OBJECTIVEUsing the algorithm on the layered structure of the retina and quantitative analysis of the automatic segmentation technique is the key to the early diagnosis of glaucoma and other retinopathy on optical coherence tomography. Existing methods require high quality image and have low reliability. This paper used the improved complex nonlinear diffuse filtering and other methods to solve this problem.

METHODSThis paper includes algorithm such as automatic threshold, improved complex nonlinear diffusion filtering, morphological operations and peak detection. Use the method for the segmentation of 20 retinal layers images which acquired on the self-builder OCT system, the boundary of inner limiting membrane(ILM), outer nuclear layer(ONL), the photoreceptor segments(IS/ OS) and the RPE_ChCap layer are detected accurately. At last, the photoreceptor layer thickness is measured.

RESULTSThe results of segmentation and measurement are good corresponded with expert manual segmentation and measurements, retinal foveal measurements data is consistent with Zeiss Stratus OCT central retinal thickness 212+/-20 micro m.

CONCLUSIONThe algorithm proposed is prospective applied to clinical diagnosis of retinal diseases.

Algorithms ; Humans ; Retina ; anatomy & histology ; Software ; Tomography, Optical Coherence ; instrumentation ; methods

Objective To reduce the error caused by the non-linearity of headphone and device via the design of calibration algorithm for acoustic immittance.Methods Values of calibration chambers with different volumes (0.5,2.0 and 5.0 ml) were measured using the digital detection system.Then,the calibration data tables,for linearity calibration with inputting the values of acoustic immittance,were produced by means of processing the signal of acoustic immittance using the digital calibration algorithm based on the values from the calibration chambers,Results With the low frequency probe tone measurement,it was confirmed that the range of error among various calibration chambers with different volumes was 1％.Conclusion The calibration algorithm enables the improving of the detection accuracy and provides the reliable data for further clinical application.

BACKGROUND: Opiate drugs are widely used to control chronic cancer pain, which brings many adverse reactions. Transplantation of sodium alginate-polylysine-alginate microencapsulated bovine adrenal chromaffin cell (BCC) has reported to be used as chronic cancer pain controllers. However, the high price and poor strength of polylysine limited its clinical application. Chitosan is characterized by sufficient resource, low price and good biocompatibility, which is a substitute for polylysine.OBJECTIVE: To study the effect of xenotransplantation of sodium alginate-chitosan-alginate (ACA) microencapsulated BCC on patients with advanced cancer pain.DESIGN, TIME AND SETTING: A retrospective case analysis. All cases were obtained from Department of Oncology, Affiliated Zhongshan Hospital of Dalian University from January 2007 to December 2008.PARTICIPANTS: Totally 10 patients with advanced cancer, including 1 female and 9 males, aged 46-78 years. According to visual algetic mimic scale (VAS), 3 patients suffered moderate pain and 7 cases suffered severe pain.METHODS: Microencapsulation method was applied to encapsulate BCC with ACA membrane and transplant the microencapsulated BCC (5-7)×10~6 into the subarachnoids pace of 10 patients.MAIN OUTCOME MEASURES: The degree of pain release, duration of analgesic effect, as well as adverse reaction.RESULTS: All 10 patients had pain relief rapidly after transplantation in varying degrees. Complete pain relief was shown in 2 cases, medium relief in 1 case, slight relief in 4 cases. Slight irritation of cauda eguina was presented after transplantation, which could disappear within 3-5 days.CONCLUSION: Xenotransplantation of ACA microencapsulated BCC into the spinal subarachnoids pace of patients with cancer pain can produce analgesic effect promptly, significantly, and safely.

Objective:To determine the effect of Chuju total flavonoids (CJTF) on the secreted frizzled-related protein 4 (SFRP4) expression in Wnt pathway in rheumatoid arthritis (AR) model rats. Methods:hTe role of CJTF in the treatment of AR model rats was evaluated by rat arthritis score and paw edema score. The expression regulation of the SFRP4,β-catenin and C-myc in Wnt pathway in AR model rats was detected by RT-PCR and Western blot atfer CJTF gavage treatment. Results:Atfer CJTF treatment, the rat arthritis score and paw edema score in AR model rats were signiifcantly decreased when the AR model rats were treated with CJTF, the SFRP4 expression was signiifcantly up-regulated, while theβ-catenin and C-myc gene expression were signiifcantly down-regulated in AR model rat synovial tissues. Conclusion:CJTF has significant therapeutic effect and inhibitory effect on Wnt pathway activation by targeting SFRP4 in AR model rat synovium.

The cutaneous arteries of the forearm and their anastomoses in skin and subcutaneous tissue were invetigated on 35 upper limbs.1. The average length of the radial artery is 215.3 mm. This artery can be divided into a covered part and a exposed part. Their lengths are 117.7 mm. and 101.4 mm. respectively. The calibers of the upper end, the intermediate point, and the lower end of the radial artery are 2.7mm, 2.3 mm and 2.4 mm respectively.2. The exposed part of the radial artery sends out more cutaneous branches (9.6 branches) than the covered part (4.2 branches), While their muscular branches are nearly equal in number. The calibers of the cutaneous and muscular branches of the radial artery varies from 0.3～0.5 mm.The fine anastomoses of the cutaneous branches exist between the radial and ulnar arteries and between the radial and ulnar arteries and the dorsal interosseus artery and they form an arterial networks in the subcutaneous tissue of the whole forearm. For blood supply a skin flap may be cut from the whole forearm from the standpoint of morphology.4. The calibers of the radial and cephalic veins at the level of middle part of the forearm are 1.3 mm and 2.8 mm respectively. As the vasular pedicle both the veins should be anastomosed during transplant operation in order to increase the volume of the draining blood.5. The skin flap of forearm blongs to a type of blood supply of arterial trunk network, which have been distinguished with that of some other skin and myocutaneous flaps according to the anatomical characteristics of the radial artery.

This investigation introduces GPU (Graphics Processing Unit)- based CUDA (Compute Unified Device Architecture) technology into signal processing of ophthalmic FD-OCT (Fourier-Domain Optical Coherence Tomography) imaging system, can realize parallel data processing, using CUDA to optimize relevant operations and algorithms, in order to solve the technical bottlenecks that currently affect ophthalmic real-time imaging in OCT system. Laboratory results showed that with GPU as a general parallel computing processor, the speed of imaging data processing using GPU+CPU mode is more than dozens times faster than traditional CPU platform based serial computing and imaging mode when executing the same data processing, which reaches the clinical requirements for two dimensional real-time imaging.
Computer Graphics ; Image Interpretation, Computer-Assisted ; Tomography, Optical Coherence ; instrumentation ; methods