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International Journal of Neuroscience Volume 67, 1992 - Issue 1-4
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Original Article

Pineal and Habenula Calcification in Schizophrenia

Reuven Sandyk Department of Psychiatry, Albert Einstein College of Medicine, Bronx, NY, 10461, USA
Pages 19-30 | Received 15 Jul 1991, Accepted 06 Mar 1992, Published online: 07 Jul 2009

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Joseph Glicksohn, Iris Balmor-braun, Jacob Bar-ziv & Michael S. Myslobodsky. (1998) Is Spatial Orientation Influenced by the Calcification of Intracranial Structures?. International Journal of Neuroscience 96:1-2, pages 73-85.
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O. Junemann, A. G. Ivanova, I. Bukreeva, D. A. Zolotov, M. Fratini, A. Cedola, F. Wilde, I. G. Dyachkova, Yu. S. Krivonosov, D. A. Otlyga & S. V. Saveliev. (2023) Comparative study of calcification in human choroid plexus, pineal gland, and habenula. Cell and Tissue Research.
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Inna Bukreeva, Olga Junemann, Alessia Cedola, Francesco Brun, Elena Longo, Giuliana Tromba, Fabian Wilde, Marina V. Chukalina, Yuri S. Krivonosov, Irina G. Dyachkova, Alexey V. Buzmakov, Denis A. Zolotov, Francesca Palermo, Giuseppe Gigli, Dmitry A. Otlyga, Sergey V. Saveliev, Michela Fratini & Victor E. Asadchikov. (2022) Micromorphology of pineal gland calcification in age‐related neurodegenerative diseases. Medical Physics 50:3, pages 1601-1613.
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Mickey E. Abraham, Vera Ong, Julian Gendreau, Nolan J. Brown, Elliot H. Choi, Nathan A. Shlobin, Chen Yi Yang, Shane Shahrestani, Alexander S. Himstead, Donald K. Detchou, Neal Patel, Justin Gold, Ronald Sahyouni, Luis D. Diaz-Aguilar & Sharona Ben-Haim. (2023) Investigating Deep Brain Stimulation of the Habenula: A Review of Clinical Studies. Neuromodulation: Technology at the Neural Interface 26:2, pages 292-301.
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V. N. Nikolenko, N. A. Rizaeva, M. V. Oganesyan, K. A. Vekhova, N. A. F. Alyautdinova, S. I. Balan, T. A. Karashaeva & A. A. Bolotskaya. (2022) Brain commissures and related pathologies. Neurology, Neuropsychiatry, Psychosomatics 14:6, pages 73-79.
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Mehrdad Ghorbanlou, Fatemeh Moradi & Mehdi Mehdizadeh. (2022) Frequency, shape, and estimated volume of intracranial physiologic calcification in different age groups investigated by brain computed tomography scan: a retrospective study. Anatomy & Cell Biology 55:1, pages 63-71.
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Maria Dao, Hannah M. Stoveken, Yan Cao & Kirill A. Martemyanov. (2021) The role of orphan receptor GPR139 in neuropsychiatric behavior. Neuropsychopharmacology 47:4, pages 902-913.
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Jürgen Germann, Manuel Mameli, Gavin J. B. Elias, Aaron Loh, Alaa Taha, Flavia Venetucci Gouveia, Alexandre Boutet & Andres M. Lozano. (2021) Deep Brain Stimulation of the Habenula: Systematic Review of the Literature and Clinical Trial Registries. Frontiers in Psychiatry 12.
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Holly A. Reichard, Hans H. Schiffer, Holger Monenschein, Josephine M. Atienza, Gerard CorbettAlton W. Skaggs, Deanna R. Collia, William J. Ray, Jordi Serrats, Joshua Bliesath, Nidhi Kaushal, Betty P. Lam, Alejandro Amador-Arjona, Lisa Rahbaek, Donavon J. McConn, Victoria J. MulliganNicola BricePhilip L. R. GaskinJackie CiliaStephen Hitchcock. (2021) Discovery of TAK-041: a Potent and Selective GPR139 Agonist Explored for the Treatment of Negative Symptoms Associated with Schizophrenia. Journal of Medicinal Chemistry 64:15, pages 11527-11542.
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Yuhan WangChencheng ZhangYingying ZhangHengfen GongJun LiHaiyan Jin, Dianyou LiDengtang Liu & Bomin Sun. (2020) Habenula deep brain stimulation for intractable schizophrenia: a pilot study. Neurosurgical Focus 49:1, pages E9.
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Hailan Hu, Yihui Cui & Yan Yang. (2020) Circuits and functions of the lateral habenula in health and in disease. Nature Reviews Neuroscience 21:5, pages 277-295.
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Jicheng Li, Shaojun Yang, Xiaofeng Liu, Yuliang Han, Yanhui Li, Jingjing Feng & Hua Zhao. (2019) Hypoactivity of the lateral habenula contributes to negative symptoms and cognitive dysfunction of schizophrenia in rats. Experimental Neurology 318, pages 165-173.
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Marco Aurélio Vinhosa Bastos Jr.Paulo Roberto Haidamus de Oliveira Bastos, Renata Boschi Portella, Leonardo Fabrício Gomes Soares, Ricardo Brilhante Conde, Paulo Milton Fernandes RodriguesJr.Jr. & Giancarlo Lucchetti. (2019) Pineal gland and schizophrenia: A systematic review and meta-analysis. Psychoneuroendocrinology 104, pages 100-114.
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S. N. Sergina, V. A. Ilyukha, A. V. Morozov, E. P. Antonova, E. S. Bruler & A. D. Volodina. (2019) Taxonomic and Ethnical Dispersion of the Phenomenon of Pineal Concretions in the Gerontological Context. Advances in Gerontology 9:2, pages 232-243.
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Christian Kaiser, Christian Kaufmann, Tobias Leutritz, Yan Luis Arnold, Oliver Speck & Markus Ullsperger. (2019) The human habenula is responsive to changes in luminance and circadian rhythm. NeuroImage 189, pages 581-588.
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Ajay S Mathuru. (2018) A little rein on addiction. Seminars in Cell & Developmental Biology 78, pages 120-129.
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Lei Zhang, Hao Wang, Shuxin Luan, Shaojun Yang, Zhuo Wang, Jinhui Wang & Hua Zhao. (2017) Altered Volume and Functional Connectivity of the Habenula in Schizophrenia. Frontiers in Human Neuroscience 11.
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Marc Fakhoury. (2017) The habenula in psychiatric disorders: More than three decades of translational investigation. Neuroscience & Biobehavioral Reviews 83, pages 721-735.
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Laura-Joy Boulos, Emmanuel Darcq & Brigitte Lina Kieffer. (2017) Translating the Habenula—From Rodents to Humans. Biological Psychiatry 81:4, pages 296-305.
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Ahmet Yalcin, Mustafa Ceylan, Omer Faruk Bayraktutan, Ali Rıza Sonkaya & Ihsan Yuce. (2016) Age and gender related prevalence of intracranial calcifications in CT imaging; data from 12,000 healthy subjects. Journal of Chemical Neuroanatomy 78, pages 20-24.
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Hans-Gert Bernstein, Jens Hildebrandt, Henrik Dobrowolny, Johann Steiner, Bernhard Bogerts & Jens Pahnke. (2016) Morphometric analysis of the cerebral expression of ATP-binding cassette transporter protein ABCB1 in chronic schizophrenia: Circumscribed deficits in the habenula. Schizophrenia Research 177:1-3, pages 52-58.
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Franziska Wagner, Leon French & Rüdiger W. Veh. (2014) Transcriptomic-anatomic analysis of the mouse habenula uncovers a high molecular heterogeneity among neurons in the lateral complex, while gene expression in the medial complex largely obeys subnuclear boundaries. Brain Structure and Function 221:1, pages 39-58.
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Franziska Wagner, Thomas Stroh & Rüdiger W. Veh. (2014) Correlating habenular subnuclei in rat and mouse by using topographic, morphological, and cytochemical criteria. Journal of Comparative Neurology 522:11, pages 2650-2662.
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Sunila G. Nair, Nicholas S. Strand & John F. Neumaier. (2013) DREADDing the lateral habenula: A review of methodological approaches for studying lateral habenula function. Brain Research 1511, pages 93-101.
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Mitsunari Nakajima, Hisamichi Mori, Chisa Nishikawa, Momoko Tsuruta, Satoshi Okuyama & Yoshiko Furukawa. (2012) Psychiatric disorder‐related abnormal behavior and habenulointerpeduncular pathway defects in Wnt1‐cre and Wnt1‐GAL4 double transgenic mice. Journal of Neurochemistry 124:2, pages 241-249.
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Kristine Gampe, Klaus Hammer, Ágnes Kittel & Herbert Zimmermann. (2012) The medial habenula contains a specific nonstellate subtype of astrocyte expressing the ectonucleotidase NTPDase2. Glia 60:12, pages 1860-1870.
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Anthony J. Gifuni, Solmaz Jozaghi, Anne-Catherine Gauthier-Lamer & Sandra M. Boye. (2012) Lesions of the lateral habenula dissociate the reward-enhancing and locomotor-stimulant effects of amphetamine. Neuropharmacology 63:6, pages 945-957.
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René Bernard & Rüdiger W. Veh. (2012) Individual neurons in the rat lateral habenular complex project mostly to the dopaminergic ventral tegmental area or to the serotonergic raphe nuclei. The Journal of Comparative Neurology 520:11, pages 2545-2558.
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Hsiang-Shu Yin, Tai-Wei Tien, Litzu Li, Yaw-Hua Yang & Chuan-Ching Lai. (2012) Amphetamine differentially modifies the expression of monoaminergic and GABAergic synaptic boutons and processes in lateral habenula, dorsal and ventral hippocampal formation. NeuroToxicology 33:2, pages 235-245.
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Isaac Túnez, Inmaculada Tasset, Verónica Pérez-De La Cruz & Abel Santamaría. (2010) 3-Nitropropionic Acid as a Tool to Study the Mechanisms Involved in Huntington’s Disease: Past, Present and Future. Molecules 15:2, pages 878-916.
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