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tissue
A Wisdom Archive on tissue

tissue A selection of articles related to tissue

We recommend this article: tissue - 1, and also this: tissue - 2.

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ARTICLES RELATED TO tissue

tissue: Encyclopedia II - Adipose tissue - Physiology

Free fatty acid is "liberated" from lipoproteins by lipoprotein lipase (LPL) and enters the adipocyte, where it is reassembled into triglycerides by esterising it onto glycerol. Fat cells have an important physiological role in maintaining triglyceride and free fatty acid levels, as well as determining insulin resistance. Abdominal fat has a different metabolic profile—being more prone to induce insulin resistance. This explains to a large degree why central obesity is a marker of impaired glucose tolerance and is an independent risk factor for cardiovascular disease (even in the ab ...

See also:

Adipose tissue, Adipose tissue - Anatomical features, Adipose tissue - Physiology, Adipose tissue - Cultural and social role

Read more here: » Adipose tissue: Encyclopedia II - Adipose tissue - Physiology

tissue: Encyclopedia II - Tissue engineering - Assembly methods

One of the continuing, persistent problems with tissue engineering is mass transport limitations. Engineered tissues generally lack an intial blood supply, thus making it difficult for any implanted cells to obtain sufficient oxygen and nutrients to survive, and/or function properly. It might be possible to print organs, or possibly entire organisms. A recent innovative method of construction uses an inkjet mechanism to print precise layers of cells in a matrix of thermoreversable gel. Endothelial cells, the cells that line blood vessels, have been printed in a set of ...

See also:

Tissue engineering, Tissue engineering - Cells, Tissue engineering - Engineering materials, Tissue engineering - Synthesis of tissue engineering scaffolds, Tissue engineering - Assembly methods, Tissue engineering - Agencies that Support Tissue Engineering Research

Read more here: » Tissue engineering: Encyclopedia II - Tissue engineering - Assembly methods

tissue: Encyclopedia II - Soft tissue sarcoma - Treatment

In general, treatment for soft tissue sarcomas depends on the stage of the cancer. The stage of the sarcoma is based on the size and grade of the tumor, and whether the cancer has spread to the lymph nodes or other parts of the body (metastasized). Treatment options for soft tissue sarcomas include surgery, radiation therapy, and chemotherapy. Surgery is the most common treatment for soft tissue sarcomas. If possible, the doctor may remove the cancer and a safe margin of the healthy tissue around it. Depending on the size and lo ...

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Soft tissue sarcoma, Soft tissue sarcoma - Causes, Soft tissue sarcoma - Affected parts, Soft tissue sarcoma - Frequency, Soft tissue sarcoma - Symptoms, Soft tissue sarcoma - Diagnosis, Soft tissue sarcoma - Treatment, Soft tissue sarcoma - Tables

Read more here: » Soft tissue sarcoma: Encyclopedia II - Soft tissue sarcoma - Treatment

tissue: Encyclopedia II - Soft tissue sarcoma - Causes

Scientists do not fully understand why some people develop sarcomas while the vast majority do not. However, by identifying common characteristics in groups with unusually high occurrence rates, researchers have been able to single out some factors that may play a role in causing soft tissue sarcomas. Studies suggest that workers who are exposed to phenoxyacetic acid in herbicides and chlorophenols in wood preservatives may have an increased risk of developing soft tissue sarcomas. An unusual percentage of patients with a rare blood v ...

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Soft tissue sarcoma, Soft tissue sarcoma - Causes, Soft tissue sarcoma - Affected parts, Soft tissue sarcoma - Frequency, Soft tissue sarcoma - Symptoms, Soft tissue sarcoma - Diagnosis, Soft tissue sarcoma - Treatment, Soft tissue sarcoma - Tables

Read more here: » Soft tissue sarcoma: Encyclopedia II - Soft tissue sarcoma - Causes

tissue: Encyclopedia II - Tissue expansion - Skin expansion

Keeping living tissues under tension causes new cells to form and the amount of tissue to increase. In some cases, this may be accomplished by the implantation of inflatable balloons under the skin (see figure). By far the most common method, the surgeon inserts the balloon expander beneath the skin and periodically, over weeks or months, injects a saline solution to slowly expand the overlaying skin. The growth of tissue is permanent.1. Breast reconstruction surgery, for example, can use this technique when the mammary gland was ...

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Tissue expansion, Tissue expansion - Skin expansion, Tissue expansion - Bone expansion

Read more here: » Tissue expansion: Encyclopedia II - Tissue expansion - Skin expansion

tissue: Encyclopedia II - Adipose tissue - Anatomical features

Adipose tissue is primarily located beneath the skin, but is also found around internal organs. In the skin, it accumulates in the deepest level, the subcutaneous layer, providing insulation from heat and cold. Around organs, it provides protective padding. It also functions as a reserve of nutrients. In a severely obese person, excess adipose tissue hanging downward from the abdomen is referred to as a panniculus (or pannus). A panniculus complicates surgery of the morbidly obese, and may remain as a literal "apron of skin" if a severely obese person quickly loses large ...

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Adipose tissue, Adipose tissue - Anatomical features, Adipose tissue - Physiology, Adipose tissue - Cultural and social role

Read more here: » Adipose tissue: Encyclopedia II - Adipose tissue - Anatomical features

tissue: Encyclopedia II - Brown adipose tissue - Biochemistry

The mitochondria in a eukaryotic cell utilize fuels to produce energy (in the form of ATP). This process involves storing energy as a proton gradient, also known as the proton motive force (PMF), across the mitochondrial inner membrane and the energy is used to synthesis ATP when the protons return across the membrane through the ATP synthase enzyme. This model is known as the chemiosmotic hypothesis. In endothermic animals, body heat is maintained by signalling the mitochondria to let protons run back along the gradient without produ ...

See also:

Brown adipose tissue, Brown adipose tissue - Biochemistry, Brown adipose tissue - Function in babies, Brown adipose tissue - Function in plants

Read more here: » Brown adipose tissue: Encyclopedia II - Brown adipose tissue - Biochemistry

tissue: Encyclopedia II - Soft tissue sarcoma - Affected parts

Soft tissue sarcomas can arise almost anywhere in the body. About 50 percent occur in the extremities (the arms, legs, hands, or feet), 40 percent occur in the trunk (chest, back, hips, shoulders, and abdomen), and 10 percent occur in the head and neck. The tables at the end of this article list several types of sarcomas that occur in adults and children. ...

See also:

Soft tissue sarcoma, Soft tissue sarcoma - Causes, Soft tissue sarcoma - Affected parts, Soft tissue sarcoma - Frequency, Soft tissue sarcoma - Symptoms, Soft tissue sarcoma - Diagnosis, Soft tissue sarcoma - Treatment, Soft tissue sarcoma - Tables

Read more here: » Soft tissue sarcoma: Encyclopedia II - Soft tissue sarcoma - Affected parts

tissue: Encyclopedia II - Brown adipose tissue - Function in babies

In neonates (new born babies), brown fat, which then makes up about 5% of the body mass and is located on the back, along the upper half of the spine and towards the shoulders, is of great importance to avoid lethal cold (hypothermia is a major death risk for premature neonates). Numerous factors make infants more susceptible to cold than adults: the higher ratio of body surface (proportional to heat loss) to body volume (proportional to heat production) the higher proportional surface area of the head (which is seldom ...

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Brown adipose tissue, Brown adipose tissue - Biochemistry, Brown adipose tissue - Function in babies, Brown adipose tissue - Function in plants

Read more here: » Brown adipose tissue: Encyclopedia II - Brown adipose tissue - Function in babies

tissue: Encyclopedia II - Plant cell - Tissue types

These three major classes of cells can then differentiate to form the tissue structures of roots, stems, and leaves. All plants have these types of tissues and they have similar locations within all species of plants. However, the amount of these tissues will vary for different plant species. The three distinct types of plant cells are classified according to the structure of their cell walls and features of their protoplast. Plants will have a primary cell wall and sometimes a secondary wall as well. These two major parts are what de ...

See also:

Plant cell, Plant cell - Tissue types

Read more here: » Plant cell: Encyclopedia II - Plant cell - Tissue types

tissue: Diseases of the musculoskeletal system and connective tissue: Encyclopedia II - ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M00-M99 - Diseases of the musculoskeletal system and connective tissue

ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M00-M25 Arthropathies. (M00) Pyogenic arthritis (M01) Direct infections of joint in infectious and parasitic diseases classified elsewhere (M02) Reactive arthropathies (M023) Reiter's disease (M03) Postinfective and reactive arthropathies in diseases classified elsewhere (M05) Seropositive rheumatoid arthritis (M06) Other rheumatoid art ...

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ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M00-M99 - Diseases of the musculoskeletal system and connective tissue, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M00-M25 Arthropathies, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M30-M36 Systemic connective tissue disorders, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M40-M54 Dorsopathies, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M60-M79 Soft tissue disorders, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M80-M90 Osteopathies, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M91-M94 Chondropathies, ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M95-M99 Other disorders of the musculoskeletal system and connective tissue

Read more here: » ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue: Encyclopedia II - ICD-10 Chapter M: Diseases of the musculoskeletal system and connective tissue - M00-M99 - Diseases of the musculoskeletal system and connective tissue

tissue: Encyclopedia II - Histopathology - Preparation for histology

The tissue is then prepared using histology procedures for viewing under a microscope. Briefly, the samples are immersed in multiple baths of progressively more concentrated ethanol, to dehydrate the tissue, followed by toluene, and finally hot liquid paraffin. During this 12 to 16 hour process, paraffin will replace the water in the tissue, turning soft, moist tissues into a hard paraffin block. This process is known as embedding. The process of embedding then allows the sectioning of tissues into very thin (5 - 7 micrometer) ...

See also:

Histopathology, Histopathology - Collection of tissues, Histopathology - Preparation for histology, Histopathology - Interpretation

Read more here: » Histopathology: Encyclopedia II - Histopathology - Preparation for histology

tissue: Diseases of the skin and subcutaneous tissue: Encyclopedia II - ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L00-L99 - Diseases of the skin and subcutaneous tissue

ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L00-L08 Infections of the skin and subcutaneous tissue. (L00) Staphylococcal scalded skin syndrome (L01) Impetigo (L02) Cutaneous abscess, furuncle and carbuncle (L03) Cellulitis (L04) Acute lymphadenitis (L05) Pilonidal cyst (L08) Other local infections of skin and subcutaneous tissue (L081) Erythrasma ICD-10 Chapter L: Diseases of the skin ...

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ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L00-L99 - Diseases of the skin and subcutaneous tissue, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L00-L08 Infections of the skin and subcutaneous tissue, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L10-L14 Bullous disorders, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L20-L30 Dermatitis and eczema, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L40-L45 Papulosquamous disorders, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L50-L54 Urticaria and erythema, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L55-L59 Radiation-related disorders of the skin and subcutaneous tissue, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L60-L75 Disorders of skin appendages, ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L80-L99 Other disorders of the skin and subcutaneous tissue

Read more here: » ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue: Encyclopedia II - ICD-10 Chapter L: Diseases of the skin and subcutaneous tissue - L00-L99 - Diseases of the skin and subcutaneous tissue

tissue: Encyclopedia II - Biomechanics - Biomechanics of Soft Tissues

Soft tissues such as tendon, ligament and cartilage are combinations of matrix proteins and fluid. In each of these tissues the main strength bearing element is collagen, although the amount and type of collagen varies according to the function each tissue must perform. Elastin is also a major load-bearing constituent within skin, the vasculature, and connective tissues. The function of tendons is to connect muscle with bone and is subjected to tensile loads. Tendons must be strong to facilitate movement of the body while at the same time re ...

See also:

Biomechanics, Biomechanics - Applications, Biomechanics - Continuum Mechanics, Biomechanics - Biomechanics of Circulation, Biomechanics - Biomechanics of the bones, Biomechanics - Biomechanics of the Muscle, Biomechanics - Biomechanics of Soft Tissues, Biomechanics - Viscoelasticity, Biomechanics - Nonlinear Theories

Read more here: » Biomechanics: Encyclopedia II - Biomechanics - Biomechanics of Soft Tissues

tissue: Encyclopedia II - Programmed cell death - Programmed cell death in plant tissue

Basic morphological and biochemical features of PCD have been conserved in both plant and animal kingdoms (see Mazal Solomon, et al.: "The Involvement of Cysteine Proteases and Protease Inhibitor Genes in the Regulation of Programmed Cell Death in Plants", The Plant Cell, Vol. 11, 431-444, March 1999. See also related articles in The Plant Cell Online, [5]). It should be noted, however, that specific types of plant cells carry out unique cell death programs. These have common features with animal apoptosis --for instance ...

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Programmed cell death, Programmed cell death - Types of programmed cell death, Programmed cell death - Programmed cell death in plant tissue, Programmed cell death - PCD in pollen prevents inbreeding, Programmed cell death - Programmed cell death in slime moulds, Programmed cell death - Evolutionary origin of PCD, Programmed cell death - Sources

Read more here: » Programmed cell death: Encyclopedia II - Programmed cell death - Programmed cell death in plant tissue

tissue: Encyclopedia II - Biochemical engineering - NASA Tissue Cloning Bioreactor

Recently NASA announced another new type of Bioreactor that artificially grows tissue in Cell cultures. NASA's Tissue Bioreactor can grow heart tissue, skeletal tissue, ligaments, cancer tissue for study, and other types of tissue. [1] ...

See also:

Biochemical engineering, Biochemical engineering - The Bioreactor, Biochemical engineering - Bioreactor design, Biochemical engineering - NASA Tissue Cloning Bioreactor

Read more here: » Biochemical engineering: Encyclopedia II - Biochemical engineering - NASA Tissue Cloning Bioreactor

tissue: Encyclopedia II - Calcium in biology - Organs and tissues

Different tissues contain Ca in different concentrations. In vertebrates Ca (mostly calcium phosphate and some calcium sulfate) is the most important (and specific) element of bone and calcified cartilage. Some invertebrates use calcium compounds for building their exoskeleton (shells and carapaces) or endoskeleton (echinoderm plates and poriferan calcareous spicules). Many "protists" also make use of calcium. There are also some plants that accumulate Ca in their tissues, thus making them more fi ...

See also:

Calcium in biology, Calcium in biology - Measuring Ca2+ in living tissue, Calcium in biology - Organs and tissues, Calcium in biology - Cell biology, Calcium in biology - Calcium in plants, Calcium in biology - Structural roles, Calcium in biology - Cell signalling, Calcium in biology - Food sources

Read more here: » Calcium in biology: Encyclopedia II - Calcium in biology - Organs and tissues

tissue: Encyclopedia II - Western blot - Tissue preparation

Typically, samples are taken from either tissue or from cell culture. The samples are cooled or frozen rapidly. They are homogenized using sonication or mechanical force. the resulting "whole-cell homogenate" or "whole-cell fraction" can be used as is, or subjected to centrifugation in a series of steps to isolate cytosolic (cell interior) and nuclear fractions. The prepared sample is then assayed for protein content so that a consistent amount ...

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Western blot, Western blot - Tissue preparation, Western blot - Gel electrophoresis, Western blot - Transfer, Western blot - Blocking, Western blot - Detection, Western blot - Two step, Western blot - One step, Western blot - Analysis, Western blot - Colorimetric detection, Western blot - Chemiluminescence, Western blot - Radioactive detection, Western blot - Fluorescent detection, Western blot - Secondary probing

Read more here: » Western blot: Encyclopedia II - Western blot - Tissue preparation

tissue: Encyclopedia II - Tooth development - Hard tissue formation

Tooth development - Enamel. See main article at Amelogenesis Enamel formation is called amelogenesis and occurs in the crown stage of tooth development. "Reciprocal induction" governs the relationship between the formation of dentin and enamel; dentin formation must always occur before enamel formation. Generally, enamel formation occurs in two stages: the secretory and maturation stages.[24] Proteins and an organic matrix form a partially mineralized enamel in the secretory s ...

See also:

Tooth development, Tooth development - Overview, Tooth development - The developing tooth bud, Tooth development - Bud stage, Tooth development - Cap stage, Tooth development - Bell stage, Tooth development - Crown stage, Tooth development - Hard tissue formation, Tooth development - Enamel, Tooth development - Dentin, Tooth development - Cementum, Tooth development - Formation of the periodontium, Tooth development - Periodontal ligaments, Tooth development - Alveolar bone, Tooth development - Gingiva, Tooth development - Nerve and vascular formation, Tooth development - Nerve formation, Tooth development - Vascular formation, Tooth development - Tooth eruption, Tooth development - Nutrition and tooth development, Tooth development - Abnormalities, Tooth development - Tooth development in animals, Tooth development - Notes

Read more here: » Tooth development: Encyclopedia II - Tooth development - Hard tissue formation

tissue: Encyclopedia II - Organ transplant - Major Organs and Tissues Transplanted

Organ transplant - Solid Organs. Heart (Deceased-donor only) Lung (Deceased-donor and Living-Donor) En bloc Heart/Lung (Deceased-donor only) Liver (Deceased-donor and Living-Donor) Kidney (Deceased-donor and Living-Donor) Pancreas (Deceased-donor and rarely Living-Donor) Small bowel (Small Intestine) (Deceased-donor and Living-Donor) Kidney-Pancreas (Sometimes simultaneous, sometimes in separate procedures) (Deceased-d ...

See also:

Organ transplant, Organ transplant - Types of Transplant, Organ transplant - Autograft, Organ transplant - Allograft, Organ transplant - Xenograft, Organ transplant - Major Organs and Tissues Transplanted, Organ transplant - Solid Organs, Organ transplant - Tissues Cells and Fluids, Organ transplant - Types of Donor, Organ transplant - Living, Organ transplant - Deceased formerly cadaveric, Organ transplant - Special Types, Organ transplant - Split Liver Transplants, Organ transplant - Domino Transplants, Organ transplant - History, Organ transplant - Recent Developments, Organ transplant - Steroid-Free Immunosuppression, Organ transplant - Calcineurin-Inhibitor-Free Immunosuppression, Organ transplant - Paired-Donor Exchange, Organ transplant - Notable people having had organ transplants

Read more here: » Organ transplant: Encyclopedia II - Organ transplant - Major Organs and Tissues Transplanted

tissue: Encyclopedia II - Glucokinase - Function and regulation in pancreas and other neuroendocrine tissue

Although most of the glucokinase in the body is in the liver, smaller amounts in the beta and alpha cells of the pancreas, certain hypothalamic neurons, and specific cells (enterocytes) of the gut play an increasingly appreciated role in regulation of carbohydrate metabolism. In the context of glucokinase function, these cell types are collectively referred to as neuroendocrine tissues and they share some aspects of glucokinase regulation and function, especially the common neuroendocrine promoter. Of the neuroendocrine cells, the beta cells ...

See also:

Glucokinase, Glucokinase - Substrates and products of GK: glucose is the important substrate, Glucokinase - Terminology: physiologists and physicians prefer glucokinase, Glucokinase - Characteristics of the glucokinase molecule: a monomer with an actin fold, Glucokinase - Kinetic and functional properties of GK: low glucose affinity but uninhibited, Glucokinase - Molecular mechanism of catalysis: critically dependent on sulfhydryl groups, Glucokinase - Genetic aspects of GK: one gene but two promoters, Glucokinase - Tissue distribution of GK: key locations for carbohydrate metabolism, Glucokinase - Function and regulation of GK in the liver: initiator of glycogen synthesis, Glucokinase - Rapid regulation of GK activity in hepatocytes, Glucokinase - Transcriptional regulation of GK in hepatocytes, Glucokinase - Hormonal and dietary regulation of glucokinase in hepatocytes, Glucokinase - Function and regulation in pancreas and other neuroendocrine tissue, Glucokinase - GK in beta cells: a signal for insulin, Glucokinase - GK in alpha cells: suppression of glucagon?, Glucokinase - GK in the brain: glucose sensing in the hypothalamus, Glucokinase - GK in enterocytes: subserving incretin?, Glucokinase - Effects of disease on glucokinase activity, Glucokinase - Diseases caused by glucokinase mutations, Glucokinase - Loss of function mutations cause diabetes, Glucokinase - Gain of function mutations cause hyperinsulinemic hypoglycemia, Glucokinase - Glucokinase as a drug target, Glucokinase - Comparative biology

Read more here: » Glucokinase: Encyclopedia II - Glucokinase - Function and regulation in pancreas and other neuroendocrine tissue

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