Is sore throat an underreported and under-estimated quality indicator for endoscopic procedures? Results from a large prospective cohort

• Abstract
• Introduction
• Patients and methods
• Institutional review board
• Data collection
• Biostatistics
• Results
• Discussion
• Conclusion
• References

Abstract

Background and study aims Patients often develop sore throat after upper endoscopy procedures but there data are very limited on the magnitude of the problem. The aim of this study was to evaluate and identify independent risk factors of sore throat in patients undergoing endoscopy.

Patients and methods Data were collected prospectively on consecutive outpatient endoscopy procedures performed at Cedars-Sinai Medical Center from October 2018 to February 2019. Procedure nurses collected pre-procedure, intra-procedure, and immediate post-procedure surveys including evaluation of sore throat (pain scale from 1 – 10). Significant univariate variables (P < 0.05) were entered into a multivariate logistic regression model.

Results Data were collected on 715 patients. Four hundred seventy-two patients (mean age = 61 years, females = 53 %) were included in the analysis and 85 patients (18 %) experienced post-procedure sore throat. On univariate analysis, female gender, oral endoscopic ultrasound (EUS), oral double balloon enteroscopy (DBE), fellow involvement, throat suctioning, general anesthesia, oral airway, and prolonged procedure (> 30 minutes) were risk factors for sore throat (all P < 0.05). On the multivariate analysis, independent risk-factors for post-procedure sore throat were oral DBE (odds ratio [OR] 5.2), oral airway (OR 4.8), general anesthesia (OR 2.7), fellow involvement (OR 2.5), oral EUS (OR 2.4), and female gender (OR 2.0).

Conclusions Contrary to popular belief, our study found that post-procedural sore throat is more common (18 %) than previously reported. Two types of endoscopic procedures, two anesthesia maneuvers, female gender, and fellow involvement were all independent risk factors. This is of particular concern for interventionalists who perform EUS and oral DBE as these patients are at higher risk for sore throat.

Introduction

Patients often develop sore throat after upper endoscopy procedures but data are is limited on the magnitude of the problem, risk factors, and best practices to prevent this procedure-associated symptom. Post-procedure sore throat is not trivial for patients, often is a significant source of discomfort and significantly impacts patient satisfaction and quality of life. This has clinical implications because patients who experience negative outcomes post-procedure were found to be significantly less likely to agree to undergo an endoscopic procedure in the future if deemed necessary [1].

This also impacts providers because Medicare reimbursements are now, in part, based on patient satisfaction so there is increasing attention towards optimizing patient satisfaction [2]. Studies have consistently shown that well-managed pain is associated with more favorable ranking of patient interactions with clinical staff and higher overall satisfaction scores [3]. Conversely, poor survey results could result in hospitals forfeiting reimbursement.

Regarding previously published data, 30-day post-procedure surveys reported that 9 % to 12.8 % of patients experienced sore throat after common endoscopic procedures [1] [4] [5]. However, these studies are potentially inaccurate due to recall bias, and they lack details such as the type of procedures, anesthetic methods and degrees of discomfort experienced by patients. Few studies have looked at immediate post-procedure sore throat; one study reported 0.6 % sore throat after endoscopic ultrasound (EUS) which is an unexpectedly low incidence and further studies are warranted [6].

Another understudied area of interest is whether post-procedure sore throat is secondary to an endoscopy procedure itself or concomitant anesthesia maneuvers. While there are data showing that intubation increases risk of sore throat [7] [8], a comprehensive evaluation of endoscopic and anesthesia risk factors is lacking in the literature.

To our knowledge, this is the first large prospective study to comprehensively evaluate immediate post-procedure sore throat. The aims of this study were to evaluate the incidence and independent risk factors for sore throat in a high-volume academic endoscopic unit.

Patients and methods

Institutional review board

The study was approved as a quality improvement study by the hospital’s Institutional Review Board. Additional written consent for participation in this study was waived because the survey was performed as part of a non-interventional quality improvement study.

Data collection

Data were collected prospectively on consecutive outpatient endoscopy procedures performed at the Cedars Sinai Medical Center Gastrointestinal Unit from October 2018 to February 2019. Cedars Sinai is a high-volume quaternary referral endoscopy center with eight concurrent endoscopy rooms. This facility caters to a wide range of patients including those requiring regular screening endoscopic procedures to those with complex altered anatomy endoscopic retrograde cholangiopancreatographies (ERCPs). In addition, it is affiliated with more than 50 academic and community-based endoscopists as well as a high-volume advanced endoscopy group. Cedars Sinai is also affiliated with a large private practice anesthesia group of more than 140 anesthesiologists. Each room is staffed by an anesthesiologist and decisions are based on standard American Society of Anesthesiologists (ASA) guidelines. Cedars Sinai is a training institution with six general gastroenterology fellows and one or two advanced endoscopy fellows a year.

Any patient over age 18 presenting for an outpatient endoscopy who had capacity to answer basic survey questions was included in the study. These patients underwent upper gastrointestinal procedures such as endoscopic ultrasound (EUS), ERCP, double balloon enteroscopy (DBE) and gastroscopy (EGD). Any patient with sore throat prior to endoscopy, patients who only underwent lower gastrointestinal procedures (colonoscopy, flexible sigmoidoscopy, or rectal DBE exclusively), and anyone who declined to participate in the study was excluded from the study.

All surveys were administered by the nursing staff; endoscopists and anesthesiologists were not involved in data collection. This was done so that the data collection would be unbiased. Before the procedure, patients were given real-time preoperative surveys that included demographic information and presence of sore throat. Data were entered in a de-identified database spreadsheet with pertinent demographic information including age and gender. Standard-of-care consent for endoscopy was obtained from all patients before the procedure. Intra-procedurally, the following information was collected: type of procedure(s) including EGD, EUS, ERCP, push enteroscopy, oral DBE, flexible sigmoidoscopy, colonoscopy, rectal EUS, rectal DBE, and the type of endoscope used (pediatric gastroscope, regular gastroscope, therapeutic gastroscope, pediatric colonoscope, adult colonoscope, side-viewing ERCP duodenoscope, EUS radial scope, EUS linear scope, single balloon enteroscope, double balloon enteroscope, and pediatric double balloon enteroscope). Of note, the DBE included in the study is the double balloon-assisted endoscope (Fujinon Endoscopy, Wayne, New Jersey, United States). Spiral enteroscopy was not performed at Cedars Sinai and was therefore not included in the study. Additional data points included the duration of procedure (scope in to scope out divided into 1 to 30 minutes, 31 to 60 minutes, 61 to 90 minutes, 91 to 120 minutes, and 121 + minutes), degree of endoscope intubation difficulty (“no difficulty” defined as one attempt, “some difficulty” defined as two attempts, and “much difficulty” defined as three or more attempts), use of NG/OG tube during procedure, and whether there was fellow involvement.

Regarding anesthesia factors, the following data were collected: number of times the patient was suctioned by the anesthesiologist or staff (no suctioning, suctioned less than five times, or suctioned more than five times), type of anesthesia (moderate sedation, deep sedation, or general anesthesia), and type of airway used (oral or nasal). Moderate sedation is defined as conscious sedation administered by an endsocopist and procedure nurse (generally without an anesthesiologist in the room). Patients undergoing moderate sedation have purposeful response to verbal or tactile stimulation, can protect their airway, and have adequate spontaneous ventilation [9]. Deep sedation, also known as monitored anesthesia care (MAC), is managed by an anesthesiologist. The patient has purposeful response after repeat or painful stimuli and needs monitoring of their airway. In this paper, this type of sedation will be called “deep sedation”. Lastly, general anesthesia is also administered by an anesthesiologist and patients are all intubated and are unarousable even with painful stimuli. Oral airway, also known as oropharyngeal airway, refers to the rigid plastic oropharyngeal appliance that is sometimes placed by the anesthesiologist to prevent the tongue from covering the epiglottis [7]. This prevents oropharyngeal airway obstruction in deeply sedated patients. A nasal airway is occasionally used by anesthesiologists for a similar indication. Of note, topical anesthesia sprays are not routinely used prior to intubation at Cedars Sinai, and therefore, were not evaluated in this study. The names of the endoscopist and anesthesiologist were recorded.

After the procedure, a standard-of-care handoff was performed by the procedure nurse. Caution was taken not to disclose any of the aforementioned intra-procedural factors that might increase observer bias. Of note, per Cedars Sinai policy, patients are not transported out of the endoscopy rooms until they are awake per the anesthesiologist’s discretion. Once a patient was awake and alert in the post-anesthesia care unit, routine post-procedure care was completed, and the postoperative nurse administered an immediate post-procedure survey evaluating for sore throat with a Likert pain scale from 1 – 10. Additional follow-up was not a part of this study. However, patients received routine clinical care, including follow-up phone calls if deemed necessary and charts were reviewed to identify any delayed complications related to sore throat.

Biostatistics

For the biostatistics analysis, incidence of post-procedure sore throat was calculated. This was stratified to the various Fisher’s exact test and Mann-Whitney U test were used for univariate analysis to determine association between demographic, endoscopic, procedure and anesthesia factors and post-procedure sore throat. Subsequently, a multivariate logistic regression model was created involving all significant variables identified in the univariate analysis. Variables with high multicolinearity were excluded from multivariate analysis. Odds ratios (ORs) and 95 % confidence intervals (CI) were calculated. Statistical analysis was performed using a statistical software program IBM SPSS Statistics version 24, (IBM Corporation, Armonk, New York, United States) and a two-tailed P < 0.05 was considered statistically significant.

Results

Data were collected on a total of 715 patients. Lower procedures alone were performed on 226 patients (31.6 %). As anticipated, sore throat in patients who only underwent lower gastrointestinal procedures alone was lower than in patients who underwent upper gastrointestinal procedures (1.3 % vs 19.2 %, P < 0.01). These patients were excluded from further evaluation. Patients were also excluded if they had pre-procedure sore throat (n = 17, 2.4 %).

In total, 472 patients met inclusion criteria and were included in the analysis ([Table 1]). Mean age was 60.6 years (SD 15.8) and 52.8 % were females. Types of endoscopic procedure included the following: 63 ERCP (13.3 %) and 127 oral EUS (26.9 %) of which 53 (11.2 %) were radial EUS endoscope and 82 (17.4 %) were linear EUS endoscope. Other procedures included 316 EGD (66.9 %), 28 oral DBE (5.9 %), three push enteroscopies (0.6 %), 111 colonoscopies (23.5 %), two rectal DBE (0.4 %), and three flexible sigmoidoscopies (0.6 %). Procedure characteristics included fellow involvement in 123 cases (26.1 %), length of procedure > 30 minutes was 260 cases (55.1 %), and use of nasograstric/orogastric tube during procedure was seven cases (1.5 %). Regarding difficulty of endoscope intubation, there were six cases (1.3 %) with “much difficulty”, 22 cases (4.7 %) with “some difficulty” and the rest had no difficulty with endoscopic intubation.

Anesthesia maneuvers included moderate sedation in eight cases (1.7 %), deep sedation in 429 cases (90.9 %), general anesthesia in 35 cases (7.4 %), oral airway in 13 cases (2.8 %), suctioning of oral cavity during procedure in 181 cases (38.3 %), and suctioning of oral cavity more than five times was done in 21 cases (4.4 %). No cases of nasal airways were performed in the study.

Overall, 85 patients (18 %) experienced post-procedure sore throat ([Fig. 1]). Of them, 9.4 % and 29.4 % reported throat soreness as severe (level ≥ 8/10) and moderate (level 5 to 7 of 10), respectively. Trivial sore throat (score 1 to 2 of 10) and mild sore throat (score 3 to 4 of 10) were reported in 21.2 % of patients and 40.0 % of patients, respectively. Of note, charts were reviewed for any complications after the day of endoscopy, but no significant complications related to sore throat were found. No patients required examination by an ear, nose and throat specialist.

On univariate analysis ([Table 2]), female gender was a significant risk factor for sore throat [55 (64.7 %) vs 194 (50.1 %); P = 0.016]. In terms of type of endoscopic procedure, oral EUS and oral DBE were significant [32 (37.6 %) vs 95 (24.5 %), P = 0.021 and 14 (16.5 %) vs 14 (3.6 %), P < 0.001, respectively]. Of note, subgroup analysis of oral EUS with linear and radial EUS was done and neither was significant. Regarding other endoscopy factors, fellow involvement as well as prolonged procedure were associated with post-procedural sore throat [35 (41.2 %) vs 88 (22.7 %), P = 0.001 and 64 (68.1 %) vs 205 (51.9 %), P = 0.005]. Regarding anesthesia maneuvers, throat suctioning [45 (52.9 %) vs 136 (35.1 %), P = 0.003], general anesthesia [15 (17.6 %) vs 20 (5.2 %), P < 0.001] and use of an oral airway [6 (7.1 %) vs 7 (1.8 %), P = 0.017] were risk factors for sore throat.

On the multivariate analysis ([Table 3] and [Fig. 2]), the independent risk factors for post-procedure sore throat were oral DBE (OR 5.2, P < 0.001), fellow involvement (OR 2.5, p P = 0.001), oral EUS (OR 2.4, P = 0.002), and female gender (OR 2.0, P = 0.010). Independent anesthesia risk factors included oral airway (OR 4.8, P = 0.011) and general anesthesia (OR 2.7, P = 0.021). There was a trend towards significance with suctioning of oral cavity during the procedure (OR 1.7, P = 0.06).

Discussion

Post-procedure sore throat is common among patients who undergo upper endoscopy procedures but it is an understudied and underestimated condition. This prospective quality improvement study is the first to our knowledge to comprehensively investigate incidence and risk factors for sore throat immediately after upper endoscopy procedures. Our findings show that two endoscopy procedures, two anesthesia maneuvers, fellow involvement, and female gender are all independent risk factors.

In this study, throat soreness after endoscopic procedures was very common with 18 % of patients reporting it. When stratified by severity of symptoms, 39 % reported moderate or severe symptoms, which suggests these symptoms are not clinically insignificant to the patient. This has clinical implications because previous studies have shown that patients who experience negative outcomes post-procedure are more likely to have decreased patient satisfaction and are significantly less likely to agree to undergo endoscopic procedures in the future if deemed necessary [1]. Moreover, these quality indicators are increasingly affecting physician reimbursement.

This is a higher incidence than previously reported in the literature (9.5 % to 12.8 %) [1] [4] [5] [6]. This may be due to differences in study design and patient population. With previous studies that were 30-day questionnaires, incidence of sore throat may have been underestimated due to recall bias (patients are less likely to remember minor symptoms). However, there is also possible overestimation due to response bias (patients who are satisfied with their care are less likely to respond to postal surveys) so the reason for the discrepancy is unclear [10]. Another factor is that many of these studies only included EGD and did not include advanced procedures, which as our analysis showed, are more likely to cause sore throat.

Independent endoscopic risk factors were oral DBE (OR 5.2) and oral EUS (OR 2.4). Sore throat after oral DBE is likely due to the longer duration of the procedure, the large overtube, as well as the repetitive sliding motion of the overtube. Oral EUS may also be associated with sore throat due to the larger diameter of the endoscope and the bending mechanism at the distal end of the scope which, unlike EGD, is located a few centimeters proximally. It is also possibly due to the increased number of endoscopic intubations when both linear and radial EUS endoscopes were used. We had hypothesized that the linear EUS scope would cause more sore throat because of the larger ultrasound probe head, but rather, there was a trend towards significance with the radial EUS scope on univariate analysis (OR 1.9, P = 0.056) and not with the linear EUS probe. Overall, 25.2 % of patients undergoing EUS reported sore throat, which is significantly higher than previously reported [6].

Regarding anesthesia-related characteristics, oral airway (OR 4.76, P = 0.011) and general anesthesia (OR 2.68, P = 0.021) were significant on multivariate analysis. No studies have previously evaluated anesthesia maneuvers as potential risk factors for post-procedure sore throat. Our data suggest that anesthesia-related factors are just as significant, if not more, in contributing to post-procedure sore throat, than endoscopic and patient factors. This has implications in the possible role of anesthesiologists exercising more caution when intubating and suctioning patients. An area of future research may be the use of a soft catheter tip versus Yankauer suction to prevent throat trauma and subsequent post-procedure sore throat.

Female gender was also an independent risk factor (OR 2.0, P = 0.01) and while the reason is unclear, it could potentially be due to anatomic gender differences versus possibly different physiologic response in regards to noxious stimuli. Previous studies have also showed that females are more likely to report complications [4]. Fellow involvement was also a significant risk factor, which is possibly due to more frequent unintentional trauma during endoscopic intubation. Interestingly, duration of the procedure was not an independent risk factor for sore throat but oral DBE was a surrogate and significant risk factor. Also, older age was not a risk factor as previously reported [4].

There are several limitations to this study. The study was done at a single quaternary center so it may not be as generalizable to smaller centers or community practices. In addition, the post-procedure survey result may be affected by lingering sedation, possibly underestimating the level of pain in patients who were not fully awake. It is worth noting though that measures were taken to prevent this. Nurses were instructed to administer the survey when the patient was deemed to be awake and alert. In addition, patients are not transported out of the endoscopy rooms until they are awake per the anesthesiologist’s discretion as part of Cedars Sinai policy. Despite this limitation, our data do not show a trend of deeply sedated patients reporting less pain. Rather, patients who received general anesthesia (and likely the deepest sedation) still reported the most sore throat (OR 2.7, P = 0.021 on multivariate analysis). And patients who received deep sedation actually reported less pain (OR 0.4, P = 0.006 on univariate analysis). Moderate sedation was only done in eight patients in this study, none of whom reported sore throat despite receiving the least amount of sedation.

Other limitations included that a significant proportion of procedures were advanced endoscopic procedures and were more likely to cause sore throat, so this should be taken into account when interpreting the study. In addition, this was a non-interventional study and the findings are purely observational and based on patient surveys. Longer follow-up was not done, however, no significant complications were reported related to sore throat in these patients. Lastly, the number of fellows was low and this may result in an operator-dependent variable that affects the rate of post-procedural symptoms.

There were several strengths to the study. This was a large prospective study with 472 patients included in the cohort. Second, our endoscopy center setting allowed for evaluation of a heterogeneous group of providers; over 50 endoscopists, of whom 35 performed more than five endoscopies, and 18 different anesthesiologists were included in the study. The immediate post-procedure survey was seen as a strength of the study because we were able to evaluate the real-time incidence of discomfort that patients are experiencing; in addition, with an immediate post-procedure survey, there is less recall bias so it is the most accurate measure of post-procedure symptoms.

Conclusion

Contrary to popular belief, this study shows that post-procedural sore throat is more common than previously reported and is associated with certain endoscopic procedures, anesthesia maneuvers and patient factors. These findings are particularly relevant for interventionalists as their patients are at higher risk for sore throat. Understanding risk factors has important implications in patient satisfaction but more importantly, in patient adherence for future recommended procedures. It also has implications for physician and hospital reimbursements because of increasing emphasis on quality metrics. Future studies are warranted to further characterize this under-reported and underestimated quality indicator. There may be an important role in patient education, increased endoscopist/anesthesiologist awareness, and evaluation of interventions in the future.

Competing interests

The authors declare that they have no conflict of interest.

• References

• 1 Bini EJ, Firoozi B, Choung RJ. et al. Systematic evaluation of complications related to endoscopy in a training setting: A prospective 30-day outcomes study. Gastrointest Endosc 2003; 57: 8-16
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• 2 Geiger NF. On tying Medicare reimbursement to patient satisfaction surveys. Am J Nurs 2012; 112: 11
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• 3 Mazurenko O, Collum T, Ferdinand A. et al. Predictors of hospital patient satisfaction as measured by HCAHPS: a systematic review. J Healthc Manag 2017; 62: 272-283
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• 4 Zubarik R, Eisen G, Mastropietro C. et al. Prospective analysis of complications 30 days after outpatient upper endoscopy. Am J Gastroenterol 1999; 94: 1539-1545
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• 5 May A, Nachbar L, Ell C. Double-balloon enteroscopy (push-and-pull enteroscopy) of the small bowel: feasibility and diagnostic and therapeutic yield in patients with suspected small bowel disease. Gastrointest Endosc 2005; 62: 62-70
  CrossrefPubMedGoogle Scholar
• 6 Eloubeidi MA, Chen VK, Eltoum IA. et al. Endoscopic ultrasound-guided fine needle aspiration biopsy of patients with suspected pancreatic cancer: diagnostic accuracy and acute and 30-day complications. Am J Gastroenterol 2003; 98: 2663-2668
  CrossrefPubMedGoogle Scholar
• 7 Monroe MC, Gravenstein N, Saga-Rumley S. Postoperative sore throat: effect of oropharyngeal airway in orotracheally intubated patients. Anesth Analg 1990; 70: 512-516
  CrossrefPubMedGoogle Scholar
• 8 Biro P, Seifert B, Pasch T. Complaints of sore throat after tracheal intubation: a prospective evaluation. Eur J Anaesthesiol 2005; 22: 307-311
  CrossrefPubMedGoogle Scholar
• 9 Cohen LB, Delegge MH, Aisenberg J. et al. AGA Institute review of endoscopic sedation. Gastroenterology 2007; 133: 675-701
  CrossrefPubMedGoogle Scholar
• 10 Harewood GC, Yacavone RF, Locke GR. et al. Prospective comparison of endoscopy patient satisfaction surveys: e-mail versus standard mail versus telephone. Am J Gastroenterol 2001; 96: 3312-3317
  CrossrefPubMedGoogle Scholar

Corresponding author

Publication History

Received: 07 April 2020

Accepted: 05 June 2020

Article published online:
22 September 2020

© 2020. The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commecial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/)

Georg Thieme Verlag KG
Rüdigerstraße 14, 70469 Stuttgart, Germany

• References

• 1 Bini EJ, Firoozi B, Choung RJ. et al. Systematic evaluation of complications related to endoscopy in a training setting: A prospective 30-day outcomes study. Gastrointest Endosc 2003; 57: 8-16
  CrossrefPubMedGoogle Scholar
• 2 Geiger NF. On tying Medicare reimbursement to patient satisfaction surveys. Am J Nurs 2012; 112: 11
  CrossrefPubMedGoogle Scholar
• 3 Mazurenko O, Collum T, Ferdinand A. et al. Predictors of hospital patient satisfaction as measured by HCAHPS: a systematic review. J Healthc Manag 2017; 62: 272-283
  PubMedGoogle Scholar
• 4 Zubarik R, Eisen G, Mastropietro C. et al. Prospective analysis of complications 30 days after outpatient upper endoscopy. Am J Gastroenterol 1999; 94: 1539-1545
  PubMedGoogle Scholar
• 5 May A, Nachbar L, Ell C. Double-balloon enteroscopy (push-and-pull enteroscopy) of the small bowel: feasibility and diagnostic and therapeutic yield in patients with suspected small bowel disease. Gastrointest Endosc 2005; 62: 62-70
  CrossrefPubMedGoogle Scholar
• 6 Eloubeidi MA, Chen VK, Eltoum IA. et al. Endoscopic ultrasound-guided fine needle aspiration biopsy of patients with suspected pancreatic cancer: diagnostic accuracy and acute and 30-day complications. Am J Gastroenterol 2003; 98: 2663-2668
  CrossrefPubMedGoogle Scholar
• 7 Monroe MC, Gravenstein N, Saga-Rumley S. Postoperative sore throat: effect of oropharyngeal airway in orotracheally intubated patients. Anesth Analg 1990; 70: 512-516
  CrossrefPubMedGoogle Scholar
• 8 Biro P, Seifert B, Pasch T. Complaints of sore throat after tracheal intubation: a prospective evaluation. Eur J Anaesthesiol 2005; 22: 307-311
  CrossrefPubMedGoogle Scholar
• 9 Cohen LB, Delegge MH, Aisenberg J. et al. AGA Institute review of endoscopic sedation. Gastroenterology 2007; 133: 675-701
  CrossrefPubMedGoogle Scholar
• 10 Harewood GC, Yacavone RF, Locke GR. et al. Prospective comparison of endoscopy patient satisfaction surveys: e-mail versus standard mail versus telephone. Am J Gastroenterol 2001; 96: 3312-3317
  CrossrefPubMedGoogle Scholar