ObjectiveTo investigate the current status of cognition and attitude towards hospice care among medical staff in Liaocheng，analyze the related influencing factors，and to provide reference for further development of hospice care services. MethodsUsing the method of convenient sampling，404 medical staff from all levels of hospitals in Liaocheng were selected as the research subjects from January to June 2022 to conduct a questionnaire survey on the cognition and attitude towards hospice care.Statistical methods were used to analyze the related influencing factors. ResultsThe knowledge score of hospice care among medical staff in Liaocheng was （13.02 ± 4.10），with an average score rate of 65.10%.The score of attitude was （38.67 ± 5.64），with an average score rate of 64.50%.Age （41~50 years old），having received education and training，treated or cared for patients in the middle and late stages，and understanding ethics and morality，as well as cultural customs were significantly positively correlated with knowledge scores.Age （> 50 years old），professional title （deputy senior professional title），position （medical treatment），and experience in treating or caring for patients in the middle and late stages were positively related to attitude scores. ConclusionThe cognition and attitude towards hospice care among medical staff in Liaocheng were at a moderate level.Strengthening the construction of a standardized hospice care system is helpful to improve the cognition and attitude level towards hospice care among medical staff.

OBJECTIVE To compare the short-term therapeutic effect and safety of bevacizumab versus anlotinib respectively combined with chemotherapy drug in the treatment of epidermal growth factor receptor tyrosine kinase inhibitors （EGFR-TKI） acquired resistant advanced lung adenocarcinoma. METHODS The information of 84 patients with EGFR-TKI acquired resistant advanced lung adenocarcinoma in the Third People’s Hospital of Chengdu was analyzed retrospectively during Jun. 2019-Oct. 2021. The patients were divided into chemotherapy group （32 cases）， anlotinib combined chemotherapy group （24 cases） and bevacizumab combined chemotherapy group （28 cases）. Patients in the chemotherapy group were given Pemetrexed disodium for injection and Carboplatin injection， and symptomatic treatment was given for adverse reactions. On the first day of chemotherapy， patients in the anlotinib combined chemotherapy group received Anlotinib hydrochloride capsules 10 mg orally， once a day， for 14 consecutive days and 7 days of discontinuation， based on the treatment of the chemotherapy group. Patients in the bevacizumab combined chemotherapy group were given Bevacizumab injection of 15 mg/kg intravenously 1 day before chemotherapy， based on the treatment of the chemotherapy group. Three groups of patients were treated for a total of four cycles， with one cycle every three weeks. The overall response rate （ORR）， disease control rate （DCR）， median progression-free survival （mPFS）， and the changes of serum tumor markers were compared among three groups before and after treatment； meanwhile， the occurrence of adverse drug reactions was recorded， and the 1-year survival rate was followed up. RESULTS After 4 treatment cycles， ORR and DCR of bevacizumab combined chemotherapy group and anlotinib combined chemotherapy group were higher than chemotherapy group （P＜0.05）； mPFS of the two groups were significantly longer than chemotherapy group， and DCR of anlotinib combined chemotherapy group was significantly higher than bevacizumab combined chemotherapy group （P＜0.05）. After 4 treatment cycles， the serum levels of tumor markers in three groups were significantly lower than before treatment， and both combined chemotherapy groups were significantly lower than chemotherapy group （P＜0.05）. There was no statistically significant difference in the incidence of adverse reactions such as nausea， vomiting， bone marrow suppression， and 1-year survival rate among the three groups of patients （P＞0.05）. CONCLUSIONS Bevacizumab and anlotinib combined with chemotherapy drug are effective and safe in the treatment of advanced lung adenocarcinoma with acquired EGFR-TKI resistance.

  Objective  To investigate the clinical features of autoimmune glial fibrillary acidic protein (GFAP) astrocytopathy.  Methods  We collected and analyzed the clinical and laboratory data and obtained the clinical characteristics of diagnosis and treatment from fifteen patients with positive GFAP antibody tested by cerebrospinal fluid and diagnosed autoimmune GFAP astrocytopathy by the multi-centers.  Results  The mean age of the first onset of autoimmune GFAP astrocytopathy was 39.73 years old (range 4-65 years), with no significant gender difference. In terms of clinical manifestations, we found the whole brain symptoms including abnormal mental behavior, disturbance of consciousness, epileptic attack accounting for more than 50, , meningitis accounting for 66.7%, myelitis (53.3%), limb tremor (53.3%), vision loss (33.3%); systemic symptoms including fever(100%) and fatigue(86.7%). 46.7% of patients were initially diagnosed with tuberculous meningoencephalitis and were treated with diagnostic antituberculous therapy. The MRI showed 46.7% of patients showed brain linear perivascular radial gadolinium enhancement in the white matter perpendicular to the ventricle.  Conclusions  Autoimmune GFAP astrocytopathy are acute or subacute dieases and the main clinical features include encephalitis, meningitis, myelitis and optic neuritis. They are likely to be misdiagnosed as tuberculous meningoencephalitis and can manifest progressive loss of consciousness in early phase, which is even life threatening.

Objective:To compare the activity difference of the high affinity humanized CD19 chimeric antigen receptor (CAR)-T cells and murine CD19 CAR-T cells.Methods:Peripheral venous blood T cells from 8 healthy volunteers were collected and infected with humanized and murine CD19 CAR lentivirus. Human and murine CD19 CAR-T cells were prepared and cell proliferation was detected by cell counting kit-8 (CCK-8) method. The cytotoxicity of CD3 + T cells, humanized and murine CD19 CAR-T cells to NALM-6 cells was detected by lactate dehydrogenase assay. Thirty BAL B/c nude mice transplanted with NALM-6 cells were randomly divided into 3 groups with 10 mice in each group and injected humanized CD19 CAR-T cells, mouse CD19 CAR-T cells and control CD3 + T cell via tail vein, respectively. The proportion of NALM-6 cells in peripheral blood and the proportion of CD19 CAR-T cells in T cells from the vein of the inner canthus were detected by flow cytometry. The overall survival of BAL B/c nude mice was observed. Results:The proliferation of mouse and humanized CD19 CAR-T cells were (68.50±0.93)% and (80.63±1.41)%, respectively ( t=20.353, P<0.001) after cultured in vitro for 24 hours, and were (91.38±1.41)% and (148.13±1.25)%, respectively ( t=85.364, P<0.001) after cultured for 48 hours. When the effect to target ratio was 1∶1, there was no difference between the humanized and murine CD19 CAR-T cell group after co-culture for 24 hours ( P=0.169), while the killing activity of humanized CD19 CAR-T cells against NALM-6 cells was higher than that of murine CD19 CAR-T cells ( P<0.01) after 48 hours of co-culture. When the effect to target ratio was 4∶1, the cytotoxicity of humanized CD19 CAR-T cells against NALM-6 cells was higher than that of murine CD19 CAR-T cells in co-culture for 24 and 48 hours ( P<0.01). On the seventh day of CD19 CAR-T cell therapy, the proportion of NALM-6 cells in the peripheral blood of BAL B/c nude mice decreased to the lowest level in the humanized CD19 CAR-T cell group and the murine CD19 CAR-T cell group. After 21 days, the proportion of NALM-6 cells in the murine CD19 CAR-T cell group was higher than that in the humanized CD19 CAR-T cell group ( P21 d=0.001, P28 d<0.001, P35 d<0.001). The proportion of humanized and murine CD19 CAR-T cells in the peripheral blood reached the peaks after 7 days of therapy, and the proportion of humanized CD19 CAR-T cells was higher than that of murine CAR-T cells ( P7 d=0.002). The CD19 CAR-T cells disappeared in the peripheral blood in the murine CD19 CAR-T cell group after 14 days of therapy, while in the humanized CD19 CAR-T cell group it disappeared after 21 days of therapy. The median survival of BAL B/c nude mice in the murine CD19 CAR-T cell group and the humanized CD19 CAR-T cell group was 42 days and 63 days, respectively ( χ2=15.382, P<0.001). Conclusions:High affinity humanized CD19 CAR-T cells have stronger proliferation, higher cytotoxicity and longer survival time compared with those of murine CD19 CAR-T cells. The results indicate that the clinical efficacy of humanized CD19 CAR-T cells would be better than that of murine CD19 CAR-T cells.

Objective:To compare the activity difference of the high affinity humanized CD19 chimeric antigen receptor (CAR)-T cells and murine CD19 CAR-T cells.Methods:Peripheral venous blood T cells from 8 healthy volunteers were collected and infected with humanized and murine CD19 CAR lentivirus. Human and murine CD19 CAR-T cells were prepared and cell proliferation was detected by cell counting kit-8 (CCK-8) method. The cytotoxicity of CD3 + T cells, humanized and murine CD19 CAR-T cells to NALM-6 cells was detected by lactate dehydrogenase assay. Thirty BAL B/c nude mice transplanted with NALM-6 cells were randomly divided into 3 groups with 10 mice in each group and injected humanized CD19 CAR-T cells, mouse CD19 CAR-T cells and control CD3 + T cell via tail vein, respectively. The proportion of NALM-6 cells in peripheral blood and the proportion of CD19 CAR-T cells in T cells from the vein of the inner canthus were detected by flow cytometry. The overall survival of BAL B/c nude mice was observed. Results:The proliferation of mouse and humanized CD19 CAR-T cells were (68.50±0.93)% and (80.63±1.41)%, respectively ( t=20.353, P<0.001) after cultured in vitro for 24 hours, and were (91.38±1.41)% and (148.13±1.25)%, respectively ( t=85.364, P<0.001) after cultured for 48 hours. When the effect to target ratio was 1∶1, there was no difference between the humanized and murine CD19 CAR-T cell group after co-culture for 24 hours ( P=0.169), while the killing activity of humanized CD19 CAR-T cells against NALM-6 cells was higher than that of murine CD19 CAR-T cells ( P<0.01) after 48 hours of co-culture. When the effect to target ratio was 4∶1, the cytotoxicity of humanized CD19 CAR-T cells against NALM-6 cells was higher than that of murine CD19 CAR-T cells in co-culture for 24 and 48 hours ( P<0.01). On the seventh day of CD19 CAR-T cell therapy, the proportion of NALM-6 cells in the peripheral blood of BAL B/c nude mice decreased to the lowest level in the humanized CD19 CAR-T cell group and the murine CD19 CAR-T cell group. After 21 days, the proportion of NALM-6 cells in the murine CD19 CAR-T cell group was higher than that in the humanized CD19 CAR-T cell group ( P21 d=0.001, P28 d<0.001, P35 d<0.001). The proportion of humanized and murine CD19 CAR-T cells in the peripheral blood reached the peaks after 7 days of therapy, and the proportion of humanized CD19 CAR-T cells was higher than that of murine CAR-T cells ( P7 d=0.002). The CD19 CAR-T cells disappeared in the peripheral blood in the murine CD19 CAR-T cell group after 14 days of therapy, while in the humanized CD19 CAR-T cell group it disappeared after 21 days of therapy. The median survival of BAL B/c nude mice in the murine CD19 CAR-T cell group and the humanized CD19 CAR-T cell group was 42 days and 63 days, respectively ( χ2=15.382, P<0.001). Conclusions:High affinity humanized CD19 CAR-T cells have stronger proliferation, higher cytotoxicity and longer survival time compared with those of murine CD19 CAR-T cells. The results indicate that the clinical efficacy of humanized CD19 CAR-T cells would be better than that of murine CD19 CAR-T cells.

Objective:To investigate the characteristics and cytotoxicity in vitro of the residual leukemia cells in the culture system that caused the accidental transfer of CD19 chimeric antigen receptor (CAR) into leukemia cells during the preparation of autologous CD19 CAR-T cells of relapsed/refractory B-cell acute lymphoblastic leukemia.Methods:①Peripheral blood mononuclear cells (PBMC) of 30 patients with relapsed/refractory B-cell acute lymphoblastic anemia (R/R B-ALL) who accepted CD19 CAR-T cell therapy and six healthy volunteers were collected. ②The residual leukemia cells were analyzed by flow cytometry in the system after the PBMCs of R/R B-ALL patients were sorted by CD3 magnetic beads. ③ CD3 + T cells from patients and healthy volunteers were transfected with CD19 CAR and CD22 CAR lentivirus to prepare CD19 CAR-T and CD22 CAR-T cells. ④The Nalm-6 cell line was resuscitated and the Nalm-6 cells with CD19 CAR lentivirus were transfected to prepare CD19 CAR-Nalm-6 cells. The patient's primary ALL cells were transfected with CD19 CAR lentivirus at the same time. ⑤The transfection rates were analyzed by flow cytometer, the cell proliferation was analyzed by the CCK-8 method, and the cell-killing activities were detected by the lactate dehydrogenase method. Results:① Among the 30 R/R B-ALL patients who received CD19 CAR-T cell therapy, two patients had 2.04% and 3.32% residual leukemia cells in CD3 + T cells. After 4 days in culture, the residual leukemia cells disappeared and could not be detected by a flow cytometer with prolonged cultivation in vitro. ② The proliferation of CD19 CAR-Nalm-6 cells was higher than that of the Nalm-6 cells. ③ The killing activity of the CD19 CAR-T cells on Nalm-6 cells was higher than that of the CD19 CAR-Nalm6 cells at a target ratio of 1∶1 on 24, 48, 72 h, respectively. The cytotoxicity of CD22 CAR-T cells on CD19 CAR-Nalm-6 cells was significantly higher than that of CD19 CAR-T cells. ④ The cytotoxicity of CD22 CAR-T alone on CD19 CAR-Nalm-6 cells was higher than that of CD19 CAR-T combined with CD22 CAR-T at the same target ratio. Conclusion:The residual leukemia cells in the culture system in the preparation of CD19 CAR-T cells may lead to the introduction of CD19 CAR into leukemia cells and results in the failure of the CD19 CAR-T cell therapy. Detecting the residual leukemia cells in the culture system via flow cytometry before transfection with CD19 CAR lentivirus is needed. Thus, CD22 CAR-T cell therapy could be used as one of the salvage treatments.

Objective:To observe the efficacy and safety of humanized anti-BCMA chimeric antigen receptor modified (BCMA CAR) -T cell therapy after disease progression with their murine BCMA CAR-T cell therapy in patients with relapsed/refractory multiple myeloma (MM) .Methods:Study participants underwent leukapheresis to collect T cells for BCMA CAR-T manufacturing. Patients were pretreated with intensive chemotherapy (fludarabine combined with cytarabine) before CAR-T therapy. Adverse events (AEs) , CAR DNA expansion, and cytokine were monitored. In vitro, transfection efficacy, specific cytotoxicity, and inflammatory response were detected when co-cultured with effector and target cells.Results:Patient (PT) 1 and 2 achieved complete remission (CR) and disease stability at 3 months post murine CAR-T therapy. However, 16 and 18 months later, they experienced progression of disease (PD) , and patient 1 presented with extramedullary disease at PD. Both of the patients received humanized CAR-T therapy and achieved partial remission (PR) and very good partial remission (VGPR) post humanized CAR-T therapy. PT1 achieved CR of the soft tissue masses at 4 months post humanized CAR-T therapy. Notably, the median peak of the BCMA CAR-T cells, copy of BCMA CAR gene, persistence of BCMA CAR-T, and the peak levels of IL-6, IL-8, IL-10, IFN-γ and TNF-α were higher in humanized CAR-T therapy than those in the murine CAR-T therapy. During the murine CAR-T therapy, both of the patients experienced grade 1 CRS and no ICANS. PT1 experienced grade 3 CRS and grade 2 ICANS during humanized CAR-T therapy, which were relieved by supportive care. Grade 2 CRS was observed for patient 2 during humanized CAR-T therapy. Humanized BCMA CAR-T cells showed a higher inflammatory response and in vitro cytotoxicity than that of murine BCMA CAR-T cells with effector/targets cells at 1∶1 over 48 hours ( P<0.001) . The proportions of residual cells in humanized BCMA CAR-T and murine CAR-T were (17.38±5.18) % vs (28.27±4.58) %, (13.25±1.62) % vs (22.77±1.77) % for PT1 and PT2, respectively. Conclusions:The humanized BCMA CAR-T cell therapy was efficient and safe for patients who experienced progression of disease after the murine CAR-T therapy, especially for patients with extramedullary disease.

Objective:To observe the local reactions and efficacy of CD19 CAR-T therapy in recurrence/refractory B-cell non-Hodgkin's lymphoma (R/R NHL) patients with >7.5 cm lesions.Methods:32 R/R NHL patients with >7.5 cm lesions were enrolled and injected with CD19 CAR-T cells. Flow cytometry was used to detect and observe the amplification of CD19 CAR-T cells in vivo. Enzyme-linked immunosorbent assay (ELISA) was used to detect cytokines in peripheral blood of patients. The side effects of CD19 CAR-T cell therapy included systemic side effects and local reactions of tumor. The local side effects were observed by Ultrasound, Computed tomography and Magnetic resonance imaging. Treatment options included glucocorticoid, interleukin-6 antibody and drainage of exudate. Overall response rate (ORR) and overall survival rate (OS) were observed.Results:①Among the 32 patients, CR (40.63%) , PR (31.25%) and ORR (71.88%) were 13, 10 and 23, respectively. ②In all 23 patients received ORR, 13 patients had grade 1-2 CRS, while 10 patients had grade 3-4 CRS. All the 9 patients in the SD+PD group had grade 1-2 CRS ( P=0.030) . ③A total of 15 patients with tumor local reactions, included 9 patients with CR, 5 patients with PR and 1 patient with SD. The local reactions of the tumor included that the diameter of the superficial lesions increased with redness, swelling and heat pain. The deep lesions presented abdominal pain, abdominal distension, suffocation and local pain, and burning of the tumor. The deep lesions were enlarged or accompanied by local edema. The local exudative lesions were found in the abdominal cavity and pleural cavity. ④ Peak proportion of CD19 CAR-T cells in ORR group was higher than that of in SD+PD group[16.8% (5.3%-48.2%) vs 2.9% (1.5%-5.7%) , z=-4.297, P<0.001]. The peak proportion of CD19 CAR-T cells in ORR group with local reactions was higher than that of in patients without local reactions [22.2% (10.5%-48.2%) vs 12.6% (5.3%-21.6%) , z=-3.213, P=0.001]. The peak proportion of CD19 CAR-T cells in multiple lesion group was higher than that of in single lesion group [35.8% (1.5%-48.2%) vs 16.8% (10.5%-18.5%) , z=-2.023, P=0.040]. ⑤Occurrence of local reactions and tumor shrinkage time were both delayed compared with systemic side effects. ⑥In the ORR group, the OS of patients with tumor local reactions was longer than that of patients without tumor local reactions, but there was no difference in the two groups (75% vs 34.6%, P=0.169) . Conclusions:CD19 CAR-T cell therapy in R/R NHL patients with >7.5 cm lesions might cause tumor local reactions later than systemic side effects.Clinicaltrial::ChiCTR1800018059

Objective:To evaluate the effects of glucocorticoids (dexamethasone and methylprednisolone) on the proliferation of CD19 Chimeric antigen receptor (CAR) modified T cells in vitro.Methods:Peripheral blood mononuclear cells from healthy volunteers were collected as T cells. CD19 CAR-T cells were prepared by CD3 magnetic beads sorting and CD19 CAR lentivirus transfection. The transfection rates and the proportion of CD19 CAR-T cells in the culture system were analyzed using a flow cytometer. The mean fluorescence intensity (MFI) of CD19 CAR-T cells was measured after staining with Carboxyfluorescein diacetate succinimidyl ester cell proliferation tracer fluorescent probe, Lactate dehydrogenase (LDH) cytotoxicity assay was used to detect the effects of different concentrations of glucocorticoid on the killing activity of B-cell tumor cell lines.Results:In this study, the CD19 CAR transfection rate of CD19 CAR-T cells was (51.34±5.28) %. The killing activities of different doses of methylprednisolone on Nalm6, Pfeiffer, and U2932 tumor cells were higher than that of dexamethasone at 24 h. The killing activities of 4 mg/mL methylprednisolone on Nalm6, Pfeiffer, and U2932 were higher than that of 0.75 mg/ml group, while the killing activity of 12 mg/ml methylprednisolone was lower than that of 2.25 mg/ml dexamethasone at 48 h. However, the killing activities of different doses of methylprednisolone on EHEB tumor cells were lower than those of different doses of dexamethasone at 24 and 48 h. The average MFI and proportion of CD19 CAR-T cells under different concentrations of glucocorticoid the proliferation inhibition of CD19 CAR-T cells by dexamethasone was higher than that of methylprednisolone. The proliferation inhibition of CD19 CAR-T cells of the two glucocorticoids in high concentration groups were more obvious than that in low concentration groups. When CD19 CAR-T cells were co-cultured with different tumor cells, the proportion and average MFI of CD19 CAR-T cells showed that the proliferation inhibition of dexamethasone was higher than that of methylprednisolone. The proliferation inhibition of CD19 CAR-T cells of the two glucocorticoids in high concentration groups was more obvious than that in low concentration groups.Conclusion:Dexamethasone inhibits the cell proliferation of CD19 CAR-T cells more than methylprednisolone during the targeting of different tumor cell lines. The inhibition effect of dexamethasone on the proliferation and amplification of CD19 CAR-T cells was greater than that of methylprednisolone during the targeting of CD19 CAR-T cells to different tumor cell lines. Moreover, the inhibition effect of the high dose group was more obvious.

Objective:This study aimed to evaluate the maintenance therapy following an anti-CD19-CAR T-cell therapy for a B-cell acute lymphoblastic leukemia (ALL) patient who relapsed after allogeneic hematopoietic cell transplantation (allo-HSCT) and investigate the effect of donor stem cells and donor T lymphocyte infusion on the amplification of CD19 CAR-T cells.Methods:One refractory B-ALL patient relapsed after murine CD19 CAR-T cell therapy followed by a sibling allo-HSCT. He underwent a humanized CD19 CAR-T cell therapy followed by donor stem cell and donor T lymphocytes infusions as maintenance therapy in our hospital. The level of cytokines, the proportion of CD19 CAR-T cell, the level of CAR19 DNA expression in the peripheral blood, and the proportion of leukemia cells and donor chimerism in the bone marrow were detected. Correspondingly, T lymphocytes from the C57 spleen were separated to modify the CD19 CAR lentivirus and refused into C57 mice, and after 14 days, the B lymphocytes from C57 mice were separated and refused into the same C57 mice. The CD19 CAR T cells, B cells, and CD19 CAR gene counts in the peripheral blood were evaluated at different time points.Results:①The patient achieved a complete response (CR) 14 days after a humanized CD19 CAR-T therapy with grade 1 cytokine release syndrome (CRS) and restored a donor chimerism to 99.76%. ② Following the remission from humanized CD19 CAR-T therapy, the patient received a maintenance therapy of donor stem cell infusion. Mild graft-versus-host disease (GVHD) manifested 24 days after infusion with an increased proportion of CD19 CAR-T cells and an increased level of CAR19 DNA expression in the peripheral blood. It fell with the remission of GVHD. The patient maintained CR and 99.69% donor chimerism during this period. ③ Throughout the subsequent donor T lymphocytes maintenance therapy, mild GVHD surfaced12 days after infusion without an increased proportion of CD19 CAR-T cells and an increased level of CAR19 DNA expression in the peripheral blood. The patient maintained CR and 99.87% donor chimerism during this period. ④ In vivo experiments on C57 mice confirmed that the proportion of CD19 CAR-T cells and the level of CAR19 DNA expression were upregulated in mice following CAR-T cell infusion, accompanied by depletion of CD19 + B lymphocyte. After infusion of CD19 + B lymphocyte cells, an increased proportion of CD19 CAR-T cells and an increased level of CAR19 DNA expression in the peripheral blood were observed again. Conclusions:The infusion of donor stem cells and donor T lymphocytes could be used as a maintenance treatment after CD19 CAR-T cell therapy for B-ALL patients who relapsed after allo-HSCT. Infusion of donor stem cells induced an increased proportion of CD19 CAR-T cells and an increased level of CAR19 DNA expression with the occurrence of GVHD. It might lead to further elimination of minimal residual disease.