ABSTRACT
BACKGROUND: Infant rats detect small amounts of alcohol (175 mg%) that are present in maternal milk whenever the dam is moderately intoxicated with alcohol. Interaction with an alcohol-intoxicated mother during the first 2 weeks of life facilitates the preweanling's subsequent discrimination of alcohol's orosensory attributes and produces conditioned aversion to alcohol. The present study further analyzed the hedonic content of infantile alcohol memories established in the nursing context by testing the interaction between experiences with an alcohol-intoxicated dam and learning procedures aimed at establishing an appetitive conditioned response toward alcohol. METHODS: Experiment 1 was to determine appropriate parameters to establish a reliable conditioned preference for alcohol in 16-day-old infants. For conditioning, intraorally infused sucrose solution (appetitive reinforcer) was paired with alcohol's orosensory cues derived from an acute state of alcohol intoxication (3 g/kg). Two control groups included an unpaired condition and a group given sucrose after water intubation. Infants then were evaluated in an alcohol intake test. Relative to control animals, a reliable conditioned preference for alcohol was registered in paired pups. In experiment 2, these conditioning procedures were applied to infant rats which, before conditioning, suckled from dams subjected to a 2.5 g/kg alcohol dose (intragastric) or from water-treated females during postpartum days 3, 5, 7, 9, 11, and 13. RESULTS: Experiment 2 showed that maternal treatment significantly affected the establishment of conditioned preferences for alcohol. Whereas pups reared by control dams exhibited reliable appetitive conditioning to alcohol, infants raised by alcohol dams completely failed to develop appetitive conditioning. CONCLUSIONS: The present results suggest that alcohol-related memories generated via infantile interactions with an intoxicated dam counteract subsequent conditioning of alcohol ingestion. In conjunction with prior studies, it is concluded that alcohol-related nursing experiences are capable of promoting alcohol memories with a negative hedonic content.
Subject(s)
Alcoholic Intoxication , Appetitive Behavior/drug effects , Central Nervous System Depressants/pharmacology , Conditioning, Psychological/drug effects , Ethanol/pharmacology , Animals , Animals, Suckling , Appetitive Behavior/physiology , Conditioning, Psychological/physiology , Female , Mothers , Rats , Rats, Wistar , Sucrose/pharmacology , Weight Gain/drug effects , Weight Gain/physiologyABSTRACT
BACKGROUND: The aim of the present study was to analyze whether alcohol as an unconditioned stimulus is capable of supporting associative learning in near-term fetuses. METHODS: In experiment 1, we determined pharmacokinetic profiles of alcohol and of an aromatic substance (cineole) in amniotic fluid and maternal blood during late gestation. The results obtained through gas chromatographic analysis allowed a second experiment in which we explicitly paired peak levels of cineole with peak levels of alcohol in amniotic fluid and blood, by intragastrically administering cineole and ethanol to the dams during gestational days 17 through 20 (paired condition). Control groups were dams given cineole 4 hr before commencement of an acute state of alcohol intoxication (long-delay group) or were only exposed to water administrations (water control group). The progeny were evaluated during postnatal day 16 in terms of behavioral responsiveness to intraorally infused solutions (cineole or alcohol presented in milk vehicle, or milk alone). RESULTS: Mouthing responsiveness to cineole was strongly affected by the nature of prenatal treatments. Pups in the paired prenatal condition mouthed significantly less than did long-delay and water controls. Physical and behavioral measures allowed us to reject the possibility that these effects were due to teratogenic effects of alcohol during late gestation. CONCLUSIONS: These results indicate that before birth, rat fetuses are capable of acquiring associative memories supported by the unconditioned properties of alcohol. This associative memory can be expressed during infancy through a significant reduction in mouth movements in the presence of the specific orosensory cue explicitly paired with alcohol interoceptive effects in utero.
Subject(s)
Alcoholic Intoxication/psychology , Association Learning , Cyclohexanols , Ethanol/pharmacokinetics , Fetal Alcohol Spectrum Disorders/psychology , Monoterpenes , Terpenes , Alcoholic Intoxication/blood , Amniotic Fluid/metabolism , Animals , Association Learning/drug effects , Ethanol/adverse effects , Eucalyptol , Female , Fetal Alcohol Spectrum Disorders/blood , Menthol/analogs & derivatives , Motivation , Pregnancy , Rats , Rats, Wistar , Smell/drug effects , Solvents , Taste/drug effectsABSTRACT
Our previous studies indicate that rat pups are able to detect the low levels of ethanol (175 mg %) found in the milk of a moderately intoxicated dam. The present study tested the effect of infantile interactions (including suckling) with ethanol-treated mothers on later behavioral responsiveness to ethanol's sensory properties. In Experiment 1, pups suckled from dams subjected to a 2.5 g/kg ethanol dose (i.g.) or water-treated females during postnatal days (PDs) 3, 5, 7, 9, 11, and 13. During PD 15, these pups were exposed to procedures to induce a conditioned aversion to the low level of ethanol (175 mg % in water), with lithium chloride as the unconditioned stimulus. Conditioning was more effective for pups with the prior ethanol experience within the nursing context. Greater responsiveness to ethanol in milk also was found for conditioning control pups that had interacted with intoxicated dams than for those that had interacted with water-treated dams. Experiment 2 determined that interaction with an intoxicated dam was sufficient for altered responsiveness to ethanol, in that the additional conditioning procedures of Experiment 1 were not needed for the effect. Generally, a relatively brief history of infantile interaction with ethanol-intoxicated dams increased later responsiveness to ethanol's orosensory properties. The results suggest that moderately intoxicated dams within the nursing context provide information to the progeny that may lead to the establishment of ethanol-related memories.
Subject(s)
Alcoholic Intoxication/psychology , Central Nervous System Depressants/administration & dosage , Ethanol/administration & dosage , Motor Activity/drug effects , Animals , Animals, Newborn , Animals, Suckling/psychology , Female , Male , Maternal Behavior/psychology , Rats , Rats, WistarABSTRACT
Previous animal models testing infantile reactivity to ethanol (EtOH) in maternal milk used EtOH doses that vastly exceeded levels actually encountered in a mildly or moderately intoxicated dam. The present study assessed whether 12- and 16-day-old rats are capable of detecting EtOH in milk at levels actually recorded in an intoxicated dam. Experiment 1 determined representative levels of EtOH in maternal milk as a function of maternal intragastric administration of EtOH (0.5-3.0 g/kg). Experiment 2A assessed generalization of conditioned taste aversions accrued with a high level of EtOH (6%) in either water or milk vehicles towards lower, more representative EtOH levels obtained from Experiment 1. With body weight gain as the dependent measure, conditioned aversions to milk were evident with the milk vehicle, but there was no detection of EtOH at any level at either age. Detection of the high level of EtOH (6%) in milk, however, was observed by 16 day olds within an habituation paradigm (Exp. 2b) via cardiac and behavioral (locomotion, mouthing) indexes. In Experiment 3 application of Experiment 2's more sensitive, behavioral index to assess generalization of the conditioned taste aversions revealed detection of a lower, more representative concentration of EtOH (175 mg%) in milk in 16-day-old rats. Overall the results show that the unweaned rat is capable of detecting very low concentrations of EtOH in milk and can modify their behavior accordingly. The expression of this capability is not, however, homogeneous across different response indexes. In conjunction with prior research it is clear that the infant rat's perception of EtOH in milk, including the very low levels of EtOH found in maternal milk during mild or moderate intoxication, is a relevant experience for generating new responses towards EtOH.