Analysis of Prescription Compliance and Influencing Factors in Cardiac Rehabilitation after Surgery in Children with Congenital Heart Disease Based on Generalized Trust Theory.

AIMS: To understand the compliance, influencing factors, and action path of family cardiac rehabilitation exercise prescriptions for children after congenital heart disease surgery. METHODS AND RESULTS: A random sampling method was used to select 200 pediatric patients and their parents from a pediatric hospital in Shanghai. Among them, 57 cases (28.5%) of children's families followed the cardiac rehabilitation exercise prescription. Path analysis showed that peak oxygen uptake exerted a negative impact on the compliance of family cardiac-rehabilitation prescriptions for patients after congenital heart disease surgery through doctor-patient trust, with a standardized path coefficient of -0.246 (P = 0.001). Disease-related knowledge exerted a positive effect on the compliance of family cardiac-rehabilitation prescriptions for children after congenital heart surgery through doctor-patient trust, with a standardized path coefficient of 0.353 (P < 0.001). The dimension of friend support in social support had a direct positive effect on the compliance of family cardiac-rehabilitation prescriptions for children after cardiac surgery, with a standardized path coefficient of 0.641 (P = 0.006). CONCLUSION: The compliance of cardiac rehabilitation exercise prescription in children with congenital heart disease is not good and is affected by many factors, and there is a complex path relationship between various factors; the kilogram oxygen consumption of the child, the disease-related knowledge of the caregiver, and social support all play important roles in the compliance of the child's family's health prescription. REGISTRATION: SCMCIRB-K2021002-1.

Nanogalvanic Cells Release Highly Reactive Electrons in Tumors to Effectively Eliminate Tumors.

External stimuli triggering chemical reactions in cancer cells to generate highly reactive chemical species are very appealing for cancer therapy, in which external irradiation activating sensitizers to transfer energy or electrons to surrounding oxygen or other molecules is critical for generating cytotoxic reactive species. However, poor light penetration into tissue, low activity of sensitizers, and reliance on oxygen supply restrict the generation of cytotoxic chemical species in hypoxic tumors, which lowers the therapeutic efficacy. Here, this work presents galvanic cell nanomaterials that can directly release highly reactive electrons in tumors without external irradiation or photosensitizers. The released reactive electrons directly react with surrounding biomolecules such as proteins and DNA within tumors to destroy them or react with other surrounding (bio)molecules to yield cytotoxic chemical species to eliminate tumors independent of oxygen. Administering these nanogalvanic cells to mice results in almost complete remission of subcutaneous solid tumors and deep metastatic tumors. The results demonstrate that this strategy can further arouse an immune response even in a hypoxic environment. This method offers a promising approach to effectively eliminate tumors, similar to photodynamic therapy, but does not require oxygen or irradiation to activate photosensitizers.

[Effect of grape seed extract on oxidative stress and pathological changes of aorta in rats with chronic periodontitis and arteriosclerosis].

PURPOSE: To investigate the effect of grape seed extract on pathological changes of aorta in rats with chronic periodontitis and arteriosclerosis, and to analyze the possible mechanism. METHODS: Fifteen SPF male rats with chronic periodontitis and arteriosclerosis were randomly divided into three groups, i.e., model group(n=5), low dose of grape seed extract group (n=5), high dose of grape seed extract group (n=5) , and control group (n=10). The rats in the low and high dose groups were treated with 40 mg·kg-1·d-1 and 80 mg·kg-1·d-1 for 4 weeks respectively, while the rats in the normal control group and the model group were treated with the same amount of normal saline at the same time. The maximal intima-media thickness(IMT) of abdominal aorta was measured by H-E staining, the activity of SOD and the content of MDA in serum were measured by colorimetry, the content of GSH-px in serum and serum levels of inflammatory factor (TNF-α) and interleukin-6(IL-6) were detected by ELISA. p38 mitogen-activated protein kinase/nuclear transcription factor Kappa B p65(p38 MAPK/NF-κB p65) pathway was detected by Western blotting. SPSS 20.0 software package was used for statistical analysis. RESULTS: In the model group, the intima of abdominal aorta was irregularly thickened, with a lot of inflammatory cell infiltration, and arterial lesions appeared. In the low-and high-dose groups of grape seed extract, the plaque of abdominal aorta intima decreased and inflammatory cells reduced significantly, arterial vascular disease was improved, and the improvement was more obvious in high dose group than in low dose group. Compared with the control group, the levels of IMT, serum MDA, TNF-α, IL-6, p-p38MAPK/p38MAPK, NF-κB p65 and serum SOD and GSH-px in the model group were increased, while those in the model group were decreased(P＜0.05); the levels of IMT, serum MDA, TNF-α, IL-6, p-p38MAPK/p38MAPK, NF-κB p65 and SOD, GSH-px were decreased in the low and high dose groups(P＜0.05). CONCLUSIONS: Grape seed extract can inhibit the oxidative stress level and inflammatory reaction in serum of chronic periodontitis with arteriosclerosis rats, thus improving the intimal lesion of aorta, possibly by inhibiting the activation of p38MAPK/NF-κB p65 pathway.

Tumor Microenvironment Triggered the In Situ Synthesis of an Excellent Sonosensitizer in Tumor for Sonodynamic Therapy.

An ultrasound-triggered sonodynamic therapy has shown great promise for cancer therapy. However, its clinical applications are very limited because the traditional sonosensitizers tend to suffer from very poor efficiency combined with low retention in cancer cells and low tumor selectivity. Therefore, sonosensitizers with higher effectivity, higher tumor cell retention, and higher tumor cell specificity are highly required. Herein, we constructed a Ti2C(OH)X nanosheet, which was a poor sonosensitizer but had a long circulation in the blood system. However, it was very interesting to find that the tumor microenvironment could in situ turn Ti2C(OH)X nanosheet into a novel and excellent sonosensitizer with a nanofiber structure in tumors, exhibiting excellent ability to generate reactive oxygen species (ROS) under ultrasound. Moreover, the nanofiber structure made it very difficult to get out of cancer cells, highly enhancing the retention of the sonosensitizer in the tumor, thereby enabling it to effectively and selectively kill cancer cells in vivo. Our findings demonstrate that the strategy of the tumor microenvironment triggering the in situ synthesis of an effective sonosensitizer in tumor provided a promising means to simultaneously increase the efficiency, sonosensitizer retention in cancer cells, and cancer selectivity, thereby effectively killing cancer cells but causing little damage to healthy tissues via the sonodynamic therapy.

Visible-light driven degradation of ibuprofen using abundant metal-loaded BiVO4 photocatalysts.

An efficient method for the degradation of ibuprofen as an aqueous contaminant was developed under visible-light irradiation with as-prepared bismuth vanadate (BiVO4) catalysts. The metal-loaded catalysts Cu-BiVO4 and Ag-BiVO4 were synthesized using a hydrothermal process and then a wet-impregnation method. All of the materials were fully characterized by X-ray diffraction, scanning electron microscopy, UV-vis diffuse reflectance spectroscopy, X-ray photoelectron spectroscopy and BET surface area. The results indicated that all of the prepared samples had monoclinic scheelite structures. In the metal-loaded catalysts, silver existed as a mixture of Ag and Ag2O on the surface of the catalysts. However, copper existed as Cu2O and CuO. Additionally, the band gap values of BiVO4, Ag-BiVO4, and Cu-BiVO4 were 2.38, 2.31, and 2.30eV, respectively. Compared to the BiVO4 catalyst, the metal-loaded BiVO4 catalysts showed superior photocatalytic properties for the degradation of ibuprofen.