Neurotoxicological Effects Associated with Short-Term Exposure of Sprague–Dawley Rats to Hydrogen Sulfide

Although hydrogen sulfide (H 2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or behavioral effects. Our aim was to determine if short-term inhalation exposure of rats to H 2S would result in altered brain catecholamine levels or...

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Published in:	Neurotoxicology (Park Forest South) Vol. 22; no. 3; pp. 375 - 385
Main Authors:	Struve, Melanie F, Brisbois, Jennifer N, Arden James, R, Marshall, Marianne W, Dorman, David C
Format:	Journal Article
Language:	English
Published:	Orlando, FL Elsevier B.V 01-06-2001 Elsevier
Subjects:	Administration, Inhalation Air Pollutants - toxicity Animals Atmosphere Exposure Chambers Behavior Biological and medical sciences Body Temperature - drug effects Brain - drug effects Brain - metabolism Catecholamines - metabolism Chemical and industrial products toxicology. Toxic occupational diseases Conditioning, Operant - drug effects Gas, fumes Hydrogen sulfide Hydrogen Sulfide - administration & dosage Hydrogen Sulfide - toxicity Inhalation Male Maze Learning - drug effects Medical sciences Motor Activity - drug effects Rat Rats Rats, Sprague-Dawley Toxicology Water maze Hydrogen sulfide Behavior Rat Water maze Inhalation Short term Nervous system diseases Toxic gas Hydrogen Sulfides Toxicity Memory Rodentia Catecholamine Learning Multiple dose Vertebrata Mammalia Animal Brain (vertebrata)
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Abstract	Although hydrogen sulfide (H 2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or behavioral effects. Our aim was to determine if short-term inhalation exposure of rats to H 2S would result in altered brain catecholamine levels or impaired learning and memory. Three groups of adult male CD rats were tested; two groups were exposed by nose-only inhalation (0, 30, 80, 200, or 400 ppm H 2S) and one group was exposed by whole-body inhalation (0, 10, 30, or 80 ppm H 2S) for 3 h per day for five consecutive days. The first group (n = 10 rats per concentration) was tested immediately following each daily nose-only H 2S exposure for spatial learning with a Morris water maze. Core body temperatures were also monitored in these animals during and after the last H 2S exposure. The second group of rats (n = 10 rats per concentration) was tested for spontaneous motor activity immediately following the fifth exposure. These rats were then euthanized and striatal, hippocampal, and hindbrain catecholamine levels determined. A third group of rats (n = 5–7 rats per concentration) was pretrained on a multiple fixed-interval (FI) schedule and exposed whole-body. Daily performance on the FI schedule was compared for the week pre-exposure, for the exposure week immediately following daily exposures, and for the week postexposure. We observed significant reductions in motor activity, water maze performance, and body temperature following exposure only to high concentrations (≥80 ppm) of H 2S. Exposure to H 2S did not affect regional brain catecholamine concentrations or performance on the FI schedule. Additional studies using other measures of behavior and longer-term exposure to H 2S may be required to more definitively address conditions under which H 2S exposure results in behavioral toxicity.
AbstractList	Although hydrogen sulfide (H sub(2)S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or behavioral effects. Our aim was to determine if short-term inhalation exposure of rats to H sub(2)S would result in altered brain catecholamine levels or impaired learning and memory. Three groups of adult male CD rats were tested; two groups were exposed by nose-only inhalation (0, 30, 80, 200, or 400 ppm H sub(2)S) and one group was exposed by whole-body inhalation (0, 10, 30, or 80 ppm H sub(2)S) for 3 h per day for five consecutive days. The first group (n = 10 rats per concentration) was tested immediately following each daily nose-only H sub(2)S exposure for spatial learning with a Morris water maze. Core body temperatures were also monitored in these animals during and after the last H sub(2)S exposure. The second group of rats (n = 10 rats per concentration) was tested for spontaneous motor activity immediately following the fifth exposure. These rats were then euthanized and striatal, hippocampal, and hindbrain catecholamine levels determined. A third group of rats (n = 5-7 rats per concentration) was pretrained on a multiple fixed-interval (FI) schedule and exposed whole-body. Daily performance on the FI schedule was compared for the week pre-exposure, for the exposure week immediately following daily exposures, and for the week postexposure. We observed significant reductions in motor activity, water maze performance, and body temperature following exposure only to high concentrations ( greater than or equal to 80 ppm) of H sub(2)S. Exposure to H sub(2)S did not affect regional brain catecholamine concentrations or performance on the FI schedule. Additional studies using other measures of behavior and longer-term exposure to H sub(2)S may be required to more definitively address conditions under which H sub(2)S exposure results in behavioral toxicity. Although hydrogen sulfide (H2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or behavioral effects. Our aim was to determine if short-term inhalation exposure of rats to H2S would result in altered brain catecholamnine levels or impaired learning and memory. Three groups of adult male CD rats were tested; two groups were exposed by nose-only inhalation (0, 30, 80, 200, or 400 ppm H2S) and one group was exposed by whole-body inhalation (0, 10, 30, or 80 ppm H2S) for 3 h per day forfive consecutive days. The first group (n = 10 rats per concentration) was tested immediately following each daily nose-only H2S exposure for spatial learning with a Morris water maze. Core body temperatures were also monitored in these animals during and after the last H2S exposure. The second group of rats (n = 10 rats per concentration) was tested for spontaneous motor activity immediately following the fifth exposure. These rats were then euthanized and striatal, hippocampal, and hindbrain catecholamnine levels determined. A third group of rats (n = 5-7 rats per concentration) was pretrained on a multiple fixed- interval (FI) schedule and exposed whole-body. Daily performance on the FI schedule was compared for the week pre-exposure, for the exposure week immediately following daily exposures, and for the week postexposure. We observed significant reductions in motor activity, water maze performance, and body temperature following exposure only to high concentrations (> or = 80 ppm) of H2S. Exposure to H2S did not affect regional brain catecholamine concentrations or performance on the FI schedule. Additional studies using other measures of behavior and longer-term exposure to H2S may be required to more definitively address conditions under which H2S exposure results in behavioral toxicity. Although hydrogen sulfide (H 2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or behavioral effects. Our aim was to determine if short-term inhalation exposure of rats to H 2S would result in altered brain catecholamine levels or impaired learning and memory. Three groups of adult male CD rats were tested; two groups were exposed by nose-only inhalation (0, 30, 80, 200, or 400 ppm H 2S) and one group was exposed by whole-body inhalation (0, 10, 30, or 80 ppm H 2S) for 3 h per day for five consecutive days. The first group (n = 10 rats per concentration) was tested immediately following each daily nose-only H 2S exposure for spatial learning with a Morris water maze. Core body temperatures were also monitored in these animals during and after the last H 2S exposure. The second group of rats (n = 10 rats per concentration) was tested for spontaneous motor activity immediately following the fifth exposure. These rats were then euthanized and striatal, hippocampal, and hindbrain catecholamine levels determined. A third group of rats (n = 5–7 rats per concentration) was pretrained on a multiple fixed-interval (FI) schedule and exposed whole-body. Daily performance on the FI schedule was compared for the week pre-exposure, for the exposure week immediately following daily exposures, and for the week postexposure. We observed significant reductions in motor activity, water maze performance, and body temperature following exposure only to high concentrations (≥80 ppm) of H 2S. Exposure to H 2S did not affect regional brain catecholamine concentrations or performance on the FI schedule. Additional studies using other measures of behavior and longer-term exposure to H 2S may be required to more definitively address conditions under which H 2S exposure results in behavioral toxicity.
Author	Arden James, R Dorman, David C Struve, Melanie F Brisbois, Jennifer N Marshall, Marianne W
Author_xml	– sequence: 1 givenname: Melanie F surname: Struve fullname: Struve, Melanie F email: struve@ciit.org – sequence: 2 givenname: Jennifer N surname: Brisbois fullname: Brisbois, Jennifer N – sequence: 3 givenname: R surname: Arden James fullname: Arden James, R – sequence: 4 givenname: Marianne W surname: Marshall fullname: Marshall, Marianne W – sequence: 5 givenname: David C surname: Dorman fullname: Dorman, David C
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Keywords	Hydrogen sulfide Behavior Rat Water maze Inhalation Short term Nervous system diseases Toxic gas Hydrogen Sulfides Toxicity Memory Rodentia Catecholamine Learning Multiple dose Vertebrata Mammalia Animal Brain (vertebrata)
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Snippet	Although hydrogen sulfide (H 2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or... Although hydrogen sulfide (H2S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or... Although hydrogen sulfide (H sub(2)S) is a known neurotoxic hazard, only a limited number of experimental animal studies have examined its neurochemical or...
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SubjectTerms	Administration, Inhalation Air Pollutants - toxicity Animals Atmosphere Exposure Chambers Behavior Biological and medical sciences Body Temperature - drug effects Brain - drug effects Brain - metabolism Catecholamines - metabolism Chemical and industrial products toxicology. Toxic occupational diseases Conditioning, Operant - drug effects Gas, fumes Hydrogen sulfide Hydrogen Sulfide - administration & dosage Hydrogen Sulfide - toxicity Inhalation Male Maze Learning - drug effects Medical sciences Motor Activity - drug effects Rat Rats Rats, Sprague-Dawley Toxicology Water maze
Title	Neurotoxicological Effects Associated with Short-Term Exposure of Sprague–Dawley Rats to Hydrogen Sulfide
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