Bidirectional control of CNS capillary diameter by pericytes.

Neural activity increases local blood flow in the central nervous system (CNS), which is the basis of BOLD (blood oxygen level dependent) and PET (positron emission tomography) functional imaging techniques. Blood flow is assumed to be regulated by precapillary arterioles, because capillaries lack smooth muscle. However, most (65%) noradrenergic innervation of CNS blood vessels terminates near capillaries rather than arterioles, and in muscle and brain a dilatory signal propagates from vessels near metabolically active cells to precapillary arterioles, suggesting that blood flow control is initiated in capillaries.

Gap junctions modulate interkinetic nuclear movement in retinal progenitor cells.

During early retinal development, progenitor cells must divide repeatedly to expand the progenitor pool. During G(1) and G(2) of the cell cycle, progenitor cell nuclei migrate back-and-forth across the proliferative zone in a process termed interkinetic nuclear movement. Because division can only occur at the ventricular surface, factors that affect the speed of nuclear movement could modulate the duration of the cell cycle.

Differential effect of dopamine on mitosis in early postnatal albino and pigmented rat retinae.

Insufficient levels of L-DOPA, released from the retinal pigment epithelium (RPE), in albino animals are considered responsible for the abnormal development of the underlying neural retina. L-DOPA normalizes retinal neurogenesis by reducing levels of cell proliferation either by acting on the cells directly or by being converted into dopamine. Here we report the effects of dopamine on mitosis in early postnatal neural retinae from albino and pigmented rats, using 4D (x, y, z and time) confocal microscopy.

The sterility of hospital-prepared Soffban bandages.

An evaluation of the sterility of hospital-prepared Soffban bandages was undertaken. Discs of Bacillus stearothermophilus were inserted into the bandage rolls, prior to sterilization in "porous load" autoclaves. The discs were subsequently removed and placed in culture media, with growth of the organism indicating failure of sterilization.

ATP released via gap junction hemichannels from the pigment epithelium regulates neural retinal progenitor proliferation.

The retinal pigment epithelium (RPE) plays an essential role in the normal development of the underlying neural retina, but the mechanisms by which this regulation occurs are largely unknown. Ca2+ transients, induced by the neurotransmitter ATP acting on purinergic receptors, both increase proliferation and stimulate DNA synthesis in neural retinal progenitor cells. Here, we show that the RPE regulates proliferation in the underlying neural retina by the release of a soluble factor and identify that factor as ATP.

Tonic excitation and inhibition of neurons: ambient transmitter sources and computational consequences.

Tonic activation of excitatory and inhibitory receptors, by the ambient concentration of neurotransmitters in the extracellular space of the brain, has been suggested to underlie phenomena as diverse as relapse to cocaine use by reward pathways in the striatum, sparse coding of motor information in the cerebellum, and control of the development of the cerebral and cerebellar cortices. Here we assess the mechanisms which may determine the ambient levels of excitatory and inhibitory neurotransmitters, and consider their likely effect on information processing.

Ca(2+) signalling and gap junction coupling within and between pigment epithelium and neural retina in the developing chick.

Development of the neural retina is controlled in part by the adjacent retinal pigment epithelium (RPE). To understand better the mechanisms involved, we investigated calcium signalling and gap junctional coupling within and between the RPE and the neural retina in embryonic day (E) 5 chick. We show that the RPE and the ventricular zone (VZ) of the neural retina display spontaneous Ca(2+) transients.

The orientation and dynamics of cell division within the plane of the developing vertebrate retina.

The orientation of a dividing cell within the plane of the tissue plays an essential role in regulating cell fate in a range of developing structures. To assess its potential role in the developing vertebrate retina we used standard confocal microscopy of fixed tissue and time-lapse confocal imaging of living tissue to examine the orientation of cell division and mitotic spindle rotation within the plane of the retinal neuroepithelium. Based on the study of three rat strains and chick, we report in contrast to recent findings that during the main phase of cell production (E18-P4 in the rat and E6-E11 in the chick) dividing cells are randomly orientated with respect to key anatomical landmarks as well as the orientation of their dividing neighbours.

Changing patterns of ganglion cell coupling and connexin expression during chick retinal development.

We have used dye injection and immunolabeling to investigate the relationship between connexin (Cx) expression and dye coupling between ganglion cells (GCs) and other cells of the embryonic chick retina between embryonic days 5 and 14 (E5-14). At E5, GCs were usually coupled, via soma-somatic or dendro-somatic contacts, to only one or two other cells. Coupling increased with time until E11 when GCs were often coupled to more than a dozen other cells with somata in the ganglion cell layer (GCL) or inner nuclear layer (INL).

Purinergic and muscarinic modulation of the cell cycle and calcium signaling in the chick retinal ventricular zone.

Spontaneous calcium transients occur in the ventricular zone of the chick retina and result from the endogenous release of neurotransmitters in the absence of action potentials. Calcium transients resulting from the activation of purinergic and muscarinic receptors occur in a mixed population of interphase and mitotic cells, whereas those produced by ionotropic GABA and glutamate receptors are mostly restricted to the interphase population, the GABA responses primarily coming from cells that express the neuronal marker TuJ-1. Muscarinic and purinergic receptors can act respectively as a brake and an accelerator on mitosis, whereas GABA and glutamate receptors are without effect.

Use of pIRES vectors to express EGFP and connexin constructs in studies of the role of gap junctional communication in the early development of the chick retina and brain.

Control of cell proliferation is vital for the normal development of the neural retina. Gap junctional communication has been implicated in the control of retinal cell proliferation. We have previously shown that the expression of the gap junction protein Connexin 43 closely correlates with the first wave of cell proliferation in the retina.

Early activation of Ca(2+)-permeable AMPA receptors reduces neurite outgrowth in embryonic chick retinal neurons.

Calcium entry through Ca(2+)-permeable AMPA/kainate receptors may activate signaling cascades controlling neuronal development. Using the fluorescent Ca(2+)-indicator Calcium Green 1-AM we showed that the application of kainate or AMPA produced an increase of intracellular [Ca(2+)] in embryonic chick retina from day 6 (E6) onwards. This Ca(2+) increase is due to entry through AMPA-preferring receptors, because it was blocked by the AMPA receptor antagonist GYKI 52466 but not by the N-methyl-D-aspartic acid (NMDA) receptor antagonist AP5, the voltage-gated Ca(2+) channel blockers diltiazem or nifedipine, or by the substitution of Na+ for choline in the extracellular solution to prevent the depolarizing action of kainate and AMPA.

GABAb receptors regulate chick retinal calcium waves.

Correlated spiking activity and associated Ca(2+) waves in the developing retina are important in determining the connectivity of the visual system. Here, we show that GABA, via GABA(B) receptors, regulates the temporal characteristics of Ca(2+) waves occurring before synapse formation in the embryonic chick retina. Blocking ionotropic GABA receptors did no affect these Ca(2+) transients.

Cell coupling in the retina: patterns and purpose.

Gap junction channels (electrical synapses) are a major component of the central nervous system mediating both electrical and metabolic coupling between neurons and glia. Their roles are as diverse as the cell types in which they are expressed and only some of these are reviewed here. In the adult the plastic nature of the gap junction channel allows for changes in the writing of the retinal circuitry that optimize visual processing to suit ambient lighting conditions.

Inhibition of EGF-dependent calcium influx by annexin VI is splice form-specific.

Annexin VI is a widely expressed calcium- and phospholipid-binding protein that lacks a clear physiological role. We now report that A431 cells expressing annexin VI are defective in their ability to sustain elevated levels of cytosolic Ca(2+) following stimulation with EGF. Other aspects of EGF receptor signaling, such as protein tyrosine phosphorylation and induction of c-fos are normal in these cells.

Connexin alpha1 and cell proliferation in the developing chick retina.

During the formation of the eye, high levels of connexin alpha1 (connexin 43) are expressed within the tissues of the cornea, lens, and neural retina. In order to determine whether connexin alpha1 plays a role in the regulation of cell proliferation we have used a novel antisense technique to reduce its expression early in development (embryonic days 2-4). Application of Pluronic gel, containing antisense oligodeoxynucleotides (ODNs) to connexin alpha1, to one eye of early chick embryos results in a rapid and significant reduction of alpha1 protein which lasts for 24-48 h.

Spontaneous Ca2+ transients and their transmission in the developing chick retina.

The development of the central nervous system is dependent on spontaneous action potentials and changes in [Ca2+]i occurring in neurons [1-4]. In the mammalian retina, waves of spontaneous electrical activity spread between retinal neurons, raising [Ca2+]i as they pass [5-7]. In the ferret retina, the first spontaneous Ca2+ waves have been reported at postnatal day 2 and are thought to result from the Ca2+ influx associated with bursts of action potentials seen in ganglion cells at this time [5-7].

Modulation by zinc of the glutamate transporters in glial cells and cones isolated from the tiger salamander retina.

1. Zinc may be released from some presynaptic glutamatergic neurons, including hippocampal mossy fibres and retinal photoreceptors. We whole-cell-clamped glial (Müller) cells isolated from the salamander retina to investigate the effect of zinc on glutamate transporters in these cells.

Analgesic effect of intra-articular bupivacaine or diamorphine after arthroscopic surgery of the knee joint in day-case patients.

A prospective, randomized, double-blind, controlled study was conducted to assess the efficacy of intra-articular bupivacaine and diamorphine. Ninety-six day-case patients were allocated randomly to receive intra-articular injections of either 20 mL 0.9% saline (control, n = 35), 20 mL 0.

Retinal processing: visionary transgenics.

Two recent reports in which transgene techniques were used to label specific cell classes in the mouse retina have opened the way to new methods of studying retinal signal processing.

Developmental expression and self-regulation of Ca2+ entry via AMPA/KA receptors in the embryonic chick retina.

Excessive activation of glutamate receptors in the late embryonic and adult retina leads to excitotoxic cell death through an increase in intracellular calcium concentration. Here we use the cobalt-staining technique of Pruss et al. to investigate the developmental expression of Ca(2+)-permeable alpha-amino-3-hydroxy-5-methyl-isoxazole-4-propionic acid/kainate (AMPA/KA) receptors in the embryonic chick retina, and the effects of AMPA/KA receptor activation on cell survival and AMPA/KA receptor expression.

Retinal development. Waves are swell.

Waves of spontaneous electrical activity and calcium transients occur in the retina during its development. Recent work raises the question of how these waves are produced and propagated.

Radial tunnel syndrome. A retrospective review of 30 decompressions of the radial nerve.

Radial tunnel syndrome results from compression of the radial nerve by the free edge of the supinator muscle or closely related structures in the vicinity of the elbow joint. Despite numerous reports on the surgical management of this disorder, it remains largely unrecognized and often neglected. The symptoms of radial tunnel syndrome can resemble those of tennis elbow, chronic wrist pain or tenosynovitis.

Use of non-cannulated screws in fixation of subcapital fractured necks of femur.

We have reviewed twenty cases of subcapital femoral neck fractures fixed internally with non-cannulated screws. These were used in the absence of a cannulated screw system, a problem faced in many centres. The authors describe a method of placing parallel screws without special jigs using AO guidewires and taps.

Voltage-gated currents in rabbit retinal astrocytes.

The voltage-gated currents of the astrocytes associated with the retinal capillaries of the rabbit retina were studied using whole-cell patch clamp recording. The resting potential of these cells was -70 +/- 4.8 mV (mean +/- SEM; n = 54), and the input resistance and cell capacitance were 558 +/- 3.