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tendon of biceps brachii
|
UBERON_0008188 |
[A tendon that attaches_to a biceps brachii.] |
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Left atrial isomerism
|
HP_0011537 |
[In left atrial isomerism there is a bilateral small finger-shaped morphologically left atrial appendage joining the atrial chamber along a narrow front without an internal terminal crest.] |
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Left Isomerism
|
HP_0031854 |
[A type of heterotaxy where some paired structures on opposite sides of the left-right axis of the body are symmetrical mirror images of each other, and have the morphology of the normal left-sided structures.] |
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Abnormal atrial arrangement
|
HP_0011535 |
[Abnormality of the spatial relationship of the atria to other components of the heart.] |
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Atrial situs inversus
|
HP_0011538 |
[Mirror image atrial arrangement, with morphologic right atrium on the left hand side and morphologic left atrium on the right hand side.] |
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Right atrial isomerism
|
HP_0011536 |
[Right atrial isomerism is characterized by bilateral triangular, morphologically right atrial, appendages, both joining the atrial chamber along a broad front with internal terminal crest.] |
|
Right isomerism
|
HP_0031855 |
[A type of heterotaxy where some paired structures on opposite sides of the left-right axis of the body are symmetrical mirror images of each other, and have the morphology of the normal right-sided structures.] |
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Atrial situs ambiguous
|
HP_0011539 |
[Common atrium without defining morphologic features.] |
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Retinal hole
|
HP_0011530 |
[A full-thickness defect in the retina.] |
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Retinal perforation
|
HP_0011958 |
[A hole through the whole thickness of the retina, associated with trauma.] |
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Snowflake vitreoretinal degeneration
|
HP_0011533 |
[The appearance of yellow/white crystalline-like (hence the name) spots in the retina and thickening of the peripheral part of the vitreous.] |
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Subretinal exudate
|
HP_0011532 |
[A type of retinal exudate located in the subretinal space between the sensory retina and the retinal pigment epithelium.] |
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syncytial cell
|
CL_4052002 |
[A multinucleate cell formed by the fusion of multiple uninuclear cells through plasma membrane fusion. This process leads to a single large cell containing multiple nuclei within a shared cytoplasm.] |
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multinucleate cell
|
CL_0000228 |
[A cell with more than one nucleus.] |
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intestinal enteroendocrine progenitor
|
CL_4052006 |
[An epithelial cell that is part of the crypt of Lieberkuhn, originating from intestinal stem cells and giving rise to enteroendocrine cells (EECs). In mouse and human, this cell can be characterized by the expression of Neurog3, and has the ability to proliferate and differentiate into multiple EEC subtypes. Its proliferative potential contributes to crypt growth, distinguishing it from fully differentiated EECs.] |
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accessory ciliary ganglion
|
UBERON_0035776 |
[A parasympathetic ganglion located on the short ciliary nerve differentiated from the main ciliary ganglion by virtue of the fact that it had no root derived directly from the inferior trunk of the oculomotor nerve and it never attaches to this nerve.] |
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intestinal villus capillary endothelial cell
|
CL_4052003 |
[A capillary endothelial cell that is part of the intestinal villus. This cell is highly fenestrated, with fenestrations most numerous at the villus tips, and plays a vital role in nutrient absorption and maintaining the selective permeability of the intestinal barrier.] |
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gut endothelial cell
|
CL_0000131 |
[An endothelial cell that lines the blood and lymphatic vessels of the digestive tract. This cell forms the gut–vascular barrier (GVB) through tight junctions and crosstalk with pericytes and enteric glial cells, regulating the passage of nutrients and immune cells while restricting microbial translocation into the bloodstream.] |
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enteroglial cell
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CL_4040002 |
[Glial cell that provides support to the enteric nervous system. It is involved in enteric neurotransmission, in maintaining the integrity of the mucosal barrier of the gut and serves as a link between the nervous and immune systems of the gut. In enteric nerve strands, glial processes ensheath multiaxonal bundles which distinguishes enteric glia from all other peripheral glia. Ultrastructurally, the most conspicuous trait of an enteroglial cell is the presence of 10 nm filaments, which criss-cross the cell body, form axial bundles in the processes and appear to firmly anchor the cells to the ganglionic surfaces. Similar to astrocytes, their main constituent is glial fibrillary acidic protein (GFAP).] |
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fetal pre-type II pulmonary alveolar epithelial cell
|
CL_4040003 |
[Precursor of type II pneumocyte. These cells do not have lamellar bodies, which are a marker of type II pneumocyte maturity.] |
