Objective:To evaluate the clinical application value of the adaptive aperture by comparing intensity-modulated proton radiotherapy(IMPT) plans using and not using the aperture for brain tumors.Methods:A total of twenty patients treated with postoperative radiotherapy for brain tumors were enrolled in this study. IMPT plans were developed for each patient using and not using the adaptive aperture under the same optimization conditions. The target conformal index (CI) value, target homogeneity index (HI) value, and the dose to normal tissues of the two sets of plans were compared.Results:The IMPT plans designed using the adaptive aperture significantly increased the mean CI value from 0.58 to 0.66, while decreasing the mean 50% prescription dose volume from 797.70 cm 3 to 638.15 cm 3. These plans also reduced the irradiation doses to the cochlea, brainstem, optic chiasm, optic nerve, and lens ( t = 2.06, 3.02, 2.11, 2.58, 2.67, P < 0.05). Additionally, there was no significant difference in the HI value of the target volumes and the machine jumps (MU) between the two sets of plans ( P > 0.05). Conclusions:The adaptive aperture can significantly reduce the irradiation dose to normal tissues outside the target volumes, positively impacting the protection of organs at risk (OARs) around the target values. This demonstrates its great potential for clinical application.

Objective To present and discuss beam characteristics of the first Mevion S250i gantry-mounted accelerator pencil beam scanning proton therapy system in China.Methods The output dose was measured using a parallel-plate ionization chamber.The integrated depth dose was measured with a large-radius Bragg peak ionization chamber,covering 19 energy levels ranging from 227 MeV to 28 MeV,to analyze the proton beam characteristics.The spots in the air were measured with Phoenix flat panel detector on the beam central axis,and the precision of the delivery position was verified by measuring the multi-spot beam map.The interleaf leakage and penumbra reduction of adaptive aperture were measured to characterize its performance.Results The proton system was calibrated for a maximum energy of 227 MeV,with a(10×10)cm2uniform field delivering 1 Gy dose at a depth of 5 cm underwater.The system effectively modulated the proton beam range to the patient's surface,maintaining a constant 80%-80%Bragg peak width of 8.6 mm at all energy levels.The spot size of the highest energy beam at the isocenter was about 4 mm in the air,and the spot delivery position error was less than 1 mm.The interleaf leakage rate of the adaptive aperture for the highest energy beam was below 1.5%,and the penumbra was significantly reduced.Conclusion Mevion S250i proton therapy system demonstrates unique design and beam characteristics,which is reflected in the Bragg peak shape,spot size variation with energy,and penumbra sharpening of adaptive aperture;and these differences should be considered in treatment planning system modeling and planning for precision treatment.

Objective:To discuss the acceptance test of beam performance and mechanical precision of the first Mevion type S250i proton therapy system in China,and verify the stability and reliability of that in clinical treatment.Methods:According to the requirements of acceptance report of manufacturer,the output and range of machine unit(MU),the accuracy and stability of size and position of beam spot,the penumbra and position accuracy of adaptive aperture(AA)of Mevion type S250i proton therapy system,as well as the tests of mechanical properties and functions of the requirement of clinical use,were checked and tested for acceptance.Results:The maximum deviation of MU output was 1.3%,and the maximum deviation of the range was 0.037 g/cm2,and the maximum distal fall-off was 0.465 cm,and the minimum range of energy modulation was 0.21 g/cm2.The maximum deviations of the size of beam spot and the maximum deviation of the position were respectively 0.07 cm and 0.05 cm.The maximum AA penumbra was 0.007 cm,and the AA position accuracy was less than 0.1 cm.Conclusion:The acceptance test of the Mevion type S250i proton therapy system indicates that the parameters of the beam performance and mechanical precision can meet the requirements of the acceptance contract and AAPM-TG224 report of manufacturer,which has verified the machine has better favorable stability and reliability.

Objective:To measure and assess relevant radiation doses at the radiotherapy site of the first domestic single-vault proton therapy system.Methods:The radiation levels of the therapy system during and after beam irradiation were measured, and annual effective doses were assessed for personnel at the site.Results:During beam irradiation, the highest radiation dose was detected at the shielded door of the equipment floor, with a gamma radiation level of 2.140 μSv/h and a neutron radiation level of 0.850 μSv/h. Neutron radiation disappeared immediately once the beams stopped. In contrast, the radiation activated originated mostly from gamma rays. A longer time after beams stopped was associated with lower induced radiation intensity at the same location. Furthermore, a farther distance from the irradiated object corresponded to lower induced radiation intensity at the same time. The assessment result reveal that the annual effective doses to the personnel were at the safe level, with physicists exposed to the highest dose of 2.138 mSv.Conclusions:The radiation level at the studied proton therapy site meets the safety requirement, and the treatment can be performed safely at this site.

Objective:To verify and calibrate the CT modeling curves of three CT devices in RayStation proton treatment planning system (TPS).Methods:CT-mass density (CT-MD) curves were established by CT Hounsfield units of different tissue substitute materials obtained by scanning the model with CT equipment. CT-stopping power (CT-SP) curves were established by calculation based on the chemical composition of various human tissues. The equivalent water thickness of tissue substitute modules was calculated with different CT modeling curves in TPS. The actual equivalent water thickness of various modules was measured by a Bragg peak detector, and compared with the calculated values of TPS to verify the accuracy of different CT models.Results:The differences of CT modeling curves were significantly different under different tube voltage scanning protocols. Compared with CT-MD curves, CT-SP curves based on the stoichiometric calibration were more suitable for proton dose calculation. However, the values of stopping power corresponding to high CT values still needed to be optimized, and the calculation error after calibration was less than 3%.Conclusion:The method of verifying and calibrating CT unit curves of proton TPS is described, proving that the CT-SP curves after stoichiometric calculation are more suitable for proton dose calculation.

Objective To analyze the daily quality assurance(QA)measurement results of IBA Sphinx Compact device on the Mevion compact pencil beam scanning proton therapy system for evaluating its clinical application value in proton therapy.Methods The daily QA measurement of Mevion S250i proton therapy system was carried out with Sphinx Compact device for 30 consecutive days,and the measurement results were analyzed.Results The average deviation between the positioning laser and the image center was(0.42±0.27)mm in 30 days.All of the proximal and distal depth errors of the high-and low-energy pencil beams were within 0.50 mm.The position deviation of all the spots measured did not exceed 1.00 mm,and the size deviation was less than 7.5%.The deviation between the image center and the beam center was not more than 0.75 mm.The relative deviation of the flatness of the rectangular field was about 0.5%.The deviation of the output dose of the square field was within 1.0%.Conclusion The proton system daily QA measurement items recommended by AAPM TG-224 report can be accurately and rapidly measured with Sphinx Compact device.The device is a practical and efficient daily QA tool with high practical value in clinic.

A stable Zr-based metal-organic framework (MOF, UiO-66-NH2) synthesized via micro-water solvothermal method was used to immobilize amidase by using the glutaraldehyde crosslinking method. The effect of immoblization conditions on enzyme immoblization efficiency was studied. An activity recovery rate of 86.4% and an enzyme loading of 115.3 mg/g were achieved under the optimal conditions: glutaraldehyde concentration of 1.0%, cross-linking time of 180 min, and the weight ratio of MOF to enzyme of 8:1. The optimal temperature and optimal pH of the immobilized amidase were determined to be 40 °C and 9.0, respectively, and the Km, Vmax and kcat of the immoblized amidase were 58.32 mmol/L, 16.23 μmol/(min·mg), and 1 670 s⁻¹, respectively. The immobilized enzyme was used for (S)-4-fluorophenylglycine synthesis and the optimal reaction conditions were 300 mmol/L of N-phenylacetyl-4-fluorophenylglycine, 10 g/L of immobilized enzyme loading, and reacting for 180 min at pH 9.0 and 40 °C. A conversion rate of 49.9% was achieved under the optimal conditions, and the conversion rate can be increased to 99.9% under the conditions of enantiomeric excess. The immobilized enzyme can be repeatedly used, 95.8% of its original activity can be retained after 20 cycles.
Amidohydrolases ; Enzyme Stability ; Enzymes, Immobilized/metabolism* ; Glycine/analogs & derivatives* ; Hydrogen-Ion Concentration ; Metal-Organic Frameworks ; Temperature

Enzymes have a wide range of applications and great industrial potential. However, large-scale applications of enzymes are restricted by the harsh industrial environment, such as high temperature, strong acid/alkali, high salt, organic solvents, and high substrate concentration. Adaptive modification (such as rational or semi-rational design, directed evolution and immobilization) is the most common strategy to improve the catalysis of enzymes under industrial conditions. Here, we review the catalysis of enzymes in the industrial environment and various methods adopted for the adaptive modifications in recent years, to provide reference for the adaptive modifications of enzymes.
Biocatalysis ; drug effects ; Biotechnology ; Enzymes ; chemistry ; metabolism ; Hot Temperature ; Hydrogen-Ion Concentration ; Protein Engineering ; Solvents ; chemistry ; pharmacology

Objective To evaluate the specific antibody-producing capacity of locally infiltrating B lymphocytes in lesions of patients with pemphigus vulgaris (PV).Methods Totally,35 patients with PV and 22 healthy controls were enrolled into this study.Skin tissues were resected from blisters or erosions of the patients with PV,and from normal skin of healthy controls.Then,mononuclear cells were isolated from these skin tissues.Flow cytometry was performed to determine the percentages of lymphocytes,CD 19+ B lymphocytes,and desmoglein (Dsg)1-and Dsg3-specific CD19+ B lymphocytes.B lymphocytes isolated from the lesional skin of patients with PV were cultured in vitro.Enzyme-linked immunosorbent assay (ELISA) was conducted to determine titers of anti-Dsg1 and anti-Dsg3 antibodies in the cell culture supernatant.Receiver operating characteristic (ROC) curve analysis was conducted to calculate positive rates of anti-Dsg1 and anti-Dsg3 antibodies.Results The percentages of lymphocytes (17.95％ ± 3.85％) and CD19+ B lymphocytes (4.27％ ± 1.13％) were significantly higher in the lesional skin of PV patients than in the normal skin of healthy controls (7.83％ ± 1.29％,0.61％ ± 0.31％ respectively;t =2.49,U =13.00 respectively,both P ＜ 0.05).Among the CD19+ B lymphocytes in the lesional skin of PV patients,the percentage of CD19qgG+ B cells was (38.33 ± 5.56)％,and percentages of Dsg1-and Dsg3-specific CD19+ B lymphocytes were 12.87％ ± 1.267％ and 10.42％ ± 1.243％ respectively.After the in vitro culture for 6 days,the titers of anti-Dsg1 and anti-Dsg3 antibodies in the cell culture supematant were (4.89 ± 1.56) U/ml and (35.45 ± 13.03) U/ml respectively,with their positive rates being 85％ (17/20)and 95％ (19/20) respectively.Conclusion There are Dsg1-and Dsg3-specific B lymphocytes aggregating in the lesional skin of patients with PV,which can produce anti-Dsg1 and anti-Dsg3 antibodies after in vitro culture.

Objective To study the changes of antigen-specific T helper type 1 (Th1) cells and Th2 cells in patients with pemphigus vulgaris (PV) at different stages,so as to better understand the roles of autoreactive T cells in PV.Methods The DG3 (96-112) peptide was synthesized.Twenty-four patients with PV and 10 health checkup examinees were included in this study.Peripheral blood mononuclear cells (PBMCs) were obtained from the health checkup examinees and all the patients before treatment and seven patients about one month after treatment,and stimulated with the DG3 peptide of 10 mg/L for different durations.Then,enzyme-linked immunospot (ELISPOT) assay was performed to count the number of DG3-specific IFN-γ+ Th1 cells,IL-4+ Th2 cells and memory B cells.One-way analysis of variance (ANOVA) and t test were done to compare the number of cells between different groups,and Pearson correlation coefficient was used to evaluate the correlation among Th cells,memory B cells and anti-desmoglein 3 (Dsg3) antibody titers.Results In these patients,the male to female ratio was 1.67 ∶ 1,and the average age was (56.59 ± 14.66) years.Compared with the health check-up examinees,the patients with PV showed a higher absolute number of DG3-specific IFN-γ+ Th1 cells (420.18 ± 350.29 vs.145.12 ± 86.56,t =3.25,P ＜ 0.05),but a similar absolute number of specific IL-4+ Th2 cells (366.76 ± 192.44 vs.335.88 ± 164.96,P＞ 0.05) per 5 × 105 PBMCs.The percentage of DG3-specific IL-4+ Th2 cells in Th2 cells was 37.03％ ± 23.44％,and the percentage of IFN-γ+ Th1 cells was 23.62％ ± 16.77％ in peripheral blood of patients with PV.The number of DG3-specific IL-4+ Th2 cells per 5 × 105 PBMCs significantly decreased from 452.82 ± 199.29 before treatment to 241.68 ± 160.60 after treatment in seven patients (t =2.48,P ＜ 0.05).There was no significant correlation between specific Th cells,memory B cells and anti-Dsg3 antibody titers (all P ＞ 0.05).Conclusions The peptide DG3 (96-112) has pathogenic epitopes which could be recognized by specific Th cells of patients with PV.Both antigen-specific IFN-γ+ Th1 cells and IL-4+ Th2 cells play certain roles in the pathogenesis of pemphigns vulgaris,and IL-4+ Th2 cells appear to be more important.