1.Study on content determination of lobetyolin and gallic acid in Eighteen Flavors Dangshen Pill from different factories
Zixuan LI ; Yong LI ; Chao LUO ; Caijuan BAI ; Sang ZHA ; Lijuan NIE
Chongqing Medicine 2017;46(20):2809-2811
Objective To develop a HPLC method for determining the contents of lobetyolin and gallic acid in Eighteen Flavors Dangshen Pill(EFDSP) produced by different factories.Methods The HPLC analysis was performed on a VP-DOS C18 column (4.6 mm×150 mm,5 μm).The mobile phase was acetonitrile and 0.4% glacial acetic acid(21∶79) in the determination of lobetyolin content.The detection wavelength was 267 nm and the flow velocity was 1 mL/min.the column temperature was25 ℃ and the sample size was10 μL.The mobile phase was methanol and 0.4% glacial acetic acid(1∶99) in the determination of gallic acid content.The detection wavelength was 280 nm.The column temperature was 25 ℃ and the sample size was 10μL.Results The contents of lobetyolin and gallic acid in EFDSP were 1.0835mg·g-1and 15.334 0 mg/g for Qinghai Gela Dandong Tibetan Pharmaceutical Factory;0.628 9 mg/g and 15.159 5 mg/g for Changdu Tibet Medicine Factory;0.306 5 mg/g and 8.762 7 mg/g for Tibetan Hospital of Tibet.Conclusion This method has the advantages of good reproducibility,good accuracy,simple and fast operation.The contents of lobetyolin and gallic acid in EFDSP produced by different manufacturers are significantly different.The gallic acid content has greater difference.It provides the reference for quality control of EFDSP
2.Effect of pressure support ventilation combined with low inspired oxygen concentration on atelectasis during general anesthetic emergence in elderly patients undergoing robotic-assisted radical prostatectomy
Yu HOU ; Zixuan WANG ; Lixia NIE ; Qilin YAO ; Shouyuan TIAN
Chinese Journal of Geriatrics 2023;42(12):1447-1452
Objective:To examine the impact of pressure support ventilation(PSV)in combination with low inspired oxygen concentration on atelectasis during the emergence from general anesthesia in elderly patients undergoing robotic-assisted radical prostatectomy.Methods:In this prospective randomized controlled study, a total of 144 elderly patients, aged 65-80 years(average age: 71.4±4.4 years), who were undergoing elective robotic-assisted radical prostatectomy under general anesthesia, were divided into 4 groups(n=36 each)using the random number table method.The groups were as follows: PSV+ 40% fraction of inspiration oxygen(FiO 2)(P40 group), PSV+ 80%FiO 2(P80 group), spontaneous breathing+ 40%FiO 2(S40 group), and spontaneous breathing+ 80%FiO 2(S80 group). These methods were used during the general anesthetic emergence, which refers to the period from the end of the operation to extubation.Atelectasis aeration loss score was measured using ultrasound, and the oxygenation index(OI)was calculated through arterial blood gas analysis.These measurements were recorded at different time points: at the end of surgery(T 1), after extubation(T 2), 30 minutes after entering the post anesthesia care unit(PACU)(T 3), and 48 hours after surgery(T 4). The number of hypoxemia cases(defined as saturation of pulse oxygen <92%)during emergence and within 30 minutes of entering the PACU, as well as the incidence of postoperative pulmonary complications(PPCs)at T 4, were also recorded. Results:A total of 137 patients completed the study.Compared with the P40 group, the patients in the P80 group had higher atelectasis aeration loss scores at T 2[6.0(3.0)scores vs.4.0(2.0)scores; Z=-3.733, P<0.001], the S40 group[8.0(3.0)scores vs.4.0(2.0)scores; Z=-4.868, P<0.001], and the S80 group[9.0(3.0)scores vs.4.0(2.0)scores; Z=-6.835, P<0.001]. At T 3, the S40 group[7.0(2.0)scores vs.5.0(2.0)scores; Z=-4.631, P<0.001]and the S80 group[9.0(2.5)scores vs.5.0(2.0)scores; Z=-6.590, P<0.001]also had higher atelectasis aeration loss scores.There was no significant difference in the incidence of hypoxemia between the four groups during the recovery period( χ2=0.405, P=0.939)and in PACU( χ2=4.048, P=0.256). The incidence of PPCs in the four groups at 48 hours after operation was 5.9%(2/34), 11.4%(4/35), 8.6%(3/35), and 6.1%(2/33)respectively( χ2=0.947, P=0.814). Conclusions:The combination of positive end-expiratory pressure support ventilation(PSV)and low inspired oxygen concentration can effectively decrease the occurrence of atelectasis in elderly patients undergoing robotic-assisted radical prostatectomy during the emergence phase.This approach also helps in reducing the incidence of hypoxemia in the post-anesthesia care unit(PACU)and improves the postoperative oxygenation index.
3.Effect of driving pressure-guided individualized PEEP titration on atelectasis in elderly patients undergoing robot-assisted radical prostatectomy
Zixuan WANG ; Jiayu ZHU ; Jing YAO ; Wenjie ZHANG ; Lixia NIE ; Xuesen SU ; Xin YUAN ; Chao LI ; Shufang LIU ; Shouyuan TIAN
Chinese Journal of Anesthesiology 2021;41(12):1446-1450
Objective:To evaluate the effect of driving pressure-guided individualized positive end-expiratory pressure (PEEP) titration on atelectasis in elderly patients undergoing robot-assisted radical prostatectomy.Methods:Fifty elderly patients, aged 65-80 yr, of American Society of Anesthesiologists physical status Ⅱ or Ⅲ, with body mass index of 19-28 kg/m 2, undergoing elective robot-assisted radical prostatectomy under general anesthesia, were divided into 2 groups ( n=25 each) according to the random number table method: traditional lung-protective ventilation group (group C) and driving pressure-guided individualized PEEP group (group D). The method for setting PEEP was as follows: PEEP 5 cmH 2O was used throughout operation in group C. In group D, the optimal PEEP was titrated after intubation and mechanical ventilation and Trendelenburg position-pneumoperitoneum construction, the initial value was the lowest PEEP allowed by the anesthesia machine, the PEEP was increased by 1 cmH 2O (PEEP≤12 cmH 2O) every 4 min, the plateau pressure and PEEP were simultaneously recorded to calculate the driving pressure, and the corresponding PEEP was considered as the optimal PEEP for the individual when the driving pressure reached the minimum.Ultrasound examination was performed after catheterization of radial artery (T 0), after anesthesia induction (T 1), 4 min after developing optimal PEEP ventilation (T 2, 4 min after developing ventilation in group C), after restoration of body position (T 3), before extubation (T 4), and at 2 h after admission to postanesthesia care unit (T 5). Atelectatic aeration loss scores were recorded at T 0, T 1, T 4 and T 5.Bilateral optic nerve sheath diameter was measured at T 0-4.Arterial blood gas analysis was performed at T 0, T 2, T 3 and T 5, PaO 2 and PaCO 2 were recorded, and oxygenation index was calculated.The postoperative pulmonary complications within 3 days after operation were recorded. Results:Compared with group C, atelectasis aeration loss scores at T 4, 5 and PaCO 2 at T 2, 3 were significantly decreased, and PaO 2 and oxygenation index were increased at T 2, 3, 5 in group D ( P<0.05). There were no significant differences in the bilateral optic nerve sheath diameter and incidence of postoperative pulmonary complications between the two groups ( P>0.05). Conclusion:Driving pressure-guided individualized PEEP can increase intraoperative oxygenation and decrease the development of atelectasis in elderly patients undergoing robot-assisted radical prostatectomy.
4.Effect of driving pressure-guided PEEP titration on lung injury in elderly patients undergoing robot-assisted radical prostatectomy
Jiayu ZHU ; Jing YAO ; Zixuan WANG ; Chao LI ; Xin YUAN ; Xin WANG ; Xuesen SU ; Wenjie ZHANG ; Lixia NIE ; Shouyuan TIAN
Chinese Journal of Anesthesiology 2022;42(1):39-43
Objective:To evaluate the effect of driving pressure (ΔP)-guided PEEP titration on lung injury in elderly patients undergoing robot-assisted radical prostatectomy (RARP).Methods:Forty-six American Society of Anesthesiologists physical status Ⅱ or Ⅲ patients, aged 65-80 yr, with body mass index of 19-28 kg/m 2, with Assess Respiratory Risk in Surgical Patients in Catalonia score assessed as medium to high risk, scheduled for elective RARP, were divided into control group (group C, n=23) and ΔP titration group (group D, n=23) using a random number table method.Volume-controlled mechanical ventilation was used after anesthesia induction and tracheal intubation.In group C, 5 cmH 2O was used to fix PEEP.In group D, the optimal PEEP was titrated after computer-controlled breathing and after establishing Trendelenburg position and pneumoperitoneum, the first titration started from 4 cmH 2O and increased by 1 cmH 2O every 4 min until ΔP reached the minimum value or PEEP increased to 12 cmH 2O, and the second titration was increased in increments as the method described above based on the optimal PEEP of the first titration.At 4 min after completion of the first PEEP titration (T 1, 4 min after mechanical ventilation with fixed PEEP in group C), 2 h after establishment of Trendelenburg position (T 2), 1 min after extubation (T 3) and 2 h after operation (T 4), serum concentrations of Clara cell protein (CC16), surfactant protein D (SP-D), soluble receptor for advanced glycation end-products (sRAGE) and soluble intercellular adhesion molecule-1 (sICAM-1). Pulmonary complications were assessed within 7 days after operation. Results:The serum concentrations of CC16, SP-D, sRAGE and sICAM-1 were significantly higher at T 2-4 than at T 1 in two groups ( P<0.05). Compared with group C, the serum concentrations of CC16, SP-D, sRAGE and sICAM-1 were significantly decreased at T 2-4 ( P<0.05), and no significant change was found in the incidence of pulmonary complications within 7 days after operation in group D ( P>0.05). Conclusions:ΔP-guided PEEP titration can reduce lung injury in elderly patients undergoing RARP.
5.Study on the harvest time of Astragali Radix and the revision of the content determination index in Chinese Pharmacopoeia
Pengpeng LIU ; Ji SHI ; Fan ZHANG ; Zixuan NIE ; Yangming WANG ; Hui ZHU
International Journal of Traditional Chinese Medicine 2023;45(7):868-874
Objective:To compare the quality of Astragali Radix at different harvest time; To revise the content determination indexes of Astragali Radix in Chinese Pharmacopoeia. Methods:An Agilent Eclipse XDB-C18 column (4.6 mm × 150 mm, 5 μm) was used for the determination of saponins with acetonitrile-water solution as mobile phase in a gradient mode. The drift tube temperature of ELSD was 60 ℃; the pressure was 30 psi; the gain was 800 ℃; the flow rate was 1.0 ml/min; the column temperature was 30 ℃; the injection volume was 20 μl; the acetonitrile-0.2% formic acid solution was used as mobile phase for the determination of flavonoids in a gradient mode; the flow rate was 1.0 ml/min; the detection wavelength was 260 nm; the column temperature was 30 ℃; the 10 μl was injected. The limited range as an indicator for determining Astragali Radix content was determined by investigating the extraction method and extraction time of Astragaloside Ⅰ and detecting the content of Astragaloside Ⅰ in 12 batches of Astragali Radix from different origins. The moisture, total ash, and water-soluble extracts in Astragali Radix were determined according to the drying method, total ash determination method, and cold soaking method in the four parts of Chinese Pharmacopoeia (2020 edition), respectively. Results:The content of total saponins in Astragali Radix harvested in spring and autumn in different origins was not significantly different, but the content of total flavonoids was significantly different. Except for H11, the content of Astragaloside Ⅰ in the other batches of Astragali Radix was ≥ 0.05%, so the content limit of Astragaloside Ⅰ was proposed to be≥0.05%. The results of moisture, total ash and water-soluble extracts in the 12 batches of Astragali Radix all meet the requirements in the Chinese Pharmacopoeia. Conclusions:Astragali Radix harvested in autumn is with higher content of active components and better quality. At the same time, this study can provide a reference that the new version of Chinese Pharmacopoeia can revise the Astragaloside Ⅳ in the content determination index of Astragali Radix to Astragaloside Ⅰ .
6.The full process operating procedure for the using of multi -center retrospective electronic medical record data
Xue ZHONG ; Dongfang QIAN ; Zixuan ZHANG ; Siyuan TAN ; Jianfeng LIU ; Xueyan CUI ; Ruifang NIE ; Ting LI ; Qian WANG ; Qi GUO ; Qiushuang LIU ; Yan LIANG ; Lin HUANG ; Lizong LI ; Yufei FENG
China Pharmacy 2022;33(19):2314-2320
With the gradual improvement of medical informatization and the vigorous development of medical and health big data,the exploration and practice of real -world research are becoming more and more mature ,and real -world data have become an important source of evidence for post marketing re -evaluation of drugs . As an important high -quality real -world medical data , electronic medical record data is an indispensable data source for post marketing re -evaluation of drugs . Most of the existing guidelines and norms of real -world research are designed from the perspective of prospective research ,and do not propose specific measures and methods in the implementation of retrospective research ,especially for the operation suggestions on the technical level of using conventionally collected electronic medical record data . In combination with the operational process framework formulated by the existing guidelines and norms ,this paper creatively adds the operating procedures for dataE- validation,data integration ,data verification ,and throughout quality control ,data management and storage of retrospectiveelectronic medical record data ,and describes the data analysis methods and key points involved in carrying out multi -center retrospective real -world research using electronic medical record data ,taking the post marketing safety research of drugs as an example. Finally,the full process operation procedure applicable to the use of multi -center retrospective electronic medical record data is established .