Search Results - "Lawing, W L"

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  1. 1
    Depolarization and stimulation of neurons in nucleus tractus solitarii by carbon dioxide does not require chemical synaptic input

    Depolarization and stimulation of neurons in nucleus tractus solitarii by carbon dioxide does not require chemical synaptic input by Dean, J B, Bayliss, D A, Erickson, J T, Lawing, W L, Millhorn, D E

    Published in Neuroscience (1990)
    “…The effects of elevated CO2 (i.e. hypercapnia) on neurons in the nucleus tractus solitarii were studied using extracellular (n = 82) and intracellular (n = 33)…”
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  2. 2
    CO2 decreases membrane conductance and depolarizes neurons in the nucleus tractus solitarii

    CO2 decreases membrane conductance and depolarizes neurons in the nucleus tractus solitarii by Dean, J B, Lawing, W L, Millhorn, D E

    Published in Experimental brain research (01-01-1989)
    “…To identify central sites of potential CO2/H+-chemoreceptive neurons, and the mechanism responsible for neuronal chemosensitivity, intracellular recordings…”
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  3. 3
    Mesencephalic stimulation elicits inhibition of phrenic nerve activity in cat

    Mesencephalic stimulation elicits inhibition of phrenic nerve activity in cat by Gallman, E A, Lawing, W L, Millhorn, D E

    Published in The Journal of physiology (01-05-1991)
    “…1. Previous work from this laboratory has indicated that the mesencephalon is the anatomical substrate for a mechanism capable of inhibiting central…”
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  4. 4
    Excitatory and inhibitory effects on respiration of L-glutamate microinjected superficially into the ventral aspects of the medulla oblongata in cat

    Excitatory and inhibitory effects on respiration of L-glutamate microinjected superficially into the ventral aspects of the medulla oblongata in cat by Lawing, W L, Millhorn, D E, Bayliss, D A, Dean, J B, Trzebski, A

    Published in Brain research (01-12-1987)
    “…L-Glutamate (4-40 nmol) was microinjected at superficial depths beneath the ventral surface of the medulla oblongata in cats. Injections (100-300 microns…”
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  5. 5
    MR findings in diffuse renal parenchymal disease

    MR findings in diffuse renal parenchymal disease by Kettritz, U, Semelka, R C, Brown, E D, Sharp, T J, Lawing, W L, Colindres, R E

    Published in Journal of magnetic resonance imaging (01-01-1996)
    “…This study evaluates the MR appearance of the kidney in diffuse renal parenchymal diseases, using precontrast, and immediate and delayed postgadolinium chelate…”
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  6. 6
    CO sub(2) decreases membrane conductance and depolarizes neurons in the nucleus tractus solitarii

    CO sub(2) decreases membrane conductance and depolarizes neurons in the nucleus tractus solitarii by Dean, J B, Lawing, W L, Millhorn, DE

    Published in Experimental brain research (01-01-1989)
    “…To identify central sites of potential CO sub(2)/H super(+)-chemoreceptive neurons, and the mechanism responsible for neuronal chemosensitivity intracellular…”
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  7. 7
    CO2 decreases membrane conductance and depolarizes neurons in the nucleus tractud solitarii

    CO2 decreases membrane conductance and depolarizes neurons in the nucleus tractud solitarii by DEAN, J. B, LAWING, W. L, MILLHORN, D. E

    Published in Experimental brain research (1989)
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