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Pancrea

Zinc is important biologically there are many zinc-protein complexes, and the human body contains about 2 g. In the human pancreas, zinc ions appear to play an essential part in the storage of insulin. [Pg.419]

Pancreatic lipase pancreas fats and other organic esters organic acid and alcohol (often gly ceroi) 7-0... [Pg.511]

Maltase pancreas, small intes tine, yeast maltose glucose 6-1 (gut) 6 6 (yeast)... [Pg.511]

Diastase or amylase is formed when malt is produced by the germination of barley grains. Malt is therefore a good source of the enzyme. Diastase is also secreted by the salivary glands (when it is known as ptyalin), and also by the pancreas. Its function is to hydrolysef starch to a mixture of maltose and dextrin ... [Pg.512]

The so-called "trypsin," obtainable from pancreatic juice and from fresh extracts of the pancreas, is not a simple enzyme but a mixture of trypsin proper (which hydrolyses proteins to proteoses and peptones) and a series of enzymes which hydrolyse these breakdown products to their constituent amino-acids. The term trypsin," when used below, refers to this mixture. [Pg.517]

Panax ginseng extract Pancake batters PAN copolymers Pancreas... [Pg.719]

Control of secretion of anterior pituitary hormones also includes inhibition by hormones produced by target organs. For example, CRH stimulates the anterior pituitary to secrete ACTH, which in turn stimulates the adrenal cortex to secrete corticosteroids. Corticosteroids then feed back to inhibit the secretion of ACTH. Feedback mechanisms are important for the control of most hormones. For example, insulin (qv) secretion from the pancreas increases in response to increased blood glucose resulting from ingestion of a meal. Insulin increases tissue uptake and metaboHsm of glucose, which lowers blood glucose and in turn reduces insulin secretion. [Pg.171]

The classic experiments of Von Meting and Minkowski in 1889 first impHcated the pancreas in regulating blood glucose levels removal of a dog s pancreas led directly to the development of hyperglycemia. Then in the early 1920s it was shown that an internal secretion of the pancreas could be isolated... [Pg.338]

The largest use of endoscopic techniques is in the examination of the gastrointestinal tract. Upper intestinal endoscopy is the examination of the esophagus, stomach, and proximal duodenum. Colonoscopy is the examination of the colon, large intestine, and in some cases the distal parts of the small intestine. Cholangiopancreatography is the examination of the biUary tree and pancreas. [Pg.49]

In terms of membrane area used and doUar value of the membrane produced, artificial kidneys are the single largest appHcation of membranes. Similar hoUow-fiber devices are being explored for other medical uses, including an artificial pancreas, in which islets of Langerhans supply insulin to diabetic patients, or an artificial Uver, in which adsorbent materials remove bUinibin and other toxins. [Pg.88]

Selenium. Selenium, thought to be widely distributed throughout body tissues, is present mostly as selenocysteine in selenoproteins or as selenomethionine (113,114). Animal experiments suggest that greater concentrations are in the kidney, Hver, and pancreas and lesser amounts are in the lungs, heart, spleen, skin, brain, and carcass (115). [Pg.385]

Manganese. The adult human body contains ca 10—20 mg of manganese (124,125), widely distributed throughout the body. The largest Mg " concentration is in the mitochondria of the soft tissues, especially in the Hver, pancreas, and kidneys (124,126). Manganese concentration in bone varies widely with dietary intake (126) (see Table 10). [Pg.386]

Two CCK receptor subtypes, CCK and CCKg are known. A related receptor, the gastrin receptor, has also been described. CCK receptors predominate in the gastrointestinal tract and pancreas and are also localized in discrete brain regions. CCKg receptors predominate in the brain. A 71623... [Pg.538]

Phenol. Phenol monomer is highly toxic and absorption by the skin can cause severe blistering. Large quantities can cause paralysis of the central nervous system and death. Ingestion of minor amounts may damage kidneys, Hver, and pancreas. Inhalation can cause headaches, dizziness, vomiting, and heart failure. The threshold limit value (TLV) for phenol is 5 ppm. The health and environmental risks of phenol and alkylated phenols, such as cresols and butylphenols, have been reviewed (66). [Pg.302]

Florfenicol concentrations in tissues and body fluids of male veal calves were studied after 11 mg/kg intramuscular doses adininistered at 12-h intervals (42). Concentrations of florfenicol in the lungs, heart, skeletal muscle, synovia, spleen, pancreas, large intestine, and small intestine were similar to the corresponding semm concentrations indicating excellent penetration of florfenicol into these tissues. Because the florfenicol concentration in these tissues decreased over time as did the corresponding semm concentrations, it was deemed that florfenicol equiUbrated rapidly between these tissues and the blood. Thus semm concentrations of florfenicol can be used as an indicator of dmg concentrations in these tissues. [Pg.517]

Pea.nuts, The proteins of peanuts are low in lysine, threonine, cystine plus methionine, and tryptophan when compared to the amino acid requirements for children but meet the requirements for adults (see Table 3). Peanut flour can be used to increase the nutritive value of cereals such as cornmeal but further improvement is noted by the addition of lysine (71). The trypsin inhibitor content of raw peanuts is about one-fifth that of raw soybeans, but this concentration is sufficient to cause hypertrophy (enlargement) of the pancreas in rats. The inhibitors of peanuts are largely inactivated by moist heat treatment (48). As for cottonseed, peanuts are prone to contamination by aflatoxin. FDA regulations limit aflatoxin levels of peanuts and meals to 100 ppb for breeding beef catde, breeding swine, or poultry 200 ppb for finishing swine 300 ppb for finishing beef catde 20 ppb for immature animals and dairy animals and 20 ppb for humans. [Pg.301]

In the treatment of diseases where the metaboUtes are not being deUvered to the system, synthetic metaboUtes or active analogues have been successfully adrninistered. Vitamin metaboUtes have been successfully used for treatment of milk fever ia catde, turkey leg weakness, plaque psoriasis, and osteoporosis and renal osteodystrophy ia humans. Many of these clinical studies are outlined ia References 6, 16, 40, 51, and 141. The vitamin D receptor complex is a member of the gene superfamily of transcriptional activators, and 1,25 dihydroxy vitamin D is thus supportive of selective cell differentiation. In addition to mineral homeostasis mediated ia the iatestiae, kidney, and bone, the metaboUte acts on the immune system, P-ceUs of the pancreas (iasulin secretion), cerebellum, and hypothalamus. [Pg.139]


See other pages where Pancrea is mentioned: [Pg.99]    [Pg.149]    [Pg.206]    [Pg.217]    [Pg.332]    [Pg.408]    [Pg.547]    [Pg.324]    [Pg.1136]    [Pg.157]    [Pg.476]    [Pg.70]    [Pg.155]    [Pg.169]    [Pg.169]    [Pg.169]    [Pg.170]    [Pg.171]    [Pg.172]    [Pg.203]    [Pg.338]    [Pg.338]    [Pg.342]    [Pg.60]    [Pg.75]    [Pg.555]    [Pg.575]    [Pg.575]    [Pg.109]    [Pg.155]    [Pg.301]    [Pg.27]    [Pg.126]    [Pg.314]   
See also in sourсe #XX -- [ Pg.396 ]




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Aberrant pancreas

Alpha cells, pancreas

Annular pancreas

Antigen pancreas-associated

Artificial endocrine pancreas

Artificial endocrine pancreas glucose sensor

Artificial organs pancreas

Artificial pancreas

Artificial pancreas device systems

Artificial pancreas glucose sensors

Ascorbic acid pancreas

Assessing pancreas

Baccharis genistelloides effects on pancreas

Balance pancreas

Beef pancreas glands

Beta cells pancreas

Bioartificial pancreas

Bovine pancreas

Bovine pancreas acetone powder

Bovine pancreas inhibitor

Bovine pancreas ribonuclease

Breast, lung, bladder, pancreas

Cystic fibrosis pancreas

Diabetes mellitus pancreas transplantation

Digestive system pancreas

Dog pancreas

Ectopic pancreas

Endocrine disorders pancreas

Endocrine medications pancreas

Endocrine pancreas biomarkers

Endocrine pancreas mechanisms

Endocrine system pancreas

Exocrine pancreas biomarkers

Exocrine pancreas insufficiency

Exocrine pancreas mechanisms

Familial breast cancer, pancreas

Function of the Pancreas

Glucocorticoids pancreas

Glucokinase pancreas

Glucose sensors pancreas

Hog pancreas

Imaging pancreas, kidney

Immobilized porcine pancreas lipase

Immobilized porcine pancreas lipase IPPL)

Insulin therapy pancreas)

Iron accumulation pancreas

MT and Endocrine Pancreas

Myoglobin 159 Pancreas

Native pancreas

Oxygen Pancreas

Pancrea beta cell

Pancrea juice containing

Pancreas

Pancreas

Pancreas Cystic neoplasms

Pancreas Ductal carcinoma

Pancreas Subject

Pancreas Tumors

Pancreas abscess

Pancreas acids

Pancreas activity

Pancreas adenocarcinoma

Pancreas amylase

Pancreas amylase lipase

Pancreas anatomy

Pancreas and

Pancreas autoimmune response

Pancreas autolysis

Pancreas bicarbonate release

Pancreas biopsies

Pancreas cancer

Pancreas carbonic anhydrase

Pancreas carcinoid tumor

Pancreas carcinoma

Pancreas cells

Pancreas cholecystokinin, action

Pancreas complications

Pancreas cystic lesion

Pancreas cysts

Pancreas deoxyribonuclease

Pancreas disorders

Pancreas divisum

Pancreas elastase

Pancreas endocrine

Pancreas endocrine neoplasia

Pancreas enteric nervous system

Pancreas enzymes

Pancreas exocrine

Pancreas exocrine functions

Pancreas exocrine, proteins

Pancreas failure

Pancreas functions

Pancreas gene expression

Pancreas glucagon

Pancreas glucagon production

Pancreas glucose levels

Pancreas glucose-6-phosphatase

Pancreas hormones

Pancreas hormones produced

Pancreas hypoplasia

Pancreas insulin

Pancreas insulin production

Pancreas insulinoma

Pancreas into microsomes

Pancreas lipase

Pancreas lipase and

Pancreas microsomes

Pancreas necrosis

Pancreas neoplasia

Pancreas oral antidiabetics

Pancreas phospholipase

Pancreas preparation

Pancreas proteases

Pancreas pseudocyst

Pancreas regeneration

Pancreas rejection

Pancreas release from

Pancreas ribonuclease

Pancreas substitution

Pancreas survival

Pancreas tissue

Pancreas transplant

Pancreas transplantation

Pancreas transplantation immunosuppression

Pancreas trypsin inhibitors

Pancreas tyrosine-activating enzyme

Pancreas, Adenine

Pancreas, acid phosphatase

Pancreas, amino acid incorporation

Pancreas, artificial, development

Pancreas, artificial, development sensors

Pancreas, bile salts

Pancreas, damage

Pancreas, endocrine role

Pancreas, exocrine dysfunction

Pancreas, lung, colorectal

Pancreas, vitamin

Pancreas-kidney transplantation

Pancreas/pancreatic

Pig pancreas

Porcine pancreas

Porcine pancreas lipase

Rabbit pancreas

Secretions pancreas

Simultaneous pancreas-kidney transplantation

Structure and Function of the Endocrine Pancreas

The endocrine pancreas

The pancreas

Treatment pancreas transplantation

Trypsin, activity during pancreas

Tumors of Exocrine Pancreas

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