Kenneth G. Kelly scite author profile

PurposeMammography, the standard method of breast cancer screening, misses many cancers, especially in dense-breasted women. We compared the performance and diagnostic yield of mammography alone versus an automated whole breast ultrasound (AWBU) plus mammography in women with dense breasts and/or at elevated risk of breast cancer.MethodsAWBU screening was tested in 4,419 women having routine mammography (Trial Registration: ClinicalTrials.gov Identifier: NCT00649337). Cancers occurring during the study and subsequent 1-year follow-up were evaluated. Sensitivity, specificity and positive predictive value (PPV) of biopsy recommendation for mammography alone, AWBU and mammography with AWBU were calculated.ResultsBreast cancer detection doubled from 23 to 46 in 6,425 studies using AWBU with mammography, resulting in an increase in diagnostic yield from 3.6 per 1,000 with mammography alone to 7.2 per 1,000 by adding AWBU. PPV for biopsy based on mammography findings was 39.0% and for AWBU 38.4%. The number of detected invasive cancers 10 mm or less in size tripled from 7 to 21 when AWBU findings were added to mammography.ConclusionAWBU resulted in significant cancer detection improvement compared with mammography alone. Additional detection and the smaller size of invasive cancers may justify this technology’s expense for women with dense breasts and/or at high risk for breast cancer.

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Antiepileptic Drug Mechanisms of Action

Macdonald

1995

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Established antiepileptic drugs (AEDs) decrease membrane excitability by interacting with neurotransmitter receptors or ion channels. AEDs developed before 1980 appear to act on sodium channels, gamma-aminobutyric acid type A (GABAA) receptors, or calcium channels. Benzodiazepines and barbiturates enhance GABAA receptor-mediated inhibition. Phenytoin (PHT), carbamazepine (CBZ), and possibly valproate (VPA) decrease high-frequency repetitive firing of action potentials by enhancing sodium-channel inactivation. Ethosuximide (ESM) and VPA reduce a low threshold (T-type) calcium-channel current. The mechanisms of action of the new AEDs are not fully established. Gabapentin (GBP) binds to a high-affinity site on neuronal membranes in a restricted regional distribution of the central nervous system. This binding site may be related to a possible active transport process of GBP into neurons; however, this has not been proven, and the mechanism of action of GBP remains uncertain. Lamotrigine (LTG) decreases sustained high-frequency repetitive firing of voltage-dependent sodium action potentials that may result in a preferential decreased release of presynaptic glutamate. The mechanism of action of oxcarbazepine (OCBZ) is not known; however, its similarity in structure and clinical efficacy to CBZ suggests that its mechanism of action may involve inhibition of sustained high-frequency repetitive firing of voltage-dependent sodium action potentials. Vigabatrin (VGB) irreversibly inhibits GABA transaminase, the enzyme that degrades GABA, thereby producing greater available pools of presynaptic GABA for release in central synapses. Increased activity of GABA at postsynaptic receptors may underline the clinical efficacy of VGB.

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Ketamine use in the treatment of refractory status epilepticus

et al. 2013

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Gabapentin actions on ligand- and voltage-gated responses in cultured rodent neurons

1993

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Gabapentin (GBP) is a cyclic gamma-aminobutyric acid (GABA) analog and investigational antiepileptic drug which is effective in the treatment of a variety of human and experimental seizures. GBP's antiepileptic mechanism of action is not known. The present studies tested for effects of GBP on inhibitory (GABA and glycine) and excitatory (N-methyl-D-aspartate (NMDA) and non-NMDA) amino acid neurotransmitter receptors, on repetitive firing of sodium (Na+) action potentials, and on voltage-dependent calcium (Ca2+) channel currents in cultured rodent neurons using intracellular, whole cell, or single channel recording techniques. GBP did not have a significant effect in any experiment when tested at or above concentrations that are therapeutic in humans except for a variable enhancement of NMDA-evoked depolarizations. These results suggest that the antiepileptic activity of GBP is not due to direct effects at receptors for inhibitory or excitatory amino acids or on voltage-dependent Na+ or Ca2+ channels.

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Kenneth G. Kelly

Breast cancer detection using automated whole breast ultrasound and mammography in radiographically dense breasts

Antiepileptic Drug Mechanisms of Action

Ketamine use in the treatment of refractory status epilepticus

Gabapentin actions on ligand- and voltage-gated responses in cultured rodent neurons

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