目的:研究低氧性肺动脉高压大鼠对实验性红细胞增多的适应。方法:健康SD大鼠28只,体重200~250 g,随机分为4组:常氧对照组(N)、单纯低氧组(H)、低氧+低剂量人重组促红细胞生成素(rEPO) 600 u/kg(H+E1)组、低氧+高剂量rEPO 1200 u/kg(H+E2)组,每组7只大鼠。除常氧对照组外各低氧组大鼠均缺氧21 d,每日8 h。其中后两组每周腹部皮下注射不同剂量的rEPO三次。取血样测定红细胞数、全血粘度及红细胞变形指数;颈外静脉插管测定平均肺动脉压力;光镜观察反映肺动脉重构程度的形态学参数肺小动脉管壁厚度百分比、肺非肌性小动脉肌化程度。结果:①随着rEPO注射剂量的增加,红细胞、全血粘度有不同程度的增高;②全血粘度增高的同时红细胞变形指数也相应地增加;③随着rEPO剂量的增加,平均肺动脉压力逐渐增高,但是肺血管重构程度反而有所缓解。结论:实验性红细胞增多通过改变红细胞变形性和缓解肺血管重构程度来阻遏低氧性肺动脉高压的进一步发展。
ObjectiveTo study the distribution of bone-specific alkaline phosphatase (BALP), type Ⅰ collagen cross-linked C-telopeptide (CTX) and tartrate-resistant acid phosphatase (TRAP)-5b in plateau area builders, and analyze the influencing factors under plateau environment. MethodsBetween April and May, 2014, using random stratified cluster sampling, we included in our study 650 blood samples from the power grid construction people in Batang County of Ganzi Autonomous Prefecture of Sichuan Province and Mangkang County of Tibet Autonomous Region with an altitude ranging from 2 600 to 4 450 meters, averaging (3 586.50±610.85) meters. We collected their fasting blood and detected their TRAP-5b, CTX and BALP by enzyme-linked immunosorbent assay method. By using SPSS 13.0, we analyzed the relationship between TRAP-5b, CTX, BALP and the influencing factors such as age, working intensity, residence time in the plateau area and altitude of the plateau. In the end, we tried to find out the main influencing factors of bone metabolic markers in the plateau environment.ResultsThe levels of CTX, BALP and TRAP-5b were the highest before the age of 20, and the average levels of them were respectively (1.04±0.38) ng/mL, (52.09±14.62) μg/L, and (4.22±1.38) U/L. With the increase of age, the levels of CTX, TRAP-5b and BALP showed a downward trend, but CTX and BALP reached the lowest level in the age group of 40 to 49 years old, and the average levels of CTX and BALP were (0.44±0.26) ng/mL and (24.77±9.89) μg/L, respectively. Then they gradually increased after the age of 50. TRAP-5b reached the lowest level in the age group of 30 to 39 years old, and the average level of TRAP-5b was (2.59±0.95) U/L. Then it gradually increased after the age of 40. The activity of CTX and BALP increased obviously with the increase of altitude. With the increase of labor intensity, BALP, TRAP-5b and CTX all increased. However, no matter what labor intensity, the bone formation marker BALP first increased and then decreased with the plateau residence time, while the bone absorption marker TRAP-5b increased after the first reduction.ConclusionsBone metabolic markers are different in different age groups. Altitude, working intensity and plateau working time have significant effects on bone metabolism markers.
Objective To explore the clinical characteristics of patients with combined use of ≥2 kinds of anti-seizure medications in Tibetan plateau. Methods Epilepsy patients who were hospitalized in the People’s Hospital of Tibet Autonomous Region from September 2018 to September 2023 and used ≥2 kinds of anti-seizure medications in combination were selected. Their demographic data such as gender, age, and ethnicity, as well as diagnostic information, medication and other clinical data were collected, and relevant demographic and clinical characteristics were analyzed. In the later stage, telephone follow-up was used to record medication and epileptic seizure control. Results A total of 2295 patients with epilepsy were included, of which 142 (6.2%) met the inclusion criteria, of which 133 (93.7%) were Tibetans. There were more males than females (86 vs. 56, P<0.05), and more minors and young patients than middle-aged and elderly patients (106 vs. 36, P<0.05). 87.3% of the patients underwent magnetic resonance imaging (MRI) or computed tomography (CT), and 71.1% of the patients were abnormal. The main cause of epilepsy was structural etiology (84/142, 59.2%). The most common combination was two drugs (127/142, 89.4%). The largest proportion of combination was sodium valproate and levetiracetam (46/142, 32.4%). After standardized multi-drug combination therapy, the average frequency of epilepsy seizures was significantly reduced compared with the baseline, and the difference was statistically significant (P<0.05). Among the 98 patients aged ≥14 years, 15 cases (15.3%) had drug-refractory epilepsy, 18 cases (18.4%) had seizures controlled by standardized combination medication, 16 cases (16.3%) had seizures controlled by reducing combination medication to a single drug, 5 cases (5.1%) had good control and had stopped medication, 3 cases (3.1%) had frequent epileptic seizures due to poor medication compliance, 15 cases (15.3%) had irregular medication, 17 cases (17.3%) died, and 9 cases (9.2%) were lost. Conclusion The proportion of epilepsy treated with multiple drugs and refractory to drugs was lower than the conclusion of previous studies, and the anti-epileptic effect of multiple drugs was positive. Structural causes (stroke, etc.) are the main causes of epilepsy, and brain parasitic infection is a unique factor of high-altitude epilepsy. Strengthening the standardized use of drugs will help improve the treatment status and prognosis of patients.
Objective To analyze the current situation and demand of emergency and critical care training for medical staff in plateau areas, and to provide a reference for further emergency and critical care training for medical staff in plateau areas. Methods From July 1, 2018 to July 30, 2020, medical staff (including physicians, nursing staff, and other medical staff) from hospitals in various regions of Tibet were surveyed anonymously, to investigate the content and demand of medical staff in plateau areas receiving emergency and critical care training. The content and demand of medical staff from different levels of hospitals receiving emergency and critical care training were further compared. Results A total of 45 questionnaires were distributed in this study, and a total of 43 valid questionnaires were collected, with an effective response rate of 95.6%. The average age of medical staff was (35.67±9.17) years old, with a male to female ratio of 1∶1.5. The proportion of tertiary, secondary, and lower level hospitals to which medical staff belong were 23.3%, 27.9%, and 48.8%, respectively. The number and proportion of medical staff receiving training on chest pain, heart failure, stroke, gastrointestinal bleeding, respiratory failure, metabolic crisis, and sepsis diseases were 25 (58.1%), 25 (58.1%), 24 (55.8%), 23 (53.5%), 20 (46.5%), 14 (32.6%), and 12 (27.9%), respectively. The number and proportion of medical staff who believed that training in the heart failure, respiratory failure, metabolic diseases, stroke, gastrointestinal bleeding, chest pain, and sepsis needed to be strengthened were 38 (88.4%), 36 (83.7%), 35 (81.4%), 34 (79.1%), 34 (79.1%), 33 (76.7%), and 29 (67.4%), respectively. Thirteen medical staff (30.2%) hoped to acquire knowledge and skills through teaching. There were no statistically significant differences in gender, age, job type, professional title, and department type among medical staff from tertiary, secondary, and lower level hospitals participating in the survey (P>0.05). The proportion of medical staff in hospitals below secondary receiving training on chest pain was lower than that in second level hospitals (38.1% vs. 91.7%). The proportion of medical staff in hospitals below secondary receiving training on heart failure was lower than that in secondary and tertiary hospitals (38.1% vs. 75.0% vs. 80.0%). The proportion of medical staff in hospitals below secondary receiving training on respiratory failure was lower than that in tertiary hospitals (28.6% vs. 80.0%). The demand for sepsis training among medical staff in hospitals below secondary was higher than that in tertiary hospitals (85.7% vs. 30.0%). There was no statistically significant difference in the other training contents and demands (P>0.05). Conclusion The content of critical care training for medical staff in plateau areas cannot meet their demands, especially for medical staff in hospitals below secondary. In the future, it is necessary to strengthen training support, allocate advantageous resources to different levels of hospitals, expand the scope of training coverage, and enrich training methods to better improve the ability of medical personnel in plateau areas to diagnose and treat related diseases.
Objective To observe the changes and influencing factors on pulse oxygen saturation and hemoglobin in Tibetan residents of 4 200 meters above sea level. Methods The health examination data of the Tibetan village residents were collected in Rerong Country, Shannan Prefecture of Tibet autonomous region from January 4 to February 4, 2012. And the information of pulse oxygen saturation was recorded at the same time. The residents were categorized by sex, age and smoking history to observe the difference in each group. Results The clinical data of 234 healthy Tibetan residents were collected with average age of (37.9±13.9) years old, and 97 were male (41.5%). There were no difference in pulse oxygen saturation [(86.1±3.4)% and (86.0±4.7)%, P=0.784) between male and female residents, and heart rate of the male was less than that of the female [(77.9±9.8) bpm and (81.1±12.1) bpm, P=0.036], while the hemoglobin content was higher in male residents [(164.5±15.4) g/L and (139.1±19.2) g/L, P=0.000). With the increase of age, especially in the group older than 60 years, the pulse oxygen saturation significantly decreased (P=0.003), while hemoglobin content showed a gradual increase trend (P=0.000). And in the group which smoking history more than 20 pack-years, the pulse oxygen saturation was lesser than the other groups, and the hemoglobin content increased (P=0.000). Conclusions The pulse oxygen saturation level of Tibetan residents of 4 200 meters above sea level is negatively correlated with age and smoking history, and the level of hemoglobin is positively correlated with age and smoking history. In resting state, there is no significant difference in heart rate between the groups divided by ages.
短期进入高原从事高强度工作所致高原反应是值得探讨的问题,查阅文献,探讨其病因及发病机理、临床表现,总结国内外在诊断、预防及治疗方面的经验,探索一套可行、有效的预防及治疗措施,具有重要的临床意义。
ObjectiveThe purpose of the research is to study the distribution and early warning of electroencephalogram (EEG) in acute mountain sickness (AMS). MethodsA total of 280 healthy young men were recruited from September 2016 to October 2016. The basic data were collected by the centralized flow method, the general situation of the division of the investigators after the training, the Lewis Lake score, the computer self-rating anxiety scale and depression scale, and the collection of EEG. Follow up in three months. Results94 of the patients with AMS, morbidity is 33%, 21 (22.34%) of the patients are moderate to severe, 73 (77.66%) are mild, morbidity is 26.67%. The abnormal detection rate of electrogram was 7.9% (22/280), which were mild EEG, normal EEG abnormal rate was 8.6% (16/186), abnormal detection rate of mild AMS was 4.1% (3/73), and the abnormal detection rate was 14.3% (3/21) in the medium / heavy AMS. The latter was significantly different from the previous (P < 0.05). Three months follow-up of this group of patients with 0 case of high altitude disease. Conclusions The EEG in AMS is mainly a rhythm irregular, unstable, poor amplitude modulation; or two hemisphere volatility difference of more than 50% or slightly increased activity. The result is statistically significant, suggesting that EEG distributions has possible early warning of AMS.