Objective:To establish a detection method for fatty acid composition and methoxylaniline value in pharmaceutical excipient castor oil.Methods:The detection of fatty acid composition involves pre-test of the sam-ple using the methanol sodium methylation method,followed by direct injection analysis using gas chromatography,and finally calculating the content of each fatty acid composition using the area normalization method with correction factors.The detection of methoxylaniline value is achieved by dissolving and diluting the sample with isooctane:isopropanol(8∶2,volume ratio),reacting with 4-methoxylaniline,measuring the absorbance at a wavelength of 350 nm,and calculating the methoxylaniline value.Results:Under the composition of fatty acids,the 8 kinds of fatty acids have good separation degree.The methyl ricinoleate and methyl stearate have good linear relationship in the range of 0.1-5.0 mg·mL-1.The repeatabilityand intermediate precision(RSD)ofthe determination results of each fatty acid in the sample are all less than 5%.It is also found that only α-type of linolenic acid is present in castor oil,without γ-type.In the determination of methoxyaniline value,the blank solvent does not interfere with the determination of the sample,and the repeatability RSD is 3.6%.Conclusion:The detection method for fatty acid composition and meth-oxylaniline value established in this article is accurate and reliable,and can be used for the detection of fatty acid composition and methoxylaniline value in pharmaceutical excipient castor oil.

Objective:To analyze and identify the risk factors for preoperative hypokalemia in patients with gastrointestinal tumors and to construct a risk prediction model.Methods:A prospective research design was implemented. Patients with gastrointestinal tumors who underwent surgical treatment at the First Medical Center of the People ′s Liberation Army General Hospital between March 2023 and February 2024 were recruited as research participants through convenience sampling. These participants were randomly allocated into a modeling group or a validation group in a 7:3 ratio. Preoperative hypokalemia was defined as the outcome indicator. Multivariate Logistic regression analysis was employed to screen for risk factors, and a nomogram was subsequently constructed and validated. Results:Finally, a total of 600 patients were included in the study. In the modeling group ( n=420), 282 were male and 138 were female, 169 patients were under 60 years old, 233 patients were aged between 60 and 80 years, and 18 patients were over 80 years old. In the verification group ( n=180), there were 123 males and 57 females. Among these, 69 patients were under 60 years old, 102 patients were aged between 60 and 80 years, and 9 patients were over 80 years old. The multivariate Logistic regression analysis revealed that body mass index, occupation type, dietary habits, 6m walking speed test, grip strength relative to body mass index, and presence of digestive tract symptoms were independent risk factors for the development of preoperative hypokalemia ( χ2 values were 8.21~27.78, all P<0.05). The results of the model validation demonstrated that the areas under the receiver operating characteristic curves for the modeling and validation groups were 0.853 (95% CI 0.811-0.895) and 0.834 (95% CI 0.756-0.912), respectively, indicating a satisfactory level of predictive performance. Conclusions:The developed predictive model for preoperative hypokalemia in gastrointestinal tumors facilitates the accurate evaluation of the risk of preoperative hypokalemia and serves as a reference for effective clinical intervention.

Objective:To establish a detection method for fatty acid composition and methoxylaniline value in pharmaceutical excipient castor oil.Methods:The detection of fatty acid composition involves pre-test of the sam-ple using the methanol sodium methylation method,followed by direct injection analysis using gas chromatography,and finally calculating the content of each fatty acid composition using the area normalization method with correction factors.The detection of methoxylaniline value is achieved by dissolving and diluting the sample with isooctane:isopropanol(8∶2,volume ratio),reacting with 4-methoxylaniline,measuring the absorbance at a wavelength of 350 nm,and calculating the methoxylaniline value.Results:Under the composition of fatty acids,the 8 kinds of fatty acids have good separation degree.The methyl ricinoleate and methyl stearate have good linear relationship in the range of 0.1-5.0 mg·mL-1.The repeatabilityand intermediate precision(RSD)ofthe determination results of each fatty acid in the sample are all less than 5%.It is also found that only α-type of linolenic acid is present in castor oil,without γ-type.In the determination of methoxyaniline value,the blank solvent does not interfere with the determination of the sample,and the repeatability RSD is 3.6%.Conclusion:The detection method for fatty acid composition and meth-oxylaniline value established in this article is accurate and reliable,and can be used for the detection of fatty acid composition and methoxylaniline value in pharmaceutical excipient castor oil.

Objective:To analyze and identify the risk factors for preoperative hypokalemia in patients with gastrointestinal tumors and to construct a risk prediction model.Methods:A prospective research design was implemented. Patients with gastrointestinal tumors who underwent surgical treatment at the First Medical Center of the People ′s Liberation Army General Hospital between March 2023 and February 2024 were recruited as research participants through convenience sampling. These participants were randomly allocated into a modeling group or a validation group in a 7:3 ratio. Preoperative hypokalemia was defined as the outcome indicator. Multivariate Logistic regression analysis was employed to screen for risk factors, and a nomogram was subsequently constructed and validated. Results:Finally, a total of 600 patients were included in the study. In the modeling group ( n=420), 282 were male and 138 were female, 169 patients were under 60 years old, 233 patients were aged between 60 and 80 years, and 18 patients were over 80 years old. In the verification group ( n=180), there were 123 males and 57 females. Among these, 69 patients were under 60 years old, 102 patients were aged between 60 and 80 years, and 9 patients were over 80 years old. The multivariate Logistic regression analysis revealed that body mass index, occupation type, dietary habits, 6m walking speed test, grip strength relative to body mass index, and presence of digestive tract symptoms were independent risk factors for the development of preoperative hypokalemia ( χ2 values were 8.21~27.78, all P<0.05). The results of the model validation demonstrated that the areas under the receiver operating characteristic curves for the modeling and validation groups were 0.853 (95% CI 0.811-0.895) and 0.834 (95% CI 0.756-0.912), respectively, indicating a satisfactory level of predictive performance. Conclusions:The developed predictive model for preoperative hypokalemia in gastrointestinal tumors facilitates the accurate evaluation of the risk of preoperative hypokalemia and serves as a reference for effective clinical intervention.

Objective To evaluate the value in the diagnosis of focal nodular hyperplasia( FNH) by combining micro-flow imaging ( MFI) and color Doppler flow imaging ( CDFI) . Methods A total of 32 patients with 32 FNH lesions were enrolled in this study . Each patient underwent CDFI ,MFI ,and contrast-enhanced ultrasonography ( CEUS ) examinations . The differences in the grade and characteristic distribution of blood flow in FNH were compared between CDFI and MFI . The results were further compared with CEUS . Results There was a significant difference between MFI and CDFI in detecting the blood flow in FNH . Twenty-six cases (81 .3％ ) were detected with blood flow of grade Ⅱ and Ⅲ by MFI , however , 18 cases ( 56 .3％ ) were detected of grade Ⅱ and Ⅲ by CDFI ( P = 0 .000) . A total of 12 (37 .5％ ) lesions were correctly showed spoke-wheel arterial flow peculiar by CDFI ,whereas the number increased to 23(71 .9％ ) in combination with MFI( P = 0 .013) . Conclusions In combination with MFI , CDFI can reveal more blood flow and detect more sensitively in FNH ,which helps to diagnose FNH . To a certain degree ,it can be applied to reduce the use of CEUS .

Objective To explore the survival/proliferation,apoptotic and death effects of keratinocyte growth factor (KGF) in alveolar epithelial type Ⅱ cells (AT Ⅱ Cs) exposed to hyperoxia.Methods Primary culture of AT Ⅱ Cs from the Sprague-Dawley rat fetuses was studied under room air condition (210 mL/L O2) and hyperoxic condition (950 mL/L O2) for 0.5-12.0 h.Various concentrations of KGF (15 μg/L,25 μg/L,50 μg/L,75 μg/L,100 μg/L)were added into the cell cultures.Cells were randomly divided into room-air group,room-air-KGF group,hyperoxic-exposure group and hyperoxic-exposure-KGF group.The levels of intracellular reactive oxygen species (ROS),cleaved cysteinyl aspartate specific proteinase-3 (Caspase-3),cell death and proliferation of AT Ⅱ Cs were measured by flow cytometer,Western Blot,release of lactate dehydrogenase assays (LDH assays) and 3-(4,5-Dimethyhhiazol-2-yl)-2,5-diphenyhetrazolium bromide assays (MTT assays),respectively.Results Under room air condition,KGF could significantly increase AT Ⅱ Cs proliferation with 15-100 μg/L in a dose-dependent manner and significantly decrease LDH production at concentrations of 25-100 μg/L.Exposure to hyperoxia resulted in a significant increase in intracellular ROS production in AT Ⅱ Cs in a time-dependent manner compared with that of the room air group.Cell viability decreased and LDH release increased significantly in a time-dependent manner when AT Ⅱ Cs were exposed to 950 mL/L O2 for more than 4 h.After exposure to hyperoxia for 0.5 h and 1 h,KGF could significantly increase AT Ⅱ Cs proliferation in 15-75 μ g/L and significantly decrease LDH production at concentrations of 25-75 μg/L.After exposure to hyperoxia up to 4 h,higher viability was observed in 15 μg/L and 25 μg/L KGF group,and lower death rate presented in 25-100 μg/L KGF group.Further,prolnged hyperoxic exposure for 8 h,high viabilitv was shown only in 50 μg/L KGF group,and less death rate was observed only in 75 μg/L KGF group.In addition,no significant difference in viability and mortality was found between hyperoxic group and hyperoxic-KGF group after hyperoxic exposure for 12 h.Expression of cleaved Caspase-3 was significant higher after 4 h and 8 h hyperoxic exposure than that in room-air group ;at the same time,by adding 25 μg/L and 75.μg/L KGF led to decreased expression of Caspase-3 was detected,compared to hyperoxic group.Conclusions KGF may promote survival/proliferation,inhibited apoptosis and death of rat fetal AT Ⅱ Cs in room air condition or under temporary exposure to hyperoxia in vitro.However,prolonged exposure to hyperoxia may decrease the sensitivity of AEC Ⅱ Cs to KGF and limit its protective effects on lung injury.