Fluoroscopic Evaluation of the Bariatric Surgery Patient

pdf path

Image Gallery

This article qualifies for 1.0 ARRT Category A Continuing Education credit. Visit appliedradiology.org/aici

A question-and-answer session with Cheri Canon, MD, Professor and Chair of the Department of Radiology, The University of Alabama at Birmingham, Birmingham, AL, and Jayleen Grams, MD, PhD, Associate Professor, The University of Alabama at Birmingham, Birmingham, AL, and Associate Chief of Surgery at the Birmingham VA Medical Center.

Applied Radiology (AR): Welcome, Drs. Canon and Grams. In general, what is the role of fluoroscopy in the evaluation of the bariatric patient?

Dr. Canon: Relative to other imaging methods used to evaluate the gastrointestinal (GI) tract, fluoroscopy is noninvasive, safe, inexpensive and, most importantly, provides dynamic images in real time.8 The fluoroscopic imaging exam performed by the radiologist is patient-specific, and depends primarily on the pre- vs. postoperative status of the patient, as well as any specific signs or symptoms the patient is experiencing. Preoperative evaluation for bariatric surgery is critical to investigate gastric anatomy and delineate any existing abnormalities such as hiatal hernia, scarring from prior ulcer disease, or anything else that alters normal anatomy. Evaluation of esophageal structure and motility is equally important. In addition, findings from the preoperative examination may influence decision making regarding which bariatric operation is most appropriate for the patient. Postsurgically, fluoroscopic imaging of the GI tract is useful to address complications, including leaks, which typically occur shortly after surgery, as well as complications that develop at a later time, such as gastrojejunostomy stricture or marginal ulcer.9,10 (Table 1)

AR: More specifically, how is fluoroscopy with barium contrast used to evaluate the bariatric patient prior to surgery?

Dr. Canon: The typical preoperative patient may undergo either barium esophagography (also referred to as a “barium swallow”) or an upper GI study, or both. An esophagram is the fluoroscopy-guided examination of the esophagus that evaluates motility and esophageal morphology, including the gastroesophageal (GE) junction, and assesses for gastroesophageal reflux (GER). An upper GI study includes esophageal morphology (but not typically motility) and extends the fluoroscopic evaluation to include the stomach and duodenum.11 In the preoperative patient, whether one or both exams are ordered depends on the patient and clinical scenario. Considerations may include: whether the patient is currently experiencing symptoms of a motility disorder or reflux disease; whether the surgeon has questions about the gastric anatomy of the patient, such as history of ulcer disease or prior bariatric surgery; and any limitations related to patient weight, girth, or mobility.12

Dr. Grams: As Dr. Canon mentioned, preoperative assessment of the bariatric patient may help guide decisions regarding which bariatric procedure is most appropriate for the patient. Currently, the most common bariatric procedures performed at UAB are sleeve gastrectomy and Roux-en-Y gastric bypass. At UAB, all patients being considered for sleeve gastrectomy undergo an esophagram. If barium esophagography reveals significant esophageal dysmotility or GER, further testing may be indicated and Roux-en-Y gastric bypass may be a better option, since sleeve gastrectomy can worsen both of these conditions.

AR: What about fluoroscopic evaluation after bariatric surgery?

Dr. Grams: Evaluation of postoperative bariatric patients can be divided into those who present with early complications and those who present with delayed or remote events. An immediate/early postoperative “leak” study is completed while the patient is still in the hospital. However, whether a leak study is performed varies based on individual practice patterns;13 some surgeons order a leak study on all of their patients, typically one day after the operation, while others do so only if the patient has worrisome signs or symptoms. Such symptoms include fever, tachycardia, low urine output, respiratory distress, leukocytosis, or disproportionate abdominal pain, and most commonly present within one week after the operation.10,13

Dr. Canon: A leak study is a focused study (1) to determine if the anastomosis is intact, ie, no leak is present; and (2) to ensure that the contrast is moving through appropriately, ie, there is no obstruction. Identifying free leak into the peritoneal cavity is critical, as this is a dire situation and, very often, the patient requires immediate surgery to correct the leak. Conversely, rather than a free leak, there can be a contained leak, and distinguishing between the two is an important branchpoint in the surgeon’s decision-making, ie, whether to do immediate surgery or watchful waiting.

If a leak is suspected, it is important to begin the leak study with a water-soluble, low-osmolar iodinated contrast media (LOCM), in order to limit spillage of barium into the peritoneal cavity.14 If no leak is seen with LOCM, it may be appropriate in some clinical scenarios to follow up with a low-density barium contrast to make sure no small leaks are missed.14

Dr. Grams: In postsurgical patients presenting with delayed or remote symptoms (typically more than one month postsurgery), several factors govern the choice of imaging modality (eg, fluoroscopy vs computed tomography [CT]), patient positioning, and contrast type and amount. These factors include the patient’s symptoms and anatomy, and the preferences of both the surgeon and radiologist. Fluoroscopy is often the first test chosen, as it provides both anatomical and functional information, and is relatively safe and noninvasive. For example, for esophageal motility evaluation to assess dysphagia or regurgitation, a barium esophagram may be performed as the initial test. This study would give us anatomical information such as whether there is a hiatal hernia or esophageal or anastomotic narrowing, as well as dynamic information including whether there is esophageal dysmotility or GER.

Dr. Canon: Note that compared to the preoperative study, a delayed postsurgical study may necessitate a decrease in the volume of contrast, as the patient’s stomach volume may be greatly decreased.

AR: Please tell us about fluoroscopy protocols at your institution.

Dr. Canon: Fluoroscopic imaging of the GI tract with barium may consist of a single-contrast exam (low-density barium contrast agent), or it may comprise a dual-phase exam, with a double-contrast phase (high-density barium contrast agent combined with an effervescent) followed by a single-contrast phase (low-density barium agent). A single-contrast esophagram is used to evaluate esophageal morphology and motility with the patient in the semiprone right anterior oblique (RAO) position following single small swallows of low-density barium.11,12 In a dual-phase air-contrast esophagram, an effervescent bicarbonate agent is administered to release carbon dioxide and distend the esophagus and stomach while the patient is standing. High-density barium suspension is then administered to coat the mucosa, followed by fluoroscopic evaluation of the esophagus and gastric cardia.11,12 Subsequent to this first phase, a single-contrast exam as described above is performed to assess esophageal motility and GER.

A single-contrast upper GI examination provides fluoroscopic assessment of the morphology and function of the entire esophagus, stomach, and duodenum. Low-density barium is ingested to distend the esophagus and stomach and assess for contour abnormalities or extrinsic masses.11 The double-contrast upper GI exam combines the same two phases as the double-contrast esophagram exam, but the fluoroscopic assessment extends from the esophagus to include the stomach and duodenum.11 During all of these exams, spot images should be obtained to document normal and abnormal findings.

AR: What are some of the challenges to performing fluoroscopy in bariatric surgery patients?

Dr. Canon: The main challenge in fluoroscopic evaluation of the bariatric surgery patient is patient positioning. The exam begins with the patient standing, but is followed by the patient lying on the table, which is required for adequate luminal distension. If the patient’s weight exceeds the limit of the fluoroscopy table, the footboard can be removed so the patient can stand in the fluoroscopy unit; however, lacking horizontal images, the study will be limited. If the patient cannot stand, or their body girth prevents them from fitting under the fluoroscopy tower, the patient can drink the contrast, and then a supine abdominal radiograph can be obtained while the patient is lying on a stretcher. Although not ideal, this provides at least some information.

Note that when performing esophagography or an upper GI fluoroscopy examination, the high frame rate/continuous fluoroscopy so critical to studying dysphagia with a modified barium swallow study is not a concern; relative to the rapid movements involved in swallowing, movement/motility in the esophagus and stomach is much slower. Therefore, when performing these exams, the frame rate can be reduced, decreasing radiation exposure to the patient and to the fluoroscopist while still obtaining the critical information.

AR: How important is communication between the radiologist and the bariatric surgeon?

Dr. Grams: Communication between the radiologist and the surgeon is crucial to maximizing the value of fluoroscopy. For more common indications and procedures, the order tends to be straightforward, and the key then is the thoroughness of the reporting: everything that is evaluated needs to be specified in the report, regardless of whether the findings are normal or abnormal. When the clinical question is more complicated, a consultation between the radiologist and surgeon and, in some cases, reviewing the images together, may be beneficial. So much clinical information is potentially obtainable from fluoroscopy of the upper GI tract, and it is vital to ensure that all of the information obtained in the fluoroscopy suite is transmitted to the surgeon, both before and after bariatric surgery.

AR: Any concluding thoughts?

Dr. Canon: Bariatric surgery is currently the most effective strategy for weight reduction in patients with obesity, a patient population that has risen dramatically in recent decades. A variety of surgical techniques and imaging modalities are available to the abdominal radiologist to evaluate bariatric patients before and after surgery. For the bariatric surgeon, preoperative upper GI fluoroscopic examination provides information that is critical to clinical decision-making. Postoperatively, these studies must be individually tailored to the patient, and defined by the anatomy and the clinical question.

Case Study 1


FIGURE 1. (A) Erect right lateral oblique spot image from postsurgical double-contrast upper GI exam using bicarbonate with high-density barium contrast agent. (B) Supine image from leak study using LOCM followed by low-density barium contrast agent after reoperation.

Case Summary: A 58-year-old male, status post Roux-en-Y gastric bypass and hiatal hernia repair, presented with worsening dysphagia, regurgitation, and recent unintentional weight loss of 40 pounds. Esophagogastroduodenoscopy (EGD) showed a tortuous esophagus.

Imaging Findings and Follow-up: Esophagram showed a large paraesophageal hernia (A), containing dilated loops of jejunum (arrow) with associated delayed emptying (approximately 5 mins) of contrast into more distal small bowel. He was taken to the operating room for redo laparoscopic hiatal hernia repair. Follow-up study (B) revealed reduced small bowel below the hemidiaphragm. He did well and had an uneventful hospitalization. Upon postoperative follow-up, he reported resolution of his preoperative symptoms.

Diagnosis: Post-gastric bypass hiatal hernia

Discussion: Hiatal hernias after Roux-en-Y gastric bypass are relatively common and are thought to be largely asymptomatic. Typically, a portion or all of the cardiac pouch may be above the diaphragm. Symptoms may occur if there is obstruction in emptying the herniated contents or extrinsic compression of the esophagus or cardiac pouch by herniated contents.

Case Study 2


FIGURE 1. Supine image postoperative upper GI exam using
low-density barium agent.

Case Summary: A 66-year-old female status post-Roux-en-Y gastric bypass presented with daily epigastric pain, heartburn, and regurgitation after eating. Symptoms were refractory to proton pump inhibitors, H2 blockers, sucralfate, GI cocktails, and baclofen. A pH study and manometry were normal. EGD showed a patent anastomosis without stricture or ulceration. There did seem to be a long “blind” or “candy-cane” limb (Roux limb proximal to the gastrojejunostomy).

Imaging Findings and Follow-up: Esophagram confirmed a long blind limb (arrow) and demonstrated reflux of blind limb contents retrograde into the gastric pouch (star) and esophagus. The patient underwent laparoscopic resection of the long blind limb and had an uneventful hospitalization. Upon postoperative follow-up, she reported resolution of her preoperative symptoms.

Diagnosis: Candy cane syndrome

Discussion: Candy cane syndrome is a rare complication of Roux-en-Y gastric bypass, can be difficult to diagnose, and requires a high index of suspicion. It is caused by food or liquid passing into the blind segment of the Roux limb proximal to the gastrojejunostomy. This food or liquid can become lodged in the blind limb or reflux retrograde into the cardiac pouch and possibly into the esophagus.

References

  1. Sturm R, Ringel JS, Andreyeva T. Increasing obesity rates and disability trends. Health Aff (Millwood). 2004; 23:199-205.
  2. CDC Website. Adult Obesity Facts. Available at: https://www.cdc.gov/obesity/data/adult.html; Accessed December 7, 2019.
  3. Kim DD, Basu A. Estimating the Medical Care Costs of Obesity in the United States: Systematic Review, Meta-Analysis, and Empirical Analysis. Value Health. 2016; 19:602-613.
  4. Nudel J, Sanchez VM. Surgical management of obesity. Metabolism. 2019;92:206-216.
  5. Carucci LR, Turner MA, Conklin RC, DeMaria EJ, Kellum JM, Sugerman HJ. Roux-en-Y gastric bypass surgery for morbid obesity: evaluation of postoperative extraluminal leaks with upper gastrointestinal series. Radiology. 2006; 238:119-127.
  6. ASMBS Website. Who is a Candidate for Bariatric Surgery? Available at: https://asmbs.org/patients/who-is-a-candidate-for-bariatric-surgery. Accessed March 2, 2020.
  7. ASMBS Website. Estimate of Bariatric Surgery Numbers, 2011-2018. Available at: https://asmbs.org/resources/estimate-of-bariatric-surgery-numbers. Accessed December 7, 2019.
  8. Levine MS, Rubesin SE, Laufer I. Barium studies in modern radiology: do they have a role? Radiology. 2009; 250:18-22.
  9. Levine MS, Carucci LR. Imaging of bariatric surgery: normal anatomy and postoperative complications. Radiology. 2014; 270:327-341.
  10. Lim R, Beekley A, Johnson DC, Davis KA. Early and late complications of bariatric operation. Trauma Surg Acute Care Open. 2018;3: e000219.
  11. American College of Radiology (ACR) Website. ACR Practice Parameter for the Performance of Esophagrams and Upper Gastrointestinal Examinations in Adults. Available at: https://www.acr.org/-/media/ACR/Files/Practice-Parameters/UpperGIAdults.pdf. Accessed March 2, 2020.
  12. Levine MS, Carucci LR, DiSantis DJ, et al. Consensus Statement of Society of Abdominal Radiology Disease-Focused Panel on Barium Esophagography in Gastroesophageal Reflux Disease. AJR Am J Roentgenol. 2016; 207:1009-1015.
  13. Kolakowski S Jr, Kirkland ML, Schuricht AL. Routine postoperative upper gastrointestinal series after Roux-en-Y gastric bypass: determination of whether it is necessary. Arch Surg. 2007;142: 930-934; discussion 934.
  14. Blachar A, Federle MP. Gastrointestinal complications of laparoscopic roux-en-Y gastric bypass surgery in patients who are morbidly obese: findings on radiography and CT. AJR Am J Roentgenol. 2002; 179:1437-1442.
Back To Top

Fluoroscopic Evaluation of the Bariatric Surgery Patient.  Appl Radiol. 

About the Author

Cheri Canon, MD and Jayleen Grams, MD, PhD

Cheri Canon, MD and Jayleen Grams, MD, PhD

Dr. Canon is Professor and Chair of the Department of Radiology, The University of Alabama at Birmingham, Birmingham, AL, and Dr. Grams is Associate Professor, The University of Alabama at Birmingham, Birmingham, AL, and Associate Chief of Surgery at the Birmingham VA Medical Center.



Copyright © Anderson Publishing 2020