International Journal of Physiology

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Hypothesis formulation for Integrated Neuroendocrinal Mechanisms for Pair Bonding, Romantic Love, Maternal and Paternal Love


Affiliations
1 Professor of Physiology, Saraswathi Institute of Medical Sciences, NH-24, Anwarpur, U.P
     

   Subscribe/Renew Journal


Affiliation, pair bonding and love are important for survival, health and happiness. On the basis of various studies on neural mechanisms, endocrinal and genetic factors involved in various kinds of love, the purpose of this article is to hypothesize comprehensive, integrated neuroendocrinal mechanisms involved in pair bonding, romantic love, maternal and paternal love. The postulation depicted as flow charts at the end of this article seems to be triggered by various factors involving multiple neuroendocrinal mechanisms. It is concluded that the physiological mechanisms involved and the brain areas activated in each of these differ and the representation of postulated comprehensive mechanism in this article is an attempt to add a new dimension to understand the science of a very basic human quality of love.

Keywords

Pair Bonding, Maternal Love, Paternal Care, Oxytocin, Argininevasopressin (AVP)
Subscription Login to verify subscription
User
Notifications
Font Size


  • Kumar S, Nagendra HR, Manjunath NK, Naveen KV, Telles S. Meditation on OM: Relevance from ancient texts and contemporary science. Int J Yoga 2010 ; 3:2-5.

  • Telles S, Nagarathna R, Nagendra HR. Autonomic changes during ‘OM’ meditation. Indian J Physiol Pharmacol 1995;39: 418-20.

  • Telles S, Nagarathna R, Nagendra HR, Autonomic changes while mentally repeating two syllables- one meaningful and the other neutral. Indian J Physiol Pharmacol 1998; 42:57-63.

  • Lagopoulos. Increased Theta and Alpha EEG Activity During Nondirective Meditation. The Journal of Alternative and Complementary Medicine, 2009; 15 (11): 1187.

  • Bijlani R.L; Understanding medical physiology, 2011; 4th edition: 766-767.

  • Guyton, Hall. Textbook of Medical Physiology, 2012 ; 12, 723-724.

  • Lagopoulos. Increased Theta and Alpha EEG Activity During Nondirective Meditation. The Journal of Alternative and Complementary Medicine, 2009; 15 (11): 1187.

  • Gross, Richard E. Psychology: the science of mind and behavior 1992; London: Hodder & Stoughton. pp. 112–113.

  • Mistlberger, R. E., Bergmann, B. M., & Rechtschaffen, A. Relationships among wake episode lengths , and electroencephalographic delta waves in rats with suprachiasmatic nuclei lesions. Sleep; 1987; 10(1), 12-24.

  • Maquet, P., Degueldre, C., Delfiore, G., Aerts, J., Peters, J. M., Luxen, A. Functional neuroanatomy of human slow wave sleep. Journal of Neuroscience; 1997; 17(8), 2807-2812.

  • Lee, J., Kim, D., Shin, H. Lack of delta waves and sleep disturbances during non-rapid eye movement sleep in mice lacking a1g-subunit of T-type calcium channels. PNAS 2002;101(52): 18195- 18199.

  • Hobson, J. , & Pace-Schott, E.The Cognitive Neuroscience of Sleep: Neuronal Systems, Consciousness and Learning. Nature Reviews Neuroscience 2002; 3(9), 679-693.

  • McCormick DA, Pape HC. Noradrenergic and serotonergic modulation of a hyperpolarizationactivated cation current in thalamic relay neurones. J Physiol 1990 ; 431:319-342.

  • Wang XJ. Pacemaker neurons for the theta rhythm and their synchronization in the septohippocampal reciprocal loop. J Neurophysiol 2002; 87 (2): 889–900.

  • Alonso, A; Llinás R. Subthreshold Na+-dependent theta-like rhythmicity in entorhinal cortex layer II stellate cells. Nature 1989; 342 (6246): 175–177.

  • Buzsáki, G. “Theta oscillations in the hippocampus”. Neuron 2002 ; 33 (3): 325–40..

  • Steriade M, Timofeev I. Neuronal plasticity in thalamocortical networks during sleep and waking oscillations. Neuron 2003; 37:563-576.

  • Hyman, JM; Wyble BP, Goyal V, Rossi CA, Hasselmo ME. Stimulation in hippocampal region CA1 in behaving rats yields LTP when delivered to the peak of theta and LTD when delivered to the trough . J Neurosci 2003; 23 (37): 11725–31.

  • Brankack, J; Stewart M, Fox SE. Current source density analysis of the hippocampal theta rhythm: Associated sustained potentials and candidate synaptic generators. Brain Res 1993; 615 (2): 310–327.


Abstract Views: 429

PDF Views: 0




  • Hypothesis formulation for Integrated Neuroendocrinal Mechanisms for Pair Bonding, Romantic Love, Maternal and Paternal Love

Abstract Views: 429  |  PDF Views: 0

Authors

J.L. Agarwal
Professor of Physiology, Saraswathi Institute of Medical Sciences, NH-24, Anwarpur, U.P

Abstract


Affiliation, pair bonding and love are important for survival, health and happiness. On the basis of various studies on neural mechanisms, endocrinal and genetic factors involved in various kinds of love, the purpose of this article is to hypothesize comprehensive, integrated neuroendocrinal mechanisms involved in pair bonding, romantic love, maternal and paternal love. The postulation depicted as flow charts at the end of this article seems to be triggered by various factors involving multiple neuroendocrinal mechanisms. It is concluded that the physiological mechanisms involved and the brain areas activated in each of these differ and the representation of postulated comprehensive mechanism in this article is an attempt to add a new dimension to understand the science of a very basic human quality of love.

Keywords


Pair Bonding, Maternal Love, Paternal Care, Oxytocin, Argininevasopressin (AVP)

References