Abstract
Background
Need for chronic gastrointestinal diversion (GID) due to advanced malignancy or prolonged gastrointestinal discontinuity can pose a challenge for patients in which gastrostomy tube placement is not a feasible option. Nasogastric (NG) tubes carry a risk of multiple complications and can impact quality of life. Need for long-term GID can increase length of stay, delay discharge to post-acute care, and result in readmissions. We discuss the procedural steps to percutaneous endoscopic pharyngostomy (PEP) tube placement utilizing common endoscopic, ultrasound imaging, and percutaneous access skills.
Methods
We conducted a single-center retrospective review of 10 patients who required long-term GID and underwent PEP performed by acute care surgeons between May 2019 and August 2025.
Results
Patients ranged from ages 39 to 81. Nine patients required palliation due to malignant obstruction from advanced malignancy. One patient required decompression of an esophageal pouch after gastrectomy for ischemia without reconstruction. Three dislodged tubes were replaced, resulting in a total of 13 operations performed. Complications included the dislodgement of five PEP tubes, ranging from post-op day 12 to 42. Nine of the patients were discharged home with an average discharge of 3.4 days post-op. Three patients were lost to follow-up, but all three were discharged to home hospice as per the patient’s preoperative goals of care.
Discussion
Percutaneous endoscopic pharyngostomy is a useful skill for acute care surgeons to provide access for GID in selected patients. Challenges include a high dislodgement rate requiring reintervention.
Key Takeaways
• Percutaneous endoscopic pharyngostomy tube placement is a safe and minimally invasive approach to gastrointestinal diversion when alternative options are limited. • Percutaneous endoscopic pharyngostomy tubes are useful in removing barriers to home discharge and progressing care.
Introduction
In patients with advanced malignancy or prolonged gastrointestinal discontinuity that require long-term gastrointestinal diversion (GID), we have utilized a percutaneous endoscopic pharyngostomy (PEP) technique as a minimally invasive approach for placing a cervical pharyngostomy in order to achieve long-term GID. This technique mitigates the complications and impacts to quality of life that long-term nasogastric tube decompression carry. It enables the progression of care to home, which is preferred by people facing a poor survival prognosis, and can soften the ever rising burden on the health care system.1-6
Cervical pharyngostomy placement has been described as early as 1968 by Royster et al for feeding after maxillofacial surgery, as well as for GID as early as 1974 by Lyons, and percutaneous approaches were described by Meehan et al in 1984 and Bucklin and Gilsdorf in 1985.7-10 We believe this to be the first description of a percutaneous endoscopic technique for pharyngostomy placement, as this technique utilizes the advantages of endoscopic visualization in addition to common percutaneous access and ultrasound imaging skills.
Methods
In order to identify the indications and outcomes of patients who had PEP placement, case logs from the Acute Care Surgery service-line at a single institution were reviewed, and all patients who underwent PEP placement were included. Our Institutional Review Board’s policies consider this study exempt from requiring approval or review. 10 patients were identified who, in-total, underwent 13 operations. Chart review of each patient identified the indication for surgery and outcomes, including any complications. A complication was considered to be any inadvertent outcome which led or could lead to increased morbidity, return to OR, hospital readmission, or mortality not related to the already present disease process. No patients identified in our search were excluded from the study.
Procedural Steps and Technique
An endoscope is placed in the hypopharynx and transilluminated through the anterior-lateral neck in a window bordered by the jugular-carotid axis laterally, the thyroid cartilage medially, and the hyoid bone superiorly. Using ultrasound guidance to avoid vascular injury, a transcutaneous access needle is inserted into the hypopharynx just above the esophageal inlet with the bevel aimed inferiorly, toward the esophagus. Under endoscopic visualization, the needle is visualized entering the hypopharynx and a wire is then passed into the esophagus. Using a laparoscopic gastrostomy tube introducer kit that includes a peel-away sheath (Avanos Medical, Alpharetta GA), the tract is dilated up to a 20 or 22 French peel-away sheath. Once the dilator and wire are removed, a 16 or 18 French dual-lumen NG tube is inserted as the peel-away sheath is removed. Tube placement is confirmed endoscopically, and the tube is secured in place with non-absorbable suture.
Results
A total of 10 patients were identified, which accounted for 13 operations. Patients ranged from ages 39 to 81. The treatment goal was palliative for nine of the ten patients due to malignant obstruction. The remaining patient required decompression of an esophageal pouch, following a gastrectomy without reconstruction for ischemia, to facilitate discharge home while awaiting staged reconstruction after recovery. Nine of the ten patients were discharged home, with an average discharge of 3.4 days postoperatively. The 10th patient withdrew care after an extended hospital course. Two patients were discharged the same day of surgery with no complications. Three patients were discharged the day after surgery. Complications included the dislodgement of five PEP tubes, ranging from post-op days 12 to 42; three dislodgements occurred at home and were replaced, and the remaining 2 dislodgements occurred at a health care facility and were not replaced. Three patients were lost to follow-up; however, all three patients were discharged to home hospice as per the patient’s preoperative goals of care.
Discussion
We have found this technique to be a safe, effective, and minimally invasive approach to long-term GID in situations when gastrostomy is not appropriate, and it has helped to alleviate barriers to discharge by allowing patients to meet their goal of discharge to home with minimal postoperative recovery time. Given the high dislodgement rate, a second non-absorbable suture to secure the tube was adopted in order to reduce tube dislodgements. When patients returned to the hospital for tube dislodgements, these hospitalizations were short. Two out of three patients were discharged the same day as the replacement operation, and the third patient was discharged the day after. After reviewing the patients with outcomes of longer length of stay or in-hospital morbidity, we propose that these outcomes were more likely related to the patient’s underlying complex pathology and not as a result of the operation, as the operation often alleviated barriers to discharge.
Given the success to meet palliative goals of long-term GID, we have begun to utilize broader applications of this technique. In a patient with a complex surgical history and disease pathology in long-term gastrointestinal discontinuity due to need for delay in reconstruction, PEP placement was used for esophageal pouch drainage which facilitated discharge to home while they awaited staged reconstruction.
In conclusion, we have had early success with the PEP technique and found this minimally invasive approach to be safe and effective. We suggest this technique for long-term GID, which utilizes the advantages of endoscopic visualization and common percutaneous access skills, to be a useful skill for acute care surgeons.
Footnotes
Funding
The authors received no financial support for the research, authorship, and/or publication of this article.
Declaration of Conflicting Interests
Dr. Mukherjee has consulting relationships with Prytime Inc., Costa Surgical Inc., and ABLE Medical Inc.