The post-reflux swallow-induced peristaltic wave (PSPW) index and esophageal baseline impedance (BI) are novel impedance parameters used to evaluate esophageal chemical clearance and mucosal integrity. However, their relationship with reflux symptoms is not known. We aim to evaluate the correlations of PSPW index and esophageal BI with gastroesophageal reflux disease (GERD) symptoms.
We performed a retrospective review of multichannel intraluminal impedance and pH (MII-pH) tracings in patients with suspected GERD. Reflux symptoms were also analyzed from checklists using ordinal scales. The PSPW index and esophageal BIs in 6 spots (z1–z6) were measured. Bivariate (Spearman) correlation was used to analyze the relationship between the PSPW index or esophageal BI, and the degree of GERD symptoms measured.
The MII-pH records of 143 patients were analyzed. The PSPW index was significantly lower in patients who had heartburn and negatively correlated with the degree of heartburn (
These findings suggest that delayed chemical clearance of the esophagus may induce heartburn, but that it is not related to dysphagia. However, a lack of esophageal mucosal integrity may be related to dysphagia.
Gastroesophageal reflux disease (GERD) is currently defined as a condition in which refluxed gastric contents in the esophagus causes troublesome symptoms and/or complications.1 Although many patients with GERD manifest typical symptoms such as heartburn and acid regurgitation, others predominantly complain of atypical symptoms, such as hoarseness, throat clearing, burning throat, water brash, halitosis, chest pain, chronic cough, dysphagia, and dental erosion.2 Multichannel intraluminal impedance and pH (MII-pH) monitoring can be used to confirm GERD and it has diagnostic gain compared with using a pH-meter alone for patients with refractory heartburn treated with proton pump inhibitors (PPIs).3 It can detect the movement of esophageal contents during peristalsis or reflux, and discriminate the acidity and nature of the contents (liquid, gas, or mixed). Once reflux occurs, the distended esophageal wall by refluxed gastric material activate the stretch receptors in the esophageal wall, and induce the secondary peristalsis which forces the refluxed bolus quickly back to the stomach.4 Another defense mechanism is primary peristalsis known as the post-reflux swallow-induced peristaltic wave (PSPW). PSPW index has been confirmed to improve the diagnostic efficacy of MII-pH monitoring. One study showed that the PSPW index was significantly lower in patients with erosive reflux disease (ERD) and non-erosive reflux disease (NERD) than in patients with functional heartburn, regardless of PPI therapy or anti-reflux surgery.5
Esophageal intraluminal baseline impedance (BI) may represent the status of mucosal integrity.6 Farre et al7 showed that the esophageal BI decreases to and maintains a low value after acid perfusion in their acid perfusion study. They demonstrated that esophageal BI measurements can be used to evaluate changes in the esophageal mucosa integrity after acid perfusion injury, and showed that it is correlated with transepithelial resistance (TER), which reflects impaired mucosal structure. Dilated intercellular space (DIS) in the esophageal squamous epithelium is generally regarded as a structural marker of GERD and potentially as an early injury of esophageal mucosal integrity.8 DIS occurs in association with a decrease in TER.9 Photomicrographs of intercellular spaces in patients with reflux esophagitis and NERD showed more dilation compared with that of controls.6 Moreover, esophageal BI values were lower in GERD patients than in controls and were lower in reflux esophagitis patients than in NERD patients.6
While GERD patients have a lower PSPW index and esophageal BI than those of controls, no study has directly compared GERD symptoms with the PSPW index or esophageal BI. The aim of this study is to evaluate the correlations of the PSPW index and esophageal BI with GERD symptoms.
We retrospectively selected patients with suspected GERD symptoms who underwent 24-hour ambulatory MII-pH monitoring between May 2007 and December 2011. Inclusion criteria were as follows: age > 19 years, completion of the GERD symptom questionnaire, and a MII-pH monitoring duration of at least 21 hours. The patients’ symptoms were assessed using a validated questionnaire completed prior to MII-pH monitoring. Exclusion criteria were study after endoscopic manipulation such as Stretta therapy, after fundoplication, previous esophageal or gastric endoscopic treatment such as polypectomy, endoscopic mucosal resection, endoscopic submucosal dissection, balloon or bougie dilation, previous esophagogastric surgery such as esophageal resection, gastric wedge resection, gastrectomy, and study on PPI. Ineffective esophageal motility by esophageal manometry was included in the study as it is a common phenomenon of GERD. All patients underwent upper gastrointestinal endoscopy and most of them showed normal findings (only 3% showed reflux esophagitis of Los Angeles classification A). This study was approved by the Institutional Review Board of the Soonchunhyang University Seoul Hospital.
All subjects underwent MII-pH monitoring (Sandhill Scientific, Inc, Highland Ranch, CO, USA) after PPI withdrawal for at least 7 days. The pH electrode was placed 5 cm above the upper margin of the manometrically defined lower esophageal sphincter (LES), and 6 BI values (z1, z2, z3, z4, z5, and z6) were determined at 6 sites (3, 5, 7, 9, 15, and 17 cm above the LES respectively). The subjects were encouraged to maintain their normal daily activities and diet. Event markers on the data logger were used to record the start and end times of symptoms, meal times, and position changes. Impedance, pH, and symptom signals were collected at a sampling rate resolution of 50 Hz. Recorded data were analyzed using a dedicated software program (BioView Analysis; Sandhill Scientific, Inc) in conjunction with a visual analysis using appropriate time window and zooming. A PSPW was defined as an antegrade 50% drop in impedance level relative to the baseline (bolus entry) originating in the most proximal site of impedance, reaching all distal impedance sites, and followed by at least a 50% return to baseline at all distal impedance sites (bolus exit) (Fig. 1).10 Post-reflux swallows not fulfilling this criteria were excluded. To exclude the spontaneous swallowing of around 64 swallows per hour11 only a PSPW occurring within 30 seconds from the end of reflux episodes was taken into account considering the 10 to 15 seconds of salivary gland response after esophageal acidification.12 For each impedance-pH monitoring tracing, the number of PSPWs was calculated and divided by the total reflux events to obtain the PSPW index, a parameter representing the efficacy of chemical clearance. These manual processes were performed by one investigator (first author). Esophageal BI was calculated using a software program (BioView Analysis, BL_Plot program V2.0; Sandhill Scientific, Inc). We evaluated the associations of the PSPW index and esophageal BI with GERD symptoms.
All subjects also underwent high-resolution esophageal manometry (Given Imaging, Los Angeles, CA, USA) just before MII-pH. We measured 10 times the 10 mL water swallow using distilled water with intervals of at least 20 seconds. The recorded data were analyzed after thermal compensation using a dedicated software (Manoview; Given Imaging). The Chicago classification version 3.0 was applied to disease category.
We classified reflux events into five categories according to the acidity of the intraluminal esophagus when reflux and PSPWs occurred. When the pH of a reflux event was lower than 4, it was termed “acid reflux,” while “non-acid reflux” referred to reflux events with a pH above 4. After a PSPW occurred during acid reflux, some cases showed neutralization, which seemed to be due to the PSPW, but other cases still showed acidity. The following categories were used: (1) acid reflux not followed by PSPW, (2) acid reflux followed by a PSPW with neutralization, (3) acid reflux followed by PSPW without neutralization, (4) non-acid reflux not followed by a PSPW, and (5) non-acid reflux followed by a PSPW. The correlation between each category and GERD symptoms was analyzed.
Symptoms including dysphagia, heartburn, acid regurgitation, globus sense, and chest pain were scored by frequency and severity, each on a Likert scale ranging from 0 to 4. We asked patients to rate the frequency of their symptoms as follows: 0, no symptoms; 1, less than once per month; 2, 2 to 4 times per month; 3, once to 6 times per week; and 4, daily. The patients also rated the severity of their symptoms as follows: 0, no symptoms; 1, can be ignored with effort; 2, cannot be ignored but does not influence one’s daily activities; 3, cannot be ignored and limits one’s concentration on daily activities; and 4, cannot be ignored and markedly limits one’s daily activities and often requiring rest. Symptom scores were calculated by summing the frequency and severity scores. These symptoms were evaluated just before insertion of the MII-pH monitoring catheter.
Spearman rank correlation coefficients were used to analyze the correlations of all continuous variables including symptoms with the PSPW index and esophageal BI. A
A total of 143 patients (60 males, mean age 58 years, range 26–85 years) were enrolled in this study, and their MII-pH records were analyzed (Table 1). Indications for performing MII-pH monitoring were as follows: heartburn (n = 25), acid regurgitation (n = 55), chest pain (n = 25), dysphagia (n = 24), cough (n = 36), hoarseness (n = 34), and other symptoms such as globus sense (n = 69). The mean symptom scale scores for heartburn, acid regurgitation, and dysphagia were 6.20, 5.03, and 5.95, respectively (Table 1).
The PSPW index ranged from 0.00 to 0.71 with a median score of 0.13. The PSPW index negatively and weakly correlated with the degree of heartburn (
Mean total number of reflux event was 30.9 and the mean number of each categories were 13.8 in acid reflux not followed by PSPW, 1.8 in acid reflux followed by a PSPW with neutralization, 1.0 in acid reflux followed by PSPW without neutralization, 12.9 in non-acid reflux not followed by a PSPW, and 1.4 in non-acid reflux followed by a PSPW (Table 2). No reflux category was significantly correlated with GERD symptoms. Distal esophageal BI (3 cm and 5 cm above the LES) was significantly but weakly correlated with acid reflux without a PSPW (
Distal esophageal BI levels of 3 cm (
The pathophysiological mechanisms underlying heartburn and other GERD symptoms are poorly understood13; indeed, several mechanisms of their development have been proposed. GERD symptoms may be triggered by increased reflux, or by an increased perception of physiological reflux14 and can result from the direct effects of stimuli such as acid, bile, pepsin and temperature. An increased volume of reflux events may lead to esophageal wall distension, which triggers stretch receptors, and induces symptoms.15 Other mechanisms include motor reactions such as hypermotility and sustained longitudinal muscle contraction, as well as modulation by visceral hypersensitivity and cultural-psychological and ex-traesophageal factors.16 Chemical stimulation is likely related to increased permeability of the esophageal squamous epithelium, which reflect impaired tertiary defense mechanism, resulting in mucosal DIS that facilitates contact between acid or other components and sensory nerve endings.17 Because esophageal BI is negatively correlated with DIS, it may be related to the generation of certain symptoms. A well-known secondary defense mechanism against GERD is esophageal acid clearance, for which generation of peristalsis is very important.5 The PSPW index represents a direct function of chemical clearance.5 As the human esophageal mucosa is very sensitive to continuous exposure to acidic and weakly acidic solutions,18 a decreased PSPW index may underlie certain symptoms via decreased esophageal clearance or hypersensitivity of the esophagus.
However, the exact mechanisms underlying each GERD symptom are not obvious. In this study, we investigated the direct associations of GERD symptoms with the PSPW index and esophageal BI.
The PSPW index was inversely correlated with heartburn but was not significantly associated with other symptoms such as dysphagia, acid regurgitation, chest pain, cough, hoarseness, and globus sense. A previous study showed that the PSPW index was significantly lower in patients with ERD than in those with NERD and was lower in patients with NERD than in controls or patients with functional heartburn.5 These findings suggest that patients with ERD may have greater neuronal damage or neuritis that inhibits the initiation of esophageal peristalsis. Compared with NERD, in ERD, a clear breach in the squamous epithelium allows reflux components to reach acid-sensitive nerve endings, including acid-sensitive ion channels located in the mucosa and lamina propria, which deliver the sensations of heartburn and chest pain to the central nervous system.19,20 The PSPW index may be related to heartburn development; however, the exact underlying mechanism, such as acid sensitization due to a longer exposure to esophageal acid, remains to be elucidated.
In our study, the mean number of acid reflux events followed by PSPWs regardless of neutralization (2.8) was greater than the mean number of non-acid reflux events followed by PSPWs (1.4). This finding suggests that acid reflux is a more reliable factor triggering PSPWs than non-acid reflux. The PSPW index was not related to dysphagia in our study. The etiology of dysphagia in GERD patients is controversial. In a previous study, abnormal sensory perception in the esophagus led to the perception of dysphagia, even when the bolus had cleared the esophagus.21 Future studies are warranted to confirm these findings.
Esophageal BI, a measure of mucosal integrity was inversely correlated with intercellular space in a previous study.6 In our study, distal esophageal BI was inversely correlated with dysphagia but was not associated with heartburn. Other symptoms including acid regurgitation and chest pain showed weak and sporadic positive correlations with proximal esophageal BI. Another study showed that esophageal perfusion with acid solutions provoked DIS in the exposed esophageal mucosa.18 Interestingly, despite the presence of perfusion induced DIS, most healthy subjects did not perceive heartburn, thus casting doubt on the existence of a direct relationship between DIS and reflux symptoms.18 This phenomenon may be related to the peripheral sensitization in GERD patients. Reflux events inducing DIS and allowing peripheral sensitization of sub-epithelial nerves by gastric acid or other refluxed materials could contribute to the increased perception of esophageal sensations including dysphagia.22 Consequently, decreased esophageal BI may be related to increased dysphagia symptoms. Regarding the positive relationships between acid regurgitation/chest pain and proximal esophageal BI in our study, we could not find any reasonable relationship. However, the regurgitation may increase the gas content in the proximal esophagus which may increase the intraluminal impedance level at the segment of air trapping, because MII-pH catheter measures the intraluminal impedance rather than the mucosal impedance. Distended proximal esophagus by regurgitation and trapped gas may also induce chest pains. But, these findings were very weak correlations and sporadic. We should be cautious in interpreting these primitive observations. Further studies should be performed to determine the pathophysiological mechanisms underlying GERD symptoms.
A few limitations of our study should be acknowledged. First of all, it was a retrospective study. We analyzed Impedance-pH of patients who had GERD symptoms by medical records. Second, although the questionnaires and scoring system for the analysis of symptoms were developed, the symptoms can be subjective. Third, we did not classify the patients as reflux esophagitis, nonerosive reflux disease, and functional heartburn, because (1) our subjects did not undergo the PPI test because of the retrospective design and (2) the major limitation of Imp-pH is false negative. Fourth, although all subjects received endoscopy and high resolution manometry, we could not precisely exclude early phases of systemic sclerosis and eosinophilic esophagitis because we performed esophageal mucosal biopsy in only suspected patients (not routinely performed). All of the above are limitations of a retrospective study. Even though there are some limitations, this study is meaningful in the respect that GERD symptoms with PSPW and BI were directly compared. Classification of reflux episodes according to acidity, PSPW and neutralization was the first attempt to date regardless of the results.
In conclusion, we found that chemical clearance of the secondary defense mechanism, measured using the PSPW index, was inversely correlated with heartburn but not dysphagia. Moreover distal esophageal mucosal integrity of the tertiary defense mechanism, measured using esophageal BI, was inversely correlated with dysphagia but not heartburn. These correlations were weak, thus, future studies should aim to elucidate the underlying pathophysiological mechanisms of GERD symptoms and their associations with the PSPW index and esophageal BI.
We would like to express our sincere gratitude to Yun Jung, study codinator of the department of Gastroenterology, Soonchunhyang University who helped to acquire patients’ data of impedance pH monitoring. The manuscript has been presented at last Digestive Disease Week (DDW) 2016 in San Diego, California.
Patient Baseline Characteristics (N = 143)
|Age (mean age [range], yr)||58 (26–85)|
|Others (globus sense, belching, etc)||69|
Classified Reflux Episodes According to Acidity, Post-reflux Swallow-induced Peristaltic Wave, and Neutralization
|Categories of reflux events||Mean (SD)||Total number|
|Acid reflux not followed by PSPW||13.78 (12.12)||1970|
|Acid reflux followed by PSPW with neutralization||1.83 (3.16)||260|
|Acid reflux followed by PSPW without neutralization||1.05 (2.75)||148|
|Non-acid reflux not followed by PSPW||12.98 (10.72)||1843|
|Non-acid reflux followed by PSPW||1.40 (2.70)||199|
|Total reflux||30.91 (19.35)||4420|
|Total PSPW||4.24 (6.35)||607|
|PSPW index||0.13 (0.14)|
PSPW, post-reflux swallow-induced peristaltic wave.