On the welcome page of the dictionary, three major sections are shown: Normal tissues, Cancer and Cell structure. Below the image of each section are links to introductory texts for i) normal tissue histology, ii) hallmarks of cancer, and iii) cell structure overview. For the cancer-section there is also a link to current cancer statistics (incidence, survival, etc) for Sweden and the rest of the world. Within each section there are direct links to histology descriptions of different tissue types and tumor forms as well as descriptions of cell structures.
For the 'Tissue & cell types' and 'Tumor' sections, tissue-slides stained with hematoxylin and eosin (HE) are shown at three different levels of magnification. On the top level, an overview of the whole tissue-sample is shown with boxes in black indicating where zoomed-in representative parts of the tissue are available for viewing. Clicking on these boxes will zoom in on that part to show tissue structures, cells and features in greater detail. Throughout these sections, arrows indicate relevant tissue structures, cell-types and other features.
For the 'Cell structure' section, immunofluorescent images of formaldehyde-fixed cell lines are shown. The various cell structures that are demonstrated are always shown in the green channel using an antibody found in the Human Protein Atlas. The antibody name is linked to the subcellular location summary page of the target gene. The other channels: nucleus, microtubules and endoplasmic reticulum, are always shown in the blue, red and yellow channels, respectively. The channels can be toggled on and off by clicking on the respective coloured button above the image. When applicable, the immunofluorescent images are complemented by immunohistochemically stained cells where the location of the particular cell structure is shown in brown.
A common feature for all sections is that a general descriptive text about the tissue, tumor-type or cell structure is provided when browsing a particular topic.
The function of the ovary is to develop female germinal cells, ovocytes (also termed oocytes), and to produce hormones necessary for reproduction. The ovaries are paired organs that lie on either side of the uterus close to the lateral pelvic wall, behind the broad ligament and anterior to the rectum. Each ovary is attached to a broad ligament along by a double fold of peritoneum, the mesovarium.
Ovaries of adult women in the reproductive age-group are approximately 3 to 5 x 1.5 to 3 x 0.6-1.5 cm but their size varies considerably due to follicular derivatives. The external surface is usually convoluted. Three ill-defined zones may be discerned on the cut surface: an outer cortex, a central medulla and the hilus. Follicular structures (cystic follicles, corpora lutea, white corpora albicantia) are usually visible in the cortex and medulla.
The surfaceepithelium (modified mesothelium) of the ovary forms a simple, focally pseudostratified layer. The cells vary from flat to cuboidal to columnar, and several types may be seen in different areas of the same ovary. The cells are separated from the underlying stroma by a basement membrane. The epithelium is extremely fragile and often denuded in oophorectomy specimens due to handling by the surgeon and pathologist and/or delayed fixation.
Epithelial inclusion glands arise as a result of cortical invaginations of the surface epithelium that have lost connection with the surface. With advancing age their frequency increases so that they are most common in the late reproductive and postmenopausal age groups.
As the stroma of cortex and medulla is usually continuous, the boundary between these two zones is ill-defined except in postmenopausal patients in which the medulla is composed largely of thick-walled blood vessels. The spindle-shapedstromalcells, which have scanty cytoplasm, are typically arranged in whorls or a storiform pattern. A variety of cells may be found within the ovarianstroma comprising luteinized stromal cells, enzymatically active stromal cells, decidual cells, endometrial-stroma type cells, smooth muscle cells, adipocytes and stromal Leydig cells. Most of these cell types are probably derived from the ovarian stroma.
The primordialfollicles are comprised of a primary oocyte, 40 to 70 ?m in diameter, surrounded by a single layer of mitotically inactive squamousfollicularcells, resting on thin basal lamina. Women are born with approximately 400,000 primordial follicles but subsequently their numbers gradually decrease by folliculogenesis and atresia until their eventual disappearance, which marks the start of menopause. In the reproductive period, primordial follicles are scattered irregularly in clusters throughout a narrow band in the superficial cortex. During each menstrual cycle, cohorts of primordial follicles undergo maturation into primaryfollicles with cuboidalsquamousepithelium. Each month, typically only one developing primary follicle becomes dominant, and achieves complete maturation to release the oocyte. Other developing follicles undergo atresia.
