Objective:To determine the contents of four flavonoids by establishing HPLC specific chromatogram for Alpiniae Katsumadai Semen; To evaluate the differences of Alpiniae Katsumadai Semen from different producing areas.Methods:The specific chromatogram was developed on a column of Thermo Acclaim C18 with acetonitrile-0.1% phosphoric acid solution as the mobile phase by gradient elution at a flow rate of 1.0 ml/min. The detective wavelength was 260 nm, and the column temperature was 30 ℃. Similarity evaluation, PCA analysis, and OPLS-DA analysis were conducted. The contents of Alpinetin, Pinocembrin, Cardamonin, Alnustone in 16 batches of Alpiniae Katsumadai Semen.Results:There were 9 characteristic peaks in the specific chromatogram of Alpiniae Katsumadai Semen. Except the sample of S2 (Hainan producing area), the similarity of Alpiniae Katsumadai Semen in different producing areas was greater than 0.90; PCA analysis divided 16 batches of Alpiniae Katsumadai Semen into 2 categories, and OPLS-DA analysis identified 4 differential biomarkers, with the order of impact being peak 3>peak 5>Alpinetin>Cardamonin. Among them, the quality of Alpiniae Katsumadai Semen from Guangdong producing area was generally stable. Moreover, there were significant differences in the contents of Alpinetin and Cardamonin among the indicator components of Alpiniae Katsumadai Semen from different producing areas.Conclusion:This method can effectively analyze the differences in the quality of Alpiniae Katsumadai Semen from different producing areas, providing reference for the quality evaluation of Alpiniae Katsumadai Semen.

Objective:To establish a quality control method for Aiye standard decoction.Methods:The ultra performance liquid chromatogrphy (UPLC) column Waters ACQUITY HSS T3 C18 (2.1 mm×150 mm,1.8 μm) was used to gradient elution by acetonitrile and 0.1% formic acid in water. 16 batches of Aiye standard decoction fingerprints were established by UPLC and the common peaks were determined in the fingerprints. The contents of 12 components were determined. The 16 batches of Aiye standard decoction were analyzed by similarity calculation, hierarchical cluster analysis (HCA), principal component analysis (PCA) and orthogonal partial least squares discriminant analysis (OPLS-DA) for analysis of differential components of Artemisiae Argyi Folium from different origins.Results:A total of 13 common peaks were marked in the fingerprints of 16 batches of Aiye standard decoction, 12 of which were identified by comparison with reference substance, including chlorogenic acid, sochlorogenic acid A, neochlorogenic acid, cryptochlorogenic acid, caffeic acid,1,3-O-Dicaffeoylquinic acid, schaftoside, isochlorogenic acid B,1,5-O-Dicaffeoylquinic acid, isochlorogenic acid C, jaceosidin and eupatilin. Similarity evaluation, PCA and HCA all classified the 16 batches of Aiye standard decoction into 2 categories. Orthogonal partial least squares discriminant analysis screened 5 differential biomarkers from 13 common peaks. The content determination results showed that the phenolic compounds and flavonoids in samples from Hubei were significantly higher than that in samples from other areas.Conclusion:This method can effectively analyze the differences in the quality of Aiye standard decoction from different origins, and provide reference for the formulation of quality standards for Aiye standard decoction and related preparations.

Objective:To establish a method for the determination of triterpenes and nucleosides in Poria based on HPLC; To accurately determine the various bioactive components in Poria.Methods:Similarity evaluation, clustering analysis and principal component analysis were used to analyze the similarities and differences of different medicinal parts of Poria, and the key chromatographic peaks that could reflect the characteristics were found.Results:The Poricoic acid A and dehydroeburiconic acid could be used as the identification basis for Poriae Cutis and White Poria; at the same time, Polyporenic acid C, dehydropachymic acid and dehydrotrametenolic acid could be used to evaluate Rubra Poria and Poriae Cutis; uridine, guanosine and adenosine may be essential ingredients for evaluating the quality of White Poria, Poriae Cutis and Rubra Poria. In different medicinal parts of Poria, the triterpenes were showed significant differences; by contrary, there were little differences among the same medicinal parts.Conclusion:This study reveals the quality differences between different medicinal parts of Poria, which can provide a scientific basis for the rational application and pharmacodynamic standardization of Poria.

Objective:To establish the HPLC fingerprint of Bolbostemmatis Rhizoma standard decoction; To determine the three effective components with similar structure by quantitative analysis of multi-components by single marker (QAMS); To evaluate the quality of Bolbostemmatis Rhizoma standard decoction.Methods:HPLC was adopted to establish the fingerprints of 15 batches of Bolbostemmatis Rhizoma standard decoction. The Chromatographic column was Waters XBridge Phenyl (4.6 mm×250 mm, 5 μm). The mobile phase was acetonitrile-0.1% phosphoric acid solution with gradient elution. Cluster analysis (HCA) and principal component analysis (PCA) were conducted based on the relative peak area of common peaks. The same method as the fingerprint was used to establish QAMS of tubeimoside A, B, C on Bolbostemmatis Rhizoma standard decoction.Results:There were 14 common peaks in the fingerprint of Bolbostemmatis Rhizoma standard decoction. It was confirmed that the peak 3 was L-tryptophan, the peak 11 was tubeimoside B, the peak 12 was tubeimoside C, and the peak 13 was tubeimoside A. 15 batches of Bolbostemmatis Rhizoma standard decoction from different origins were divided into 3 categories by HCA and PCA. There was no significant difference between QAMS and the external standard method (ESM) through the system suitability inspection. Conclusion:This method is accurate, reliable and has good specificity, which can effectively evaluate the quality of Bolbostemmatis Rhizoma standard decoction.

For many years,the perioperative treatment of esophageal cancer in China has been based on chemotherapy or chemoradiotherapy.However,in the recent years,with the emergence of immunotherapy represented by immune checkpoint inhibitors,multidisciplinary comprehensive treatment,precise treatment under the guidance of molecular pathology,and guided selection of different therapies under the guidance of different tumor load phenotypes(T/N load relative relationship),the traditional model of perioperative treatment of esophageal cancer is faced with challenges.Nonetheless,it has also provided new opportunities to re-examine the current perioperative treatment model of esophageal cancer,which will also help to promote the optimization of perioperative treatment strategies for esophageal cancer.Therefore,it is necessary to fully understand and further think about the current situation of perioperative treatment of esophageal cancer.

Objective:To summarize the best evidence for preventing and managing radiotherapy-induced oral mucositis in patients with head and neck cancer.Methods:The clinical decisions, best practices, guidelines, expert consensus, systematic reviews, and evidence summaries regarding the prevention and management of radiotherapy-induced oral mucositis in patients with head and neck cancer were retrieved from UpToDate, British Medical Journal (BMJ) Best Practice, Agency for Healthcare Research and Quality, Medlive, National Comprehensive Cancer Network, European Society for Medical Oncology, Cochrane Library, Joanna Briggs Institute (JBI) Evidence-Based Health Care Center Database, PubMed, Embase, Web of Science, China National Knowledge Infrastructure, WanFang Data, China Biology Medicine disc and so on. The search period was from database establishment to November 30, 2023.Results:A total of 18 articles were included, involving six guidelines, two expert consensus, eight systematic reviews, and two evidence summaries. Thirty-four best pieces of evidence were summarized from six aspects of assessment: drug prevention, non-drug prevention, anti-infection and analgesic management, health education, and multidisciplinary team management.Conclusions:This study summarizes the best evidence for preventing and managing radiotherapy-induced oral mucositis in patients with head and neck cancer. Medical and nursing staff should consider the patient's characteristics, disease condition, and willingness when selecting and applying evidence.

Objective:To establish the fingerprints of Microctis Folium by ultra high performance liquid chromatography (UPLC); To determine the contents of three flavonoids in the Microctis Folium; To evaluate the quality difference of Microctis Folium from different producing areas. Methods:The fingerprints were performed on Agilent ZORBAX SB C18 column (2.1 mm×150 mm,1.8 μm). The mobile phase was acetonitrile - 0.1 % acetic acid solution with gradient elution at a flow rate of 0.30 ml/min. The column temperature was 30 ℃ and the detection wavelength was 315 nm. The common fingerprint peaks were identified by UPLC-mass spectrometry, and the identification results were confirmed by comparison of reference materials. Waters Cortecs T3 C18 chromatographic column (2.1 mm × 100 mm,1.6 μm) was used for content determination. The mobile phase was methanol-0.1 % formic acid solution with gradient elution at a flow rate of 0.35 ml/min. The column temperature was 30 ℃ and the detection wavelength was 339 nm. The contents of vitexin, isovitexin and narcissoside in 15 batches of Microctis Folium from different habitats were determine. Results:There were 11 common peaks in the fingerprint of Microctis Folium. Identified by mass spectrometry and confirmed by reference substance,10 chemical components were identified, including caffeic acid, p-hydroxycinnamic acid, ferulic acid, vitexin, isovitexin, kaempferol-3-O-rutoside, astragaloside, narcissoside, isorhamnetin-3-O-glucoside and linden glycoside. The similarity between the fingerprints of 15 batches of Microctis Folium and the control fingerprint was greater than 0.95, indicating that the overall similarity of the fingerprints of Microctis Folium from different producing areas was high. The total contents of three active components were 3.23-5.64 mg/g in Yangjiang City, Guangdong, 3.60-5.78 mg/g in Zhanjiang City, Guangdong, 4.68-5.73 mg/g in Yulin City, Guangxi and 3.87-5.21 mg/g in Wuzhishan City, Hainan . There was no significant difference in the content of three active components in different producing areas. Conclusion:The fingerprints and the determination method established in the study are stable and feasible, which can be used for the quality evaluation of Microctis Folium.

Objective:To establish the quality evaluation method of Prunellae spica dispensing granules based on three quality indexes of standard decoction. Methods:Fourteen batches of Prunellae spica were collected from different habitats. According to technical requirements, fourteen batches of Prunellae spica standard decoction and three batches of formula granules were prepared and the paste-forming rates were calculated. The fingerprints of Prunellae spica standard decoction and formula granules were established by Ultra High Performance Liquid Chromatography (UPLC). The similarity values of fingerprints between dispensing granules and standard decoction were calculated. The content and transferring rate of Rosmarinic acid were determined and calculated. Results:The average paste-forming rate of Prunellae spica was (12.59±2.32)%. The paste-forming rates of the three batches were 11.14%, 10.78% and 10.39% respectively. The average content of Rosmarinic acid in standard decoction was (18.99±9.74)mg/g. The average transferring rate was (60.58±7.87)%. The contents of three batches were 7.40 mg/g, 7.49 mg/g and 7.09 mg/g. The transferring rates were 52.06%, 50.10% and 50.40% respectively. Nine common fingerprint peaks were identified in the fingerprints of standard decoction and formula granules, two of which were identified as Rosmarinic acid and Caffeic acid by comparison of reference substance. The fingerprints similarity of Prunellae spica dispensing granules and standard decoction were 0.954, 0.973 and 0.952, respectively. Conclusions:The quality indexes of three batches of formulation granules are consistent with standard decoction. This method could provide reference for the establishment of quality standard of Prunellae spica dispensing granules.

Objective:To evaluate the risk factors for diaphragmatic dysfunction of patients with sepsis and septic shock, and the application value of bedside ultrasound.Methods:Patients with sepsis and septic shock in the Intensive Care Unit (ICU), General Hospital of Ningxia Medical University from January 2020 to May 2021 were prospectively recruited as the research subjects, general postoperative patients and healthy volunteers were admitted as postoperative control and normal control groups. General clinical data were collected, patients with sepsis and septic shock were dynamically observed high sensitive c-reactive protein (hs-CRP), interleukin-6 (IL-6), serum albumin, transferrin, prealbumin levels, blood lactate, Pcv-aCO 2, ScvO 2, etc.; and indirect calorimetry was used to measure the resting energy level of the patient to calculate the missing energy value. Bedside ultrasound was used to dynamically evaluate the changes of diaphragm excursion (DE),inspiratory diaphragm thickness, and expiratory diaphragm thickness, to calculate relevant parameters. DE<10 mm or diaphragmatic thickness fraction (DTF) < 20% was diagnosed as diaphragmatic dysfunction. Results:(1) On day 1 in the ICU, the DE of the septic shock group, sepsis group and postoperative control group were significantly lower than that in the normal control group [10.3 (9.0, 13.6) mm, 12.3 (9.1, 15.0) mm, 12.9 (10.5, 15.7) mm vs. 22.0 (16.0, 24.6) mm, all P<0.05], and the incidence of DTF<20% was significantly higher than in the normal control group (32.7%, 41.9%, 33.3% vs. 0 %, all P<0.05), and the incidence of DE<10 mm in the septic shock group and sepsis group was significantly higher than that of postoperative control group and normal control group (36.7%, 35.5% vs. 10.0%, 0%, respectively, all P<0.05). On day 7, the DE in the septic shock group was significantly lower than that in the sepsis group [10.5 (6.8, 13.5) mm vs. 14.4 (10.6, 18.6) mm, P<0.05].(2) Correlation analysis of each index: The DE of patients with sepsis and septic shock on day 1, 3, and 7 was negatively correlated with the hs-CRP ( r=-0.253, -0.436, -0.455, all P<0.05); On day 3, DE was also negatively correlated with IL-6 ( r=-0.338, P=0.009); and DTF was negatively correlated with hs-CRP ( r=-0.375, P=0.004). On day 1, there was a positive correlation between DTF and serum transferrin levels in patients with sepsis and septic shock ( r=0.221, P=0.049). On day 3 and 7, the DE was positively correlated with serum prealbumin levels ( r=0.318, 0.408, both P<0.05). Conclusions:Patients with sepsis and septic shock have developed diaphragmatic dysfunction on day 1 in the ICU, which is mainly manifested as decreased in diaphragm mobility and diaphragmatic thickness fraction, and is related to inflammation and high protein catabolism.

Purpose: Osteosarcoma (OS) universally exhibits heterogeneity and cisplatin (CDDP) resistance. Although the Wee1/CDC2 and nuclear factor кB (NF-κB) pathways were reported to show abnormal activation in some tumor cells with CDDP resistance, whether there is any concrete connection is currently unclear. We explored it in human OS cells. Materials and Methods: Multiple OS cell lines were exposed to a Wee1 inhibitor (AZD1775) and CDDP to assess the half-maximal inhibitory concentration values. Western blot, coimmunoprecipitation, confocal immunofluorescence, cell cycle, and Cell Counting Kit-8assays were performed to explore the connection between the Wee1/CDC2 and NF-κB pathways and their subsequent physiological contribution to CDDP resistance. Finally, CDDP-resistant PDX-OS xenograft models were established to confirm that AZD1775 restores the antitumor effects of CDDP. Results: A sensitivity hierarchy of OS cells to CDDP and AZD1775 exists. In the highly CDDP-tolerant cell lines, Wee1 and RelA were physically crosslinked, which resulted in increased abundance of phosphorylated CDC2 (Y15) and RelA (S536) and consequent modulation of cell cycle progression, survival, and proliferation. Wee1 inhibition restored the effects of CDDP on these processes in CDDP-resistant OS cells. In addition, animal experiments with CDDP-resistant PDX-OS cells showed that AZD1775 combined with CDDP not only restored CDDP efficacy but also amplified AZD1775 in inhibiting tumor growth and prolonged the median survival of the mice. Conclusion Simultaneous enrichment of molecules in the Wee1/CDC2 and NF-κB pathways and their consequent coactivation is a new molecular mechanism of CDDP resistance in OS cells. OS with this molecular signature may respond well to Wee1 inhibition as an alternative treatment strategy.