Adolescent ; Adult ; Drugs, Chinese Herbal ; therapeutic use ; Female ; Humans ; Medicine, Chinese Traditional ; methods ; Ovarian Diseases ; physiopathology ; therapy ; Ovary ; physiopathology ; Phytotherapy ; Young Adult

Anti-Bacterial Agents ; administration & dosage ; Child ; Child, Preschool ; Drug Administration Routes ; Drug Utilization ; standards ; Humans ; Infant ; Pediatrics ; Pharmaceutical Preparations ; administration & dosage ; Pharmacopoeias as Topic ; Pharmacy Administration

Dehydration ; therapy ; Fluid Therapy ; Humans

The antifungal antibiotic produced by Streptomyces luteogriseus H-103 was purified by means of macroporous adsorbent resin, and the crystal of the antibiotic with high purity was got. In this paper, the methods of purification by adsorbing of microporous adsorbent resin and detection by reversed high performance liquid chromatography with evaporative light scattering detection (HPLC-ELSD) were established. The result appeared that resin X-5 is the best adsorbent, the eluant is 50% ethanol. The antibiotic was successfully separated on Agilent~(TM)20RBA?310SB C_(18 )column (150mm?4.6mm i.d,5?m) , using a mixture of acetonitrile (A)-H_(2)O (B) as a mobile phase under gradient elution at a flow of 0.8mL/min at 30℃.0~4.0 min, V(A)∶V(B)=20∶80, 4.0~9.5min, V(A)∶V(B)=45∶55, then V(A)∶V(B)=80∶20. The drift tube temperature and the air carrier gas flow rate of the ELSD were set at 115℃ and 2.3L/min.

Contraindications ; Humans ; Infant ; Infant, Newborn ; Promethazine ; adverse effects

Child ; Consensus ; Diarrhea ; diagnosis ; therapy ; Humans

Comorbidity ; Humans

Objective To study the risk factors of MRI for the prediction of collapse in patients with avascular necrosis of the femoral head.Methods Twenty-two patients (39 hips) diagnosed avascular necrosis of femoral head by MR were enrolled in our study.The following MR appearances were evaluated:bone marrow edema,joint fluids,signal intensity and location of the lesion.The volume and surface area of the necrosis zone were calculated.The time of follow-up was 18-84 months (median,25 months).Logistic regression analysis was used to predict the risk factors by SPSS 13.0.The maximum value of Youden index was selected as the critical point to predict the collapse of femoral head and to define the sensitivity,specificity and accuracy.Results In the 39 hips with femoral head necrosis,21 hips had collapse.Bilateral collapse occurred in 5 cases.In 25 hips with the necrosis surface larger than 25％,collapse occurred in 21 (84％); In 8 hips with the volume of femoral head necrosis larger than 30％,collapse occurred in all cases; 1n 33 hips with the necrosis locating at the superolateral quadrant,collapse occurred in 21 (63.6％); In 22 hips with necrotic areas showing heterogeneous signal intensity,collapse occurred in 18(81.8％) ;In 25 hips with large amount of joint effusion,collapse occurred in 16 (64％) ;in 18 hips with bone marrow edema,collapse occurred in 13 (65％).Joint fluid,heterogeneous signal intensity and lesions in the superolateral quadrant,volume ratio,and area ratio were the high risk factors,while bone marrow edema was a relatively low risk factor.The area under ROC curves for area ratio of NASA was greater than that for volume ratio (0.987 vs 0.902).When the critical value for area ratio was 26.7％,the true positive rate was 95.2％,true negative rate was 94.4％,and Youden's index was 0.896.Conclusions The collapse of necrosis of femoral head may result from many factors.The femoral head was easy to collapse when it had large enough area of necrosis and mixed signal intensity,a large amount of joint effusion,bone marrow edema,and superolateral quadrant location.The critical value for area ratio to predict the collapse of femoral head was about 26.7％.The area ratio is more accurate than volume ratio in predicting the collapse of necrosis of femoral head.

Objective To observe and analyze the CT and MR imaging of the structures in the region of the jugular foramen (JF) on the base of thin-slice anatomic study. Methods Having been scanned by multislice CT and 1.5T MR scanner, two formalin-preserved adult cadavers were dissected into 1.0 mm thickness contiguous sections in transverse plane. Twenty cases without skull base and nasopharyngeal history received routine and post-contrast CT examinations with spiral and HQ mode. Twenty healthy volunteers received MR scanning, including SE T 1WI, FSE T 2WI, and 3D RF-FAST (3D Radio-Frequency Fourier Acquired Steady-State) sequences. Results JF region was divided into three levels, which included inner aperture, the jugular cavity, and the outer aperture. At the entrance of JF, there were glossopharyngeal canal and vagal canal, which wrapped the Ⅸ nerve and Ⅹ and Ⅺ nerves, respectively. CT images could display these canals in 20 cases (100%). Furthermore, the Ⅸ, Ⅹ, and Ⅺ nerves could be identified on different MR sequences. 17 cases (85%) were displayed on 3D RF-FAST, 14 cases (70%) on SE T 1WI, and 10 cases (50%) on FSE T 2WI, respectively. From the anterior to the posterior compartment within the JF cavity, the structures ranged as follows: the Ⅸ nerve, the inferior petrosal sinus, the Ⅹ and Ⅺ nerves, and the jugular bulb. These neuro-vessel structures could not be distinguished on CT, SE T 1WI, and FSE T 2WI images, except for 3D RF-FAST (16 cases, 80%). The outer aperture of JF was adjacent to the hypoglossal canal. The shape of JF outer aperture could be evaluated on CT images. On the oblique plane, which was parallel to the hypoglossal canal, the posterior cranial nerves could be detected to enter/exit the skull through the JF and hypoglossal canal separately. Conclusion The complement of CT and MR imaging would be helpful to distinguish the structures in the region of JF.