ObjectiveTo analyze the relationship between adverse reactions and curative effect in neoadjuvant chemotherapy, this study is to explore whether the adverse reactions of chemotherapy can indirectly predict the efficacy of chemotherapy, so as to give a new definition of adverse reactions of chemotherapy.MethodsThe clinical data of 64 patients with neoadjuvant chemotherapy for breast cancer (after 4 cycles of TAC regimen) were retrospectively analyzed. The adverse reactions (weakness, nausea, vomiting, alopecia, myelosuppression, cardiotoxicity) during chemotherapy were counted. At the same time, the evaluation of chemotherapy efficacy was carried out according to the RECIST1.1 standard, and the relationship between the degree of adverse reactions of chemotherapy and the curative effect was analyzed one by one. Then, according to the severity of adverse reactions, adopting the form of scoring to assign the value, and use Pearson correlation analysis to clarify the specific relationship between adverse reactions and curative effect. Finally, four subgroups of Luminal A, Luminal B, Her2+ and Sanyin were determined according to molecular typing, and the relationship between adverse reactions and therapeutic effects among different subgroups was analyzed.ResultsThere was no difference in the adverse reactions of chemotherapy in neoadjuvant chemotherapy patients of different ages (correlation coefficient r fluctuated between –0.079 and –0.164, P value fluctuated between 0.195 and 0.533). The patients with high scores of adverse reactions showed relatively good efficacy (r=0.587, P<0.01). There was no significant correlation between fatigue, nausea and vomiting and efficacy (r=0.199, P=0.144; r=0.127, P=0.144). Among the adverse reactions, there was a significant positive correlation between alopecia, myelosuppression, cardiotoxicity and efficacy (r=0.532, r=0.621, r=0.422, all P<0.01). The above correlation was verified in the Luminal A subgroup (r=0.559, P<0.007).ConclusionsThe severity of adverse reactions in neoadjuvant chemotherapy can predict the efficacy of chemotherapy. To a certain extent, the heavier adverse reactions, the better the chemotherapy effect. Hair loss, myelosuppression, and cardiotoxicity have a clearer effect on efficacy in several common adverse reactions.
Objective To explore the role and clinical significance of cell-cycle dependent kinase 1 (CDK1) and its upstream and downstream molecules in the development of malignant peripheral nerve sheath tumor (MPNST) through the analysis of clinical tissue samples. Methods A total of 56 tumor samples from MPNST patients (“Tianjin” dataset) who underwent surgical resection, confirmed by histology and pathology between September 2011 and March 2020, along with 17 normal tissue samples, were selected as the research subjects. MPNST-related hub genes were identified through transcriptome sequencing, bioinformatics analysis, immunohistochemistry staining, and survival analysis, and their expression levels and prognostic associations were analyzed. Results Transcriptome sequencing and bioinformatics analysis revealed that upregulated genes in MPNST were predominantly enriched in cell cycle-related pathways, with CDK1 occupying a central position among all differentially expressed genes. Further differential analysis demonstrated that CDK1 mRNA expression in sarcoma tissues was significantly higher than in normal tissues [based on searching the cancer genome atlas (TCGA) dataset, P<0.05]. In MPNST tissues, CDK1 mRNA expression was not only significantly higher than in normal tissues (based on Tianjin, GSE141438 datasets, P<0.05), but also significantly higher than in neurofibromatosis (NF) and plexiform neurofibromas (PNF) (based on GSE66743 and GSE145064 datasets, P<0.05). Immunohistochemical staining results indicated that the expression rate of CDK1 protein in MPNST tissues was 40.31%. Survival analysis results demonstrated that CDK1 expression was associated with poor prognosis. The survival time of MPNST patients with high CDK1 mRNA expression was significantly lower than that of the low expression group (P<0.05), and the overall survival trend of patients with positive CDK1 protein expression was worse than that of patients with negative CDK1 expression. Additionally, differential analysis of CDK family genes (CDK1-8) revealed that only CDK1 was significantly upregulated in MPNST, NF, and PNF. Conclusion Increased expression of CDK1 is associated with poor prognosis in MPNST patients. Compared to other CDK family members, CDK1 exhibits a unique expression pattern, suggesting its potential as a therapeutic target for MPNST.