1.Endoscopic Balloon Dilation for Treatment of Congenital Antral Web.
Jacquelin PECK ; Racha KHALAF ; Ryan MARTH ; Claudia PHEN ; Roberto SOSA ; Francisco Balsells CORDERO ; Michael WILSEY
Pediatric Gastroenterology, Hepatology & Nutrition 2018;21(4):351-354
Congenital antral webs are a rare but relevant cause of gastric outlet obstruction in infants and children. The condition may lead to feeding refusal, vomiting, and poor growth. Due to the relative rarity of the disease, cases of congenital antral web are frequently misdiagnosed or diagnosed with significant delay as physicians favorably pursue diagnoses of pyloric stenosis and gastric ulcer disease, which are more prevalent. We report a case of an eight-month-old female who presented with persistent non-bilious emesis, feeding difficulties, and failure to thrive and was discovered to have an antral web. The web was successfully treated with endoscopic balloon dilation, which resolved her symptoms. Two years later, the patient remains asymptomatic and is thriving with weight at the 75th percentile for her age.
Child
;
Diagnosis
;
Endoscopy
;
Failure to Thrive
;
Female
;
Gastric Outlet Obstruction
;
Humans
;
Infant
;
Pediatrics
;
Pyloric Stenosis
;
Stomach Ulcer
;
Vomiting
2.Wire Guided Cannulation Facilitates Endoscopic Management of Buried Bumper Syndrome: A Novel Technique.
Jacquelin PECK ; Kaitlin SAPP ; Alexander WILSEY ; Michael WILSEY
Pediatric Gastroenterology, Hepatology & Nutrition 2019;22(1):86-89
Buried bumper syndrome is a rare but potentially severe complication of percutaneous endoscopic gastrostomy tube insertion. Though this complication is uncommon, it may lead to pressure necrosis, bleeding, perforation, peritonitis, sepsis, or death. Each case of buried bumper syndrome is unique in terms of patient comorbidities and anatomic positioning of the buried bumper. For this reason, many approaches have been described in the management of buried bumper syndrome. In this case report, we describe the case of an adolescent Caucasian female who developed buried bumper syndrome three years after undergoing percutaneous endoscopic gastrostomy insertion. We review diagnosis and management of buried bumper syndrome and describe a novel technique for bumper removal in which we use a guide wire in combination with external traction to maintain a patent gastrostomy lumen while removing the internal percutaneous endoscopic gastrostomy bumper.
Adolescent
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Catheterization*
;
Comorbidity
;
Diagnosis
;
Endoscopy
;
Female
;
Gastroenterology
;
Gastrostomy
;
Hemorrhage
;
Humans
;
Necrosis
;
Pediatrics
;
Peritonitis
;
Sepsis
;
Traction
3.Gastric Xanthoma in the Pediatric Population: A Possible Herald for Malignancy?
Joseph D RUSSELL ; Jacquelin PECK ; Claudia PHEN ; Janna L LINEHAN ; Sara KARJOO ; Johnny NGUYEN ; Michael J WILSEY
Pediatric Gastroenterology, Hepatology & Nutrition 2020;23(1):110-114
Abdominal Pain
;
Adult
;
Appetite
;
Child
;
Deglutition Disorders
;
Diagnosis
;
Endoscopy
;
Gastritis
;
Helicobacter pylori
;
Histiocytes
;
Humans
;
Incidental Findings
;
Male
;
Nausea
;
Pediatrics
;
Stomach Neoplasms
;
Vomiting
;
Xanthomatosis
4.Airway Management for Initial PEG Insertion in the Pediatric Endoscopy Unit: A Retrospective Evaluation of 168 Patients
Jacquelin PECK ; Anh Thy H. NGUYEN ; Aditi DEY ; Ernest K. AMANKWAH ; Mohamed REHMAN ; Michael WILSEY
Pediatric Gastroenterology, Hepatology & Nutrition 2021;24(1):100-108
Purpose:
Percutaneous endoscopic gastrostomy (PEG) tube placements are commonly performed pediatric endoscopic procedures. Because of underlying disease, these patients are at increased risk for airway-related complications. This study compares patient characteristics and complications following initial PEG insertion with general endotracheal anesthesia (GETA) vs. anesthesia-directed deep sedation with a natural airway (ADDS).
Methods:
All patients 6 months to 18 years undergoing initial PEG insertion within the endoscopy suite were considered for inclusion in this retrospective cohort study. Selection of GETA vs. ADDS was made by the anesthesia attending after discussion with the gastroenterologist.
Results:
This study included 168 patients (GETA n=38, ADDS n=130). Cohorts had similar characteristics with respect to sex, race, and weight. Compared to ADDS, GETA patients were younger (1.5 years vs. 2.9 years, p=0.04), had higher rates of severe American Society of Anesthesiologists (ASA) disease severity scores (ASA 4–5) (21% vs. 3%, p<0.001), and higher rates of cardiac comorbidities (39.5% vs. 18.5%, p=0.02). Significant associations were not observed between GETA/ADDS status and airway support, 30-day readmission, fever, or pain medication in unadjusted or adjusted models. GETA patients had significantly increased length of stay (eβ =1.55, 95% confidence interval [CI]=1.11–2.18) after adjusting for ASA class, room time, anesthesia time, fever, and cardiac diagnosis. GETA patients also had increased room time (e β =1.20, 95% CI=1.08–1.33) and anesthesia time (eβ =1.50, 95% CI=1.30–1.74) in adjusted models.
Conclusion
Study results indicate that younger and higher risk patients are more likely to undergo GETA. Children selected for GETA experienced longer room times, anesthesia times, and hospital length of stay.
5.Airway Management for Initial PEG Insertion in the Pediatric Endoscopy Unit: A Retrospective Evaluation of 168 Patients
Jacquelin PECK ; Anh Thy H. NGUYEN ; Aditi DEY ; Ernest K. AMANKWAH ; Mohamed REHMAN ; Michael WILSEY
Pediatric Gastroenterology, Hepatology & Nutrition 2021;24(1):100-108
Purpose:
Percutaneous endoscopic gastrostomy (PEG) tube placements are commonly performed pediatric endoscopic procedures. Because of underlying disease, these patients are at increased risk for airway-related complications. This study compares patient characteristics and complications following initial PEG insertion with general endotracheal anesthesia (GETA) vs. anesthesia-directed deep sedation with a natural airway (ADDS).
Methods:
All patients 6 months to 18 years undergoing initial PEG insertion within the endoscopy suite were considered for inclusion in this retrospective cohort study. Selection of GETA vs. ADDS was made by the anesthesia attending after discussion with the gastroenterologist.
Results:
This study included 168 patients (GETA n=38, ADDS n=130). Cohorts had similar characteristics with respect to sex, race, and weight. Compared to ADDS, GETA patients were younger (1.5 years vs. 2.9 years, p=0.04), had higher rates of severe American Society of Anesthesiologists (ASA) disease severity scores (ASA 4–5) (21% vs. 3%, p<0.001), and higher rates of cardiac comorbidities (39.5% vs. 18.5%, p=0.02). Significant associations were not observed between GETA/ADDS status and airway support, 30-day readmission, fever, or pain medication in unadjusted or adjusted models. GETA patients had significantly increased length of stay (eβ =1.55, 95% confidence interval [CI]=1.11–2.18) after adjusting for ASA class, room time, anesthesia time, fever, and cardiac diagnosis. GETA patients also had increased room time (e β =1.20, 95% CI=1.08–1.33) and anesthesia time (eβ =1.50, 95% CI=1.30–1.74) in adjusted models.
Conclusion
Study results indicate that younger and higher risk patients are more likely to undergo GETA. Children selected for GETA experienced longer room times, anesthesia times, and hospital length of stay.