农用低功率He—Ne激光的诱变效应和育种

什么是低功率Ｈｅ－Ｎｅ激光;低功率Ｈｅ－Ｎｅ激光的诱变效应及其在育种上的应用;低功率Ｈｅ－Ｎｅ激光的诱变机制。     

SSVEP次谐波的诱发影响因素及其功率变化——建模及实验研究*

稳态视觉诱发电位(steady-state visual evoked potential, SSVEP)在大脑的感知、认知研究中具有广泛应用。目前，对SSVEP次谐波的诱发机制尚未清楚。为此，本文通过视皮层网络模型进行SSVEP次谐波的诱发因素和功率变化的研究；进一步，测试20名受试者的头表SSVEP，对建模仿真结果进行验证。仿真和实验结果表明，刺激频率、刺激强度和噪声强度是影响SSVEP的1/2次谐波诱发和功率变化的三个重要参数。次谐波诱发是三个参数协同作用的结果：（1）在刺激频率和噪声强度相同时，1/2次谐波功率随刺激强度的变化曲线与Sigma函数相似，存在无诱发区、线性增长区和饱和区：在无诱发区，1/2次谐波功率近似为0；在线性增长区，1/2次谐波功率和刺激强度成正比；在饱和区，1/2次谐波功率趋于恒定；（2）在噪声强度相同时，能明显诱发出1/2次谐波的刺激参数区域呈现非线性同步中的阿诺德舌头变化规律，即能诱发1/2次谐波的有效刺激频率范围随刺激强度的增大而增宽；（3）在刺激参数相同时，噪声强度的大小决定了1/2次谐波能否被诱发；噪声强度越大，对1/2次谐波的诱发及功率抑制作用就越强。本文的实验和仿真结果基本一致，说明了模型仿真的可行性。研究结果为理解SSVEP次谐波的产生机制及其有效应用提供有意义的理论和实验依据。     

损伤神经自发放电节律变化中的混沌与降发现象

秋阐明损伤神经自发放电的动力学机制，长时间顺序记录大鼠损伤坐骨神经单纤维自发放电的动作电位间期序列（ＩＳＩ）。在损伤位点应用钾通道阻断剂ＴＥＡ，发现了周期一与周期二之间存在混沌的节律形式，并初步探讨了在这种情况下进入混沌的道路。应用分叉图、回归映象、功率谱等非线性动力学方法分析和对比了实验与数学模型中的非线性现象，使实验结果的可靠性得到了进一步的证明。     

不同波长和功率的半导体激光“光针”对小鼠脑血流量的影响

本文应用氢电极检测小鼠局部脑血流量,以观察不同波长,不同功率的半导体激光照射小鼠颈部“扶突”穴后,对其脑局部血流量的影响。发现不同的波长和功率对脑血流量有不同的影响,并有显著差异．     

中国南车首家海外功率半导体研发中心落成

7月25日，中国南车株洲所首家海外功率半导体研发中心在英国顺利落成，这也是我国轨道交通装备制造企业首个海外高端器件研发中心。以IGBT为代表的功率半导体器件技术是轨道交通装备关键技术之一，被业界认为是现代机车车辆的“CPU”，它广泛应用于轨道交通、航空航天、船舶驱动、新能源等行业。     

激光医疗的进展：低功率激光治疗在中国

激光医学尤其是低功率激光治疗在中国已成为发展极为迅速的领域之一。低功率激光照射的光生物效应与传统中医针刺穴位经络相结合在中国低功率激光治疗中开辟了广阔的领域,並已广泛应用于临床各专科如内科、皮肤科、眼科、耳鼻喉科、口腔科、妇产科、整形外科、激光针灸及兽医学,成功地治疗了数百种疾病,效果显著。作者近10年来已成功应用激光穴位麻醉拔牙与施行面部整容小手术。1985～1990年以来开创了激光美容外科。低功率激光治疗已被证实在保证激光美容效果的重要性。     

低功率He-Ne激光照射下细胞内活性氧自由基的产生和游离Ca^2＋浓度的研究

在临床应用中,低功率He-Ne激光(632.8 nm)能促进骨骼肌修复,加速创伤愈合,降低牙齿的超敏感性,减缓疼痛等.大量研究表明:低功率He-Ne激光能调节细胞的众多行为,如细胞增殖、分泌、迁移、粘附、蛋白质合成和基因表达等.但低功率He-Ne激光调节细胞行为的分子机制并未阐明,考察低功率He-Ne激光照射后细胞内活性氧自由基的产生水平和游离ca2 浓度是否会发生变化,通过激光扫描共聚焦显微镜,分别利用H:DCFDA和Fluo-3/AM这两种荧光探针,检测到经He-Ne激光照射后,肺腺癌细胞内活性氧自由基的水平上调以及游离Ca2 浓度增加.该研究为低功率He-Ne激光的生物光刺激效应提供了可能的分子机理.     

大鼠慢波睡眠和睡眠过渡期脑电信号的小波变换分析

EEG信号经常包含许多快速的时变信息 ,将较长时间段的EEG信号近似看作平稳信号 ,进行FFT谱估计 ,存在其局限性。应用多分辨率小波变换方法 ,在频域和时域上可以同时定位分析大鼠慢波睡眠和睡眠过渡期脑电的动态变化特性。采用慢性埋植电极记录自由活动大鼠的皮层脑电 ,将信号用小波变换分解成δ、θ、α和 β四个分量 ,求各分量的功率和功率百分比的时间变化曲线 ,并与FFT功率谱分析结果进行比较。结果表明 :慢波睡眠期EEG中有 2 6 .2 %± 7.7%的时间段上δ分量功率小于总功率的 5 0 % ,且δ分量较大时 ,其他分量较小 ;δ分量较小时 ,其他分量较大 ,差别显著。此结果揭示了δ节律与θ和α节律之间的一种互补关系。而传统的FFT功率谱分析方法只能显示δ分量为主 (占总功率 70 .6 %± 6 .4 % )的功率谱 ,不能提供时变信息。对于睡眠过渡期的非稳态EEG信号 ,利用小波变换分解得到的θ和α分量可以鉴别出睡眠纺锤波 ,计算睡眠纺锤波的平均持续时间 ,并比较纺锤波和非纺锤波时期各个频谱分量的变化情况。由此可见 ,小波变换可用于计算新的EEG时频定量分析指标用于分析生理、病理和药理作用引起的睡眠EEG的变化过程 ,以弥补传统FFT功率谱分析的不足之处     

响应面优化超声辅助法提取拐枣种子中二氢杨梅素的工艺

二氢杨梅素和杨梅素是拐枣种子中的重要成分。通过超声辅助法从拐枣种子中提取二氢杨梅素，采用单因素法考察乙醇体积分数、超声辐照功率、提取温度、液料比和超声辐照时间影响参数的基础上，并选用Box-Behnken响应面设计法分析建立了超声辐照功率、超声辐照时间和液料比的二次多项式模型，优化提取工艺。结果得到超声辅助法提取拐枣种子中二氢杨梅素的最佳工艺参数为：乙醇体积分数为60%、超声辐照功率140 W、超声辐照时间30 min、液料比20.5 mL·g^-1，提取温度40℃。在此最佳条件下，二氢杨梅素得率为2.14±0.09 mg·g^-1。本提取方法简单快速，效率高，有利于拐枣资源的综合加工利用。     

健康早产儿24小时脑电图的定量评价

早产儿的生物学行为主要以睡眠为主,因此了解各个睡眠阶段的脑电图模型,对临床客观评价早产儿的大脑发育特点及健康状况具有重要的临床意义。本文旨在探讨健康早产儿不同睡眠阶段脑电图特点,进而为其睡眠阶段的自动判定提供标准。应用多导生理记录仪对24例健康早产儿进行了41次Fp1-C3双电极连续24小时脑电图记录,同时用两台摄像机同步记录眼球运动及肢体运动。依据呼吸、眼球及肢体运动视觉判定睡眠阶段。应用自回两台摄像机同步记录眼球运动最适赤池信息量准则（Min-AIC)、总功率（TP）、δ功率（δP）、θ功率（θP）、α功率（αP）、β功率（βP）及不连续性（Dis）进行分析。结果显示Min-AIC,TP,δP及Dis四个变量依睡眠阶段不同有显著性差异（P＜0．01）。多变量判别分析亦显示联合这四个变量可对睡眠阶段进行判定。联合Min-AIC、TP、δP及Dis四个变量适于对胎龄大于30周的健康早产儿的睡眠阶段进行判定。     

激光、~(60)Co—r射线对草毒生物效应的研究

本实验用CO_2激光功率密度10.44W/cm~2、3.40W/cm~2,一次10秒及再次6、10、14秒处理草莓、茎尖外植体,可使多数处理的无性后代,产量提高或品质改善。He—Ne激光输出功率10.6mW,原光斑照射30、40秒,也有与CO_2激光相似效应。~(60)Co—r射线吸收剂量193Gy,单独处理及与He—Ne激光30秒复合处理,可改善果实品质,He—Ne激光对~(60)Co—r射线的辐射损伤有修复作用。     

ND^＋3YAG激光治疗基底细胞癌应用研究

YAG激光主要通过它的热效应和对组织穿透深、止血效果好,在临床上起重要治疗作用,因具有封闭小静脉、小动脉及淋巴管的作用,从而防止了癌细胞扩散转移的不良因素。 本文十三例基底细胞癌,其中二例低分化鳞癌属于高恶,术后经二至六年随访至今健在,未发现复发和转移。实践证实,掌握好激光功率大小和正确的治疗方法也是提高疗效的关键。表明激光对基底细胞癌开辟一个新的治疗手段,值得在临床有更进一步应用研究的必要。     

准分子激光眼科治疗机中激光器控制实现

准分子激光眼科治疗机可以用来进行近视、远视、散光等屈光不正的矫正手术。其中激光器的控制为手术提供能量稳定的激光脉冲,是对手术安全性、可靠性的重要保证。本文简述了一准分子激光眼科治疗机的整体组成部分,并详细描述了激光器的控制部分:计算机与激光器的通信控制、激光发射停止控制、充换气流程控制。目前,这种准分子激光治疗机已经应用于临床,并取得了良好的效果。     

Evaluation of a green laser pointer for flow cytometry.

Flow cytometers typically incorporate expensive lasers with high-quality (TEM00) output beam structure and very stable output power, significantly increasing system cost and power requirements. Red diode lasers minimize power consumption and cost, but limit fluorophore selection. Low-cost DPSS laser pointer modules could possibly offer increased wavelength selection but presumed emission instability has limited their use. A $160 DPSS 532 nm laser pointer module was first evaluated for noise characteristics and then used as the excitation light source in a custom-built flow cytometer for the analysis of fluorescent calibration and alignment microspheres. Eight of ten modules tested were very quiet (RMS noise < or = 0.6% between 0 and 5 MHz). With a quiet laser pointer module as the light source in a slow-flow system, fluorescence measurements from alignment microspheres produced CVs of about 3.3%. Furthermore, the use of extended transit times and < or =1 mW of laser power produced both baseline resolution of all 8 peaks in a set of Rainbow microspheres, and a detection limit of <20 phycoerythrin molecules per particle. Data collected with the transit time reduced to 25 micros (in the same instrument but at 2.4 mW laser output) demonstrated a detection limit of approximately 75 phycoerythrin molecules and CVs of about 2.7%. The performance, cost, size, and power consumption of the tested laser pointer module suggests that it may be suitable for use in conventional flow cytometry, particularly if it were coupled with cytometers that support extended transit times.     

Flow cytometer in the infrared: inexpensive modifications to a commercial instrument.

BACKGROUND: The application of molecules that fluoresce in the infrared (IR) region to measure cell products would be enhanced by a flow cytometer capable of measuring them. To our knowledge, none exist at this time. Accordingly, we have developed such an instrument. METHODS: A Becton Dickinson LSR flow cytometer was modified to include a small 785-nm IR diode laser the size of a C cell battery with 44-mW output power. The instrument was modified further to accommodate this laser in addition to a 405-nm solid-state laser, a 488-nm air-cooled argon laser, and a 658-nm solid-state laser. Because the IR laser is dangerous to the eye, the laser beams were viewed for optical alignment using a CCD camera and video monitor. An avalanche photodiode was used in place of a photomultiplier tube because its detection sensitivity in the IR region is superior. RESULTS: To assess performance, scatter and fluorescence measurements were made using microspheres that fluoresce in the IR region, and human leukocytes were stained with CD45 biotin followed by a streptavidin conjugated with an IR dye. An avalanche photodiode was 2.3 to 2.8 times more sensitive than a photomultiplier tube for detecting IR fluorescence. Cells stained with CD45 biotin and avidin conjugated with an IR dye could easily be resolved and their fluorescence quantified; there was virtually no autofluorescence. In addition, a lipophilic membrane dye that emits in the IR region was studied. HL60 cells were stained with this dye and they exhibited bright fluorescence intensity. CONCLUSION: A commercial instrument could be modified to accommodate an IR laser for exciting dyes that fluoresce in the IR region. This new capability will extend the range of fluorescence that can be measured by flow cytometry.     

A comparison of low-power helium-cadmium and argon ultraviolet lasers in commercial flow cytometers

The feasibility of installing a low power ultraviolet (UV) laser in a commercial flow cytometer was evaluated by testing an Ortho Cytofluorograf 50HH and a Coulter Epics V. Both instruments were equipped with two argon ion lasers, one emitting at 488 nm and the other in the UV region and were tested by measuring the DNA content of cells stained with Hoechst 33342 or DAPI. The coefficient of variation (CV) of the G0/G1 peak of the DNA histograms produced by each instrument did not deteriorate markedly when results obtained at 100-125 mW were compared to those obtained at 10 mW. These tests indicated that a helium-cadmium laser (He-Cd) which can produce 10 mW at 325 nm should work well as a UV laser in these instruments. An Ortho Cytofluorograf IIs was purchased with a 10 mW He-Cd laser installed in the forward position. Studies of DNA content have confirmed that this low power UV laser can produce CVs of 2.2% with DAPI stained fixed cells and 3.6% with Hoechst 33342 stained viable lymphocytes. Thus, the He-Cd laser should provide a reasonable alternative as a UV source for flow cytometers.     

Measuring photosynthetic parameters at a distance: laser induced fluorescence transient (LIFT) method for remote measurements of photosynthesis in terrestrial vegetation

We have developed a laser induced fluorescence transient (LIFT) technique and instrumentation to remotely measure photosynthetic properties in terrestrial vegetation at a distance of up to 50 m. The LIFT method uses a 665 nm laser to project a collimated, 100 mm diameter excitation beam onto leaves of the targeted plant. Fluorescence emission at 690 nm is collected by a 250 mm reflective telescope and processed in real time to calculate the efficiency of photosynthetic light utilization, quantum efficiency of PS II, and the kinetics of photosynthetic electron transport. Operating with peak excitation power of 125 W m⁻², and duty cycle of 10–50%, the instrument conforms to laser safety regulations. The LIFT instrument is controlled via an Internet connection, allowing it to operate from remote locations or platforms. Here we describe the theoretical basis of the LIFT methodology, and demonstrate its applications in remote measurements of photosynthetic properties in the canopy of cottonwood and oak trees, and in the rosette of Arabidopsis mutants.     

激光扫描共聚焦显微镜荧光探针的选择和应用

激光扫描共聚焦显微镜是检测生物荧光信号的最新技术手段。不仅广泛用于荧光定性、定量测量,还可用于活细胞动态荧光监测、组织细胞断层扫描、三维图象重建、共聚焦图象分析、荧光光漂白恢复、激光显微切割手术等。本文拟就激光扫描共聚焦显微镜常用的检测内容及其相关荧光探针的选择和应用做一简单的介绍。     

MLB-200型Q-开关Nd:YAG激光治疗雀斑67例疗效观察

本文报道使用MLB－200型Q－开关Nd:YAG激光治疗67例雀斑的疗效。选用532nm波长,光斑直径2－3mm,能量密度6－10J/cm^2,脉冲频率2－5次／秒,光斑重叠不超过10％。术后8周进行第二次治疗,第二次治疗后三个月评定疗效。结果,两次治疗后总痊愈率为92．545,无严重副作用产生。     

The optical effect of a semiconductor laser on protecting wheat from UV-B radiation damage.

Lasers have been widely used in the field of biology along with the development of laser technology, but the mechanism of the bio-effect of lasers is not explicit. The objective of this paper was to test the optical effect of a laser on protecting wheat from UV-B damage. A patent instrument was employed to emit semiconductor laser (wavelength 650 nm) and incoherent red light, which was transformed from the semiconductor laser. The wavelength, power and lightfleck diameter of the incoherent red light are the same as those of the semiconductor laser. The semiconductor laser (wavelength 650 nm, power density 3.97 mW mm(-2)) and incoherent red light (wavelength 650 nm, power density 3.97 mW mm(-2)) directly irradiated the embryo of wheat seeds for 3 min respectively, and when the seedlings were 12-day-old they were irradiated by UV-B radiation (10.08 kJ m(-2)) for 12 h in the dark. Changes in the concentration of malondialdehyde (MDA), hydrogen peroxide (H(2)O(2)), glutathione (GSH), ascorbate (AsA), carotenoids (CAR), the production rate of superoxide radical (O(2)(-)), the activities of peroxidase (POD), catalase (CAT), superoxide dismutase (SOD) and the growth parameters of seedlings (plant height, leaf area and fresh weight) were measured to test the optical effect of the laser. The results showed that the incoherent red light treatment could not enhance the activities of SOD, POD and CAT and the concentration of AsA and CAR. When the plant cells were irradiated by UV-B, the incoherent red light treatment could not eliminate active oxygen and prevent lipid peroxidation in wheat. The results also clearly demonstrate that the plant DNA was damaged by UV-B radiation and semiconductor laser irradiance had the capability to protect plants from UV-B-induced DNA damage, while the incoherent red light could not. This is the first investigation reporting the optical effect of a semiconductor laser on protecting wheat from UV-B radiation damage.