Improved Longevity and Functionality of a Canine Model Providing Portal Vein and Multi-Site Intestinal Access

Background and Purpose: The canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable. Methods: Catheters of different...

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Published inComparative medicine Vol. 50; no. 2; pp. 167 - 174
Main Authors Sutyak, John P., Lee, Yong-Hee, Perry, Barbara A., Stern, William, Makhey, Vijaya, Sinko, Patrick J.
Format Journal Article
LanguageEnglish
Published United States American Association for Laboratory Animal Science 01.04.2000
Subjects
administration & dosage
adverse effects
animal models
Animals
catheters
Catheters, Indwelling
Catheters, Indwelling - adverse effects
colon
Colon - diagnostic imaging
Colon - physiology
Dimethylpolysiloxanes
Dogs
drug delivery systems
duodenum
Duodenum - diagnostic imaging
Duodenum - physiology
Filtration
Filtration - instrumentation
ileum
Ileum - diagnostic imaging
Ileum - physiology
instrumentation
intestinal absorption
Intestinal Absorption - physiology
laboratory animals
Male
Models, Biological
Pharmaceutical Preparations
Pharmaceutical Preparations - administration & dosage
physiology
portal vein
Portal Vein - diagnostic imaging
Portal Vein - physiology
prevention & control
Radiography
research equipment
Sepsis
Sepsis - prevention & control
Silicones
Vascular Surgical Procedures
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Abstract Background and Purpose: The canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable. Methods: Catheters of different construction were placed in the proximal and distal portions of the small intestine, colon, and portal vein of subject animals and were attached to separate subcutaneous access ports. Intraoperative, postoperative, and long-term maintenance techniques were developed, modified, and analyzed. Results: Intestinal catheter infections and access site failures were associated with breakdown at the intestinal insertion site. The ileal catheter was prone to obstruction with ingesta. A modified Witzel technique, specialized port-catheter systems, scheduled port-flushing methods, and venous port infection treatment protocols improved the model's longevity. Conclusions: The canine IVAP model is a powerful tool for investigation of regional differences in intestinal absorption and hepatic elimination of drugs. Other researchers can derive increased longevity with the IVAP model by using the technical modifications detailed here: strict sterile technique, closed-end slit-valve catheters, GPV® ports, the Witzel tunnel technique, routine portal vein infection surveillance, 50% dextrose intestinal catheter infusion, rapid removal of infected intestinal catheters, and critical appraisal of their results. Longevity of the model continues to be improved.
AbstractList The canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable. Catheters of different construction were placed in the proximal and distal portions of the small intestine, colon, and portal vein of subject animals and were attached to separate subcutaneous access ports. Intraoperative, postoperative, and long-term maintenance techniques were developed, modified, and analyzed. Intestinal catheter infections and access site failures were associated with breakdown at the intestinal insertion site. The ileal catheter was prone to obstruction with ingesta. A modified Witzel technique, specialized port-catheter systems, scheduled port-flushing methods, and venous port infection treatment protocols improved the model's longevity. The canine IVAP model is a powerful tool for investigation of regional differences in intestinal absorption and hepatic elimination of drugs. Other researchers can derive increased longevity with the IVAP model by using the technical modifications detailed here: strict sterile technique, closed-end slit-valve catheters, GPV ports, the Witzel tunnel technique, routine portal vein infection surveillance, 50% dextrose intestinal catheter infusion, rapid removal of infected intestinal catheters, and critical appraisal of their results. Longevity of the model continues to be improved.
Background and Purpose: The canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable. Methods: Catheters of different construction were placed in the proximal and distal portions of the small intestine, colon, and portal vein of subject animals and were attached to separate subcutaneous access ports. Intra-operative, postoperative, and long-term maintenance techniques were developed, modified, and analyzed. Results: Intestinal catheter infections and access site failures were associated with breakdown at the intestinal insertion site. The ileal catheter was prone to obstruction with ingesta. A modified Witzel technique, specialized port-catheter systems, scheduled port-flushing methods, and venous port infection treatment protocols improved the model's longevity. Conclusions: The canine IVAP model is a powerful tool for investigation of regional differences in intestinal absorption and hepatic elimination of drugs. Other researchers can derive increased longevity with the IVAP model by using the technical modifications detailed here: strict sterile technique, closed-end slit-value catheters, GPV ports, the Witzel tunnel technique, routine portal vein infection surveillance, 50% dextrose intestinal catheter infusion, rapid removal of infected intestinal catheters, and critical appraisal of their results. Longevity of the model continues to be improved.
Background and Purpose: The canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable. Methods: Catheters of different construction were placed in the proximal and distal portions of the small intestine, colon, and portal vein of subject animals and were attached to separate subcutaneous access ports. Intraoperative, postoperative, and long-term maintenance techniques were developed, modified, and analyzed. Results: Intestinal catheter infections and access site failures were associated with breakdown at the intestinal insertion site. The ileal catheter was prone to obstruction with ingesta. A modified Witzel technique, specialized port-catheter systems, scheduled port-flushing methods, and venous port infection treatment protocols improved the model's longevity. Conclusions: The canine IVAP model is a powerful tool for investigation of regional differences in intestinal absorption and hepatic elimination of drugs. Other researchers can derive increased longevity with the IVAP model by using the technical modifications detailed here: strict sterile technique, closed-end slit-valve catheters, GPV® ports, the Witzel tunnel technique, routine portal vein infection surveillance, 50% dextrose intestinal catheter infusion, rapid removal of infected intestinal catheters, and critical appraisal of their results. Longevity of the model continues to be improved.
The canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable.BACKGROUND AND PURPOSEThe canine intestinal and venous access port (IVAP) model is valuable for investigating hepatic elimination and region-specific intestinal absorption of pharmaceuticals. Previously, long-term functionality of this preparation has been variable.Catheters of different construction were placed in the proximal and distal portions of the small intestine, colon, and portal vein of subject animals and were attached to separate subcutaneous access ports. Intraoperative, postoperative, and long-term maintenance techniques were developed, modified, and analyzed.METHODSCatheters of different construction were placed in the proximal and distal portions of the small intestine, colon, and portal vein of subject animals and were attached to separate subcutaneous access ports. Intraoperative, postoperative, and long-term maintenance techniques were developed, modified, and analyzed.Intestinal catheter infections and access site failures were associated with breakdown at the intestinal insertion site. The ileal catheter was prone to obstruction with ingesta. A modified Witzel technique, specialized port-catheter systems, scheduled port-flushing methods, and venous port infection treatment protocols improved the model's longevity.RESULTSIntestinal catheter infections and access site failures were associated with breakdown at the intestinal insertion site. The ileal catheter was prone to obstruction with ingesta. A modified Witzel technique, specialized port-catheter systems, scheduled port-flushing methods, and venous port infection treatment protocols improved the model's longevity.The canine IVAP model is a powerful tool for investigation of regional differences in intestinal absorption and hepatic elimination of drugs. Other researchers can derive increased longevity with the IVAP model by using the technical modifications detailed here: strict sterile technique, closed-end slit-valve catheters, GPV ports, the Witzel tunnel technique, routine portal vein infection surveillance, 50% dextrose intestinal catheter infusion, rapid removal of infected intestinal catheters, and critical appraisal of their results. Longevity of the model continues to be improved.CONCLUSIONSThe canine IVAP model is a powerful tool for investigation of regional differences in intestinal absorption and hepatic elimination of drugs. Other researchers can derive increased longevity with the IVAP model by using the technical modifications detailed here: strict sterile technique, closed-end slit-valve catheters, GPV ports, the Witzel tunnel technique, routine portal vein infection surveillance, 50% dextrose intestinal catheter infusion, rapid removal of infected intestinal catheters, and critical appraisal of their results. Longevity of the model continues to be improved.
Author Makhey, Vijaya
Sutyak, John P.
Perry, Barbara A.
Stern, William
Sinko, Patrick J.
Lee, Yong-Hee
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SubjectTerms administration & dosage
adverse effects
animal models
Animals
catheters
Catheters, Indwelling
Catheters, Indwelling - adverse effects
colon
Colon - diagnostic imaging
Colon - physiology
Dimethylpolysiloxanes
Dogs
drug delivery systems
duodenum
Duodenum - diagnostic imaging
Duodenum - physiology
Filtration
Filtration - instrumentation
ileum
Ileum - diagnostic imaging
Ileum - physiology
instrumentation
intestinal absorption
Intestinal Absorption - physiology
laboratory animals
Male
Models, Biological
Pharmaceutical Preparations
Pharmaceutical Preparations - administration & dosage
physiology
portal vein
Portal Vein - diagnostic imaging
Portal Vein - physiology
prevention & control
Radiography
research equipment
Sepsis
Sepsis - prevention & control
Silicones
Vascular Surgical Procedures
Title Improved Longevity and Functionality of a Canine Model Providing Portal Vein and Multi-Site Intestinal Access
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https://www.ncbi.nlm.nih.gov/pubmed/10857008
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