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27


Amino acid transport inhibition: brain and behavioral correlates

Randt, C T; Samuels, S; Fish, I
In vivo inhibition of uptake 14C-L-valine by brain following subcutaneous administration of either of two gamma-glutamyl cycle enzyme inhibitors, 2-imidazolidone-4-carboxylic acid (ICA), or, L-methionine-S-sulfoximine (MSO) is documented in C57BL/6J mice. Dose related decrease in exploratory activity, impairment of memory for foot shock, and reduced operant responding for food reinforcement parallels the time course for interference with uptake of a large neutral amino acid by these two compounds previously shown to inhibit different enzymes in the gamma-glutamyl cycle subserving active amino acid transport
PMID: 981286
ISSN: 0091-3057
CID: 106861

Myelitis associated with genital herpes in a child [Case Report]

Shturman-Ellstein R; Borkowsky W; Fish I; Gershon AA
PMID: 1245974
ISSN: 0022-3476
CID: 14602

SEXUAL ABUSE AND HERPETIC GENITAL INFECTION IN CHILDREN [Letter]

Gershon, AA; Fish, I; Borkowsky, W
ISI:A1976BZ91100078
ISSN: 0022-3476
CID: 28747

Effect of the antiviral drug, cytosine arabinoside, on the developing nervous system

Ashwal, S; Finegold, M; Fish, I; Budzilovich, G; Brunell, P A
PMID: 4444864
ISSN: 0031-3998
CID: 117255

Herpes simplex infection of the newborn

Gershon, A A; Fish, I; Brunell, P A
PMID: 4343658
ISSN: 0002-922x
CID: 122103

Changes in human serum dopamine- -hydroxylase activity with age

Freedman LS; Ohuchi T; Goldstein M; Axelrod F; Fish I; Dancis J
PMID: 4552163
ISSN: 0028-0836
CID: 43366

The electroencephalogram in clinical pediatrics

Fish, I
The electroencephalogram represents an electrical summary of the organizational patterns and the total physical-chemical processes taking place in the brain at the time of the recording. Itis affected by (1) artifacts secondary to head movements, muscle potentials, and eye movements, (2) physiological factors, such as state of consciousness, hyperventilation, and maturity of the brain, (3) metabolic factors such as temperature, thyroid function, electrolyte changes, and numerous other metabolic factors, and (4) drugs. Brain dysfunction also causes changes in the electroencephalogram. The electroencephalogram is useful in some, but not all, types of brain dysfunction. In general, the electroencephalogram is most likely to be abnormal if the underlying disease is acute or ongoing, or if the disease is associated with seizures. Focal lesions may appear when none is suspected clinically. The electroencephalogram can be an invaluable aid in dealing with epilepsy. Petit mal epilepsy cannot be diagnosed without it, and infantile spasms are diagnosed with considerably greater certainty if the electroencephalogram shows hypsarrhythmia. Patients with seizures which appear to be generalized may have an electroencephalogram with focal abnormalities; this may be the only clue that a focal lesion exists. Psychomotor epilepsy is sometimes difficult to differentiate from sociopathic behavior, and the electroencephalogram can be helpful. The electroencephalogram is less useful in chronic static conditions such as mental retardation, minimal cerebral dysfunction, or behavior disorders, unless there is associated epilepsy or ongoing brain pathology. More recently, the electroencephalogram has been used to estimate gestational age with reasonable accuracy. With the aid of a computer, responses to auditory and visual stimuli have been recorded on the electroencephalogram. These techniques, although not in general use at the present time, hold considerable promise for the future. They mark the beginnings of a new dimension in using the electroencephalogram as a tool in helping the clinician evaluate and understand brain development, and in helping him recognize early signs of disease in the developing brain.
PMID: 25868184
ISSN: 0031-3955
CID: 1532152