OBJECTIVETo develop a new method to rapidly determine and identify Guizhi Fuling capsule by portable acousto-optic tunable filter-near infrared spectroscopy.

METHODThe qualitative model was set up using principal component analysis. The correlation models between the NIR spectra and the reference values of five major constituents were obtained with partial least squares method.

RESULTThe identifying model accurately identified Guizhi Fuling capsule, and quantitative analytical models could precisely predicted the content of ellagic acid, baicalin, benzoylpaenoniflorin, cinnamaldehyde, and paeonol. The correlation coefficients of the calibration models were 0.924 2, 0.938 4, 0.924 2, 0.933 6, 0.934 7, the validation set coefficients of the calibration were 0.924 2, 0.938 4, 0.924 2, 0.933 6, 0.934 7, and the RMSEP were 1.138%, 3.014%, 0.751%, 0.625%, 3.455%, 1.363%, respectively. The results of external validation showed no significant difference between the predictive and the determining values by t-test.

CONCLUSIONThe method is accurate, rapid and non-destructive, and can be used for determining and identifying Guizhi Fuling capsule.

Acetophenones ; analysis ; Acrolein ; analogs & derivatives ; analysis ; Calibration ; Capsules ; chemistry ; Drug Evaluation ; methods ; Drugs, Chinese Herbal ; analysis ; Ellagic Acid ; analysis ; Flavonoids ; analysis ; Least-Squares Analysis ; Models, Chemical ; Principal Component Analysis ; methods ; Spectroscopy, Near-Infrared ; methods

BACKGROUND: Da Vinci robotic system is currently widely used in thoracic surgery. The ports employment and procedures vary in different medical center in China. Usually, a small incision was used for assistant. METHODS: Based on clinical practice, we summarized domestic and foreign experience, combined with the characteristics of the Chinese body anatomy, employ portal technique and artificial pneumothorax, summarized a set of simplified and easier surgical method. RESULTS: Port-only artificial pneumothorax robot-assisted lobectomy has further improvement in anatomical safety, hemostatic effect and aesthetic appearance of the wound. CONCLUSIONS This study optimizes the procedure of port-only artificial pneumothorax robot-assisted lobectomy in order to serve lung cancer patients better.