Research Status of TCM Rehabilitation in Chronic Obstructive Pulmonary Disease (COPD)

This paper mainly analyzes the application status of TCM rehabilitation in chronic obstructive pulmonary disease(COPD),hoping to provide support and help for clinical staff through this study,and promote the further development of COPD rehabilitation program.

Effects of TCM Nursing Based on Syndrome Differentiation on Pulmonary Function and Quality of Life in Patients with Acute Exacerbation of COPD

[Objectives] To investigate the effects of TCM nursing based on syndrome differentiation on pulmonary function and quality of life in patients with acute exacerbation of chronic obstructive pulmonary disease (AECOPD). [Methods] A total of 92 patients with AECOPD who came to Nanchong Chinese Medicine Hospital from March 2022 to February 2023 were selected for the study, and the intervention group (TCM nursing based on syndrome differentiation, 46 cases) and the conventional group (basic nursing, 46 cases) were selected for the study, and the pulmonary function and quality of life of the two groups were compared. [Results] Before nursing, there was no significant difference in levels of forced vital capacity (FVC), forced expiratory volume in one second (FEV1), and percentage of forced expiratory volume in one second to forced vital capacity (FEV1/FVC) between the intervention group and conventional group ( P >0.05). After 3 months of nursing, the levels of FVC, FEV1 and FEV1/FVC in the intervention group were higher than those in the conventional group ( P <0.05). Before nursing, there was no significant difference in the scores of health, emotion and social functions between the two groups ( P >0.05). At three months of nursing, the scores of health, emotion, and social functions in the intervention group were higher than those in the conventional group ( P <0.05). [Conclusions] The implementation of TCM nursing based on syndrome differentiation in patients with AECOPD can effectively improve the pulmonary function and quality of life of patients, and has significant clinical implementation value.

Lipid-polymer hybrid nanoparticle with cell-distinct drug release for treatment of stemness-derived resistant tumor

Drug resistance presents one of the major causes for the failure of cancer chemotherapy.Cancer stem-like cells(CSCs),a population of self-renewal cells with high tumorigenicity and innate chemoresistance,can survive conventional chemotherapy and generate increased resistance.Here,we develop a lipid-polymer hybrid nanoparticle for co-delivery and cell-distinct release of the differentiation-inducing agent,all-trans retinoic acid and the chemotherapeutic drug,doxorubicin to overcome the CSC-associated chemoresistance.The hybrid nanoparticles achieve differential release of the combined drugs in the CSCs and bulk tumor cells by responding to their specific intracellular signal variation.In the hypoxic CSCs,ATRA is released to induce differentiation of the CSCs,and in the differentiating CSCs with decreased chemoresistance,DOX is released upon elevation of reactive oxygen species to cause subsequent cell death.In the bulk tumor cells,the drugs are released synchronously upon the hypoxic and oxidative conditions to exert potent anticancer effect.This cell-distinct drug release enhances the synergistic therapeutic efficacy of ATRA and DOX with different anticancer mechanism.We show that treatment with the hybrid nanoparticle efficiently inhibit the tumor growth and metastasis of the CSC-enriched triple negative breast cancer in the mouse models.

模仿目标临床试验在脑血管疾病领域的应用现状及展望

模仿目标临床试验是一种利用观察性研究数据来模仿随机临床试验结果的方法,近年来在临床研究中得到了广泛应用。模仿目标临床试验在脑血管疾病研究领域的应用,可以补充随机临床试验的不足,提高研究效率和可靠性,减少试验成本和时间,同时还可以扩大研究样本量,提高研究结果的可解释性和可推广性。未来,模仿目标临床试验在脑血管疾病研究中的应用还有待进一步发展和完善,从而更好地为脑血管疾病的治疗和预防提供科学依据。本文针对模仿目标临床试验在脑血管疾病领域的应用现状及未来展望进行了综述。

Cell-based drug delivery systems for biomedical applications

Spurred by numerous achievements in nanoscience and nanotechnology, the evolution of nanoparticulate drug delivery systems （nano-DDSs） is in its rapid growth period and attracting considerable attention due to their unique advantages in biomedical applications. Natural particulates ranging from mammalian cells to bacteria possess their own distinctive delivery processes and mechanisms, which inspires more design and development of cell-based DDSs by integrating the innate functions of cells with the nanoscale characteristics of nanoparticles. In this review article, we focus on the recent advances in cell-based DDSs for site-specific delivery of therapeutics and enhanced treatment of diseases. The promise and perils of cell-based DDSs are also discussed.

Collaborative assembly-mediated siRNA delivery for relieving inflammation-induced insulin resistance

Obesity plays a primary causative role in insulin resistance and hyperglycemia that contributes to type 2 diabetes.Excess lipid storage in the liver renders activation of the resident macrophages and chronic secretion of inflammatory mediators,therefore causing or aggravating insulin resistance.Herein,we develop collaborative assemblies using a“one-pot”synthesis method for macrophage-specific delivery of small interfering RNAs(siRNAs)that target the inflammatory proteins.Ternary nanocomplex(NC)composed of the siRNA molecule,a synthetic thiol-bearing methacrylated hyaluronic acid(sm-HA)and protamine forms through an electrostatic-driven physical assembly,which is chemically crosslinked to acquire the collaboratively assembled nanocapsule(cNC)concurrently.The obtained cNC displays significantly higher stability than NC.Functional moieties as flexible assembly units can be easily equipped on cNC for long circulation,active targeting,or controlled siRNA release.cNC-F decorated with folic acid,a macrophage-targeting ligand promotes the siRNA accumulation in the activated macrophages in the liver of the obese mouse model.cNC-F loaded with siRNA targeting inflammatory indicators efficiently control the macrophage inflammatory response by reducing the expression of the inflammatory proteins(>40%reduction)and ameliorating the insulin resistance symptoms of the obese mice.

Enzyme-instructed hybrid nanogel/nanofiber oligopeptide hydrogel for localized protein delivery

Enzyme-catalysis self-assembled oligopeptide hydrogel holds great interest in drug delivery,which has merits of biocompatibility,biodegradability and mild gelation conditions.However,its application for protein delivery is greatly limited by inevitable degradation of enzyme on the encapsulated proteins leading to loss of protein activity.Moreover,for the intracellularly acted proteins,cell membrane as a primary barrier hinders the transmembrane delivery of proteins.The internalized proteins also suffer from acidic and enzymatic degradation in endosomes and lysosomes.We herein develop a proteasemanipulated hybrid nanogel/nanofiber hydrogel for localized delivery of intracellularly acted proteins.The embedded polymeric nanogels(CytoC/aNGs)preserve activity of cytochrome c(CytoC)that is an intracellular activator for cell apoptosis as a model protein against proteolysis,and do not affect the gelation properties of the protease-catalysis assembled hydrogels.The injectable hydrogel(CytoC/aNGs/Gel)serves as a reservoir to enhance intratumoral retention and realize sustainable release of CytoC/aNGs.The released CytoC/aNGs increase cellular uptake of CytoC and enhance its intracellular delivery to its target site,cytoplasm,resulting in favorable apoptosis-inducing and cytotoxic effects.We show that a single local administration of CytoC/aNGs/Gel efficiently inhibit the tumor growth in the breast tumor mouse model.