Multifunctional AuPt Nanoparticles for Synergistic Photothermal and Radiation Therapy.

Background: Photothermal therapy (PTT) has gained considerable interest as an emerging modality for cancer treatment in recent years. Radiation therapy (RT) has been widely used in the clinic as a traditional treatment method. However, RT and PTT treatments are limited by side effects and penetration depth, respectively. In addition, hypoxia within the tumor can lead to increased resistance to treatment. Methods: We synthesized multiple sizes of AuPt by modulating the reaction conditions. The smallest size of AuPt was selected and modified with folic acid (FA) for PTT and RT synergy therapy. Various methods including transmission electron microscope (TEM), X-ray photoelectron spectroscopy (XPS), X-ray diffraction (XRD), and Fourier transform infrared spectroscopy (FITR) are used to determine the structure and composition of AuPt-FA (AF). In addition, we researched the photothermal properties of AF with IR cameras and infrared lasers. Flow cytometry, colony formation assays, CCK8, and fluorescent staining for probing the treatment effect in vitro. Also, we explored the targeting of AF by TEM and In Vivo Imaging Systems (IVIS). In vivo experiments, we record changes in tumor volume and weight as well as staining of tumor sections (ROS, Ki67, and hematoxylin and eosin). Results: The AuPt with particle size of 16 nm endows it with remarkably high photothermal conversion efficiency (46.84%) and catalase activity compared to other sizes of AuPt (30 nm and 100 nm). AF alleviates hypoxia in the tumor microenvironment, leading to the production of more reactive oxygen species (ROS) during the treatment. In addition, the therapeutic effect was significantly enhanced by combining RT and PTT, with an apoptosis rate of 81.1% in vitro and an in vivo tumor volume reduction rate of 94.0% in vivo. Conclusion: These results demonstrate that AF potentiates the synergistic effect of PTT and RT and has the potential for clinical translation.

[Research and application of intelligent hyperspectral analysis technology for Chinese materia medica].

With the development of imaging technology and artificial intelligence, hyperspectral imaging technology provides a fast, non-destructive, intelligent, and precise new method for the analysis of Chinese materia medica(CMM). This paper summarized the methods and applications of hyperspectral imaging technology combined with intelligent analysis technology in the field of CMM in recent years, focusing on the acquisition and preprocessing of hyperspectral data, intelligent analysis methods of hyperspectral data, and practical cases of these technologies in the field of CMM. Hyperspectral data of CMM can provide spectral information with nanometer-level resolution and rich spatial texture information simultaneously. This paper summarized the acquisition process, including black-and-white board calibration and region-of-interest extraction, and preprocessing methods including smoothing, differentiation, scale-space, and scattering correction. The feature extraction methods in terms of spectral, spatial, color, and texture were briefly described, and common modeling methods were summarized. Finally, this paper reviewed the research cases of the application of the above methods to the fields of CMM, such as authenticity identification, origin tracing, variety recognition, year identification, sulfur fumigation degree determination, and quantitative measurement.

Effectiveness of mindfulness-based interventions on anxiety, depression, and fatigue in people with lung cancer: A systematic review and meta-analysis.

BACKGROUND: Lung cancer is one of the most common cancers and poses a physical and psychological threat to patients. Mindfulness-based interventions are emerging forms of psychotherapy that are effective in improving physical and psychological symptoms, but no review has summarized their effectiveness on anxiety, depression, and fatigue in people with lung cancer. OBJECTIVES: To evaluate the effectiveness of mindfulness-based interventions in reducing anxiety, depression, and fatigue in people with lung cancer. DESIGN: Systematic review and meta-analysis. METHODS: We searched the PubMed, Web of Science, Embase, China Biology Medicine disc, Wanfang Data, China National Knowledge Infrastructure, and China Science and Technology Journal databases from inception to 13 April 2022. Eligible studies included randomized controlled trials of people with lung cancer receiving mindfulness-based interventions reporting on the outcomes of anxiety, depression, and fatigue. Two researchers independently reviewed the abstracts and full texts, extracted the data and assessed the risk of bias independently by using the Cochrane 'Risk of bias assessment tool'. The meta-analysis was performed by using Review Manager 5.4, and the effect size was calculated by the standardized mean difference and its 95% confidence interval. RESULTS: The systematic review included 25 studies (2420 participants), whereas the meta-analysis included 18 studies (1731 participants). Mindfulness-based interventions significantly decreased levels of anxiety [standardized mean difference = -1.15, 95% confidence interval (-1.36, -0.94), Z = 10.75, P < 0.001], depression [standardized mean difference = -1.04, 95% confidence interval (-1.60, -0.48), Z = 3.66, P < 0.001], and fatigue [standardized mean difference = -1.29, 95% confidence interval (-1.66, -0.91), Z = 6.79, P < 0.001]. The subgroup analysis indicated that programs lasting less than eight weeks in length with structured intervention components (e.g., mindfulness-based stress reduction and mindfulness-based cognitive therapy) and 45 min of daily home practice implemented in patients with advanced stage lung cancer showed better effects than programs lasting more than eight weeks in length with less structured components and more than 45 min of daily home practice implemented in patients with mixed stage lung cancer. The overall quality of the evidence was low due to the lack of allocation concealment and blinding and the high risk of bias in most studies (80%). CONCLUSIONS: Mindfulness-based interventions might be effective in reducing anxiety, depression, and fatigue in people with lung cancer. However, we cannot draw definitive conclusions because the overall quality of the evidence was low. More rigorous studies are needed to confirm the effectiveness and examine which intervention components may be most effective for improved outcomes.

Stellate Plasmonic Exosomes for Penetrative Targeting Tumor NIR-II Thermo-Radiotherapy.

Multifunctional gold (Au)-based nanomaterials with high atomic number (symbol Z) and strong absorbance in the second near-infrared window (NIR-II) property are emerging as promising candidates for tumor thermo-radiotherapy. The main limitations of applying Au-based nanomaterials to biomedical studies include the absence of active tumor-targeting ability, penetrating efficiency, and stability. In this study, we present a novel type of tumor cell-derived stellate plasmonic exosomes (TDSP-Exos) for penetrative targeted tumor NIR-II thermo-radiotherapy and photoacoustic imaging. The TDSP-Exos are abundantly and easily produced by the incubation of tumor cells with gold nanostars, based on which gold nanostars promote the exocytosis of exosomes from tumor cells. Compared with bare gold nanostars, the TDSP-Exos exhibit pronounced accumulation in deep tumor tissues and perform well in both PA imaging and NIR-II thermo-radiotherapy against the tumor. Moreover, the TDSP-Exos improve tumor hypoxia to enhanced radiotherapy by NIR-II photothermal therapy. This work indicates that the tumor cell-derived exosomes have the potential to function as a universal carrier of photothermal agents for targeted tumor NIR-II thermo-radiotherapy.

Bimetallic nanodots for tri-modal CT/MRI/PA imaging and hypoxia-resistant thermoradiotherapy in the NIR-II biological windows.

Hypoxic tumor microenvironment leads to resistance or failure of radiotherapy (RT). As a non-invasive therapy, photothermal therapy (PTT) can improve the tumor hypoxic microenvironment in addition to directly killing tumor cells. PTT combined with RT (thermoradiotherapy) becomes an emerging treatment. Multi-functional nanoparticles used for hypoxia-resistant thermoradiotherapy in the second near-infrared (NIR-II) biological windows (1000-1700 nm) are urgently needed to be developed. Here, a facil method synthesis of ultra-small cysteamine (Cys)-coated FePd bimetallic nanodots (NDs) is reported. These NDs can not only produce effective hyperthermia (35.4%) when irradiated in the NIR-II region (1064 nm) but also have an enhanced radiation effect due to i) Hypoxic improvement in tumor tissues by photothermal treatment in the NIR-II Biological Windows can greatly enhance the sensitivity of tumor cells to radiotherapy ii) The ability of NDs to deposit radiation energy in tumors has further enhanced the sensitivity of tumor cells to radiotherapy. Meanwhile, NDs was a contrast agent for tri-modal imaging including computed tomography (CT)/magnetic resonance imaging (MRI)/photoacoustic imaging (PAI) in vitro and in vivo. Both in vitro and in vivo tests demonstrated good biocompatibility and excellent stability of NDs, indicating great potential for clinical applications.