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13 results on '"Brissette L"'

1. Characterization of oxidized low-density lipoprotein-induced hormesis-like effects in osteoblastic cells

Author

Hamel, P., Abed, E., Brissette, L., and Moreau, R.

Subjects
Hormesis -- Research, Low density lipoproteins -- Physiological aspects, Low density lipoproteins -- Research, Osteoblasts -- Physiological aspects, Osteoblasts -- Research, Biological sciences
Abstract

Epidemiological studies indicate that patients suffering from atherosclerosis are predisposed to develop osteoporosis. Atherogenic determinants such as oxidized low-density lipoprotein (oxLDL) particles have been shown both to stimulate the proliferation and promote apoptosis of bone-forming osteoblasts. Given such opposite responses, we characterized the oxLDL-induced hormesis-like effects in osteoblasts. Biphasic 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reductive activity responses were induced by oxLDL where low concentrations (10-50 [micro]g/ml) increased and high concentrations (from 150 [micro]g/ml) reduced the MTF activity. Cell proliferation stimulation by oxLDL partially accounted for the increased MTT activity. No alteration of mitochondria mass was noticed, whereas low concentrations of oxLDL induced mitochondria hyperpolarization and increased the cellular levels of reactive oxygen species (ROS). The oxLDL-induced MTT activity was not related to intracellular ROS levels. OxLDL increased NAD(P)H-associated cellular fluorescence and flavoenzyme inhibitor diphenyleneiodonium reduced basal and oxLDL-induced MTT activity, suggesting an enhancement of NAD(P)H-dependent cellular reduction potential. Low concentrations of oxLDL reduced cellular thiol content and increased metallothionein expression, suggesting the induction of compensatory mechanisms for the maintenance of cell redox state. These concentrations of oxLDL reduced osteoblast alkaline phosphatase activity and cell migration. Our results indicate that oxLDL particles cause hormesis-like response with the stimulation of both proliferation and cellular NAD(P)H-dependent reduction potential by low concentrations, whereas high concentrations lead to reduction of MTT activity associated with the cell death. Given the effects of low concentrations of oxLDL on osteoblast functions, oxLDL may contribute to the impairment of bone remodeling equilibrium. osteoblasts; atherosclerosis; oxysterol

Published
2008

5. Plasma-anode ion diode research at Cornell: Repetitive-pulse, and 0.1 TW single-pulse experiments.

Author

Greenly, J.B., Brissette, L., Dunning, A., Glidden, S.C., Hammer, D.A., and Noonan, W.A.

Abstract

The magnetized anode plasma (MAP) ion source for magnetically-insulated ion diodes was shown in the LONG-SHOT experiment1) to have some significant advantages over standard “flashboard” anodes. A second generation of MAP diodes is being developed in two experiments: RRID, a high repetition-rate ion diode and a diode to run at 500kV, ∼0.1 TW on the Neptune 3Ω pulse line. In both experiments, improved preionization of the gas puff which forms the anode plasma has proved critical for reproducible operation. RRID is now investigating the limits on rep.-rate approaching 1kHz, and Neptune will test the scaling of ion current density usable pulse length and beam optics to higher power pulses. [ABSTRACT FROM PUBLISHER]

Published
1990

10. Operation of a high repetition rate intense ion beam diode.

Author

Noonan, W.A., Glidden, S.C., Greenly, J.B., Hammer, D.A., and Brissette, L.

Abstract

Summary form only given, as follows. A magnetically insulated diode has been developed that is capable of pulsing at a high repetition rate for short bursts. This diode has a plasma-anode ion source which originates as an annular puff of H2 or some other gas. The gas puff is preionized and then inductively broken down by a 1 μs-risetime magnetic field coil. This same field coil magnetically drives the resulting plasma toward a magnetically insulated acceleration gap. A ~100-kV, 20-40-kA, ≲100-ns acceleration voltage pulse is applied to the gap to generate the beam. The annular plasma has a mean radius of 8.5 cm, and the ion beam is extracted from an area of ≲200 cm2. The pulsed power systems that drive this diode at high repetition rates are based upon saturable inductor switching. The anode plasma's temperature and density have been measured by spectroscopic techniques as a function of repetition rate and shot number within a burst. How the plasma parameters vary with diode operating conditions, such as gas puff pressure or insulating field strength, was investigated. In addition, these plasma parameters have been compared with the parameters of the extracted beam [ABSTRACT FROM PUBLISHER]

Published
1990
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