下垂体柄
- 関
- hypophysis、pituitary gland、pituitary stalk
WordNet
- walk stiffly
- a slender or elongated structure that supports a plant or fungus or a plant part or plant organ (同)stem
- a stiff or threatening gait (同)angry walk
- the act of following prey stealthily (同)stalking
- a hunt for game carried on by following it stealthily or waiting in ambush (同)stalking, still hunt
- go through (an area) in search of prey; "stalk the woods for deer"
PrepTutorEJDIC
- 《しばしば複合語を作って》『茎』;葉柄 / 細長い支え
- 《副詞[句]を伴って》『大手を振って歩く』,堂々と歩く / (場所に)〈疫病・災害などが〉広がる,はびこる《+『through』(『across』)+『名』》 / 〈敵・獲物など〉‘に'『忍び寄る』,そっと近づく / (災害・疫病などが)〈場所〉‘に'広まる / (敵・獲物などに)忍び寄ること / いぱって歩くこと,濶歩(かっぽ)
Wikipedia preview
出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2013/03/20 13:40:27」(JST)
[Wiki en表示]
Brain: Pituitary stalk |
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Pituitary stalk not labeled, but is the vertical blue portion. |
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Basal view of a human brain (Infundibulum labeled third from the top on right) |
Latin |
infundibulum neurohypophyseos |
Gray's |
subject #189 813 |
NeuroNames |
hier-388 |
MeSH |
Pituitary+Stalk |
- Also see infundibulum (disambiguation) for other uses of the term.
The pituitary stalk (also known as the infundibular stalk or simply the infundibulum) is the connection between the hypothalamus and the posterior pituitary. The floor of the third ventricle is prolonged downward as a funnel-shaped recess, the infundibular recess, into the infundibulum, and to the apex of the latter the hypophysis or pituitary is attached.[1]
It carries axons from the magnocellular neurosecretory cells of the hypothalamus down to the posterior pituitary where they release their neurohypophysial hormones, oxytocin and vasopressin, into the blood.
This connection is called the hypothalamo-hypophyseal tract or hypothalamo-neurohypophyseal tract.
Contents
- 1 Compression
- 2 Additional images
- 3 External links
- 4 References
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Compression
It has been thought that the pituitary stalk may become compressed due to suprasellar tumors in the pars tuberalis region, and that the resulting compression may cause hyperprolactinemia.[2] This phenomenon has been described as the stalk effect or pituitary stalk compression syndrome.[2]
However, at least one article suggests that the increase in prolactin in these cases may instead be caused by the tumor's secretion of preprotachykinin A derived tachykinins, substance P, and/or neurokinin A.[2]
Additional images
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The sinuses at the base of the skull.
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Median sagittal section of brain. The relations of the pia mater are indicated by the red color.
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Drawing of a cast of the ventricular cavities, viewed from the side.
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The hypophysis cerebri in position. Shown in sagittal section.
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Vertical sections of the heads of early embryos of the rabbit. Magnified.
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Human brainstem anterior view
External links
- Pituitary+stalk at eMedicine Dictionary
References
- ^ Grey's Anatomy
- ^ a b c Skinner, Donal (March 2009). "Rethinking the Stalk Effect: A New Hypothesis Explaining Suprasellar Tumor-Induced Hyperprolactinemia". Med hypotheses 72 (3): 309-310. doi:10.1016/j.mehy.2008.08.030. PMC 2668659. PMID 19028420. //www.ncbi.nlm.nih.gov/pmc/articles/PMC2668659/. Retrieved 2012 June 29.
Human brain: diencephalon (TA A14.1.08, GA 9.807)
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Epithalamus |
Surface |
- Pineal body
- Habenula
- Habenular trigone
- Habenular commissure
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Grey matter |
- Pretectal area
- Habenular nuclei
- Subcommissural organ
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Thalamus |
Surface |
- Stria medullaris of thalamus
- Thalamic reticular nucleus
- Taenia thalami
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Grey matter/
nuclei |
- paired: AN
- Ventral
- Lateral
- Metathalamus
- midline: MD
- Intralaminar
- Midline nuclear group
- Interthalamic adhesion
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White matter |
- Mammillothalamic fasciculus
- Pallidothalamic tracts
- Ansa lenticularis
- Lenticular fasciculus
- Thalamic fasciculus
- PCML
- Medial lemniscus
- Trigeminal lemniscus
- Spinothalamic tract
- Lateral lemniscus
- Dentatothalamic tract
- Acoustic radiation
- Optic radiation
- Subthalamic fasciculus
- Anterior trigeminothalamic tract
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Hypothalamus |
Surface |
- Median eminence/Tuber cinereum
- Mammillary body
- Infundibulum
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Grey matter |
Autonomic zones |
- Anterior (parasympathetic/heat loss)
- Posterior (sympathetic/heat conservation)
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Endocrine |
- posterior pituitary: Paraventricular
- magnocellular
- parvocellular
- Supraoptic
- other: Arcuate (dopamine/GHRH)
- Preoptic (GnRH)
- Suprachiasmatic (melatonin)
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Emotion |
- Lateral
- Ventromedial
- Dorsomedial
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White matter |
- afferent
- SN → Medial forebrain bundle
- efferent
- Mammillothalamic fasciculus → AN, Stria terminalis → Amygdala, Dorsal longitudinal fasciculus → SC
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Pituitary |
- Posterior is diencephalon, but anterior is glandular
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Subthalamus |
- Subthalamic nucleus
- Zona incerta
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Ventricular system:
Third ventricle |
- recesses:
- Optic recess
- Infundibular recess
- Suprapineal recess
- Pineal recess
- Hypothalamic sulcus
- Tela chorioidea of third ventricle
- Apertures: Interventricular/Monro
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anat (n/s/m/p/4/e/b/d/c/a/f/l/g)/phys/devp
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noco (m/d/e/h/v/s)/cong/tumr, sysi/epon, injr
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proc, drug (N1A/2AB/C/3/4/7A/B/C/D)
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UpToDate Contents
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English Journal
- The infundibulo-tuberal syndrome caused by craniopharyngiomas: clinicopathological evidence from an historical French cohort (1705-1973).
- Castro-Dufourny I1, Carrasco R, Prieto R, Barrios L, Pascual JM.
- Pituitary.Pituitary.2015 Oct;18(5):642-57. doi: 10.1007/s11102-014-0623-4.
- PURPOSE: Infundibulo-tuberal syndrome groups endocrine, metabolic and behavioral disturbances caused by lesions involving the upper neurohypophysis (median eminence) and adjacent basal hypothalamus (tuber cinereum). It was originally described by Henri Claude and Jean Lhermitte in 1917, in a patient
- PMID 25527245
- [Imaging findings of craniopharyngioma in relation to its surgical management: a retrospective analysis].
- Qiu SJ1, Guo YL, Zhang XL, Zhang F, Zhang YZ, Wen G, Hu BS.
- Nan fang yi ke da xue xue bao = Journal of Southern Medical University.Nan Fang Yi Ke Da Xue Xue Bao.2007 Jul;27(7):980-2.
- OBJECTIVE: To analyze the CT and magnetic resonance imaging (MRI) findings of craniopharygioma and explore the correlation between the pathological findings and clinical features of the disease.METHODS: The CT and MRI findings of 123 pathologically confirmed craniopharygioma cases were reviewed retr
- PMID 17666331
- Pituitary pathology in Erdheim-Chester disease.
- Kovacs K1, Bilbao JM, Fornasier VL, Horvath E.
- Endocrine pathology.Endocr Pathol.2004 Summer;15(2):159-66.
- Pituitary morphologic changes in patients with Erdheim-Chester disease have not been described in detail. We report here the histologic and immunohistochemical findings in the autopsy obtained pituitary of a 35-yr-old woman with extensively disseminated Erdheim-Chester disease. The posterior lobe wa
- PMID 15299202
Japanese Journal
- Immunohistochemical Study on the Fetal Rat Pituitary in Hyperthermia-Induced Exencephaly
- A Unique Case of Central Diabetes Insipidus (DI) Associated with Transient Pituitary Stalk Enlargement: Close Observation over Several Years Using Magnetic Resonance Imaging (MRI) and Hypophysial Endocrine Tests
- A Unique Case of Central Diabetes lnsipidus (DI) Associated with Transient Pituitary Stalk Enlargement. Close Observation over Several Years Using Magnetic Resonance Imaging (MRl) and Hypophysial Endocrine Tests.
★リンクテーブル★
[★]
- 英
- hypophysial stalk
- 関
- 下垂体、下垂体茎
[★]