Semiconductor quantum dots (QDs) are a new kind of biological fluorescence material, which has many advantages, such as broad excitation spectra, tunable emission spectra and good photostability. In the field of biomedical detection, the problems encountered in the traditional organic dye-based biomedical detections, such as short fluorescence lifetime and failure to simultaneous excitation of multiple colors, can be solved by using QDs. Water-soluble QDs combined with specific bio-molecules can label targeting bio-compound, which is useful in bio-molecule detection, cell labeling, tissue imaging, and can be used in fluorescence resonance energy transfer (FRET) technology. Combining QDs and protein chip technology to develop a new technology to detect multiple kinds of tumor markers will be one of the promising clinical applications of QDs with greater sensitivity, specificity, rapidity and convenience.
Animals ; Biomarkers, Tumor ; analysis ; Fluorescence Resonance Energy Transfer ; methods ; Humans ; Protein Array Analysis ; Quantum Dots ; Sensitivity and Specificity

Quantum dots, as a new kind of biological fluorescence material, have properties superior to the traditional organic dyes. In the recent decade, researches about the application of quantum dots in biomedicine have made great progress. Tumor markers have vital importance in the diagnosis and treatment of carcinoma; however, they are not widely used for lack of specificity and sensitivity. Researches about applications of quantum dots in the detection of tumor markers are centralized in three aspects, namely the detection of serum/plasma tumor markers, the detection of tissue and cell tumor markers (such as molecular imaging of cell and tissue), and the detection of tumor in vivo animals. A combination of quantum dots and flow cytometry technique for developing a new technique to detect multiple kinds of tumor markers at the same time with greater sensitivity, specificity, rapidity and convenience may have the potential for clinical use of quantum dots.
Biomarkers, Tumor ; analysis ; Humans ; Quantum Dots

Objective: To investigate the status and influencing factors of health literacy of middle school students in Yinchuan City, to provide reference for health literacy improvement of middle school students in this region. Methods: Using stratified cluster sampling method, 2 003 middle school students from three districts of Yinchuan were investigated to complete the questionnaire survey.The survey included basic characteristics, health literacy and screen time status. Results: The total score of Chinese Adolescent Interactive Health Literacy Questionnaire was(101.3±17.5). The proportion of high, medium and low level of health literacy were 25.0%, 51.2% and 23.9% respectively;the proportion of long screen time exposure among middle school students was 52.5%. The health literacy level of junior middle school students, middle school students with father or mother education level of high school or above and appropriate screen time were higher than those of the corresponding group（χ 2=49.90，14.59，16.53，46.73，P<0.01）. Logistic regression analysis showed that education group, grade, father s or mother s education level and long screen time exposure were associated with middle school students health literacy level(P<0.05). Conclusion The health literacy level of middle school students in Yinchuan City needs to be further improved and targeted health education should be carried out from school, family and society.

Objective To investigate the tumor/ non-tumor (T/ NT) ratio during 99 Tcm-hydrazinon-icotinamide(HYNIC)-( poly-( ethylene glycol), PEG) 4-Glu( cyclo ( Arg-Gly-Asp-D-Phe-Lys ( PEG4 ))) 2 ( 99 Tcm-3PRGD2 ) SPECT/ CT imaging and clinical pathological features of breast cancer. Methods Forty-five female patients (age range: 39-76 (53.0±9.5) years) with suspected breast malignant nodules or mas-ses from October 2016 to June 2017 were prospectively enrolled. Patients underwent 99 Tcm-3PRGD2 SPECT/CT imaging before breast puncture and surgery. All subjects had pathological results, and estrogen receptor (ER), progesterone receptor (PR), human epidermal growth factor receptor 2(HER-2), Ki-67 and mi-crovessel density ( MVD) were obtained by immunohistochemistry and fluorescence in situ hybridization(FISH). Two-sample t test and Kruskal-Wallis H test were used to analyze the data. Results Invasive duc-tal carcinoma was pathologically confirmed in 35 of 45 patients. There were 7 patients in stage Ⅰ, 11 pa-tients in stage ⅡA and 17 patients in stage ⅡB. The Luminal A subtype, Luminal B subtype, ERBB2+subtype, Basal-like subtype were found in 6, 9, 9 and 11 patients, respectively. The T/ NT ratio was signifi-cantly higher in the stageⅡB patients than that in stageⅠ+ⅡA patients (4.54±1.46 vs 3.32±1.72, t= -2.24, P<0.05). Patients with ERBB2+ subtype had higher T/ NT ratio compared to patients with Basal-like sub-type: 5.80(3.90, 6.70) vs 2.80(2.20,3.50), H= 11.06, χ2 = 15.31, both P<0.05. Besides, the T/ NT ra-tios in the HER-2 positive group and lymphatic metastasis group were significantly higher than those in the HER-2 negative group and group without lymph node metastasis (t values: -3.99, -2.51, both P<0.05). MVD of HER-2 positive group was higher than that of HER-2 negative group (t= 7.13, P<0.01). Conclu-sion The T/ NT ratio during 99 Tcm-3PRGD2 SPECT/ CT imaging has relations with TNM staging, lymph node infiltration and HER-2 in breast cancer.