Copyright
©The Author(s) 2022.
World J Gastrointest Surg. Apr 27, 2022; 14(4): 286-303
Published online Apr 27, 2022. doi: 10.4240/wjgs.v14.i4.286
Published online Apr 27, 2022. doi: 10.4240/wjgs.v14.i4.286
Table 1 Periprocedural pearls for gastrostomy tube placement
| Recognize indications, relative contraindications, and absolute contraindications for gastrostomy tube placement |
| Ensure appropriate informed consent and discussion of the benefits of gastrostomy tubes |
| Ensure correct selection of gastrostomy technique: |
| Transoral techniques should be first line except in select indications where transabdominal techniques maybe more appropriate |
| Placement by radiology is appropriate when the endoscopist is not trained in the transoral or transabdominal technique necessary or lacks availability of materials |
| Laparoscopic tube placement should be utilized when endoscopic or radiographic gastrostomy fails or is contraindicated |
| Perform certain periprocedural interventions to reduce adverse events: |
| Physical exam for oropharyngeal and abdominal wall abnormalities, ascites, and obesity |
| Hold anticoagulation and antiplatelet therapy appropriately and correct coagulopathy to avoid bleeding |
| Administer antibiotic prophylaxis targeting skin flora thirty minutes prior to procedure to prevent infection |
| Drain ascites beforehand and avoid gastrostomy tube placement if fluid reaccumulation is expected to occur within 7-10 d |
| Obtain cross-sectional imaging (e.g., computed tomography) if colonic interposition and other suspected anatomical abnormalities are suspected |
| Use reverse Trendelenburg patient positioning, proper transillumination and palpation of anterior gastric wall, and use of safe track maneuver during initial needle puncture to prevent inadvertent liver or colonic puncture |
| Minimize external bumper traction and ensure tube is rotatable to prevent buried bumper syndrome and ulceration |
| Consider abdominal binders to restrict access, gastropexy devices, and low-profile gastrostomy button with detachable tubing to prevent patient tube dislodgement |
Table 2 Select Indications for gastrostomy placement
| Palliative venting for malignant obstruction and peritoneal carcinomatosis[20,46,120-124] | Can reduce symptoms of nausea and vomiting without a cumbersome NG tube |
| Head and neck malignancy[20,125-130] | Reactive rather than prophylactic gastrostomy can reduce treatment related critical weight loss |
| Esophageal malignancy[131-136] | Achieves adequate nutritional status better than self-expandable metal stent insertion |
| Ventilator-dependent respiratory failure including COVID-19[137-144] | Early enteral nutrition can decrease complication rates and length of stay due to a catabolic state in prolonged ventilation |
| Stroke with dysphagia[145-147] | Can be placed after 28 d if prolonged enteral nutrition is needed |
| Non-stroke neurologic disease[148-155] | Supported in amyotrophic lateral sclerosis. No guideline specific recommendations in Parkinson’s disease, multiple sclerosis complicated by dysphagia, cerebral palsy, or trauma patients with severe cerebral injury but has been effective |
| Pregnancy complicated by severe hyperemesis gravidarum[156-159] | Successfully performed in up to a 29 wk gestation with favorable maternal and fetal outcomes |
| Gastric bypass | Can be performed in concurrence with surgery to avoid reoperation in patients who are at higher risk for an anastomotic leak or gastro-enteric obstruction[20,160,161] |
Table 3 Select relative contraindications to gastrostomy placement
| Comments | |
| Certain alterations in abdominal anatomy and motility[2,5] | Open abdomen, ostomy sites, drain tubes, and surgical scars can alter or preclude location for gastrostomy tube placement |
| Altered oropharyngeal anatomy[2] | Vocal cord paralysis, active radiation, head/neck tumors, facial and skull fractures, and high cervical fractures can obstruct the gastrostomy tube and create an airway emergency |
| Massive refractory ascites[2,162,163] | Increased risk for bacterial peritonitis, impairment of stoma tract maturation, and tube dislodgement if ascites rapidly reaccumulates over 7-10 d despite paracentesis or PleurX catheter placement; gastropexy devices can increase success |
| Upper GI bleeding from ulcer or varices[2] | Bleeding peptic ulcers and esophageal varices can have high rates of recurrent bleeding; bleeding from stress gastropathy, gastritis, or angiodysplasia are less likely to recur, and do not need a delay in enteral access |
| Obesity[2] | Shifting of panniculus increases the risk of tube dislodgement from the stomach into the peritoneal space |
| Early feeding in stroke with dysphagia[20,29,164-166] | Enteral tubes prior to 28 d rather than temporary NG tubes had greater development of pressure ulcers, sepsis, pneumonia, and GI bleeding over 2 yr |
| Nutrition in terminal metastatic malignancy[2,167,168] | Administration of nutrition beyond specific patient request plays a minimal role in comfort and does not improve complication rate, survival, or functionality in terminal malignancy |
| VP shunts[20,46,169,170] | May increase risk of ascending meningitis |
| Irreversible dementias[171-179] | Does not improve mortality or rehospitalization rate |
- Citation: Rajan A, Wangrattanapranee P, Kessler J, Kidambi TD, Tabibian JH. Gastrostomy tubes: Fundamentals, periprocedural considerations, and best practices. World J Gastrointest Surg 2022; 14(4): 286-303
- URL: https://www.wjgnet.com/1948-9366/full/v14/i4/286.htm
- DOI: https://dx.doi.org/10.4240/wjgs.v14.i4.286