regeneration. The APA microencapsulations with 400um diameter could ensure the nutrition and metabolite to pass in and out freely, and isolate the immunocompetent substance absolutely.</p>