Objective To investigate the reversal effect of verapamil on the drug resistance of NCI-H 446 small cell lung cancer cell line induced by fractionated radiation.Methods Exponentially grown NCI-H 446 cells were exposed to total radiation dose of 50 Gy,which was given in 25 fractions of 2 Gy per fraction.The survival rate of NCI-H 446 cell line,before and after fractional radiation,was observed after adding different concentrations of mitomycin C(MMC).The change in survival rate of NCI-H 446 cell line was also observed while verapamil was added additionally to the above.Results The survival rate of the radiated cell line was higher than that of the unradiated cell line under the same concentration of MMC(P0.05),or the survival rate of radiated cell line was obviously lower than that of unradiated cell(P

OBJECTIVE:To overcome the shortcoming of manual method,computer-aided manufacturing (CAM) system of prosthetic socket is applied to improve socket's quality and processing efficiency,which also reduces the demand of operator's knowledge and experience.METHODS:Prosthetic socket CAM system was discussed based on an advanced manufacture technology,and the hardware and software were designed.The advanced manufacture platform was composed of an industrial personal computer (IPC),a motion control card,four sets of Panasonic digital AC servo control system,four lead screw guides,two spindle motor of milling cutter,a transducer,two switching power supply,limit switch and proximity switch.The software of prosthetic socket CAM system mainly included three function modules:parameter setting,machine testing and beginning processing.Through adjusting command pulse's input and driver's coefficient,the motor worked at different speeds.RESULTS:The result of experiment demonstrated that maximum rotational speed restriction was applied to protect the motor,and the motor could work very smoothly without vibration in very low speed.It was suitable for manufacture prosthetic sockets,and could manufacture the high quality prosthetic socket to satisfy the requirements of amputee.CONCLUSION:Prosthetic socket CAM system based on the advanced manufacture platform can overcome the shortcoming of traditional manual method,ensure product quality,and reduce the cost.The protracted experience of certified prosthetist was incorporated into the design program to reduce the demand of manipulator's knowledge and experience,increase the one-time success rate of manufacture prosthetic sockets,and improve the quality uncertainty of sockets.It can change the backward production mode of designing,measuring,taking model,and modifying model which depends on handwork.

6cm,the recrudescenc rates when factors were male,mild or moderate malignant,stage of Dukes C,distance from tumor to anus 4～6cm were significantly higher(?2=4.53,P

BACKGROUND:The physical properties of macromolecule ocular prosthesis materials, such as density, hardness, mechanical strength, can affect the working accuracy of ocular prosthesis and can also affect the surface roughness of ocular prosthesis, thus affecting the comfort when the patients wear.
OBJECTIVE:To study the differences of different macromolecule ocular prosthesis materials in bubble generation rate, hardness and surface roughness.
METHODS:Thirty-seven test pieces, 30 mm×30 mm×2 mm, were made and then divided to seven groups according to their brands, caled groups A, B, C, D, E, F, G, each group of five pieces. One surface of each test piece was polished in accordance with the principle of coarse to fine, the surface roughness of the two surfaces and hardness on the polished surface were measured, and then the bubble formation rate of the material was calculated.
RESULTS AND CONCLUSION:The surface roughness values of groups A-G were (0.078±0.016), (0.074±0.019), (0.075±0.022), (0.066±0.020), (0.075±0.017), (0.068±0.015), and (0.067±0.017) μm, respectively. There was no significant difference in the surface roughness between the groups (P > 0.05). The hardness values of groups A-G were 766.92±3.71, 771.84±14.51, 791.20±9.64, 804.50±4.49, 779.00±17.92, 772.20±19.18, 704.00±7.23, respectively. There was a significant difference in the hardness between groups D, G and the other groups (P < 0.05) as wel as between group D and group G (P < 0.05), but there was no significant difference between the other groups (P > 0.05). The bubble generation rates of groups A-G were (8.87±0.29)%, (8.29±1.02)%, (6.94±0.43)%, (4.83±0.20)%, (7.59±0.19)%, (8.61±0.25)%, (4.89±0.17)%, respectively. There was a significant difference in the bubble generation rate between groups D, G and the other groups (P < 0.05), but there was no significant difference between group D and group G (P > 0.05), as wel as between the other groups (P > 0.05). To a certain extent, the smaler the bubble formation rate is, the greater the hardness and the smaler the surface roughness are.

Objective: To obtaine the parameters of tooth mobil ity in people with normal health teeth . Methods:Tooth mob ility of 1 4, 1 4 in 12 subjects (7 males and 5 females, aged 21 to 23 years old) was measured by FX-1 tooth mobility measurement system 6 times a day for 5 days.The data were statisticaly analyzed. Results: The average tooth mobility parameters Q and R varied significantl y (P0.05).Conclusion: The tooth mo bility parameters of S,K,t1 and t2 can steadily reflect the changing of tooth mobility.

This Paper brings forward a new technology of EEG Telemetry. Using two FDM channels, the signals can be transmitted through public telephone lines: the EEG signals are transmitted by TDM technology in one channel; the parametes are transmitted to the receiver for identification of data or synchronization in the other channel synchronously. This technology can satisfy almost any routine clinic needs, and also the quahty of transmission is nearly perfect: the distortion is little; distinct noise pollution and shift of base-line do not exist, which is valuable in medical application.

Objective To compare the clinical value of 18F-FDG PET imaging and 99Tcm-MDP whole body bone imaging in detection of bone metastases. Methods 43 patients were undergone 18F-FDG PET and 99Tcm-MDP imaging within 2 weeks. 28 of them were with confirmed bone metastases by other examinations or follow-up and the remaining 15 were confirmed without bone metastases. The results of the 2 different modalities were analyzed. Results Among 28 patients with confirmed bone metastases, PET and MDP accurately diagnosed 26 and 27, respectively. The sensitivity of them were 92.9 %(26/28), 96.4 %(27/28), Among the remaining 19 cases without bone metastases, PET and MDP correctly gave 14 and 8 negative results, respectively. The specificity of them were 93.3 %(14/15), 53.3 %(8/15), and accuracy of them were 93.0 %(40/43), 81.4 %(35/43). The differences between specificities and accuracies of the two methods were significant, while no significant difference between the sensitivities of the two methods. Conclusion For the detection of bone metastases in patients with malignant tumors, 18F-FDG PET showed a similar sensitivity but better specificity and accuracy compared with 99Tcm-MDP bone scan. For patients with suspected bone metastases, negative finding or single hot spot in 99Tcm-MDP imaging, 18F-FDG PET imaging was recommend as a further and complementary assessment of bone metastases.

BACKGROUND: Lower limb motion is complex.Proper human motion parameters detection is important for knee prosthesis control.Current lower limb prosthesis control information source is physical quantity related to motion information,which can directly reflect biomechanical characteristics of human motion.It is simple to collect and applicable for real-time control.The lower limb prosthesis utilizes one or several sensors to detect human motion information.OBJECTIVE: To develop a sensor system that can collect human motion information controlled by intelligent lower limb prosthesis.METHODS: Relationship between pivot axis installation potentiometer and knee joint flexion angle was acquired from analysis of four-bar linkage with a fixed pneumatic cylinder.In addition,the proper hall sensor installation position was selected to solve the two-solution problem.A sensor signal acquisition experiment was designed.The treadmill ensure that walking speed was completely under control.Knee joint flexion angle at toe-off in different walking speeds was measured.Curve fitting process provided the correspondence between them.RESULTS AND CONCLUSION: Knee joint flexion angle at toe-off increased with increasing walking speed.Quadratic curve fitting obtained a good effect.Results show that under horizontal walking state,potentiometers and Hall-sensors can be used to detect walking speed of lower limb prosthesis,and distinguish support phase and swing phase.

BACKGROUND: The studies concerning rehabilitation robot step later in China, many of which are assisted rehabilitation robot rather than rehabilitation training robot. Currently, the rehabilitation instruments in China can not satisfy the intelligentification and man-machine engineered requirement of robots.OBJECTIVE: Considering the predicament of supply and demand relationship of medical service for rehabilitation, to propose a combined robot system for assisted tele-rehabilitation based on remote operation technology and medical device. METHODS: Considering the safety, magneto-theological damper and direct current machine was adopted to design a combined manipulator, which utilizing tale-robot technology in training limb disability patients. According to the remote setting of rehabilitation therapist, patients could perform rehabilitation exercise, which can realize real-time and precision of stiffness display.RESULTS AND CONCLUSION: The clients are patients who have upper limbs movement disorders. Through disassembly and combination of the mechanical arms, it can provide different training modes and therapeutic schemes. The adoption of computer network technology allows the patients to accomplish rehabilitation according to the settings of the physicians via internet; the applications of virtual reality technology greatly raise the enthusiasm in patients and improve the rehabilitation effect remarkably.The experimental results show that the system has good applicability and safety.

Objective To investigate the effect of electroacupuncture at different points on auditory brainstem response (ABR) in a rat model of sodium salicylate-induced tinnitus.Method Forty-one male Wistar rats were randomly allocated to saline control (saline), sodium salicylate model (SA), electroacupuncture at Tinggong+ Yifeng (EA), electroacupuncture at Waiguan+ Zhongzhu (AA) and electroacupuncture at Zusanli+ Sanyinjiao (LA) groups. The saline group consisted of five rats and each of the other groups, nine rats. The model was made by intraperitoneal injection of sodium salicylate 275 mg/kg. The saline control group was injected with a corresponding volume of saline. Various acupoint electroacupuncture groups were given electroacupuncture at bilateral Tinggong+ Yifeng, Waiguan+ Zhongzhu and Zusanli+ Sanyinjiao, respectively, at 30 min after model making. Electroacupuncture lasted 30 min. The ABRs were recorded before model making and once every one hour for five consecutive hours after model making. The stimulus sounds were short clicks and tone bursts of frequencies of 4, 8, 16 and 32 kHz. The ABR threshold was used as an assessment index.Results Under the condition of clicks, there was a statistically significant difference in the ABR threshold at one to five hours after model making between the SA, EA, AA or LA group and the saline group (P<0.05), at two to five hours after model making between the EA or AA group and the SA group (P<0.05) and at one hour after model making between the LA and SA groups (P<0.05). Under the conditions of 4, 8 and 16 kHz, there was a statistically significant difference in the ABR threshold at one to five hours after model making between the SA, EA, AA or LA group and the saline group (P<0.05). Under the condition of 32 kHz, there was a statistically significant difference in the ABR threshold at one to five hours after model making between the SA, AA or LA group and the saline group (P<0.05). Under the condition of 4 kHz, there was a statistically significant difference in the ABR threshold at two to five hours after model making between the EA and SA groups (P<0.05) and at four to five hours after model making between the AA and SA groups (P<0.05). Under the condition of 8 kHz, there was a statistically significant difference in the ABR threshold at two to five hours after model making between the EA or AA group and the SA group (P<0.05). Under the condition of 16 kHz, there was a statistically significant difference in the ABR threshold at two, four and five hours after model making between the EA and SA groups (P<0.05). Under the condition of 32 kHz, there was a statistically significant difference in the ABR threshold at one to five hours after model making between the EA and SA groups (P<0.05).Conclusion Electroacupuncture at both periauricular and forelimb points can improve the ABR threshold in sodium salicylate-treated rats. The effect of electroacupuncture at periauricular points is superior to that at forelimb points.