OBJECTIVE: To describe a statistical method of three-dimensional landmark configuration data and apply it to an orthodontic data set comparing two types of rapid maxillary expansion (RME) treatments. MATERIALS AND METHODS: Landmark configurations obtained from cone beam CT scans were used to represent patients in two types (please describe what were two types) of RME groups and a control group over four time points. A method using tools from persistent homology and dimensionality reduction is presented and used to identify variability between the subjects. RESULTS: The analysis was in agreement with previous results using conventional methods, which found significant differences between treatment groups and the control, but no distinction between the types of treatment. Additionally, it was found that second molar eruption varied considerably between the subjects, and this has not been evaluated in previous analyses. CONCLUSION: This method of analysis allows entire configurations to be considered as a whole, and does not require specific inter-landmark distances or angles to be selected. Sources of variability present themselves, without having to be individually sought after. This method is suggested as an additional tool for the analysis of landmark configuration data.
Analysis of Variance ; Case-Control Studies ; Child ; *Cone-Beam Computed Tomography ; Humans ; *Imaging, Three-Dimensional ; Maxilla/*radiography ; *Models, Statistical ; *Palatal Expansion Technique ; Radiographic Image Interpretation, Computer-Assisted/*methods

OBJECTIVE Our previous studies demonstrated that various ingredients from the traditional Chinese medicine (TCM) for promoting blood circulation and removing blood stasis, as exemplified by cryptotanshinone and salvi?anolic acid B, exerted striking effects on modulating angiogenesis and vascular permeability, which suggests that they may be effective in treating vascular leak-driven diseases (e.g. tumor, cerebral cavernous malformation and diabetic reti?nopathy). However, the lack of reliable and advanced technologies and models sets up difficult hurdles for better under?standing the role of TCM for promoting blood circulation and removing blood stasis. To this end, this study is to outline numerous cutting-edge platforms that can be utilized for exploring the function of TCM for promoting blood circulation and removing blood stasis in vascular leak-driven diseases. METHODS Two-photon laser scanning fluorescence micros?copy was used to observe the interactions between neutrophils and blood vessels in a real-time manner. Dynamic flow system was employed to mimic the in vivo behaviors of neutrophils. RIP1-Tag5 spontaneous pancreatic cancer model was used to study the function of tumor blood vessels. CCM2ECKO (deletion of CCM2 in endothelial cells) mice were employed to establish the cerebral cavernous malformation (CCM) animal model. Micro-computed tomography (micro-CT) was utilized to assess the CCM lesion. Müller cell-knockout mouse model was used to study the progression of dia?betic retinopathy. Vascular permeability in this model was assessed by fluorescein angiography. RESULTS The interac?tions between neutrophils and endothelial cells involve a series of complicated processes, including rolling, adhesion, intraluminal crawling and transmigration, which were all monitored in vivo by two-photon laser scanning fluorescence microscopy in a real-time manner. Dynamic flow system was capable of recapitulating the biological behaviors of neutro?phils in vitro. Tumor vascular function in particular vascular perfusion could be assessed in the RIP1-Tag5 spontaneous pancreatic cancer model. In terms of CCM studies, specific deletion of CCM2 in endothelial cells resulted in the initiation of CCM lesion. The size and number of CCM lesions could be visualized and quantified by micro-CT. Furthermore, the Müller cell-knockout mouse model was able to precisely reflect the clinical symptoms of diabetic retinopathy. Vascular leak could be monitored at different time points using fluorescein angiography. CONCLUSION An array of high technol?ogies and animal models can be used in investigating the occurrence and progression of multiple vascular leak-driven diseases. The pre-clinical and clinical studies of TCM for promoting blood circulation and removing blood stasis provide fundamental support for the application of the above-mentioned platforms, with the purpose of uncovering the scientific basis of TCM for promoting blood circulation and removing blood stasis.