Toxicology of the Exocrine Pancreas

Foster, John R.

doi:10.1002/9780470744307.gat069

Cited by 3 publications

(2 citation statements)

References 214 publications

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“…Since this time, a number of animal models have been developed, which show varying degrees of faithfulness to the developing lesions in man and which have been used to address the possibility of therapeutic intervention to modify the course of the disease (Büchler et al 1992; Al-Mufti and Williamson 1999; Lerch and Adler 1994). The ability to investigate the development of the disease, following a known insult, has significantly contributed to our understanding of the underlying pathogenesis of the human disease and have guided some of the available therapies in use today (Foster 2009). The animal models that are readily available tend to be in rodents, although useful models have been developed in the dog, the possum, and the cat (Lerch et al 1992; Su, Cuthbertson, and Christophi 2006; Wedgwood, Farmer, and Reber 1986).…”

Section: Animal Models Of Acute Pancreatitismentioning

confidence: 99%

A Review of Animal Models of Nonneoplastic Pancreatic Diseases

Foster

2013

Toxicol Pathol

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The nonneoplastic diseases of the human pancreas generally comprise the inflammatory and degenerative conditions that include acute and chronic pancreatitis, with cystic fibrosis being arguably one of the most important diseases that induce the condition. Both acute and chronic conditions vary in severity, but both can be life threatening; and because of this fact, the study of their progression, and their responsiveness to therapy, is largely conducted by indirect means using serum markers of damage and repair such as amylase and lipase activities that normally occur at very low levels in the circulation but can be significantly increased during inflammatory episodes. Progress in the understanding the pathogenesis of both conditions has therefore been largely due to time course studies in animal models of pancreatitis, and it is in this context that animal model development has been so significant. In general terms, the animal models can be divided into the invasive, surgical procedures, and those induced by the administration of chemical secretagogues that induce hypersecretion of the pancreatic enzymes. The former include ligation and/or cannulation of the biliopancreatic ducts with infusion of solutions of various kinds, or the formation of closed duodenal loops. Secretagogue administration includes administration of caerulein or l-arginine in various protocols. An additional model involves administration of dibutyltin dichloride, which induces a partial blockage of the pancreatic ducts to induce pancreatic disease through enzymic reflux into the gland. The models have been invaluable in generating testable hypotheses for the human diseases. These hypotheses for the production of cellular damage as the initiating events in the disease include (1) intracellular chemical activation, (2) pancreatic secretion reflux, (3) intracellular production of reactive oxygen species, and (4) intracellular production of free radicals.

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Section: Animal Models Of Acute Pancreatitismentioning

confidence: 99%

A Review of Animal Models of Nonneoplastic Pancreatic Diseases

Foster

2013

Toxicol Pathol

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“…Analysis of secretin-stimulated duodenal aspirates identified Increased lipid peroxidation, albeit less than in chronic pancreatitis (68). Dietary inventories showed that datapoints lay on or close to the aforementioned discrimination line based on selenium intake versus theophylline clearance (54). Oxidative stress is recognized in the pathogenesis of recurrent pancreatitis due to deficiency of lipoprotein lipase (69).…”

Section: Potential Benefitmentioning

confidence: 99%

Micronutrient ('Antioxidant') Therapy for Chronic Pancreatitis: Basis and Clinical Experience

Braganza

The Pancreapedia: Exocrine Pancreas Knowledge Base

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The Surgical Management of Chronic Pancreatitis

Burmeister¹,

Bornman²,

Krige³

et al. 2012

New Advances in the Basic and Clinical Gastroenterology

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procedures to address these mechanisms. Resection of diseased pancreatic tissue, in particular inflamed tissue within the head of the pancreas containing altered neural tissue and diseased ducts, considered the "pacemaker of disease" (Beger HG World J Surg 1990) and drainage of the pancreatic ductal system, in order to relieve ductal and parenchymal tissue hypertension. Removal of sufficient pancreatic tissue as to result in effective and d u r a b l e r e l i e f o f s y m p t o m s m u s t h o w e v e r b e b a l a n c e d a g a i n s t t h e d e s i r e t o a v o i d surgically related morbidity and mortality as well as to prevent post-operative pancreatic functional insufficiency. This has led to the development of less extensive resections and hybrid procedures which attempt to combine the advantages while avoiding the disadvantages of each approach. This chapter will describe the theories around the pathophysiology of pain in chronic pancreatitis, discuss the rationale and indications for surgical intervention and detail the procedures currently available. It will also review the literature guiding the choice of these procedures for the relief of pain.

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Toxicology of the Exocrine Pancreas

Cited by 3 publications

References 214 publications

A Review of Animal Models of Nonneoplastic Pancreatic Diseases

A Review of Animal Models of Nonneoplastic Pancreatic Diseases

Micronutrient ('Antioxidant') Therapy for Chronic Pancreatitis: Basis and Clinical Experience

The Surgical Management of Chronic Pancreatitis

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