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Percutaneous endoscopic gastrostomy |
Intervention |
Percutaneous endoscopic gastrostomy
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ICD-9-CM |
43.11 |
Percutaneous endoscopic gastrostomy (PEG) is an endoscopic medical procedure in which a tube (PEG tube) is passed into a patient's stomach through the abdominal wall, most commonly to provide a means of feeding when oral intake is not adequate (for example, because of dysphagia or sedation). This provides enteral nutrition (making use of the natural digestion process of the gastrointestinal tract) despite bypassing the mouth; enteral nutrition is generally preferable to parenteral nutrition (which is only used when the GI tract must be avoided). The PEG procedure is an alternative to open surgical gastrostomy insertion, and does not require a general anesthetic; mild sedation is typically used. PEG tubes may also be extended into the small intestine by passing a jejunal extension tube (PEG-J tube) through the PEG tube and into the jejunum via the pylorus.[1]
PEG administration of enteral feeds is the most commonly used method of nutritional support for patients in the community. Many stroke patients, for example, are at risk of aspiration pneumonia due to poor control over the swallowing muscles; some will benefit from a PEG performed to maintain nutrition. PEGs may also be inserted to decompress the stomach in cases of gastric volvulus.[2]
Contents
- 1 Indications
- 2 Techniques
- 3 Contraindications
- 3.1 Absolute contraindications
- 3.2 Relative contraindications
- 4 Complications
- 5 Removal of PEG tubes
- 5.1 Indications
- 5.2 Techniques
- 6 History
- 7 See also
- 8 References
- 9 External links
Indications[edit]
Gastrostomy may be indicated in numerous situations, usually those in which normal or nutrition (or nasogastric) feeding is impossible. The causes for these situations may be neurological (e.g. stroke), anatomical (e.g. cleft lip and palate during the process of correction) or other (e.g. radiation therapy for tumors in head & neck region).
In certain situations where normal or nasogastric feeding is not possible, gastrostomy may be of no clinical benefit. In advanced dementia, studies show that PEG placement does not in fact prolong life.[3] Quality improvement protocols have been developed with the aim of reducing the number of non-beneficial gastrostomies in patients with dementia.[4]
A gastrostomy can be placed to decompress the stomach contents in a patient with a malignant bowel obstruction. This is referred to as a "venting PEG" and is placed to prevent and manage nausea and vomiting.
A gastrostomy can also be used to treat volvulus of the stomach, where the stomach twists along one of its axes. The tube (or multiple tubes) is used for gastropexy, or adhering the stomach to the abdominal wall, preventing twisting of the stomach.[2]
A PEG tube can be used in providing gastric or post-surgical drainage.[5]
Techniques[edit]
PEG tube, cannula and guidewire (Pull Technique)
Two major techniques for placing PEGs have been described in the literature.
The Gauderer-Ponsky technique involves performing a gastroscopy to evaluate the anatomy of the stomach. The anterior stomach wall is identified and techniques are used to ensure that there is no organ between the wall and the skin:
- digital pressure is applied to the abdominal wall, which can be seen indenting the anterior gastric wall by the endoscopist.
- transillumination (diaphanoscopy): the light emitted from the endoscope within the stomach can be seen through the abdominal wall.
- a small (21G, 40mm) needle is passed into the stomach before the larger cannula is passed.
An angiocath is used to puncture the abdominal wall through a small incision, and a soft guidewire is inserted through this and pulled out of the mouth. The feeding tube is attached to the guidewire and pulled through the mouth, esophagus, stomach, and out of the incision.[2]
In the Russell introducer technique, the Seldinger technique is used to place a wire into the stomach, and a series of dilators are used to increase the size of the gastrostomy. The tube is then pushed in over the wire.[6]
Contraindications[edit]
As with the case of other types of feeding tubes, care must be made to place PEGs into an appropriate population. The following are contraindications to PEG use:[7]
Absolute contraindications[edit]
- Inability to perform an esophagogastroduodenoscopy
- Uncorrected coagulopathy
- Peritonitis
- Untreatable (loculated) massive ascites
- Bowel obstruction (unless the PEG is sited to provide drainage)
Relative contraindications[edit]
- Massive ascites
- Gastric mucosal abnormalities: large gastric varices, portal hypertensive gastropathy
- Previous abdominal surgery, including previous partial gastrectomy: increased risk of organs interposed between gastric wall and abdominal wall
- Morbid obesity: difficulties in locating stomach position by digital indentation of stomach and transillumination
- Gastric wall neoplasm
- Abdominal wall infection: increased risk of infection of PEG site
- Intra-abdmominal malignancy with peritoneal involvement (tumor seeding into formed channel with subsequent failure)
Complications[edit]
- Cellulitis (infection of the skin) around the gastrostomy site
- Hemorrhage
- Gastric ulcer either at the site of the button or on the opposite wall of the stomach ("kissing ulcer")
- Perforation of bowel (most commonly transverse colon) leading to peritonitis
- Puncture of the left lobe of the liver leading to liver capsule pain
- Gastrocolic fistula: this may be suspected if diarrhea appears a short time after feeding. In this case, the feed goes direct from stomach to colon (usually transverse colon)
- Gastric separation
- "Buried bumper syndrome" (the gastric part of the tube migrates into the gastric wall)[8]
Removal of PEG tubes[edit]
Endoscopic removal of PEG tube
Indications[edit]
- PEG tube no longer required (recovery of swallow after stroke or surgery for head and neck cancer, or from brain trauma)
- Persistent infection of PEG site
- Failure, breakage or deterioration of PEG tube (a new tube can be sited along the existing track)
- "Buried bumper syndrome"
Techniques[edit]
PEG tubes with rigid, fixed "bumpers" are removed endoscopically. The PEG tube is pushed into the stomach so that part of the tube is visible behind the bumper. An endoscopy snare is then passed through the endoscope, and passed over the bumper so that the tube adjacent to the bumper is grasped. The external part of the tube is then cut, and the tube is withdrawn into the stomach, and then pulled up into the oesophagus and removed through the mouth. The PEG site heals without intervention.
PEG tubes with a collapsible or deflatable bumper can be removed using traction (simply by pulling the PEG tube out through the abdominal wall).
History[edit]
The first percutaneous endoscopic gastrostomy performed on a child was on June 12, 1979 at the Rainbow Babies & Children's Hospital, University Hospitals of Cleveland. Dr. Michael W.L. Gauderer, pediatric surgeon, Dr. Jeffrey Ponsky, endoscopist, and Dr. James Bekeny, surgical resident, performed the procedure on a four-and-one-half-month old child with inadequate oral intake.[9] The authors of the technique, Dr. Michael W.L. Gauderer and Dr. Jeffrey Ponsky, first published the technique in 1980.[9] In 2001, the details of the development of the procedure were published, the first author being the originator of the technique itself.[2]
Since 1985, two PEGs per patient have been employed to treat gastric volvulus. [10] In 2006, a variation, the loop-PEG, was used in Singapore by Dr Pang Ah San. By decreasing the risks of accidental tube dislodgement, and the risks during tube exchange, the loop-PEG gives a better risk-benefit ratio. [11] [12]
See also[edit]
- Feeding tube
- Minimally conscious state
References[edit]
- ^ "Discussion". BCM Gastroenterology Grand Rounds. Baylor College of Medicine.
- ^ a b c d Gauderer MW (2001). "Percutaneous endoscopic gastrostomy-20 years later: a historical perspective". J. Pediatr. Surg. 36 (1): 217–9. doi:10.1053/jpsu.2001.20058. PMID 11150469.
- ^ Murphy LM, Lipman TO (2003). "Percutaneous endoscopic gastrostomy does not prolong survival in patients with dementia". Arch. Intern. Med. 163 (11): 1351–3. doi:10.1001/archinte.163.11.1351. PMID 12796072.
- ^ Monteleoni C, Clark E (2004). "Using rapid-cycle quality improvement methodology to reduce feeding tubes in patients with advanced dementia: before and after study". BMJ 329 (7464): 491–4. doi:10.1136/bmj.329.7464.491. PMC 515202. PMID 15331474.
- ^ Gail Waldby, "PEG-J Gastrostomy drainage jejunal feeding tubes" http://surgnurseslinks.com/caluso.htm
- ^ Deitel M, Bendago M, Spratt EH, Burul CJ, To TB (1988). "Percutaneous endoscopic gastrostomy by the "pull" and "introducer" methods". Can J Surg 31 (2): 102–4. PMID 3349370.
- ^ Gastroenterological endoscopy. Meinhard Classen, G. N. J. Tytgat, Charles J. Lightdale. 2002. ISBN 978-1-58890-013-5
- ^ Walters G, Ramesh P, Memon MI (2005). "Buried Bumper Syndrome complicated by intra-abdominal sepsis". Age and ageing 34 (6): 650–1. doi:10.1093/ageing/afi204. PMID 16267197.
- ^ a b Gauderer MW, Ponsky JL, Izant RJ (1980). "Gastrostomy without laparotomy: a percutaneous endoscopic technique". J. Pediatr. Surg. 15 (6): 872–5. doi:10.1016/S0022-3468(80)80296-X. PMID 6780678.
- ^ Gastrointest Endosc. 1985 Oct;31(5):340-2. The use of dual percutaneous endoscopic gastrostomy (DPEG) in the management of chronic intermittent gastric volvulus. Eckhauser ML, Ferron JP. PMID: 4043688
- ^ The Twin-stoma Gastrostomy and the L00PPEG®3G Tube. Pang AS. In: Kahout P editor. Gastrostomy. 2012 Croatia. ISBN 978-953-307-1.
- ^ A simple gastropexy for the loop-gastrostomy tube. Pang AS, Ho ST, Maetani I. Journal of Minimal Access Surgery 2012;8:154-5.
External links[edit]
- eMedicine: Percutaneous Gastrostomy and Jejunostomy
Digestive system surgical and other procedures / Digestive system surgery (ICD-9-CM V3 42–54, ICD-10-PCS 0D)
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Digestive tract |
Upper GI tract |
SGs / Esophagus |
- Esophagectomy
- Heller myotomy
- Sialography
- Impedance–pH monitoring
- Esophageal pH monitoring
- Esophageal motility study
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Stomach |
- Bariatric surgery
- Adjustable gastric band
- Gastric bypass surgery
- Sleeve gastrectomy
- Vertical banded gastroplasty surgery
- Collis gastroplasty
- Gastrectomy
- Billroth I
- Billroth II
- Roux-en-Y
- Gastroenterostomy
- Gastropexy
- Gastrostomy
- Percutaneous endoscopic gastrostomy
- Hill repair
- Nissen fundoplication
- Pyloromyotomy
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Medical imaging |
- Endoscopy: Esophagogastroduodenoscopy
- Barium swallow
- Upper gastrointestinal series
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Lower GI tract |
Small bowel |
- Bariatric surgery
- Duodenal switch
- Jejunoileal bypass
- Ileostomy
- Jejunostomy
- Partial ileal bypass surgery
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Large bowel |
- Appendicectomy
- Colectomy
- Colonic polypectomy
- Colostomy
- Hartmann's operation
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Rectum |
- Abdominoperineal resection / Miles operation
- Lower anterior resection
- Total mesorectal excision
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Anal canal |
- Anal sphincterotomy
- Anorectal manometry
- Lateral internal sphincterotomy
- Rubber band ligation
- Transanal hemorrhoidal dearterialization
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Medical imaging |
- Endoscopy: Colonoscopy
- Anoscopy
- Capsule endoscopy
- Enteroscopy
- Proctoscopy
- Sigmoidoscopy
- Abdominal ultrasonography
- Defecography
- Double-contrast barium enema
- Endoanal ultrasound
- Enteroclysis
- Lower gastrointestinal series
- Small-bowel follow-through
- Transrectal ultrasonography
- Virtual colonoscopy
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Stool tests |
- Fecal fat test
- Fecal pH test
- Stool guaiac test
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Accessory |
Liver |
- Artificial extracorporeal liver support
- Bioartificial liver devices
- Liver dialysis
- Hepatectomy
- Liver biopsy
- Liver transplantation
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Gallbladder, bile duct |
- Cholecystectomy
- Cholecystostomy
- ERCP
- Hepatoportoenterostomy
- Medical imaging: Cholangiography
- Cholecystography
- Cholescintigraphy
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Pancreas |
- Frey's procedure
- Pancreas transplantation
- Pancreatectomy
- Pancreaticoduodenectomy
- Puestow procedure
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Abdominopelvic |
Peritoneum |
- Diagnostic peritoneal lavage
- Intraperitoneal injection
- Laparoscopy
- Omentopexy
- Paracentesis
- Peritoneal dialysis
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Hernia |
- Hernia repair: Inguinal hernia surgery
- Femoral hernia repair
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Other |
- Laparotomy
- Rapid urease test / Urea breath test
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CPRs |
- MELD
- PELD
- UKELD
- Child-Pugh score
- Ranson criteria
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anat (t, g, p)/phys/devp/enzy
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noco/cong/tumr, sysi/epon
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proc, drug (A2A/2B/3/4/5/6/7/14/16), blte
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