Objective: To detect the contents of the active components in five kinds of Chinese crude herbs and Samples Avoidable for Boiling(SAB). Methods: With modern technology, astraglin in Radix Astragali, atractylons and butenolide in Rhizoma Atractylodis Macrocephalae, paeonol in Cortex Moutan , sterols in Radix Morindae Officinalis and flavonoids in Radix Puerariae were detected and analyzed. Results: In SAB, the contents of astraglin, atractylone, butenolide, paeonol and sterols were low, especially the high molecular polysaccharides and volatile active components of atractylone, butenolide and paeonol. Meanwhile, more impurities were found in SAB. Conclusion: There are some defects in the production techniques and quality control of SAB.

BACKGROUND: Compared with the metal screws, absorbable screws have more obvious advantages, such as does not have to conduct internal fixation removal, non-metal ic components, no influence on the magnetic resonance imaging of patients after implantation, relatively simple operations, namely dril ing-tapping-screws fixation, more in line with the principles of minimal y invasive in orthopedics. OBJECTIVE: To investigate the biomechanical characteristics of absorbable screw fixation in repair of simple lateral mal eolus fractures by means of finite element technology. METHODS: The three-dimensional model of simple lateral mal eolus fractures and absorbable screw model were established, and then fixed according to standard orthopedic surgical techniques. The reference load when the load bearing of fibulotalar joint reaching the peak value in a normal adult gait cycle was loaded. The stress distribution and displacement of fibula and absorbable screws were analyzed. RESULTS AND CONCLUSION: There were total y 38 542 units, 8 790 nodes in the single screw fixation model. When the articular facet of lateral mal eolus loading 300 N, the maximum stress of screws was 89.35 MPa, the maximum displacement was 0.5 mm, the maximum displacement of the distal fracture was 0.5 mm. When the articular facet of lateral mal eolus loading 450 N, the maximum stress of screws was 152.58 MPa, the maximum displacement was 0.59 mm, the maximum displacement of the distal fracture was 0.77 mm. There were total y 43 115 units, 9 496 nodes in the double screws fixation model. When the articular facet of lateral mal eolus loading 300 N, the maximum stress of screws was 38 MPa, the maximum displacement was 0.44 mm, the maximum displacement of the distal fracture was 0.44 mm. When the articular facet of lateral mal eolus loading 450 N, the maximum stress of screws was 66.68 MPa, the maximum displacement was 0.48 mm, the maximum displacement of the distal fracture was 0.49 mm. The experiment verified the biomechanical feasibility of absorbable screw fixation in repair of simple lateral mal eolus fractures. For simple involving only the lower lateral fibular fracture, absorbable screw fixation is entirely feasible, and usual y requires at least two screws to maintain the stability of the articular surface of the reset.

Objective: To observe the safety and effects of application of analgesic and sedative drugs in severely burned patients during shock stage. Methods: One hundred and eighty patients with severe burns, conforming to the study criteria, were admitted to our unit from August 2014 to August 2016. Patients were divided into analgesia and sedation group and control group according to whether receiving analgesic and sedative treatment or not, with 90 cases in each group. Patients in control group received conventional treatment, while those in analgesia and sedation group received analgesic and sedative treatment for 24 hours besides conventional treatment. Before and at drug administration hour 2, 8, 16, and 24, pain degree of patients in two groups was scored by visual analogue scale (VAS). At drug administration hour 2, 8, 16, and 24, sedation degree of patients in two groups was scored by richmond agitation sedation scale, and the success rate of sedation was calculated. Mental state of patients within 24 hours of drug administration was observed, while pulse oxygen saturation (SpO₂), respiratory rate, heart rate, and blood pressure were observed and dynamically evaluated every 2 hours. The accidental extubation, tachycardia, hypertension, hypoxia, bradycardia, hypotension, urinary retention, and respiratory depression of patients within 24 hours of drug administration were monitored and recorded. Data were processed with analysis of variance for repeated measurement, one-way analysis of variance, t test, chi-square test, Wilcoxon rank sum test, and Fisher′s exact probability test. Results: (1) The VAS scores of patients in two groups were close before drug administration (t=0.675, P>0.05). The VAS scores of patients in analgesia and sedation group at drug administration hour 2, 8, 16, and 24 were (3.8±0.4), (3.9±0.6), (3.9±0.5), and (3.9±0.9) points, respectively, significantly lower than (6.0±0.9), (6.0±1.2), (6.2±0.6), and (6.3±0.4) points in control group (t=0.785, 0.730, 0.805, 0.895, P<0.05). The success rate of sedation of patients in analgesia and sedation group at drug administration hour 2, 8, 16, and 24 were 91.1% (82/90), 86.7% (78/90), 93.3% (84/90), and 90.0% (81/90), respectively, significantly higher than 7.8% (7/90), 6.7% (6/90), 14.4% (13/90), and 5.6% (5/90) in control group (Z=8.035, 7.946, 8.129, 8.014, P<0.05). (2) The respiratory rate of patients in analgesia and sedation group at drug administration hour 8, 16, and 24 were (15.78±0.69), (16.08±0.59), and (16.21±0.20) times per minute, and the heart rate were (87±9), (83±7), and (76±9) times per minute, respectively, significantly lower than (16.80±0.81), (17.09±0.50), and (17.02±0.61) times per minute and (89±8), (86±7), and (85±6) times per minute in control group (t=7.655, 7.022, 6.536, -6.931, -7.053, -10.196, P<0.01). There were no statistically significant difference in SpO₂, systolic blood pressure, and diastolic blood pressure before and at drug administration hour 2, 8, 16, and 24 between the two groups (t=3.417, -2.894, -6.501, -3.719, -4.573, 2.336, 3.315, 0.942, -1.583, 1.907, 1.147, -0.968, 0.931, -1.682, 1.076, P>0.05). (3) The rates of respiratory depression, hypoxia, bradycardia, urinary retention, and hypotension of patients in the two groups were close (χ²=0.310, P>0.05). The rates of hypertension, accidental extubation, and tachycardia of patients in analgesia and sedation group were significantly lower than those in control group (χ²=16.364, 5.143, 73.309, P<0.05 or P<0.01). Conclusions Proper application of analgesic and sedative drugs in severely burned patients during shock stage has good clinical effect with low incidence rates of complications.