ABSTRACT
OBJECTIVE: To observe the protective effects of Dandeng Tongnao capsule (DDTN) on cerebral ischemia reperfusion injury in rat and explore its mechanism so as to reevaluation the clinical efficacy of DDTN. METHODS: Middle cerebral artery occlusion (MCAO) model in rats was established using filament method and reperfusion was processed with filament removed 2 h later. Therefore, the MCAO models were established to observe the effect of DDTN-L group (0.21 g•kg-1) and DDTN-H group (0.84 g•kg-1) on infract volume via TTC staining. Regional cerebral blood flow(rCBF) of corpus striatum of the side of cerebral infraction was measured by using laser doppler flow (LDF). Pathological changes of neuron in hippocampuses were observed via hematoxylin and eosin (HE) staining and transmission electron microscopy (TEM).The changes of amino acid in cerebral ischemia were detected by microdialysis system. The level of Ca2+ was evaluated by flow cytometer (FCM). RESULTS: The results showed that the cerebral blood flow increased and infract volume reduced at 7, 14 d in DDTN group. Analysis of HE staining and TEM scan suggested that DDTN (0.21, 0.84 g•kg-1) remarkably alleviated neuronal injury of hippocampal CA1 area during I/R. The contents of Ca2+ and excitatory amino acids were significantly decreased in DDTN group. CONCLUSION: DDTN could prevent cerebral injury of MCAO rats via decreasing the intracellular Ca2+ concentration, and inhibiting the release of excitatory amino acids.
ABSTRACT
Objective@#The purpose is to explore the method and clinical effects of total nasal reconstruction with the assistance of three-dimensional (3D) scanning, 3D printing and monitoring the blood circulation after operation.@*Methods@#3D scanning: Artex Eva 3D scanner was used to record the nose data of 500 volunteers from Xuzhou Medical University and its affiliated hospital from September 2016 to February 2017. A nose database of normal individuals was established, of which male was 138 and female was 362. In addition, 3D facial scanning was performed in patients wish to total nasal reconstruction. 3D printing: The individualized nasal structure was designed, with the assistant of patients′facial characteristics, combined with the normal nose database and the opinion of the patients. Anactual nose model was used as guidance during the operation. Postoperative monitoring: The blood flow and the retraction rate of forehead flap after surgery were measured using Laser Doppler Flowmeter and Geomagic Qualify software. The blood flow values, the temperature and the surface area of the flap were recorded and analyzed.@*Results@#The nasal database of normal people in the Huaihai region successfully established. Overall, the width of the nose takes up a quarter of the width of the faces, and the length is 1/3 of the distance from the hairline to the chin. From February 2017 to June 2018, 7 cases underwent total nasal reconstruction operations were performed by this procedure. The nasal models were all successfully printed out, as the guide of flap taken during the operation. The mean operation time of the cases was (2.45±0.75) h, and the follow-up time was 5-15 months, with an average of 12.5 months. After the operations, the retraction rate of the forehead flap were (21.8±2.72)% in one month, and (29.1±1.82)% in six months. All patients are satisfied with the nasal appearance.@*Conclusions@#Nasal reconstruction with forehead flap based on 3D scanning and 3D printing, provides objective targets for nasal fine-structure in a noninvasive way. The postoperative monitoring of the blood flow promotes the successful completion of the total nose reconstruction.