The new stereological methods for interpreting functional morphology from slices of cells and organs.
about
Developments in cell biology for quantitative immunoelectron microscopy based on thin sections: a reviewMapping the distributions and quantifying the labelling intensities of cell compartments by immunoelectron microscopy: progress towards a coherent set of methodsLong-term upregulation of inflammation and suppression of cell proliferation in the brain of adult rats exposed to traumatic brain injury using the controlled cortical impact modelVisualization and quantitative analysis of nanoparticles in the respiratory tract by transmission electron microscopySTARD3 mediates endoplasmic reticulum-to-endosome cholesterol transport at membrane contact sitesA rapid method for assessing the distribution of gold labeling on thin sections.Adaptation of the disector method to rare small organelles in TEM sections exemplified by counting synaptic bodies in the rat pineal gland.A review of recent advances in stereology for quantifying neural structure.Tropomyosin 1: Multiple roles in the developing heart and in the formation of congenital heart defectsIncreased Amyloid Precursor Protein and Tau Expression Manifests as Key Secondary Cell Death in Chronic Traumatic Brain Injury.The human ovarian granulosa cell: a stereological approach.If you assume, you can make an ass out of u and me': a decade of the disector for stereological counting of particles in 3D spaceStereological and allometric studies on mammalian cerebral cortex with implications for medical brain imaging.Placental gene transfer: transgene screening in mice for trophic effects on the placenta.Three-dimensional visualization of intrauterine conceptus through the uterine wall by tissue clearing method.Quantitative analysis of factors contributing to expansion of microvillous surface area in the coprodaeum of hens transferred to a low NaCl diet.The effects of mode of delivery and sex of newborn on placental morphology in control and diabetic pregnancies.Electron microscopy applications for quantitative cellular microbiology.Histomorphological evaluation of diabetic and non-diabetic plantar soft tissue.Histomorphometric comparison after fixation with formaldehyde or glyoxal.Influence of post-traumatic stress disorder on neuroinflammation and cell proliferation in a rat model of traumatic brain injury.Alterations of mouse lung tissue dimensions during processing for morphometry: a comparison of methods.Knockdown of embryonic myosin heavy chain reveals an essential role in the morphology and function of the developing heartStereological estimation and morphological assessment of the endocrine pancreatic components in relation to sex in hen.Intravenous Bone Marrow Stem Cell Grafts Preferentially Migrate to Spleen and Abrogate Chronic Inflammation in Stroke.How much is there really? Why stereology is essential in lung morphometry.Stereological assessment of mouse lung parenchyma via nondestructive, multiscale micro-CT imaging validated by light microscopic histology.Neuron volume in the ventral horn in Wobbler mouse motoneuron disease: a light microscope stereological study.Over-Expression of Meteorin Drives Gliogenesis Following Striatal Injury.Quantifying immunogold labelling in transmission electron microscopy.Quantitative immunocytochemistry at the ultrastructural level: a stereology-based approach to molecular nanomorphomics.Allometric growth and development of organs in ballan wrasse (Labrus bergylta Ascanius, 1767) larvae in relation to different live prey diets and growth rates.Effect of altered haemodynamics on the developing mitral valve in chick embryonic heart.The Potential Role of Gut-Derived Inflammation in Multiple System Atrophy.The association between mechanical and biochemical/histological characteristics in diabetic and non-diabetic plantar soft tissueRegulation of the MVB pathway by SCAMP3.The xc- cystine/glutamate antiporter as a potential therapeutic target for small-cell lung cancer: use of sulfasalazine.A simple tool for stereological assessment of digital images: the STEPanizer.Quantifying immunogold labelling patterns of cellular compartments when they comprise mixtures of membranes (surface-occupying) and organelles (volume-occupying).How to count synapses unbiasedly and efficiently at the ultrastructural level: proposal for a standard sampling and counting protocol.
P2860
Q22252707-6584F99C-6311-4B70-8000-A21FC2EFCE70Q27009362-7C8B1459-AB6A-4011-B7B1-3D9BB6DB9E32Q27321727-33405959-7DF9-4ECA-AC13-170F518A7C37Q28383223-74D3368D-8418-4D67-B98F-253FB50D4858Q30274625-1166E9B0-F8CC-406C-9337-1D2B7331BED6Q31095545-A9A42739-09DE-4EEE-84F4-74407D112E90Q32159132-47DDFC58-1374-4BE2-B7CD-9CBFCC7D203BQ33221043-B0C6E919-8E29-41EA-8403-DE55D0C5AE85Q33717809-8B443424-93C5-4B97-BFDC-50BE5C016115Q33834046-DE7E71C8-44D9-481D-A32D-DF53C1F52D48Q33881627-44A0ABD6-949C-4FB7-9878-9F721BD21440Q33881919-814CE7A5-7D9D-4F98-A503-404E8D94B2F9Q33882399-68C8677D-F524-4B12-BA4B-E5EB41C646A2Q33914452-CB723D63-7706-4C10-A0EE-FCE99B1DE09BQ33921047-3053494D-E4DB-4FE0-AEC7-C434304C3365Q34086765-D379807E-80E0-411A-B841-8D8E7120150CQ34087100-EE1A3950-7805-4ECA-8776-8E12B1912FBFQ34387589-05DBD188-C629-4BFF-895B-78D644C6FB3EQ34488768-F6E15A6E-F48A-4A5B-ACA3-DB1A7F68AAF1Q34488775-7816D219-918E-4C4B-9241-DE631FF23CA6Q35069671-FD0A6096-0A61-4C00-8B31-030113E9BD1BQ35077384-8397A27B-6F61-408E-9F25-E98F4C94D146Q35176657-D41FC10D-2670-4F81-B258-E481BCB75387Q35517096-4B74F1BD-DE69-40CF-B9A5-4675193410DFQ35974305-4D196FFE-6964-44B3-BECE-A56F15C19434Q36594570-7F19BFBC-6487-4C24-A3DC-9063BFFE8C27Q36737726-CDBCA9BB-A4D3-4F41-9EE6-BF7225F567B0Q36880198-11756ACE-0D5F-4592-B3A5-70D23EDD2471Q37063142-3523BB49-1366-4A6D-A0A2-A323D1EFA5DBQ37127784-5684A5A4-872E-48B7-A0C2-53DF6B7AD5E7Q38268845-450BEC6E-7807-418D-AA75-B4333C12893BQ38408489-DA48C7E5-CBB6-42A3-BCD5-B33909B2EEF2Q38747621-31F7D492-41E5-4F9D-97A4-97244F8250D8Q38944057-5CE661AE-4D82-40EA-AD3A-A6F795907624Q39395574-BBF6B190-0AC7-4943-BAF9-AA94E7F5BAA7Q39467394-D900DADA-E0D3-471B-A5A6-1AF3B50094F0Q39902261-0F24CEC8-FB25-4BF3-B6C9-2E8599E52BC3Q39973738-580C2951-A4A4-4CA5-8FEB-B4E76684F859Q40027506-71AF78B8-4D30-45AC-B3C2-980D6028902EQ40918212-DEE224CE-EA08-45ED-8D2D-2107ED519075
P2860
The new stereological methods for interpreting functional morphology from slices of cells and organs.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
1991年论文
@zh
1991年论文
@zh-cn
name
The new stereological methods ...... om slices of cells and organs.
@en
type
label
The new stereological methods ...... om slices of cells and organs.
@en
prefLabel
The new stereological methods ...... om slices of cells and organs.
@en
P1476
The new stereological methods ...... om slices of cells and organs.
@en
P2093
P304
P356
10.1113/EXPPHYSIOL.1991.SP003533
P577
1991-09-01T00:00:00Z