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1.
Capnographic documentation of nasoesophageal and nasogastric feeding tube placement in dogs 总被引:1,自引:0,他引:1
Paula A. Johnson DVM F. A. Mann DVM MS DACVS DACVECC John Dodam DVM MS PhD DACVA Keith Branson DVM MS DACVA Colette Wagner-Mann DVM PhD Mark A. Brady DVM Elizabeth Dunphy DVM 《Journal of Veterinary Emergency and Critical Care》2002,12(4):227-233
Objective: To evaluate the ability of capnography to document proper placement of nasoesophageal (NE) and nasogastric (NG) feeding tubes. This study was conducted in 3 phases. Phase I of this study was designed in order to test the efficacy of capnography to distinguish placement of a feeding tube in the alimentary tract versus the respiratory tract. Phase II was designed in order to document that carbon dioxide (CO2) could be measured through a polyvinyl chloride (PVC) feeding tube. Phase III was performed in order to evaluate the technique of continuous monitoring during insertion of the feeding tube into the esophagus and stomach as would be performed during a clinical‐tube placement. Design: Prospective study. Setting: Research laboratory. Animals: 24 adult dogs. Interventions: In Phase I, sedated dogs were instrumented with an intratracheal catheter and an 8 French feeding tube placed nasally into the distal esophagus and later advanced into the stomach. In Phase II, dogs were anesthetized and an 8 French feeding tube was placed down the endotracheal tube, then into the esophagus and later advanced into the stomach. In Phase III, sedated dogs were instrumented with an 8 French feeding tube inserted intranasally and then advanced to the level of the nasopharynx, distal esophagus and, lastly, the stomach. Fluoroscopy was used in order to determine location of the feeding tube. Measurements and main results: Phase I measurements included respiratory rate and CO2 from the trachea, esophagus, and stomach and pH of gastric fluid sample. Phase II measurements included respiratory rate and CO2 from the endotracheal tube, feeding tube in the endotracheal tube, feeding tube in the distal esophagus, and feeding tube in the stomach. Phase III data collection included respiratory rate and CO2 as the tube was passed through the nasal cavity, nasopharynx, esophagus and stomach. Phase I fluid samples were collected from 5 of the 9 dogs and had pH values from 1.68 to 4.20. In both phases, values for the respiratory rate and CO2 from the esophagus and stomach were 0 ± 0, significantly lower (P < 0.001) than the values from the trachea. In Phase II, there was no significant difference between the respiratory rates (P = 0.886) and CO2 (P = 0.705) readings obtained from the endotracheal tube compared to readings from the feeding tube in the endotracheal tube. In Phase III, there was a significant difference (P < 0.001) between the respiratory rates and CO2 readings obtained from the nasal cavity and the nasopharynx when compared to those readings obtained from the esophagus and stomach. Measurement of CO2 and respiratory rate resulted in a reading of 0 every time the feeding tube was in the esophagus or stomach. Conclusions: Capnography may be used in order to detect airway placement of NE and NG tubes. 相似文献
2.
T. M. Glaus L. M. Cornelius J. W. Bartges † C. Reusch 《The Journal of small animal practice》1998,39(5):218-222
Percutaneous gastrostomy tubes were placed non-endoscopically in 31 cats and 10 dogs using either a rigid insertion tube (n=13) or an Eld gastrostomy tube applicator (n=28). Tubes were placed successfully in 38 of the 41 animals and the consequent feeding was of therapeutic benefit to 31 of the animals. Six of 41 died or were euthanased for reasons unrelated to gastrostomy. In four cases (10 per cent), gastrostomy failed with respect to correct tube placement or tube feeding. Overall complications occurred in 18 of 41 animals. Severe procedural complications occurred in two cats; a cardiorespiratory arrest during pharyngeal manipulation and erroneous tube placement through the distal oesophagus. Moderate late complications included peristomal food leakage (n=2), peristomal abscess (n=2) and pyloric outflow obstruction by a migrated tube (n=1). Complications associated with the feeding procedure, nausea and vomiting (n=3), led to aspiration pneumonia in one case. 相似文献
3.
An indwelling stomach tube was placed through a cervical esophagostomy in 5 clinically normal horses and in 3 horses requiring artificial alimentation. In all but one case, surgery was performed on conscious horses following tranquilization and infiltration of the surgical sites with a local anesthetic. Six horses were fed liquid rations through the indwelling tubes, which were left in place from 3 to 26 days. After the tubes were removed, the stomas healed rapidly and with minimal complications. Cervical esophagostomy proved to be a safe, easy, and effective method for the provision of extraoral feeding of the horse. 相似文献
4.
Use of a nasogastric tube for gastric and esophageal decompression in the dog and cat 总被引:1,自引:0,他引:1
D T Crowe 《Journal of the American Veterinary Medical Association》1986,188(10):1178-1182
Distension of the stomach with air and fluid was treated successfully in 9 of 10 dogs by use of an indwelling nasogastric tube. A nasogastric tube was used to remove swallowed air and gastric fluid after surgery, as a precautionary measure to prevent recurrence of gastric distention in 2 dogs. A nasoesophageal tube was used to remove retained barium sulfate and saliva in a cat with megaesophagus and esophageal obstruction caused by gastroesophageal intussusception. Passage of the tube through the nose into the esophagus or stomach was easily accomplished in 10 of the 13 animals, requiring only mild restraint and an anesthetic instilled locally into the nostril. Moderate restraint and more than one attempt at passage of the tube through the nose (ventral meatus) were required in the other 3 animals. In one of these, passage through the ventral meatus and into the pharynx could not be accomplished. Of the 12 animals in which the tube was inserted successfully, 11 tolerated it. The tubes remained inserted from 5 minutes to 48 hours (average, 18.5 hours) without clinically detected complications. This technique offers an alternative to orogastric, gastrostomy, or pharyngostomy tubes for initial and continuous intubation and decompression of the stomach and/or esophagus in the dog and cat. It was found to be practical and effective for the removal of air or fluid, but not the removal of coarse food particles. 相似文献
5.
Dennis T. Crowe DVM Jennifer J. Devey DVM 《Journal of Veterinary Emergency and Critical Care》1997,7(1):7-19
The medical records of 39 dogs and 8 cats which had jejunostomy feeding tubes placed using modifications of a previously described surgical technique were retrospectively reviewed. Modifications included the addition of a suture to anchor the feeding tube to the jejunum, the use of a continuous circumferential suture to pexy the jejunum to the abdominal wall, and the placement of a skin suture that penetrated deep into the abdominal wall fascia. All tubes were placed during surgical treatment of a primary intraabdominal disease. Tubes were used for feeding from 1 to 41 days (average 9.7 days). Sixteen patients (34%) developed mild to moderate complications such as chewing at the tube, inadvertent tube removal, tube obstruction, and cellulitis around the ostomy site. Three patients (6%) developed severe complications associated with breakdown of the surgical site. The modified jejunostomy technique was effective for placement of jejunostomy tubes as a complementary procedure to exploratory celiotomy. 相似文献
6.
Nonendoscopic Antegrade Percutaneous Gastrostomy: The Effect of Preplacement Gastric Insufflation on Tube Position and Intra-Abdominal Anatomy 总被引:1,自引:0,他引:1
Erik M. Clary Elizabeth M. Hardie William D. Fischer rew E. Kyles 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》1996,10(1):15-20
Nonendoscopic tube gastrostomy was performed on 41 anesthetized dogs using the technique of Fulton and Dennis with or without gastric insufflation prior to tube placement. Immediately after tube placement, dogs were euthanized and postmortem examinations performed. When gastric insufflation was not performed (group I), gastrostomy tubes penetrated the visceral surface of the stomach in 25% of dogs. The deep leaf of the omentum was interposed between stomach and body wall in the majority of these dogs, exposing other intra-abdominal organs to potential injury. Additionally, displacement and tethering of the spleen cranial to the gastrostomy site were observed in 33% of dogs in group I. Similar results were obtained when preplacement gastric insufflation was performed after the orogastric tube was inserted sufficiently far to displace the stomach laterally against the body wall (group II). In contrast, consistent positioning of gastrostomy tubes through the parietal surface of the stomach was achieved when the stomach was insufflated prior to lateralizing the left abdominal wall with the gastric end of the orogastric tube (group III). It was concluded that the blind percutaneous gastrostomy technique is made safer by insufflating the stomach immediately prior to pushing the gastric wall laterally into contact with the parietal peritoneum. J Vet Intern Med 1996;10:15–20. Copyright © 1996 by the American College of Veterinary Internal Medicine . 相似文献
7.
A new percutaneous insertion technique for esophageal feeding tubes in cats is presented. The technique has been successfully applied in 12 feline patients. The placement technique is relatively simple, takes approximately five minutes to perform, and requires a scalpel blade, a curved hemostat, and an applicator for the insertion of the feeding tube. In contrast to other esophageal tube placement techniques, the tube is inserted into the definitive aboral position in a one-step procedure. Because of its shoehorn shape, the applicator allows the tube to be inserted into the esophagus safely and precisely. Placement of the tube in the midcervical area does not interfere with the function of the pharynx and avoids having the animal irritated by the presence of the tube. The chosen diameter of the tube is large enough to permit feeding of diluted, blended, commercial canned food. For the patients of this study, feeding was started after recovery from anesthesia, and tubes were removed without complications once the animals had started to eat voluntarily. 相似文献
8.
Interest in noninvasive feeding tube placement in companion animals led to the adaption of a human technique utilizing endoscopy to place nasojejunal feeding tubes. Data from medical records in which nasojejunal feeding tubes were attempted were reviewed. Feeding tubes were attempted and successfully placed in five dogs within a median of 35 min. Feeding tubes remained in place for approximately 7 days. Complications included facial irritation (5/5), sneezing (5/5), fractured facial sutures (4/5), vomiting (3/5), diarrhea (3/5), crimping of feeding tube (3/5), regurgitation (1/5), epistaxis (1/5), clogging of the feeding tube (2/5), and oral migration with premature removal of the feeding tube (1/5). The deployment technique used in this study was found to be cumbersome. Despite minor complications, endoscopy can be used to rapidly and accurately place nasoenteric feeding devices. 相似文献
9.
P. Jane Armstrong DVM MS Elizabeth M. Hardie DVM PhD 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》1990,4(4):202-206
Results are presented of consecutive percutaneous endoscopic gastrostomies (PEGs) performed in 32 feline and 22 canine patients over a 30-month period. Indications for PEG placement were hepatic disease (33%), esophageal disease (32%), oronasal abnormalities (22%), and cranial nerve deficits (4%), with miscellaneous conditions accounting for 9%. The median duration that PEG tubes were in place was 18 days (range, 0-320 days). The suitability of this feeding technique for clinical use was assessed by evaluating mortality, procedure-related and delayed complications, and body weight changes by the end of the PEG feeding period. Fifty-two of 54 PEGs were placed and used successfully. One fatality occurred during tube insertion due to splenic laceration, and one dog died of aspiration pneumonia secondary to pharyngoesophageal dysfunction. Other than splenic laceration, procedure-related complications were benign pneumoperitoneum (1/54) and minor gastric hemorrhage resulting in melena (1/54). Delayed complications occurring 24 hours or longer after the procedure included aspiration (4/54), peristomal infection or excessive granulation tissue (3/54), and tube extraction or migration (3/54). Nineteen of 54 animals showed evidence of inadequate gastric emptying or volume intolerance when food was introduced after PEG placement. This effect was minor and easily resolved. Of the 44 animals for which follow-up body weight information was available, 19 gained weight, six remained static, and 19 lost weight during the PEG feeding period. Percutaneous gastrostomy is a relatively safe, effective procedure and should be given early consideration for medium- or long-term enteral nutritional support in appropriate canine and feline patients. 相似文献
10.
DAVID O. G. KIHURANI ANN CARSTENS MONTAGUE N. SAULEZ CYNTHIA M. B. DONNELLAN 《Veterinary radiology & ultrasound》2009,50(4):429-435
Gastroscopy with air insufflation was performed in 10 ponies, after which a transcutaneous ultrasound examination of the stomach and duodenum was performed immediately and at 1, 2, and 4 h postgastroscopy, and 24 h after feeding. Stomach measurements included the dorsoventral and craniocaudal dimensions, as well as the stomach depth from the skin surface and stomach wall thickness at the different time periods. Gastric wall folding was observed in one pony, becoming most distinct 2–4 h postgastroscopy. An undulating stomach wall was noted in eight other ponies postgastroscopy. These observations appeared to be a response to the deflation of the stomach as the insufflated air was released gradually. Gas was detected in the duodenum after the gastroscopy. The parameters measured were noted to be useful to evaluate the extent of stomach distension due to air or feed. The ultrasonographic appearance of the stomach can, therefore, be altered by gastroscopy and this should be borne in mind when examining horses with suspected gastric disease. 相似文献
11.
Heuter K 《Clinical Techniques in Small Animal Practice》2004,19(1):32-42
In veterinary patients, postgastric feeding is indicated for uncontrollable gastric vomiting, gastroparesis, biliary tract disease, pancreatitis, and for patients at increased risk for aspirating secondary to decreased mentation, prolonged recumbency, or an unprotected airway. Postgastric feeding may be implemented via the placement of a jejunal feeding tube. These tubes can be placed surgically (jejunostomy tubes) or with fluoroscopic or endoscopic guidance. This article will focus on methods of jejunal feeding-tube placement, advantages and disadvantages of the methods described, and complications associated with jejunal feeding. 相似文献
12.
Beck AL Grierson JM Ogden DM Hamilton MH Lipscomb VJ 《Journal of the American Veterinary Medical Association》2007,230(8):1184-1189
OBJECTIVE: To determine indications for cystostomy tube use in dogs and cats, complications associated with their use, and outcome of dogs and cats in which cystostomy tubes had been inserted. DESIGN: Retrospective case series. ANIMALS: 37 dogs and 39 cats. PROCEDURES: Information was obtained from medical records. Long-term follow-up information was obtained by use of a client questionnaire. RESULTS: Indications for cystostomy tube placement were bladder dysfunction, urinary tract rupture, obstructive urinary tract neoplasia, urinary diversion following urogenital surgery, obstructive urolithiasis, and feline lower urinary tract disease. Median time tubes were in place was 11 days, but duration of tube use was significantly longer for animals with bladder dysfunction than for animals with urinary tract trauma, urinary diversion, or urinary tract obstruction. Thirty-seven (49%) animals had tube complications. Development of complications was not significantly associated with species, age, body weight, duration of tube use, or tube type, except that animals were significantly more likely to develop complications following long-rather than short-term use. In 42 animals, the underlying condition resolved and the tube was removed; 22 animals died or were euthanatized with the tube in place. CONCLUSIONS AND CLINICAL RELEVANCE: Results suggested that cystostomy tubes may be used for animals with various conditions related to problems with urine outflow. Nearly half the animals in the study developed complications related to the cystostomy tube, suggesting that potential complications should be discussed with owners prior to tube placement. However, most complications were easily resolved. 相似文献
13.
H. M. Swann D. C. Sweet D. E. Holt K. Michel 《The Journal of small animal practice》1998,39(4):191-194
Five male crossbred dogs successfully underwent surgical placement of button enterostomy tubes to evaluate the placement technique, maintenance and complications of these tubes. Surgical placement was quick, technically straightforward and similar to techniques used for other feeding tubes. None of the dogs experienced life-threatening complications during the 10 month follow-up period. One device required replacement as it was removed by the dog before a permanent fistula had formed. Open tubes due to loose safety plugs and focal cellulitis surrounding the exit sites of these tubes were noted in all dogs. The button tube may be a feasible option for long-term nutritional support in patients with pancreatic, hepatobiliary or gastrointestinal conditions. 相似文献
14.
L. C. Livesey E. Yorke A. Parra Q. Gray C. Davies D. Weldon J. Schumacher S. Kimura C. Howard T. Sierra-Rodriguez M. Mora-Pereira 《Equine Veterinary Education》2020,32(10):e179-e183
This report describes the treatment of a 17-year-old American Quarter Horse gelding for an oesophageal obstruction of approximately 24 h’ duration. An intraluminal oesophageal mass resembling a phytobezoar and located close to the cardia, was observed during endoscopic examination of the oesophagus of a horse showing signs of oesophageal obstruction. An intrathoracic oesophageal diverticulum, filled with fluid, was observed about 40 cm proximal to the obstruction. The end of a nasogastric tube was guided beyond the diverticulum, using gastroscopic observation, so that its tip rested close to the obstruction. The obstruction failed to disintegrate or move into the stomach despite vigorous, prolonged lavage. With the nasogastric tube left in place, and the horse's head elevated, 0.5 L cola was administered adjacent to the obstruction through the nasogastric tube. The head was maintained in the elevated position for an hour, after which time the head was lowered and oesophageal lavage resumed. The nasogastric tube was passed into the stomach within 3 min of re-instituting lavage. The successful use of a carbonated beverage to treat human patients for oesophageal or gastrointestinal obstruction caused by a phytobezoar is well documented. Carbonated beverages have also been reported to be effective in treating horses for gastric and enteric impactions caused by persimmon seeds. Administering cola into the oesophagus may help resolve oesophageal obstruction of horses caused by a phytobezoar or impacted feed material when horses are refractory to other treatments. 相似文献
15.
J G Peloso J Schumacher S R McClure M R Crabill D V Hanselka D D Householder G D Potter 《Canadian journal of veterinary research》1994,58(3):181-184
A T-cannula was fitted permanently into the ileum of ten mature ponies to quantify the role of the prececal and postileal segments of the digestive tract in equine nutrition studies. The ponies were anesthetized, positioned in left lateral recumbency, and the distal small intestine was exteriorized through a right paralumbar incision. A silastic T-cannula was inserted through a 2-cm longitudinal incision into the lumen of the ileum, on the antimesenteric surface, and sutured to the ileum. The stem of the cannula was exteriorized through a 2-cm circular skin incision, 6 cm caudal to the 16th rib. Nine ponies were alive with functional cannulas after six months. Primary complications associated with cannulation of the ileum were clinical signs of depression and dehydration produced by leakage of intestinal contents around the stem of the cannula. These complications were resolved with fluid and electrolyte therapy. 相似文献
16.
Jennings M Center SA Barr SC Brandes D 《Journal of the American Animal Hospital Association》2001,37(2):145-152
A cat with pancreatitis, diagnosed using abdominal ultrasonography, fine-needle aspirate cytopathology, and increased concentration of serum trypsin-like immunoreactive substance, was treated successfully using jejunal alimentation provided through a percutaneous gastrojejunostomy tube. This method of jejunal feeding is less technically difficult, less stressful for the patient, and has fewer complications than surgically placed jejunostomy tubes. Nutritional support with jejunal feeding is superior to total parenteral nutrition, as it maintains gut integrity, decreases septic complications, and may reduce exogenous insulin requirements. The methods of tube insertion and maintenance, and the physiological advantages over other feeding methods are described. 相似文献
17.
Ireland LM Hohenhaus AE Broussard JD Weissman BL 《Journal of the American Animal Hospital Association》2003,39(3):241-246
Esophagostomy feeding tubes were placed in 46 cats. Percutaneous endoscopic gastrostomy (PEG) feeding tubes were placed in 21 cats. Owner management and complications and facility of use were evaluated retrospectively by review of medical records and owner survey. Both tube types were equally effective for maintenance of body weight, ease of owner management, and complication rates. All of 12 owners surveyed were comfortable with PEG tube management. Ninety-six percent of 24 owners surveyed were comfortable with esophagostomy tube management. The esophagostomy tube can be placed less invasively, without specialized equipment, making it an excellent alternative to the PEG tube. 相似文献
18.
M R Paradis R G Breeze W M Bayly D F Counts W W Laegreid 《American journal of veterinary research》1991,52(5):742-747
The hematologic and pathologic effects of orally administered L-tryptophan and indoleactic acid and of L-tryptophan administered IV were studied in ponies. Sixteen adult Shetland ponies were allotted into 4 experimental groups. Group 1 consisted of 5 ponies (1-5) given 0.6 g of tryptophan/kg of body weight in a water slurry via stomach tube. Group 2 included 4 ponies (6-9) given 0.35 g of tryptophan/kg orally. Group-3 ponies (10-13) were given 0.35 g of indoleacetic acid/kg orally. Group 4 consisted of 3 ponies (14-16) given a single 4-hour IV infusion of 0.1 g of tryptophan/kg. Restlessness, increased respiratory rate, hemolysis, and hemoglobinuria were detected in 4 of the 5 group-1 ponies. Only pony 7 in group 2 developed hemolysis, hemoglobinuria, and a significant increase in respiratory rate. Renal pathologic lesions, consistent with hemoglobinuric nephrosis, were seen in ponies 2, 4, 5, and 7. Bronchiolar degeneration was evident in 4 of 9 ponies given tryptophan orally. The importance of these respiratory lesions was unknown. Clinical or pathologic abnormalities were not noticed in the ponies of groups 3 and 4. Mean plasma tryptophan values increased significantly in groups 1 and 2 at 6 hours after dosing. A second peak of tryptophan was detected in both groups at 12 hours. Values returned to predose values by 48 hours. Plasma indole and 3-methylindole concentrations were detectable in only 2 ponies (4 and 7). In vitro incubations of cecal fluid from ponies 6, 8, and 9 yielded a percentage conversion of tryptophan to indole of 16.75%, 5.84%, and 7.96%, respectively. 3-Methylindole was not produced. These results suggested that indole was the major metabolite of orally administered tryptophan in these ponies. 相似文献
19.
20.
Kinga Pápa DVM Roland Psáder DVM Ágnes Sterczer DVM PhD Ákos Pap PhD DSc Minna Rinkinen DVM PhD Thomas Spillmann Dipl Vet Med Dr Med Vet 《Journal of Veterinary Emergency and Critical Care》2009,19(6):554-563
Objective – To evaluate a method for endoscopically guided nasojejunal tube placement allowing short‐term postduodenal feeding and chyme withdrawal in dogs. Design – Pilot study. Setting – University teaching hospital. Animals – Three healthy Beagle dogs with jejunal nipple valve fistulas. Interventions – After the dogs were anesthetized, an 8 Fr, 250‐cm polyvinyl chloride catheter was advanced through a gastroscope into the jejunum. Correct jejunal placement was established using endoscopic visualization and confirmed by fluoroscopy and radiography. The proximal end of the tube was pulled out through 1 nostril and sutured to the skin of the forehead. Thereafter, jejunal feeding was administered for 4 days. Follow‐up examinations included daily confirmation of the tube's position using radiography, physical examination, and blood analyses. Withdrawal of jejunal chyme was performed after jejunal and oral feeding. Measurements and Main Results – Fluoroscopic examination confirmed that endoscopic visualization alone allowed correct jejunal placement. During a 4‐day postduodenal feeding period, repeated radiographic examination revealed stable positioning of the tubes within the jejunum with minor cranial displacement. The tubes were functional throughout the study without causing identifiable problems. Repeated physical examinations and blood analysis showed no abnormalities. We were able to administer the daily caloric requirements as a liquid diet. Jejunal chyme was successfully withdrawn via the tube. Conclusions – Endoscopically guided nasojejunal tube placement was shown to be a minimally invasive, well‐tolerated method for short‐term jejunal feeding in healthy dogs. This technique is a viable option for dogs requiring jejunal feeding but not laparotomy. The feasibility of chyme sampling is another unique application of the procedure. 相似文献