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Ultrafast imaging can capture the dynamic scenes with a nanosecond and even femtosecond temporal resolution. Complementarily, phase imaging can provide the morphology, refractive index, or thickness information that intensity imaging cannot represent. Therefore, it is important to realize the simultaneous ultrafast intensity and phase imaging for achieving as much information as possible in the detection of ultrafast dynamic scenes. Here, we report a single-shot intensity- and phase-sensitive compressive sensing-based coherent modulation ultrafast imaging technique, shortened as CS-CMUI, which integrates coherent modulation imaging, compressive imaging, and streak imaging. We theoretically demonstrate through numerical simulations that CS-CMUI can obtain both the intensity and phase information of the dynamic scenes with ultrahigh fidelity. Furthermore, we experimentally build a CS-CMUI system and successfully measure the intensity and phase evolution of a multimode Q-switched laser pulse and the dynamical behavior of laser ablation on an indium tin oxide thin film. It is anticipated that CS-CMUI enables a profound comprehension of ultrafast phenomena and promotes the advancement of various practical applications, which will have substantial impact on fundamental and applied sciences.
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OBJECTIVE: This Study aims to investigate the risk factors of hypoglycemia in neonates through meta-analysis. METHOD: PubMed, Embase, Cochrane library, and Web of science databases were searched for case-control studies on risk factors for neonatal hypoglycemia. The search was done up to 1st October 2023 and Stata 15.0 was used for data analysis. RESULTS: A total of 12 published studies were included, including 991 neonates in the hypoglycemic group and 4388 neonates in the non-hypoglycemic group. Meta-analysis results suggested caesarean section [OR = 1.90 95%CI (1.23, 2.92)], small gestational age[OR = 2.88, 95%CI (1.59, 5.20)], gestational diabetes [OR = 1.65, 95%CI (1.11, 2.46)], gestational hypertension[OR = 2,79, 95%CI (1.78, 4.35)] and respiratory distress syndrome[OR = 5.33, 95%CI (2.22, 12.84)] were risk factors for neonatal hypoglycemia. CONCLUSION: Based on the current study, we found that caesarean section, small gestational age, gestational diabetes, gestational hypertension, respiratory distress syndrome are risk factors for neonatal hypoglycemia. PROSPERO REGISTRATION NUMBER: CRD42023472974.
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Diabetes Gestacional , Hipoglicemia , Humanos , Hipoglicemia/epidemiologia , Recém-Nascido , Fatores de Risco , Feminino , Gravidez , Diabetes Gestacional/epidemiologia , Cesárea/estatística & dados numéricos , Doenças do Recém-Nascido/epidemiologia , Doenças do Recém-Nascido/etiologia , Hipertensão Induzida pela Gravidez/epidemiologia , Síndrome do Desconforto Respiratório do Recém-Nascido/epidemiologia , Síndrome do Desconforto Respiratório do Recém-Nascido/etiologia , Estudos de Casos e ControlesRESUMO
Imaging into thick scattering medium is a long-standing challenge. Beyond the quasi-ballistic regime, multiple scattering scrambles the spatiotemporal information of incident/emitted light, making canonical imaging based on light focusing nearly impossible. Diffusion optical tomography (DOT) is one of the most popular approach to look inside scattering medium, but quantitatively inverting the diffusion equation is ill-posed, and prior information of the medium is typically necessary, which is nontrivial to obtain. Here, we show theoretically and experimentally that, by synergizing the one-way light scattering characteristic of single pixel imaging with ultrasensitive single photon detection and a metric-guided image reconstruction, single photon single pixel imaging can serve as a simple and powerful alternative to DOT for imaging into thick scattering medium without prior knowledge or inverting the diffusion equation. We demonstrated an image resolution of 12 mm inside a 60 mm thick (â¼ 78 mean free paths) scattering medium.
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Objective: Acute myocardial infarction (AMI) is characterized by heart damage resulting from blocked blood flow. Prompt diagnosis is vital for timely treatment and saving lives. This study aimed to evaluate the diagnostic value of cTnl, NT-pro BNP, and a combined test in AMI patients. Methods: In this study, a retrospective observational design was employed, and we selected 221 patients with AMI admitted to our hospital within a 3-year period as the research subjects and included them in the AMI group. Additionally, 200 patients from the control group, who visited our hospital for physical examinations, were selected to compare the expressions of cardiac Troponin I (cTnl) and N-Terminal pro-B-type Natriuretic Peptide (NT-pro BNP) between the two groups. Receiver Operating Characteristic (ROC) curves were constructed to analyze the diagnostic value of cTnl combined with NT-pro BNP for AMI. Furthermore, AMI patients were categorized into four groups based on the New York Heart Association (NYHA) classification (grades I, II, III, and IV). The differences in cTnl, NT-pro BNP, and Left Ventricular Ejection Fraction (LVEF) were compared among the AMI patients with different cardiac function grades to analyze their correlation and diagnostic value in assessing the severity of AMI-related cardiac insufficiency. Results: The levels of cTnl and NT-pro BNP in AMI patients were significantly higher than those in the control group, and their combined detection effectively facilitated the diagnosis of AMI occurrence. Moreover, cTnl and NT-pro BNP concentrations increased with the severity of cardiac dysfunction (NYHA grades) and showed a notable negative correlation with LVEF. Furthermore, the combined testing of cTnl and NT-pro BNP demonstrated significant value in evaluating the severity of AMI in patients. Conclusions: The combined detection of cTnl and NT-pro BNP holds considerable application value in diagnosing AMI occurrence and assessing its severity.
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Infarto do Miocárdio , Peptídeo Natriurético Encefálico , Humanos , Volume Sistólico/fisiologia , Estudos Retrospectivos , Função Ventricular Esquerda , Infarto do Miocárdio/diagnóstico por imagem , BiomarcadoresRESUMO
Advanced applications of biomacromolecular assemblies require a stringent degree of control over molecular arrangement, which is a challenge to current synthetic methods. Here we used a neighbor-controlled patterning strategy to build multicomponent peptide fibrils with an unprecedented capacity to manipulate local composition and peptide positions. Eight peptides were designed to have regulable nearest neighbors upon co-assembly, which, by simulation, afforded 412 different patterns within fibrils, with varied compositions and/or peptide positions. The fibrils with six prescribed patterns were experimentally constructed with high accuracy. The controlled patterning also applies to functionalities appended to the peptides, as exemplified by arranging carbohydrate ligands at nanoscale precision for protein recognition. This study offers a route to molecular editing of inner structures of peptide assemblies, prefiguring the uniqueness and richness of patterning-based material design.
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Peptídeos , Proteínas , Peptídeos/química , Conformação MolecularRESUMO
In this work, we propose and demonstrate the ring-arrayed Pearcey Gaussian chirp beams (RAPGCBs) synthesized by multiple two-dimensional Pearcey beams. The general analytical formula for the propagation of RAPGCBs is presented. We find that, depending on synthesized number n, the profiles of the beams present different polygonal shapes, and the autofocusing properties can be controlled by chirp factor ß. Furthermore, we study the properties of the RAPGCBs carrying optical vortices (OVs). It shows that a single OV or two positive OVs form an autofocusing hollow field, and opposite OVs will annihilate, which results in greatly increased autofocusing ability. Our experimental results agree with the simulations. Such beams have potential applications in particle trapping and biology medical fields.
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For certain diseases, the continuous long-term monitoring of the physiological condition is crucial. Therefore, non-invasive monitoring methods have attracted widespread attention in health care. This review aims to discuss the non-invasive monitoring technologies for human health based on photoacoustic spectroscopy. First, the theoretical basis of photoacoustic spectroscopy and related devices are reported. Furthermore, this article introduces the monitoring methods for blood glucose, blood oxygen, lipid, and tumors, including differential continuous-wave photoacoustic spectroscopy, microscopic photoacoustic spectroscopy, mid-infrared photoacoustic detection, wavelength-modulated differential photoacoustic spectroscopy, and others. Finally, we present the limitations and prospects of photoacoustic spectroscopy.
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Glicemia , Técnicas Fotoacústicas , Humanos , Análise EspectralRESUMO
Photoacoustic microscopy (PAM) with ultraviolet (UV) laser illumination has recently been demonstrated as a promising tool that provides fast, label-free, and multilayered histologic imaging of human breast tissue. Thus far, the axial resolution has been determined ultrasonically. To enable optically defined axial resolution, we exploit the Grüneisen relaxation (GR) effect. By imaging mouse brain slices, we show that GRUV-PAM reveals detailed information about three-dimensional cell nuclear distributions and internal structures, which are important diagnostic features for cancers. Due to the nonlinear effect, GRUV-PAM also provides better contrast in images of cell nuclei.
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Núcleo Celular/metabolismo , Microscopia Acústica/métodos , Técnicas Fotoacústicas/métodos , Animais , Encéfalo/citologia , Encéfalo/diagnóstico por imagem , Camundongos , Microscopia Acústica/instrumentação , Técnicas Fotoacústicas/instrumentaçãoRESUMO
Optical-resolution photoacoustic microscopy (OR-PAM) is an emerging imaging modality for studying biological tissues. However, in conventional single-view OR-PAM, the lateral and axial resolutions-determined optically and acoustically, respectively-are highly anisotropic. In this Letter, we introduce dual-view OR-PAM to improve axial resolution, achieving three-dimensional (3D) resolution isotropy. We first use 0.5 µm polystyrene beads and carbon fibers to validate the resolution isotropy improvement. Imaging of mouse brain slices further demonstrates the improved resolution isotropy, revealing the 3D structure of cell nuclei in detail, which facilitates quantitative cell nuclear analysis.
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Microscopia/métodos , Técnicas Fotoacústicas/métodos , Carbono , Fibra de Carbono , Imageamento TridimensionalRESUMO
A multifunctional platform with pH-responsive drug release and near-infrared (NIR) light-triggered photodynamic therapy (PDT) was designed and prepared using the novel core-shell-shell structure. The multifunctional platform consists of an upconversion nanoparticle (UCNP) emission core, a photosensitizer methylene blue (MB) embedded dense silica sandwich shell, and a polyethyleneimine conjugated folic acid (PEI-FA) gated mesoporous silica (MS) outmost shell with doxorubicin hydrochloride (DOX) loaded inside. The simulated drug release experiments revealed that DOX will release from the nanoparticles because of the distortion in the PEI-FA layer under acidic conditions. Moreover, under 980 nm NIR irradiation, a 660 nm red light emission was excited, activating MB to generate a singlet oxygen (1O2), which acts as the PDT drug. The multifunctional platform integrated pH-responsive drug release and UCNP-based PDT drug together show promising potential in nanomedicine for future chemotherapy and NIR-triggered PDT.
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OBJECTIVE: To study the nasal mucosa absorption of Scutellariae Radix extract in rats and its two preparations phospholipid complex and submicron emulsion, and to evaluate the rationality of Scutellariae Radix extract modification technology and preparation form. METHODS: According to the nasal absorption method, the absorption amount of Scutellariae Radix extract, phospholipid complex and submicron emulsion were determined. RESULTS: The absorption amount of Scutellariae Radix extract, phospholipid complex and submicron emulsion under the experimental conditions was improved in turn in 2 h and the absorption amount of submicron emulsion increased significantly. The absorption characteristics were passive diffusion. CONCLUSION: The modification methods and preparation form of Scutellariae Radix extract were scientific and reasonable.
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Mucosa Nasal/metabolismo , Extratos Vegetais/farmacocinética , Scutellaria baicalensis/química , Animais , Emulsões/química , Fosfolipídeos/química , RatosRESUMO
Based on the demand of nasal drug delivery high drug loadings, using the unique phase transfer of solute, integrating the phospholipid complex preparation and submicron emulsion molding process of Scutellariae Radix extract, the study obtained the preparation of the high drug loadings submicron emulsion of Scutellariae Radix extract. In the study of drug solution dispersion method, the uniformity of drug dispersed as the evaluation index, the traditional mixing method, grinding, homogenate and solute phase transfer technology were investigated, and the solute phase transfer technology was adopted in the last. With the adoption of new technology, the drug loading capacity reached 1.33% (phospholipid complex was 4%). The drug loading capacity was improved significantly. The transfer of solute method and timing were studied as follows,join the oil phase when the volume of phospholipid complex anhydrous ethanol solution remaining 30%, the solute phase transfer was completed with the continued recycling of anhydrous ethanol. After drug dissolved away to oil phase, the preparation technology of colostrum was determined with the evaluation index of emulsion droplet form. The particle size of submicron emulsion, PDI and stability parameters were used as evaluation index, orthogonal methodology were adopted to optimize the submicron emulsion ingredient and main influential factors of high pressure homogenization technology. The optimized preparation technology of Scutellariae Radix extract nasal submicron emulsion is practical and stable.
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Extratos Vegetais , Tecnologia Farmacêutica/métodos , Administração Intranasal , Emulsões , Scutellaria baicalensisRESUMO
This study explores the influence of household technological advancements on children's nutritional intake, specifically within the context of the Chinese government's "Home Appliances Going to the Countryside" (HAGC) initiative. Utilizing data from the China Health and Nutrition Surveys of 2006, 2009, and 2011, we employed a Propensity Score Matching Difference-in-Differences (PSM-DID) framework to ascertain the repercussions of enhanced household technology on the dynamics of children's nutritional consumption patterns. Our analysis reveals that the HAGC-inspired integration of household appliances, including color televisions, washing machines, and refrigerators, has beneficially reshaped the nutritional consumption patterns of children, with a pronounced effect among female children. This finding remains consistent even when employing alternate methodological robustness tests. A deeper examination of the HAGC policy's mechanisms underscores the pivotal roles of parental time allocation, improved food storage capabilities, and augmented information accessibility as significant drivers bolstering children's nutritional intake. These insights bear considerable significance for strategizing interventions aimed at elevating the nutritional wellbeing of children in rural settings, offering valuable input for shaping public health policies tailored for such demographies.
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Pandemics like COVID-19 have highlighted the potential of Photoacoustic imaging (PAI) for Brain-Computer Interface (BCI) communication and lung diagnostics. However, PAI struggles with the clear imaging of blood vessels in areas like the lungs and brain due to their cavity structures. This paper presents a simulation model to analyze the generation and propagation mechanism within phantom tissues of PAI artifacts, focusing on the evaluation of both Anisotropic diffusion filtering (ADF) and Non-local mean (NLM) filtering, which significantly reduce noise and eliminate artifacts and signify a pivotal point for selecting artifact-removal algorithms under varying conditions of light distribution. Experimental validation demonstrated the efficacy of our technique, elucidating the effect of light source uniformity on artifact-removal performance. The NLM filtering simulation and ADF experimental validation increased the peak signal-to-noise ratio by 11.33% and 18.1%, respectively. The proposed technique adds a promising dimension for BCI and is an accurate imaging solution for diagnosing lung diseases.
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Optical-based imaging has improved from early single-location research to further sophisticated imaging in 2D topography and 3D tomography. These techniques have the benefit of high specificity and non-radiative safety for brain detection and therapy. However, their performance is limited by complex tissue structures. To overcome the difficulty in successful brain imaging applications, we conducted a simulation using 16 optical source types within a brain model that is based on the Monte Carlo method. In addition, we propose an evaluation method of the optical propagating depth and resolution, specifically one based on the optical distribution for brain applications. Based on the results, the best optical source types were determined in each layer. The maximum propagating depth and corresponding source were extracted. The optical source propagating field width was acquired in different depths. The maximum and minimum widths, as well as the corresponding source, were determined. This paper provides a reference for evaluating the optical propagating depth and resolution from an optical simulation aspect, and it has the potential to optimize the performance of optical-based techniques.
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Multitarget tyrosine kinase inhibitors (TKIs) serve as first-line therapeutics in the systemic treatment of hepatocellular carcinoma (HCC), yet their clinical effectiveness is hampered by suboptimal pharmacokinetics and bioavailability. There is a critical need to enhance the circulation, tumor targeting, and infiltration of TKIs. In this context, we developed a silk fibroin (SF)-based nanomedicine that exploits the chemical versatility and conformation tunability of SF. Folic acid (FA) with affinity toward HCC cells is utilized to functionalize SF, simultaneously aiding in the pH-sensitive ß-sheet transitions of SF. This dynamic conformation behavior is key to improving the nanomedicine's circulation, biological adhesion, and tumor localization. By encapsulating Lenvatinib (Leva) TKI, the nanomedicine exhibits tumor-targeted accumulation and potent inhibition on HCC cell survival and angiogenesis, thereby amplifying Leva's bioavailability and therapeutic impact. Owing to SF's low immunogenicity and high reproducibility, this SF-based approach for TKI delivery holds substantial promise for advancing HCC systemic therapy.
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Piezoelectric poly(vinylidene fluoride) (PVDF) and its copolymers have been widely investigated for applications in wearable electric devices and sensing systems, owing to their intrinsic piezoelectricity and superior flexibility. However, their weak piezoelectricity poses major challenges for practical applications. To overcome these challenges, we propose a two-step synthesis approach to fabricate sandwich-structured piezoelectric films (BaTiO3@PDA/PVDF/BaTiO3@PDA) with significantly enhanced ferroelectric and piezoelectric properties. As compared to pristine PVDF films or conventional 0-3 composite films, a maximum polarization (Pmax) of 11.24 µC/cm2, a remanent polarization (Pr) of 5.83 µC/cm2, and an enhanced piezoelectric coefficient (d33 â¼ 14.6 pC/N) were achieved. Simulation and experimental results have demonstrated that the sandwich structure enhances the ability of composite films to withstand higher poling electric fields in comparison with 0-3 composites. The sandwich-structured piezoelectric films are further integrated into a wireless sensor system with a high force sensitivity of 288 mV/N, demonstrating great potential for movement monitoring applications. This facile approach shows great promise for the large-scale production of composite films with remarkable flexibility, ferroelectricity, and piezoelectricity for wearable sensing devices.
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The feasibility of self-cultivating anammox granules for enhancing wastewater nitrogen removal was investigated in a nitrification-denitrification flocculent sludge system. Desirable nitrogen removal efficiency of 84 ± 4 % was obtained for the influent carbon to nitrogen ratio of 1-1.3 (NH4+-N: 150-200 mg N/L) via alternate anaerobic/oxic/anoxic mode. Meanwhile, some red granular sludge was formed in the system. The abundance and activity of anaerobic ammonia oxidation bacteria (AnAOB) increased from 'not detected' in seed sludge to 0.57 % and 29.4 ± 0.7 mg N/(g mixed liquor volatile suspended solids·h) in granules, respectively, suggesting successful cultivation of anammox granules. Furthermore, some denitrifying bacteria with capability of partial denitrification were enriched, such as Candidatus Competibacter (2.45 %) and Thauera (5.75 %), which could cooperate with AnAOB, facilitating AnAOB enrichment. Anammox was dominant in nitrogen removal with the contribution to nitrogen removed above 68.8 ± 0.3 %. The strategy of self-cultivating anammox granules could promote the application of anammox.
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Esgotos , Águas Residuárias , Esgotos/microbiologia , Nitrificação , Desnitrificação , Oxidação Anaeróbia da Amônia , Nitrogênio , Reatores Biológicos/microbiologia , Oxirredução , Anaerobiose , BactériasRESUMO
OBJECTIVE: To screen suitable nasal dosage forms of Scutellaria baicalensis extract phospholipid complex. METHODS: Used the permeable performance of hyorrinis mucosa, nasal irritation and other evaluation indexes to screen five different formulations. RESULTS: The submicroemulsion's apparent permeability coefficient was the largest, irritant was the smallest, and drug loading was higher than those of other formulations, which could meet the requirements of intranasal administration. CONCLUSION: The optimum formulation of Scutellria baicalensis extract phospholipid complex nasal preparation is submicroemulsion.
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Química Farmacêutica/métodos , Medicamentos de Ervas Chinesas/administração & dosagem , Medicamentos de Ervas Chinesas/farmacocinética , Mucosa Nasal/metabolismo , Scutellaria baicalensis/química , Administração Intranasal , Animais , Bufonidae , Formas de Dosagem , Sistemas de Liberação de Medicamentos , Medicamentos de Ervas Chinesas/química , Feminino , Glicerol/administração & dosagem , Masculino , Mucosa Nasal/patologia , Óleos/administração & dosagem , Permeabilidade , Fosfolipídeos/administração & dosagem , Poloxâmero/administração & dosagem , Polissorbatos/administração & dosagem , Ratos , SuínosRESUMO
Ultrasonic (US) transducers have been widely used in the field of ultrasonic and photoacoustic imaging system in recent years, to convert acoustic and electrical signals into each other. As the core part of imaging systems, US transducers have been extensively studied and achieved remarkable progress recently. Imaging systems employing conventional rigid US transducers impose certain constraints, such as not being able to conform to complex surfaces and comfortably come into contact with skin and the sample, and meet the applications of continuous monitoring and diagnosis. To overcome these drawbacks, significant effort has been made in transforming the rigid US transducers to become flexible and wearable. Flexible US transducers ensure self-alignment to complex surfaces and maximize the transferred US energy, resulting in high quality detection performance. The advancement in flexible US transducers has further extended the application range of imaging systems. This review is intended to summarize the most recent advances in flexible US transducers, including advanced functional materials optimization, representative US transducers designs and practical applications in imaging systems. Additionally, the potential challenges and future directions of the development of flexible US transducers are also discussed.