光固化复合树脂修补方法的比较研究

本研究评价了喷砂、氢氟酸(HF)、氢氟酸处理后涂KH-570乙醇液等方法时国产GD光固化复合树脂以及进口VIVADENT复合树脂的修补效果.结果表明:9.6%HF处理国产树脂、喷砂处理进口树脂均获得最大的修补强度,HF KH-570处理方法虽为每种材料中之最小者,但与其它修补方法间无显著性差异.     

钙池操纵的Ca2+通道的激活机制研究进展

钙池操纵的Ca~(2 )通道(store-operated Ca~(2 ) channels,SOC)是非兴奋细胞Ca~(2 )内流的主要通道之一,参与多种病理和生理过程,在钙信号通路的研究中,SOC的激活机制一直是人们关注的焦点之一,迄今为止,钙内流因子模型(Ca~(2 ) innux factor model,CIF model)和构象耦联模型fconformational coupling model)受到广泛关注.部分学者已经从很多不同类型的细胞中提取出CIF,并证实钙非依赖性的磷脂酶A_2(Ca~(2 )-independent phospholipase A_2,iPLA_2)作为CIF的底物,在某些类型细胞的SOC激活过程中发挥重要作用,并进一步提出了ER- CIF-iPLA_2-CaM-LysoPLs-SOC通路模型.瞬时受体电位(transient receptor potential,TRP)通道蛋白与1.4,5-磷酸肌醇受体(inositol 1,4,5 trisphosphate receptor,IP_3R)的结构连接作为构象耦联模型的基础已被广泛证实,随着对IP_3R,Ryanodine受体、肌动蛋白等在钙信号通路中所发挥作用的深入研究,构象耦联模型将得到不断补充和完善.SOC激活机制的破解,将对进一步完善非兴奋细胞的钙通道特性及其调节机制理论带来重大突破.     

RF refocused echoes of J-coupled spin systems: effects on RARE-based spectroscopic imaging.

A numerical simulation tool was developed to calculate the echo amplitudes of J-coupled resonances within a series of radiofrequency (RF) refocused echoes. The signal modulation due to J-coupling in rapid acquisition with relaxation enhancement (RARE) is suppressed only when the inverse of the pulse interval (tau) is large compared to both the chemical shift (CS) difference (Deltadelta) of the coupled spins and the coupling constant. In contrast, the echo amplitudes in ultrafast low-flip-angle RARE (U-FLARE) oscillate around a quasi-steady-state value that is greater than zero (neglecting relaxation and diffusion) even when Deltadelta > 1/tau. The flip-angle distribution over the measured slice caused by the use of Gaussian-shape slice-selective refocusing pulses further reduces the echo oscillations. When the pulse interval falls short of the fast pulse rate regime, spectroscopic U-FLARE provides an improved spatial impulse response in the phase-encoding (PE) direction compared to spectroscopic RARE.     

Effects of exercise on muscle activation and metabolism in multiple sclerosis

We investigated the role of metabolism in muscle fatigue during voluntary exercise in persons with mild multiple sclerosis (MS). Six MS and 8 healthy control subjects performed intermittent, progressive, isometric contractions of the ankle dorsiflexors, during which we measured maximum voluntary force (MVC), inorganic phosphate (Pi), phosphocreatine (PCr), and pH. During exercise. MVC fell sooner in MS, but by the end of exercise the relative decrease in MVC was similar in both groups. In contrast, at the end of exercise Pi/PCr increased to 1.86 ± 0.22 in controls but to only 0.66 ± 0.04 in MS (P < 0.01); likewise, pH was 6.75±0.04 in controls and unchanged (7.06 ± 0.04) in MS (P <0.01). The smaller metabolic change at the same relative exercise intensity suggests a failure of muscle activation that is present even in mild MS. Neurophsyiologic measures of activation indicated some central activation failure and no neuromuscular junction impairment in MS, and suggested that activation failure beyond the muscle membrane(excitation–contraction coupling) may be important in MS. We conclude that metabolic factors do not play a significant role in the development of muscle fatigue during voluntary exercise in mild MS. © 1994 John Wiley & Sons, Inc.     

微电脑促醒仪的研制

介绍微电脑促醒仪的基本结构、工作原理、主要技术特点及临床应用等内容。该仪器运用微电脑控制的促醒仪产生电刺激信号，通过射频耦合方式(或直接耦合方式)传递到植物生存状态患者脑干网状结构刺激电极，激活网状激动系统，促使Pcrsistent Vegtative State，PVS患者康复，取得了较好的效果。     

Synthesis of 4‐[18F]fluoroiodobenzene and its application in sonogashira cross‐coupling reactions

The first application of a Sonogashira cross‐coupling reaction in ¹⁸F chemistry has been developed. The reaction was exemplified by the cross‐coupling of terminal alkynes (ethynylcyclopentyl carbinol 6 , 17α‐ethynyl‐3,17β‐estradiol 7 and 17α‐ethynyl‐3‐methoxy‐3,17β‐estradiol 8 ) with 4‐[¹⁸F]fluoroiodobenzene. 4,4′‐Diiododiaryliodonium salts were used as precursors for the synthesis of 4‐[¹⁸F]fluoroiodobenzene, enabling the convenient access to 4‐[¹⁸F]fluoroiodobenzene in 13–70% yield using conventional heating or microwave activation. The Sonogashira cross‐coupling of 4‐[¹⁸F]fluoroiodobenzene with terminal alkynes gave the corresponding 4‐[¹⁸F]fluorophenylethynyl‐substituted compounds [¹⁸F]‐9 , [¹⁸F]‐10 and [¹⁸F]‐13 in yields up to 88% within 20 min of starting from 4‐[¹⁸F]fluoroiodobenzene. Copyright © 2003 John Wiley & Sons, Ltd.     

Dye coupling between dorsal raphe neurones

Neurones in the dorsal raphe nucleus (DRN) were impaled and filled with biocytin in coronal slices of midbrain taken from young adult rats. The electrophysiological properties and gross morphology of the cells were similar to those reported previously for serotonergic neurones in the DRN. Of 27 cases in which filled neurones were recovered in histological material, almost half (48%) showed labelling of two or three cells, although only one cell had been recorded from. Coupled cells were identified as close or distantly coupled, depending on the distance from the soma of the presumed impaled cell (23.5±15 m, n=7 and 150±26.5 m, n=10 respectively). Whereas close-coupled cells may have been artefactually coupled by the penetrating electrode, coupling between distant cells is most likely to be a result of transfer of biocytin through gap junctions. Camera lucida reconstructions of pairs of labelled cells revealed extensive overlap of dendritic fields and numerous crossings between dendrites. When examined at high magnification under a light microscope, many of the crossing dendrites were found to travel in different focal planes. Nevertheless, for each pair of cells, at least one point of close apposition was observed between dendrites or between the axon and a dendrite of the presumed impaled and coupled cell. The incidence of dye coupling between neurones in the DRN may reflect a relatively high level of electrotonic coupling between the neurones. This form of coupling may be important in determining the synchronous nature of firing of neurones in the DRN.     

The role of intracellular calcium stores in motilin induced contractions of the longitudinal muscle of the rabbit duodenum

Summary The contraction of longitudinal muscle strips of the rabbit duodenum in response to motilin and acetylcholine was investigated in normal and high K⁺-solutions in the presence and absence of external calcium, in order to demonstrate the existence of pharmaco-mechanical coupling for motilin and to examine whether the peptide mobilizes calcium from an intracellular store. In depolarized smooth muscle (140 mM K⁺), motilin (3.2×10⁹ –1×10^–7 M) and acetylcholine (1×10^–5 M) were still capable of causing a considerable, transient, concentration-dependent contraction in the presence of Ca²⁺. The extra-contraction to motilin was not blocked by tetrodotoxin (1 g/ml) nor by atropine (10^–7 M), but acetylcholine (10^–5 M) was blocked by atropine. Verapamil (10^–7 M) could selectively block the K⁺ contraction without affecting the extra agonist contraction. Nitroprusside was ineffective up to 10^–4 M in high K⁺-solutions, but in normal Hepes-buffer it caused a concentration-dependent rightward shift of the concentration-response curve of motilin and acetylcholine contractions. In a calcium-depleted medium, high K⁺-depolarized muscle strips were still responsive to motilin and acetylcholine, but higher concentrations (10^–6 M) were needed than in the presence of calcium and the contractions reached only 57 +- 11% and 74 +- 9% respectively of the maximal contraction in 1.2 mM Ca²⁺ containing solutions. The response to motilin (10^–6 M) was not only smaller than that to acetylcholine (10^–5 M), it also faded more rapidly with time. The response to one agonist could not be repeated except by using a higher concentration of the same or the other agonist, and the magnitude of this second response depended upon the dose used in the first one. We conclude that pharmaco-mechanical coupling exists for motilin and that this peptide is able to elicit contractions by mobilization of calcium from an intracellular store. This store overlaps with the one used by acetylcholine. Our experiments also reinforce the hypothesis that in the rabbit motilin exerts a direct action upon smooth muscle cells.     

Role of nitric oxide in skeletal muscle: synthesis,distribution and functional importance

Over the last two decades, nitric oxide (NO) has been established as a novel mediator of biological processes, ranging from vascular control to long-term memory, from tissue inflammation to penile erection. This paper reviews recent research which shows that NO and its derivatives also are synthesized within skeletal muscle and that NO derivatives influence various aspects of muscle function. Individual muscle fibres express one or both of the constitutive NO synthase (NOS) isoforms. Type I (neuronal) NOS is localized to the sarcolemma of fast fibres; type III (endothelial) NOS is associated with mitochondria. Isolated skeletal muscle produces NO at low rates under resting conditions and at higher rates during repetitive contraction. NO appears to mediate cell–cell interactions in muscle, including vasodilation and inhibition of leucocyte adhesion. NO also acts directly on muscle fibres to alter cell function. Muscle metabolism appears to be NO-sensitive at several sites, including glucose uptake, glycolysis, mitochondrial oxygen consumption and creatine kinase activity. NO also modulates muscle contraction, inhibiting force output by altering excitation–contraction coupling. The mechanisms of NO action are likely to include direct effects on redox-sensitive regulatory proteins, interaction with endogenous reactive oxygen species, and activation of second messengers such as cyclic guanosine monophosphate (cGMP). In conclusion, research published over the past few years makes it clear that skeletal muscle produces NO and that endogenous NO modulates muscle function. Much remains to be learned, however, about the physiological importance of NO actions and about their underlying mechanisms.     

Photoelectric recording of mechanical responses of cardiac myocytes

A method to monitor contraction of isolated myocytes by transmicroscopic photometry is illustrated. Two photodiodes are mounted inside an inverse microscope used for visual control of a cell. Illumination of one diode varies in proportion to changes in cell length. The contraction signal is amplified in a comparator circuit. Spatial resolution of the device is in the order of 1 m which corresponds to about 5% of cell shortening in the fully activated state of contraction. The method was tested on isolated myocytes from guinea-pig ventricle. Optical records of contraction in response to action potentials or during voltage clamp compare well with the contractile behaviour of multicellular preparations.