Organic theranostic nanomedicine has precision multimodel imaging capability and concurrent therapeutics under noninvasive imaging guidance. However, the rational design of desirable multifunctional organic theranostics for cancer remains challenging. Rational engineering of organic semiconducting nanomaterials has revealed great potential for cancer theranostics largely owing to their intrinsic diversified biophotonics, easy fabrication of multimodel imaging platform, and desirable biocompatibility. Herein, a novel all‐organic nanotheranostic platform (TPATQ‐PNP NPs) is developed by exploiting the self‐assembly of a semiconducting small molecule (TPATQ) and a new synthetic high‐density nitroxide radical‐based amphiphilic polymer (PNP). The nitroxide radicals act as metal‐free magnetic resonance imaging agent through shortened longitudinal relaxation times, and the semiconducting molecules enable ultralow background second near‐infrared (NIR‐II, 1000–1700 nm) fluorescence imaging. The as‐prepared TPATQ‐PNP NPs can light up whole blood vessels of mice and show precision tumor‐locating ability with synergistic (MR/NIR‐II) imaging modalities. The semiconducting molecules also undergo highly effective photothermal conversion in the NIR region for cancer photothermal therapy guided by complementary tumor diagnosis. The designed multifunctional organic semiconducting self‐assembly provides new insights into the development of a new platform for cancer theranostics.
To investigate the association between the susceptibility to cervical cancer and the single nucleotide polymorphisms of 5 tumor necrosis factor-α promoter genes (rs361525, rs1800629, rs1800750, rs1799964, and rs673) in Chinese women. A total of 946 peripheral blood samples were collected from women of Han Ethnicity in Shandong province. Of them, 452 were diagnosed with cervical squamous cell carcinomas. The study also included a control group of 494 healthy women. The targeted single nucleotide polymorphisms were analyzed by TaqMan probe method. (1) The rate of high-risk subtype human papillomavirus infection in exfoliated cervical epithelial cells was significantly higher in patients with cervical cancer than the control group (91.4% vs 10.3%, P < .01). The rate of human papillomavirus infection was lower in patients with carcinoma in situ than those with invasive carcinoma (77.9% vs 95.4%, P < .01). (2) There was a significant difference for rs361525 genotype (CC/CT/TT) between the control, carcinoma in situ, and invasive carcinoma groups (P < .001). Both rs1800629 and rs1799964 genotypes (both GG/GA/AA) were also different between these groups (P < .001 and P < .001). (3) The allele frequencies of rs361525, rs1800629, and rs1799964 were significantly correlated with the diagnosis of cervical cancer. The frequency of T allele in rs361525 was significantly higher for cervical cancer group (10.8%) than control group (3.8%; odds ratio = 3.04, 95% confidence interval = 1.76-5.25, P < .01). The frequency of A allele in rs1800629 was significantly higher for cervical cancer (29.9%) than control group (14.2%; odds ratio = 2.58, 95% confidence interval = 1.87-3.56, P < .01). The frequency of A allele in rs1799964 was also higher for cervical cancer group (38.3%) than control group (16.4%; odds ratio = 1.43, 95% confidence interval = 1.07-1.91, P < .05). The rs361525, rs1800629, and rs17999645 were significantly correlated with the diagnosis of cervical cancer.
Multifunctional air filters with efficient particulate matters (PMs) removal, low respiratory resistance and prevention harmful substances are highly demanded. Bacterial cellulose (BC) air filter can capture PMs and separate them from the airflow; however, the dense network structure sacrifices the air permeability. Herein, we incorporated silver nanowires (AgNW) to BC filter through in‐situ cultivation method to prepare a new air filter. The addition of AgNW endows BC filter with antibacterial activity and increases the porosity and air permeability. Surprisingly, AgNW incorporation achieves high‐efficiency filtration through electrostatic adsorption. The filtration efficiency of the BC/AgNW composite filter paper for PM2.5 and PM10 is as high as 99.7% and 99.8%, respectively, that are on par with commonly used 3 M masks on the market. The pressure drop is 123 Pa, which can meet market demand with satisfaction. In addition, the tailor‐made BC/AgNW owns efficient antibacterial potency to keep the human body from infecting germs and other interferences. Overall, this work indicated that the versatile composite air filter paper is promising for various applications in the environmental field and the critical need for human health.
Abstract. Pre-eclampsia is an important cause of maternal and fetal morbidity and mortality that is associated with decreased placental perfusion. In the present study, vascular corrosion casting was used to investigate the differences in structural changes of the fetoplacental vasculature between normal and pre-eclamptic placentas. An improved epoxy resin vascular casting technique was used in the present study. Casting media were infused into 40 normal and 40 pre-eclamptic placentas through umbilical arteries and veins in order to construct three dimensional fetoplacental vasculatures. The number of branches, diameter, morphology and peripheral artery-to-vein ratio were measured for each specimen. The results indicated that the venous system of normal placentas was divided into 5-7 grades of branches and the volume of the vascular bed was 155.5±45.3 ml. In severe pre-eclamptic placentas, the volume was 106.4±36.1 ml, which was significantly lower compared with normal placentas (P<0.01). The venous system of pre-eclamptic placentas was divided into 4-5 grades of branches, which was much more sparse compared with normal placentas. In additions, the diameters of grade 1-3 veins and grade 2-3 arteries were significantly smaller in severe pre-eclampsia (P<0.05). In conclusion, pre-eclamptic placentas displayed a decreased volume of vascular bed, smaller diameters of grade 1-3 veins and grade 2-3 arteries, and an increased peripheral artery-to-vein ratio, which may be a cause of the placental dysfunction during severe pre-eclampsia.
Four categories of LEEP are highly effective in the treatment of CIN when appropriately applied. However, large loop excision may lead to adverse obstetric outcomes in pregnancy.
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