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dc.creatorMendoza-Castejon, Daniel
dc.creatorFraile-Garcia, Javier
dc.creatorDiaz-Manzano, Montaña
dc.creatorFuentes García, Juan Pedro
dc.creatorClemente-Suárez, Vicente Javier
dc.description.abstractThe aim of the present study was to analyze differences in the autonomic stress status between rural and urban school teachers. We analyzed the autonomic modulation in 25 pre-school and primary school teachers (40±7.8 years) from a city school (n:11) and rural school (n:14) by the heart rate variability analysis. Rural school teachers presented significative higher values in RMSSD, pNN50 and SD1 heart rate variability variables than city teachers, related with better autonomic control. Working place location is a variable that affects the psychophysiological stress response in education professionals, since city school teachers presented a higher sympathetic modulation, showing a lower heart rate variability, than rural school
dc.publisherCorporación Universidad de la Costaspa
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 International*
dc.sourcePhysiology & Behaviorspa
dc.subjectHeart rate variabilityspa
dc.subjectAutonomic Modulationspa
dc.titleDifferences in the autonomic nervous system stress status of urban and rural school teachersspa
dcterms.references[1] A. Alcaro, R. Huber, J. Panksepp Behavioral functions of the mesolimbic dopaminergic system: An affective neuroethological perspective Brain Res Rev, 56 (2) (2007), pp. 283-321spa
dcterms.references[2] F.D. Alves, N. Schmitz, M. Figee, N. Abeling, G. Hasler, J. van der Meer, T. . . . van Amelsvoort Dopaminergic modulation of the human reward system: a placebo-controlled dopamine depletion fMRI study J Psychopharmacol, 25 (4) (2011), pp. 538-549spa
dcterms.references[3] B.A. Anderson The attention habit: How reward learning shapes attentional selection Ann NY Acad Sci, 1369 (1) (2016), pp. 24-39,spa
dcterms.references[4] V. Ashley, P. Vuilleumier, D. Swick Time course and specificity of event-related potentials to emotional expressions NeuroReport, 15 (1) (2004), pp. 211-216spa
dcterms.references[5] S.P. Barrett, R.O. Pihl, C. Benkelfat, C. Brunelle, S.N. Young, M. Leyton The role of dopamine in alcohol self-administration in humans: individual differences Eur Neuropsychopharmacol, 18 (6) (2008), pp. 439-447spa
dcterms.references[6] A. Bartels, S. Zeki The neural correlates of maternal and romantic love NeuroImage, 21 (3) (2004), pp. 1155-1166, 10.1016/j.neuroimage.2003.11.003spa
dcterms.references[7] S. Bentin, T. Allison, A. Puce, E. Perez, G. McCarthy Electrophysiological studies of face perception in humans J Cogn Neurosci, 8 (6) (1996), pp. 551-565, 10.1162/jocn.1996.8.6.551spa
dcterms.references[8] K. Bernard, R. Simons, M. Dozier Effects of an attachment-based intervention on child protective services-referred mothers’ event-related potentials to children's emotions Child Dev, 6 (2015), pp. 1673-1684 10.111/cdev.12418spa
dcterms.references[9] K.C. Berridge, T.E. Robinson What is the role of dopamine in reward: hedonic impact, reward learning, or incentive salience? Brain Res Rev, 28 (3) (1998), pp. 309-369spa
dcterms.references[10] J. Booij, G. Tissingh, A. Winogrodzka, E.A. van Royen Imaging of the dopaminergic neurotransmission system using single-photon emission tomography and positron emission tomography in patients with parkinsonism Eur J Nucl Med, 26 (2) (1999spa
dcterms.references[11] S. Both, W. Everaerd, E. Laan, L. Gooren Effect of a single dose of levodopa on sexual response in men and women Neuropsychopharmacol, 30 (1) (2005), p. 173spa
dcterms.references[12] K. Botzel, S. Schulze, S.R. Stodieck Scalp topography and analysis of intracranial sources of face-evoked potentials Exp Brain Res, 104 (1) (1995), pp. 135-143spa
dcterms.references[13] L. Boutsen, G.W. Humphreys, P. Praamstra, T. Warbrick Comparing neural correlates of configural processing in faces and objects: An ERP study of the Thatcher illusion NeuroImage, 32 (2006), pp. 352-367spa
dcterms.references[14] R.S. Bridges Neuroendocrine regulation of maternal behavior Frontiers in Neuroendocrinology, 36 (2015), pp. 178-196,spa
dcterms.references[15] R.A. Cárdenas, L.J. Harris, M.W. Becker Sex differences in visual attention toward infant faces Evol Hum Behav, 34 (4) (2013), pp. 280-287,spa
dcterms.references[16] F. Champagne, P. Chretien, C.W. Stevenson, T.Y. Zhang, A. Gratton, M.J. Meaney Variations in nucleus accumbens dopamine associated with individual differences in maternal behavior in the rat J Neurosci, 24 (17) (2004), pp. 4113-4123,spa
dcterms.references[17] B.R. Collett, M. Stott-Miller, K.A. Kapp-Simon, M.L. Cunningham, M.L. Speltz Reading in children with orofacial clefts versus controls J Ped Psychol, 35 (2010), pp. 199-208,spa
dcterms.references[18] L.C. Dang, J.P. O'Neil, W.J. Jagust Dopamine supports coupling of attention-related networks J Neurosci, 32 (28) (2012), pp. 9582-9587,spa
dcterms.references[19] L. De Pascalis, N. Kkeli, B. Chakrabarti, L. Dalton, K. Vaillancourt, H. Rayson, S. Bicknell, T. Goodacre, P. Cooper, A. Stein, L. Murray Maternal gaze to the infant face: effects of infant age and facial configuration during mother-infant engagement in the first nine weeks Infant Behav Dev, 46 (2017), pp. 91-99,spa
dcterms.references[20] Di Russo, Martínez F., Sereno A., M. I., S. Pitzalis, S.A. Hillyard Cortical sources of the early components of the visual evoked potential Hum Brain Mapp, 15 (2) (2002), pp. 95-111,spa
dcterms.references[21] M. Dozier & the Infant Caregiver Project Attachment and Biobehavioral Catch-up Intervention. Unpublished manuscript, Department of Psychology, University of Delaware, Newark, DE (2006)spa
dcterms.references[22] J. Dudek, T. Colasante, A. Zuffianò, D.W. Haley Changes in Cortical Sensitivity to Infant Facial Cues from Pregnancy to Motherhood Predict Mother–Infant Bonding Child Dev. (2018),spa
dcterms.references[23] M. Eimer Effects of face inversion on the structural encoding and recognition of faces: Evidence from event-related brain potentials Cognitive Brain Research, 10 (2000), pp. 145-158,spa
dcterms.references[24] A.E. Ferrey, N. Santascoy, E.J. McCrory, C. Thompson-Booth, L.C. Mayes, H.J. Rutherford Motivated attention and reward in parenting Parenting, 16 (4) (2016), pp. 284-301spa
dcterms.references[25] R. Freunberger, W. Klimesch, M. Doppelmayr, Y. Höller Visual P2 component is related to theta phase-locking Neurosci Lett, 426 (3) (2007), pp. 181-186spa
dcterms.references[26] A.M. Frodi Contribution of infant characteristics to child abuse Am J Ment Def. (1981spa
dcterms.references[27] N. George, J. Evans, N. Fiori, J. Davidoff, B. Renault Brain events related to normal and moderately scrambled faces Cognitive Brain Research, 4 (1996), pp. 65-76,spa
dcterms.references[28] Gomez Gonzalez, C. M., V.P. Clark, S. Fan, S.J. Luck, S.A. Hillyard Sources of attention-sensitive visual event-related potentials Brain Topogr, 7 (1) (1994), pp. 41-51spa
dcterms.references[29] A.C. Hahn, L.A. Symons, T. Kredel, K. Hanson, L. Hodgson, L. Schiavone, K.J. Jantzen Early and late event-related potentials are modulated by infant and adult faces of high and low attractiveness Social Neuroscience, 11 (2) (2016), pp. 207-220,spa
dcterms.references[30] H. Halit, M. De Haan, M.H. Johnson Modulation of event-related potentials by prototypical and atypical faces NeuroReport, 11 (9) (2000), pp. 1871-1875,spa
dcterms.references[31] F. Hentges, J. Hill, D.V.M. Bishop, T. Goodacre, T. Moss, L. Murray The effect of cleft lip on cognitive development in school-aged children: a paradigm for examining sensitive period effects J Child Psychol Psychiat, 52 (2011), pp. 704-712,spa
dcterms.references[32] S.A. Hillyard, E.K. Vogel, S.J. Luck Sensory gain control (amplification) as a mechanism of selective attention: electrophysiological and neuroimaging evidence Philos T Roy Soc B, 353 (1373) (1998), pp. 1257-1270spa
dcterms.references[33] R. Huffmeijer, M.J. Bakermans-Kranenburg, L.R.A. Alink, M.H. Van IJzendoorn Reliability of event-related potentials: the influence of number of trials and electrodes Physiol Behav, 130 (2014), pp. 13-22,spa
dcterms.references[34] R. Huffmeijer, J. Eilander, V.R. Mileva-Seitz, R.C. Rippe Changes in face-specific neural processing explain reduced cuteness and approachability of infants with cleft lip Soc Neurosci, 13 (4) (2018), pp. 439-450,spa
dcterms.references[35] T. Iidaka, A. Matsumoto, K. Haneda, T. Okada, N. Sadato Hemodynamic and electrophysiological relationship involved in human face processing: evidence from a combined fMRI-ERP study Brain Cogn, 60 (2006), pp. 176-186,spa
dcterms.references[36] R.J. Itier, M.J. Taylor Inversion and contrast polarity reversal affect both encoding and recognition processes of unfamiliar faces: A repetition study using ERPs NeuroImage, 15 (2002), pp. 353-372spa
dcterms.references[37] C. Joyce, B. Rossion The face-sensitive N170 and VPP components manifest the same brain processes: the effect of reference electrode site Clin Neurophysiol, 116 (2005), pp. 2613-2631spa
dcterms.references[38] Juffer, F., Bakermans-Kranenburg, M.J., & Van IJzendoorn, M.H. (2008). Promoting positive parenting: an attachment-based intervention. New York: Lawrence Erlbaum
dcterms.references[39] D.A. Kenny, C.M. Judd Power anomalies in testing mediation Psychological Science, 25 (2) (2014), pp. 334-339,spa
dcterms.references[40] Kienberger Jaudes, L. Mackey-Bilaver Do chronic conditions increase young children's risk of being maltreated? Child Abuse Neglect, 32 (2008), pp. 671-681,spa
dcterms.references[41] J. Kohl, A.E. Autry, C. Dulac The neurobiology of parenting: a neural circuit perspective Bioessays, 39 (2016),spa
dcterms.references[42] L. Kolijn, R. Huffmeijer, B.G. Van Den Bulk, C.I. Vrijhof, M.H. Van IJzendoorn, M.J. Bakermans-Kranenburg Effects of the Video-feedback intervention to promote positive parenting and sensitive discipline on mothers’ neural responses to child faces: A randomized controlled ERP study including pre-and post-intervention measures Soc Neurosci (2019), pp. 1-15,spa
dcterms.references[43] A. Korchounov, M.F. Meyer, M. Krasnianski Postsynaptic nigrostriatal dopamine receptors and their role in movement regulation J Neural Transm, 117 (12) (2010), pp. 1359-1369,spa
dcterms.references[44] E. Kotsoni, G. Csibra, D. Mareschal, M.H. Johnson Electrophysiological correlates of common-onset visual masking Neuropsychologia, 45 (2007), pp. 2285-2293,spa
dcterms.references[45] M.L. Kringelbach, E.A. Stark, C. Alexander, M.H. Bornstein, A. Stein On cuteness: unlocking the parental brain and beyond Trends Cogn Sci, 20 (7) (2016), pp. 545-558,spa
dcterms.references[46] A. Krombholz, F. Schaefer, W. Boucsein Modification of N170 by different emotional expression of schematic faces Biological Psychology, 76 (2007), pp. 156-162spa
dcterms.references[47] L.A. Leavitt Mothers’ sensitivity to infant signals Pediatrics, 102 (5) (1998), p. e1247,spa
dcterms.references[48] L.A. Leavitt Research to practice: emotional development and maternal/infant attachment J Pediatr Health Car, 13 (3 Pt 2) (1999), pp. S4-S7,spa
dcterms.references[49] E.M. Leerkes Predictors of Maternal Sensitivity to Infant Distress Parent-Sci Pract, 10 (3) (2010), pp. 219-239,spa
dcterms.references[50] E. Leibenluft, M.I. Gobbini, T. Harrison, J.V. Haxby Mothers’ neural activation in response to pictures of their children and other children Biol Psychiat, 56 (4) (2004), pp. 225-232,spa
dcterms.references[51] M. Li, R. Budin, A.S. Fleming, S. Kapur Effects of chronic typical and atypical antipsychotic drug treatment on maternal behavior in rats Schizophr Res, 75 (2-3) (2005), pp. 325-336,spa
dcterms.references[52] M. Li, P. Davidson, R. Budin, S. Kapur, A.S. Fleming Effects of typical and atypical antipsychotic drugs on maternal behavior in postpartum female rats Schizophr Res, 70 (1) (2004), pp. 69-80,spa
dcterms.references[53] J. Liggins, R.O. Pihl, C. Benkelfat, M. Leyton The dopamine augmenter L-DOPA does not affect positive mood in healthy human volunteers PLoS One, 7 (1) (2012), p. e28370,spa
dcterms.references[54] J.P. Lorberbaum, J.D. Newman, A.R. Horwitz, J.R.J.R.J.R. Dubno, R.B.B. Lydiard, M.B. Hamner, M.S.M.S. … George A potential role for thalamocingulate circuitry in human maternal behavior Biol Psychiat, 51 (6) (2002), pp. 431-445,spa
dcterms.references[55] K. Lorenz The innate forms of potential experience Z Tierpsychol, 5 (1943), pp. 235-409spa
dcterms.references[56] S.J. Luck An introduction to the event-related potential technique MIT press. (2014)spa
dcterms.references[57] W.B. Luo, W.F. Feng, W.Q. He, N.Y. Wang, Y.J. Luo Three stages of facial expression processing: ERP study with rapid serial visual presentation NeuroImage, 49 (2) (2010), pp. 1857-1867spa
dcterms.references[58] J.H. Maunsell Neuronal representations of cognitive state: reward or attention? Trends Cogn Sci, 8 (6) (2004), pp. 261-265spa
dcterms.references[59] V. Mileva-Seitz, A.S. Fleming, M.J. Meaney, A. Mastroianni, J.P. Sinnwell, M. Steiner, ..., M.B. Sokolowski Dopamine receptors D1 and D2 are related to observed maternal behavior Genes Brain Behav, 11 (6) (2012), pp. 684-694,spa
dcterms.references[60] A.K. Montoya, A.F. Hayes Two-condition within-participant statistical mediation analysis: a path-analytic framework Psychol Meth (2016)spa
dcterms.references[61] Mossey, P.A., & Catilla, E.E. (2003). Global registry and database on craniofacial anomalies: report of a WHO Registry Meeting on craniofacial
dcterms.references[62] P.A. Mossey, J. Little, R.G. Munger, M.J. Dixon, W.C. Shaw Cleft lip and palate Lancet, 374 (2009), pp. 1773-1785spa
dcterms.references[63] L. Murray, F. Hentges, J. Hill, J. Karpf, B. Mistry, M. Kreutz, P. Woodall, T. Moss, T. Goodacre The effect of cleft lip and palate, and the timing of lip repair on mother-infant interactions and infant development J Child Psychol Psychiat, 49 (2008), pp. 115-123,spa
dcterms.references[64] J.B. Nitschke, E.E. Nelson, B.D. Rusch, A.S. Fox, T.R. Oakes, R.J. Davidson Orbitofrontal cortex tracks positive mood in mothers viewing pictures of their newborn infants NeuroImage, 21 (2) (2004), pp. 583-592spa
dcterms.references[65] M. Noriuchi, Y. Kikuchi, A. Senoo The functional neuroanatomy of maternal love: mother's response to infant's attachment behaviors Biol Psychiat, 63 (4) (2008), pp. 415-423spa
dcterms.references[66] D.A. Norman, T. Shallice Attention to Action - Willed and Automatic-Control of Behavior Bull Psychonom Soc, 21 (5) (1983), p. 354spa
dcterms.references[67] B. Noudoost, T. Moore The role of neuromodulators in selective attention Trends Cogn Sci, 15 (12) (2011), pp. 585-591,spa
dcterms.references[68] M. Numan, M.J. Numan, N. Pliakou, D.S. Stolzenberg, O.J. Mullins, J.M. Murphy, C.D. Smith The effects of D1 or D2 dopamine receptor antagonism in the medial preoptic area, ventral pallidum, or nucleus accumbens on the maternal retrieval response and other aspects of maternal behavior in rats Behav Neurosci, 119 (6) (2005), pp. 1588-1604spa
dcterms.references[69] N.Y. Oei, S.A. Rombouts, R.P. Soeter, J.M. Van Gerven, S. Both Dopamine modulates reward system activity during subconscious processing of sexual stimuli Neuropsychopharmacol, 37 (7) (2012), p. 1729,spa
dcterms.references[70] I. Opris, C.J. Bruce Neural circuitry of judgment and decision mechanisms Brain Res Rev, 48 (3) (2005), pp. 509-526,spa
dcterms.references[71] M. Parada, S. King, M. Li, A.S. Fleming The roles of accumbal dopamine D1 and D2 receptors in maternal memory in rats Behav Neurosci, 122 (2) (2008), pp. 368-376,spa
dcterms.references[72] C.E. Parsons, K.S. Young, H. Mohseni, M.W. Woolrich, K Romer Thomsen, M Joensson, L. Murray, T Goodacre, A. Stein, M.L Kringelbach Minor structural abnormalities in the infant face disrupt neural processing: a unique window into early caregiving responses Soc Neurosci, 8 (4) (2013), pp. 268-274spa
dcterms.references[73] C.E. Parsons, K.S. Young, E. Parsons, A. Dean, L. Murray, T. Goodacre, L. Dalton, A. Stein, M.L. Kringelbach The effect of cleft lip on adults’ responses to faces: cross-species findings PLoS one, 6 (10) (2011), p. e25897spa
dcterms.references[74] C.J. Peck, D.C. Jangraw, M. Suzuki, R. Efem, J. Gottlieb Reward modulates attention independently of action value in posterior parietal cortex J Neurosci, 29 (36) (2009), pp. 11182-11191spa
dcterms.references[75] S. Ranote, R. Elliott, K.M. Abel, R. Mitchell, J.F.W. Deakin, L. Appleby The neural basis of maternal responsiveness to infants: an fMRI study NeuroReport, 15 (11) (2004), pp. 1825-1829spa
dcterms.references[76] H. Rayson, C.E. Parsons, K.S. Young, T. Goodacre, M.L. Kringelbach, J.J. Bonaiuto, E. McSorley, L. Murray Effects of infant cleft lip on adult gaze and perceptions of “cuteness” Cleft Palate-Cran J, 54 (5) (2017), pp. 562-570spa
dcterms.references[77] J.K. Rilling, J.S. Mascaro The neurobiology of fatherhood Current Opinion in Psychology, 15 (2017), pp. 26-32spa
dcterms.references[78] J.K. Rilling, L.J. Young The biology of mammalian parenting and its effect on offspring social development. science, 345 (6198) (2014), pp. 771-776spa
dcterms.references[79] M.J. Rodrigo, I. León, I. Quiñones, A. Lage, S. Byrne, M.A. Bobes Brain and personality bases of insensitivity to infant cues in neglectful mothers: an event-related potential study Dev Psychopathol, 23 (2011), pp. 163-176spa
dcterms.references[80] B. Rossion, C.A. Joyce, G.W. Cottrell, M.J. Tarr Early lateralization and orientation tuning for face, word, and object processing in the visual cortex NeuroImage, 20 (3) (2003), pp. 1609-1624spa
dcterms.references[81] A.M. Rozendaal, A.D. Mohangoo, A.J.M. Luijsterburg, M.K. Bakker, E.M. Ongkusowito, Vermeij-Keers Prevalentie van schisis in Nederland en Noord-Nederland in 1997-2007: trendanalyse van gegevens uit drie Nederlandse registraties Tijdschrift voor Kindergeneeskunde, 79 (1) (2011), pp. 16-25spa
dcterms.references[82] J.A. Rushby, R.J. Barry, S.J. Johnstone Event-related potential correlates of serial position effects during an elaborative memory test Int J Psychophysiol, 46 (1) (2002), pp. 13-27spa
dcterms.references[83] H.J. Rutherford, A.N. Maupin, N. Landi, M.N. Potenza, L.C. Mayes Parental reflective functioning and the neural correlates of processing infant affective cues Soc Neurosci, 12 (5) (2017), pp. 519-529spa
dcterms.references[84] N. Sagiv, S. Bentin Structural encoding of human and schematic faces: Holistic and part-based processes Journal of Cognitive Neuroscience, 13 (7) (2001), pp. 937-951spa
dcterms.references[85] K. Sander, Y. Frome, H. Scheich FMRI activations of amygdala, cingulate cortex, and auditory cortex by infant laughing and crying Hum Brain Mapp, 28 (10) (2007), pp. 1007-1022spa
dcterms.references[86] E. Seifritz, F. Esposito, J.G. Neuhoff, A. Lüthi, H. Mustovic, G. Dammann, G. Tedeschi Differential sex-independent amygdala response to infant crying and laughing in parents versus nonparents Biol Psychiat, 54 (12) (2003), pp. 1367-1375spa
dcterms.references[87] B.E. Schmeichel, F.P. Zemlan, C.W. Berridge A selective dopamine reuptake inhibitor improves prefrontal cortex-dependent cognitive function: Potential relevance to attention deficit hyperactivity disorder Neuropharmacol, 64 (2013), pp. 321-328spa
dcterms.references[88] H. Schuiringa, M. Van Nieuwenhuijzen, B. Orobio de Castro, W. Matthys Parenting and the parent-child relationship in families of children with mild to borderline intellectual disabilities and externalizing behavior Res Dev Disabil, 36 (2015), pp. 1-12spa
dcterms.references[89] J.K. Seamans, C.R. Yang The principal features and mechanisms of dopamine modulation in the prefrontal cortex Prog Neurobiol, 74 (1) (2004), pp. 1-58spa
dcterms.references[90] M.L. Speltz, M.C. Endriga, S. Hill, C.L. Maris, K. Jones, M.L. Omnell Cognitive and psychomotor development of infants with orofacial clefts J Ped Psychol, 25 (2000), pp. 185-190spa
dcterms.references[91] R. Sprengelmeyer, I. Jentzsch Event related potentials and the perception of intensity in facial expressions Neuropsychologia, 44 (2006), pp. 2899-2906spa
dcterms.references[92] R. Sprengelmeyer, D.I. Perrett, E.C. Fagan, R.E. Cornwell, J.S. Lobmaier, A. Sprengelmeyer, H.B.M. Aasheim, I.M. Black, L.M. Cameron, S. Crow, N. Milne, E.C. Rhodes, A.W. Young The cutest little baby face: a hormonal link to sensitivity to cuteness in infant faces Psychol Sci, 20 (2009), pp. 149-154spa
dcterms.references[93] L. Strathearn, J. Li, P. Fonagy, P.R. Montague What's in a smile? Maternal brain responses to infant facial cues Pediatrics, 122 (1) (2008), pp. 40-51spa
dcterms.references[94] P.M. Sullivan, J.F. Knutson Maltreatment and disabilities: a population-based epidemiological study Child Abuse Neglect, 24 (10) (2000), pp. 1257-1273spa
dcterms.references[95] J.E. Swain Baby stimuli and the parent brain: functional neuroimaging of the neural substrates of parent-infant attachment Psychiat, 5 (8) (2008), pp. 28-36spa
dcterms.references[96] D. Talsma, H.A. Slagter, S. Nieuwenhuis, J. Hage, A. Kok The orienting of visuospatial attention: an event-related brain potential study Cogn Brain Res, 25 (2005), pp. 117-129spa
dcterms.references[97] L.T. Trujillo, J.M. Jankowitsch, J.H. Langlois Beauty is in the ease of the beholding: a neurophysiological test of the averageness theory of facial attractiveness Cognitive Affective and Behavioral Neuroscience, 14 (2014), pp. 1061-1076spa
dcterms.references[98] S. Vijayraghavan, M. Wang, S.G. Birnbaum, G.V. Williams, A.F. Arnsten Inverted-U dopamine D1 receptor actions on prefrontal neurons engaged in working memory Nat Neurosci, 10 (3) (2007), p. 376spa
dcterms.references[99] A. Voorthuis, D. Out, R. Van der Veen, R. Bhandari, M.H. Van IJzendoorn, M.J. Bakermans-Kranenburg One doll fits all: validation of the Leiden infant simulator sensitivity assessment (LISSA) Attach Hum Dev, 15 (2013), pp. 603-617spa
dcterms.references[100] P. Vuilleumier How brains beware: neural mechanisms of emotional attention Trends Cogn Sci, 9 (12) (2005), pp. 585-594spa
dcterms.references[101] L.M. Williams, D. Palmer, B.J. Liddell, L. Song, E. Gordon The ‘when’ and ‘where’ of perceiving signals of threat versus non-threat NeuroImage, 31 (2006), pp. 458-467spa
dcterms.references[102] M.G. Woldorff, C.C. Gallen, S.A. Hampson, S.A. Hillyard, C. Pantev, D. Sobel, F.E. Bloom Modulation of early sensory processing in human auditory cortex during auditory selective attention P Natl Acad Sci USA, 90 (18) (1993), pp. 8722-8726spa
dcterms.references[103] W. Wood, A.H. Eagly A cross-cultural analysis of the behavior of women and men: Implications for the origins of sex differences Psychol Bull, 128 (5) (2002), pp. 699-727spa
dcterms.references[104] R. Yamamoto, D. Ariely, W. Chi, D.D. Langleben, I. Elman Gender differences in the motivational processing of babies are determined by their facial attractiveness PloS One, 4 (2009), p. e6042spa
dcterms.references[105] S Zhu, J Jayaraman, B Khambay Evaluation of facial appearance in patients with cleft lip and palate by laypeople and orofessionals: a systematic literature review Cleft Palate Craniofacial Journal, 53 (2) (2016), pp. 187-196spa
dcterms.references[106] Barrett, et al. Maternal affect and quality of parenting experiences are related to amygdala response to infant faces Social Neuroscience (2011),spa

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