Value of CD4/CD8 ratio and total B lymphocytes before radiotherapy in predicting radiation pneumonitis in patients with esophageal cancer and lung cancer / 国际肿瘤学杂志

Objective:To investigate the value of CD4/CD8 ratio and total B lymphocytes before radiotherapy in predicting the occurrence of radiation pneumonitis (RP) in patients with esophageal cancer and lung cancer.Methods:The clinicopathological data of 28 patients with esophageal and 16 patients with lung cancer undergoing radiotherapy from April 2018 to March 2020 in Hefei Cancer Hospital, Chinese Academy of Sciences were retrospectively analyzed, and the patients were divided into RP group ( n=16) and non-RP group ( n=28) according to whether RP occurred during and after treatment. The CD4/CD8 ratio and total B lymphocytes before radiotherapy between the two groups, and the CD4/CD8 ratio and total B lymphocytes before and after radiotherapy in the RP group were compared. Receiver operating characteristic curve was used to analyze the value of CD4/CD8 ratio and total B lymphocytes before radiotherapy in predicting RP. Results:The CD4/CD8 ratio before radiotherapy in the RP group was significantly lower than that in the non-RP group (0.993±0.179 vs. 1.708±0.170), with a statistically significant difference ( t=2.706, P=0.009); the total B lymphocytes in the RP group was significantly lower than that in non-RP group [(4.409±0.823)% vs. (8.153±1.017)%], with a statistically significant difference ( t=0.986, P=0.015). The CD4/CD8 ratio in the RP group was lower than that before radiotherapy when RP occurred (0.785±0.167 vs. 0.993±0.179), with no statistically significant difference ( t=1.376, P=0.189). The total B lymphocytes in the RP group was lower than that before radiotherapy when RP occurred [(3.487±1.018)% vs. (4.409±0.823)%], with no statistically significant difference ( t=0.804, P=0.433). The critical values of CD4/CD8 ratio and total B lymphocytes predicted RP were 0.580 and 0.357, respectively. The areas under the curve (AUC) of CD4/CD8 for predicting RP was 0.802 (95% CI: 0.653-0.932), the sensitivity was 89.29%, and the specificity was 68.75%. The AUC of total B lymphocytes for predicting RP was 0.694 (95% CI: 0.483-0.814), the sensitivity was 85.71%, and the specificity was 50.00%. The AUC of the two combined diagnostic method for RP was 0.834 (95% CI: 0.697-0.932), the sensitivity and specificity were 81.25% and 89.29%. AUC of the two combined tests was significantly higher than that of the single test, with statistically significant differences ( Z=1.115, P=0.046; Z=1.992, P=0.026). Conclusion:The CD4/CD8 ratio and total B lymphocytes in the RP group are lower than those in the non-RP group. The CD4/CD8 ratio and total B lymphocytes in the serum are of great significance in predicting the occurrence of RP in patients with malignant tumors receiving chest radiotherapy.

Determination of Weight Average Molecular Weight and Molecular Weight Distribution of Ferric Carboxy-maltose by HPGPC / 中国药房

OBJECTIVE:To establish a method for the determination of weight average molecular weight(Mw)and molecular weight distribution (D) of ferric carboxymaltose. METHODS:HPGPC method was adopted to detect the Mw and D of 3 batches of Ferric carboxymaltose injection (imported) and its raw material (self-made). The determination was performed on TSK G4000 PWXL column with 0.1% sodium azide solution with the flow rate of 0.5 ml/min. The detector was refractive index detector;the column temperature was set at 35 ℃,and sample size was 20 μl. The results were calculated with GPC software. RESULTS:RSDs of precision,stability and reproducibility tests were all lower than 3.0%(n=6);Mw and D of 3 imported samples were 157 667 and 1.30;those of self-made samples were 162 000 and 1.42. CONCLUSIONS:The method has high precision,good stability,repeat-ability and durability. It can be used for the determination of Mw and D of ferric carboxymaltose.

Oxidation rate of magnesium sulfite catalyzed by cobalt ions.

Oxidation of magnesium sulfite is important for recycle of byproduct in the magnesium desulfurization. The oxidation rate of magnesium sulfite, prepared by vacuum evaporation method, was investigated in a bubbling tank in presence of transition metal catalysts, which shows cobalt is the most effective. The general reaction orders with respect to cobalt, magnesium sulfite, and oxygen are 0.44, 0, and 0.46, respectively, and the apparent activity energy is 17.43 KJ·mol. The catalytic performance of cobalt compared with other metals was also analyzed employing the ion potential theory. Integrated with the three-phase reaction model, we inferred that the general oxidation rate of magnesium sulfite is controlled by mass transfer of oxygen. Further, the intrinsic kinetics was predicted, indicating that the reaction orders with respect to cobalt and oxygen are 1.0 and 0, respectively. The results are helpful for the recycle of magnesium sulfite in magnesia desulfurization.

Macrokinetics of magnesium sulfite oxidation inhibited by ascorbic acid.

Magnesia flue gas desulfurization is a promising process for small to medium scale industrial coal-fired boilers in order to reduce sulfur dioxide emissions, in which oxidation control of magnesium sulfite is of great importance for the recycling of products. Effects of four inhibitors were compared by kinetic experiments indicating that ascorbic acid is the best additive, which retards the oxidation process of magnesium sulfite in trace presence. The macrokinetics of magnesium sulfite oxidation inhibited by ascorbic acid were studied. Effects of the factors, including ascorbic acid concentration, magnesium sulfite concentration, oxygen partial pressure, pH, and temperature, were investigated in a stirred reactor with bubbling. The results show that the reaction rate is -0.55 order in ascorbic acid, 0.77 in oxygen partial pressure, and zero in magnesium sulfite concentration, respectively. The apparent activation energy is 88.0 kJ mol(-1). Integrated with the kinetic model, it is concluded that the oxidation rate of magnesium sulfite inhibited by ascorbic acid is controlled by the intrinsic chemical reaction. The result provides a useful reference for sulfite recovery in magnesia desulfurization.