Long-lasting memory for an odor acquired at the mother's breast.

Whether neonatal odor memory can persist into toddlerhood and influence behaviors that tap processes related to cognition (attention and exploration), motivation (choice and consumption), and emotion (hedonic processing) remains under-researched. Using a quasi-experimental longitudinal design, we examined whether an odor experienced at the mother's breast can be retained at 7 and 21 months. The prescribed prophylactic use of a camomile-scented balm defined two groups: infants exposed (CaE) or never exposed (CaNE) to camomile odor. At 7 months, exploratory responses to three similar objects differing in odor (including camomile) were analyzed. At 21 months, three tasks were used to assess toddlers' (i) facial responses; (ii) exploratory responses to three similar, but differently odorized objects; and (iii) choices between two bottles carrying different odors. CaE infants displayed preferential responses for camomile odor at both ages in every task. In contrast, CaNE infants behaved either randomly or more negatively to camomile odor. This study indicates that early odor memories acquired during breastfeeding can be reactivated and influence behavioral processes until at least toddlerhood.

Mammary olfactory signalisation in females and odor processing in neonates: ways evolved by rabbits and humans.

Mammalian females have long been known to release olfactory attraction in their offspring. Mammary odor cues control infant state, attention and directional responses, delay distress responses, stimulate breathing and positive oral actions, and finally can boost learning. Here, we survey female-offspring odor communication in two mammalian species - European rabbits and humans - taken as representatives of evolutionary extremes in terms of structure and dynamics of mother-infant relations, and level of neonatal autonomy. Despite these early psychobiological differences, females in both species have evolved mammary structures combining multiple sources of endogenous and exogenous odorants, and of greasy fixatives, conferring on them a chemocommunicative function. To process these mammary chemosignals, neonates have co-evolved multiple perceptual mechanisms. Their behaviour appears to be driven by plastic mechanism(s) calibrated by circumstantial odor experience in preceding and current environments (fetal and postnatal induction of sensory processes and learning), and by predisposed mechanisms supported by pathways that may be hard-wired to detect species-specific signals. In rabbit neonates, predisposed and plastic mechanisms are working inclusively. In human neonates, only plastic mechanisms could be demonstrated so far. These mammary signals and cues confer success in offspring's approach and exploration of maternal body surface, and ensuing effective initial feeds and rapid learning of maternal identity. Although the duration of the impact of these mammary signals is variable in newborns of species exposed to contrasting life-history patterns, their functional role in setting on infant-mother interaction in the context of milk transfer can be crucial.

Learning at the breast: preference formation for an artificial scent and its attraction against the odor of maternal milk.

Human newborns are known to display spontaneous attraction to the odor of human milk. This study aimed to assess whether the positive response to human milk odor can be explained by nursing-related learning, and whether it can be easily reassigned to a novel odor associated with nursing. Infants were exposed or not to a novel odor (camomile, Ca) during nursing, and tested on day 3-4 for their preference for camomile in comparison with either a scentless control (Exp. 1), a scented control (Exp. 2), or maternal milk (Exp. 3). Prior experience with Ca modified the newborns' responses. While the Ca odor became more attractive than a scented control in the Ca-exposed group, the Ca-non-exposed group did not differentiate either stimulus. In Exp. 3, the Ca-non-exposed group preferred the milk odor to the Ca odor, whereas the Ca-exposed group displayed on average equal attraction to both stimuli. Thus, a novel odor can be learned at the breast, and gain similar attractive power than the odor of mother's milk. In sum, reinforcements related with the early episodes of breastfeeding mediate the rapid development of novel odor preferences in human infants.