Peptest for diagnosing gastro‑oesophageal reflux

Study component

Description

Objectives/hypotheses

To evaluate the accuracy of pepsin detection in the saliva using the Peptest for the diagnosis of LPR.

Study design

Cross‑sectional study.

All patients had 24‑hour oesophageal dual pH monitoring, during which each patient gave 1 sample of sputum Peptest when they had the worst symptoms.

The Peptest was expected to have the ability to detect pepsin down to 16 ng/ml.

Ambulatory pH monitoring and pepsin detection test analysis were double‑blinded by separate researchers.

Setting

Unclear about the setting but the study was conducted in Turkey. Further details were not reported. No information was provided on the source of the patients, including how they were recruited.

Inclusion/exclusion criteria

Inclusion criteria: people with suspected LPR, who had at least 1 LPR symptom, with RSI>15 and RFS>3.

Exclusion criteria: psychiatric disorders with cooperation disability; previous laryngeal surgery history; any kind of nasal, paranasal, pharyngeal, laryngeal or pulmonary disease which can mimic LPR symptoms; patients who had taken proton pump inhibitors in the last 1 month.

Primary outcomes

Pathologic GOR findings (percentage of time pH<4 in distal probe over 5%); LPR findings (presence of a single attack of pH<4 in the proximal probe); pH score in the proximal and distal probes when the sputum sample was given; sensitivity, specificity; PPV; NPV.

Statistical methods

Not reported.

Participants

People with a suspicion of LPR (n=20).

Results

Mean RSI: 22.1

Mean RFS: 8.1

Patients with at least 1 LPR attack (pH<4 in the proximal probe): 90%.

Mean pH value: 6.38 in the proximal probe and 4.32 in the distal probe at the sample time.

Patients with pathologic GOR findings (percentage of time pH<4 in distal probe over 5%): 90%.

All pepsin‑positive patients were in the pathologic GOR group.

For pepsin detection test for GOR:

Among the 6 people with a pepsin positive test, pH<4 in 66% of the distal probe and 33% of the proximal probe at the sampling time.

Pepsin‑positive people had an apparent acidic pH value in the proximal probe at the sample time compared with the pepsin‑negative patients (3.26 compared with 6.81).

Conclusions

The authors concluded that, because of the benefits and ease of application, a positive salivary pepsin test in a patient suspected of having LPR can be a cost effective, accurate and alternative diagnostic method. Increasing the daily number of sputum samples may increase the sensitivity of the test.

Abbreviations: GOR, gastro‑oesophageal reflux; LPR, laryngo‑pharyngeal reflux; n, number of patients; NPV, negative predictive value; PPV, positive predictive value; RFS, reflux finding score (details available in table 2 of the paper); RSI, reflux symptom index (0=no problem; 5=severe problem).

Study component

Description

Objectives/hypotheses

To establish normal values of salivary pepsin in healthy asymptomatic people and to determine its value to discriminate patients with reflux‑related symptoms (GORD, HO) from functional heartburn, using Peptest.

Study design

A prospective controlled cohort study. Patient sampling was consecutive.

Cut‑off pepsin concentration for a saliva sample positive for pepsin was >16 ng/ml. Each patient had 3 samples during the day: on waking, 1 hour after finishing lunch and 1 hour after finishing dinner during the 24‑hour ambulatory MII‑pH monitoring period.

Analysis was blinded to the patients' status, any reflux monitoring parameter and Reflux Disease Questionnaire scores.

Setting

Healthy volunteers were recruited by advertisements placed at St George's University of London, and consecutive patients with typical GORD symptoms were referred to the Upper Gastrointestinal Physiology Unit at the Royal London Hospital for reflux assessment.

Inclusion/exclusion criteria

Patients with typical GORD symptoms (predominant heartburn with or without regurgitation) or with a primary complaint of heartburn were included. Patients were excluded if they had a history of previous oesophageal/gastric surgery, or a known oesophageal motor disorder (e.g. achalasia, scleroderma).

For the control: asymptomatic healthy volunteers.

Primary outcomes

Prevalence of positive pepsin detection in saliva; pepsin concentration in saliva; timing of positive pepsin samples; correlation between pepsin in saliva and reflux parameters; pepsin concentration in saliva to differentiate patients with GORD, or patients with reflux‑related symptom (GORD+HO) from patients with FH.

Statistical methods

Data were expressed as mean±SEM or median (IQR) where appropriate. A p value of <0.05 was considered significant. A ROC curve was constructed to determine and compare the sensitivity and specificity of different pepsin cut‑off concentrations and their predictive value to diagnose or refute the diagnosis of GORD and reflux‑related symptoms.

Participants

Results^c

Of the 58 patients classified as having GORD, 45 had at least 1 positive test for pepsin out of the 3 samples. Twenty‑one of the patients classified as HO and 9 of those classified as FH had at least 1 positive test for pepsin out of the 3 samples. Diagnostic accuracy of Peptest in these 111 symptomatic patients was not reported in the paper but can be calculated as follows (based on number of patients tested): sensitivity 78%, specificity 43%, PPV 60%, NNP 64%, LR for positive test of 1.37, and LR for negative test 1.94, when at least 1 out of 3 samples was positive.

Of the 87 asymptomatic healthy people who had a normal MII‑pH, 33 had at least 1 positive test for pepsin out of the 3 samples. Diagnostic accuracy of Peptest in the 58 patients objectively diagnosed with GORD comparing with these 100 healthy controls was not reported; it can be calculated as follows (based on number of patients tested): sensitivity 78%, specificity 62%, LR for positive test 2.05, LR for negative test 2.77, and false positive rate 38%, when at least 1 out of 3 samples was positive. However, this calculation presumes that all the controls had been confirmed to be truly negative by the same reference standard used for the patients.

When measuring the highest pepsin concentration in saliva out of the 3 samples, 1 third of asymptomatic patients had pepsin in saliva at low concentration: median 0 ng/mL; 25–75th centiles 0–59; 95th centile 190.6.

Conclusions

In patients with symptoms suggestive of GORD, salivary pepsin testing may complement questionnaires to assist office‑based diagnosis. This may lessen the use of unnecessary anti‑reflux therapy and the need for further invasive and expensive diagnostic methods.

Abbreviations: AET, (oesophageal) acid exposure time; ANOVA, analysis of variance; CI, confidence interval; FH, functional heartburn; GORD, gastro‑oesophageal reflux disease; HO, hypersensitive oesophagus; ITT, intention to treat; IQR, inter‑quartile range; LR, likelihood ratio; MII‑pH, impedance‑pH; NPV, negative predictive value; n, number of patients; PPV, positive predictive value; RR, relative risk; ROC, receiver operator characteristic curves; SEM, standard error of the mean.

^aSAP, symptom association probability, which was used to characterise the association between reflux and symptoms. No further details were described.

^bIt was unclear whether MII‑pH monitoring result for this group was also evaluated based on the cut‑off value of the oesophageal acid exposure time of 4.2%.

^cOnly outcomes that are relevant to this briefing report were reported in this table.

Study component

Description

Objectives/hypotheses

To assess new methods for the objective detection of oesophago‑pharyngeal reflux and for quantification of pharyngeal exposure to gastric contents in patients with hoarseness and asymptomatic controls.

Study design

Case‑control study.

Pepsin in the saliva sample was detected using Peptest. Each person had 5 saliva samples collected for the analysis of pepsin presence. The presence or absence of pepsin in the saliva was determined with a cut‑off value of 25 ng/ml.

It was unclear whether the individual who tested the samples and who interpreted the test were blinded to sample source and subject classification (GORD compared with healthy volunteers).

Setting

Patients were recruited from a tertiary referral specialist voice clinic in the UK. No further details about the setting were reported, nor information about the source of healthy volunteers.

Inclusion/exclusion criteria

Patients with hoarseness who had been diagnosed with laryngo‑pharyngeal reflux on the basis of clinical evaluation (questionnaires) and laryngoscopy were included. Controls were healthy adult volunteers with no symptoms of GORD or voice disorders (evaluated in the same way with identical questionnaires and laryngoscopy).

People who smoke were excluded, along with patients with chronic cough, significant pulmonary or neuro‑musculo‑skeletal disease, or where voice misuse was suspected. Patients were excluded if they had a previous laryngeal surgery, history of oro‑pharyngeal/laryngeal cancer, previous gastric or oesophageal surgery, or endotracheal intubation in the last 3 months. All patients were studied 'off' proton pump inhibitor treatment (at least 7 days).

Primary outcomes

Including saliva pepsin concentration, pH monitoring, GORD symptom questionnaire, Reflux Symptom Index, Voice Handicap Index, and Reflux Finding Score.

Statistical methods

Descriptive statistics are presented as mean±SEM for parametric data and median values with range where appropriate. The independent samples t test or Mann‑Whitney U test was used to compare median values. The Wilcoxon signed‑rank test was used to compare repeat questionnaire scores for patients. Correlation was performed using the Pearson test. The Fisher exact test was used for proportional differences. A p‑value of <0.05 was considered significant.

Participants

Patients (21) with hoarseness and 'positive' laryngoscopy who had been diagnosed with laryngo‑pharyngeal reflux on the basis of clinical evaluation (questionnaires) and laryngoscopy were included.

Controls (n=10), adults with no symptoms of GORD or voice disorders.

Results^a

5 samples from each subject were analysed. In the patient group, there were 28 positive pepsin samples from 13 of the 21 patients (62%). In the control group, there were 6 positive samples from 4 of the 10 controls (40%). Only 1 of the 10 controls had ≥2 samples positive for pepsin compared with 9 of the 21 patients. The saliva samples taken from patients were more likely to be positive (p=0.025).

Diagnostic accuracy of Peptest comparing the patients with the controls was not reported but it can be derived as the following based on the above data:

The above calculations presume that all the controls had been confirmed to be true negative by the same reference standard used for the patients.

Conclusions

The authors concluded that 'a subgroup of patients with hoarseness (10/21) had objective detection of the oesophago‑pharyngeal reflux. We propose that these patients are more likely to benefit from further intense anti‑reflux therapy. Detection of pepsin in the saliva may be a useful screening tool in these patients.'

Abbreviations: GORD, gastro‑oesophageal reflux disease; LR, likelihood ratio; n, number of patients; SEM, standard error of the mean.

^aOnly those outcomes that are relevant to this briefing were reported in this table.

Study component

Description

Hayat et al. (2013)

Objectives/hypotheses

To measure pepsin in saliva with objective assessment of GORD by MII‑pH in a cohort of asymptomatic patients and consecutive patients with clinically significant heartburn (according to the Montreal definition of GORD).

Tests

Index test: Peptest for pepsin in saliva (the cut‑off value to determine pepsin positivity was 25 ng/ml).

Reference test: MII‑pH monitoring.

Participants

65 consecutive patients with clinically significant heartburn and 100 healthy people.

Patients were divided into 3 phenotypes based on MII‑pH results:

Results

All healthy people selected had normal MII‑pH testing.

36/100 healthy patients had at least 1 sample positive (20% had 1 sample positive, 12% had 2 samples positive and 4% had 3 samples positive).

In pepsin positive samples, the median (25%>75%) pepsin concentration was 118 (64–181) ng/ml.

In GORD patients, 21/26 had at least 1 sample positive (3 patients had 3 samples positive) and pepsin concentration was 152 (72–250) ng/ml.

In HO patients 15/18 had at least 1 sample positive (4 had 3 samples positive) and pepsin conc. was 250 (74–250) ng/ml. In contrast, only 2/12 FH patients had at least 1 sample positive and pepsin concentration was 76 (67–85) ng/ml.

Peptest had a sensitivity of 95%, specificity 89%, PPV 97% and NPV of 57% for identifying patients with heartburn related to reflux (GORD+HO).

de Bortoli et al. (2013)

Objectives/hypotheses

To evaluate the Peptest accuracy for the diagnosis of GORD in patients with reflux symptoms by means of MII‑pH.

Tests

Index test: Peptest for pepsin in saliva/sputum (cut‑off value for positive not stated)

Reference test: MII‑pH.

Participants

35 patients with GORD symptoms were studied. All patients with negative endoscopy underwent patho‑physiological examinations.

Patients were grouped on the basis of MII‑pH results as follows:

Results

Peptest was positive in 93.7% of true‑GORD, in 58.3% of HE, and negative in 100% of no‑GORD patients.

The accuracy of Peptest: sensitivity 100%; specificity 79%; positive predictive value 100%; negative predictive value 54%; diagnostic accuracy 83%.

de Bortoli et al. (2012)

Objectives/hypotheses

To evaluate the Peptest accuracy by means of MII‑pH for the diagnosis of GORD in patients with reflux symptoms.

Tests

Index test: Peptest for pepsin in saliva/sputum (cut‑off value for positive not stated).

Reference test: oesophageal manometry and MII‑pH.

Participants

26 patients with GORD symptoms (all underwent upper endoscopy and, if negative, patho‑physiological oesophageal examinations). Patients were grouped on the basis of MII‑pH results as follows:

Results

Peptest was positive in 82% of true‑GORD, in 57% of HO, and negative in 100% of no‑GORD patients. It showed 72% sensitivity, 100% specificity, 100% positive predictive value, 62% negative predictive value, and 81% diagnostic accuracy.

Abbreviations: AET, acid exposure time; GORD, gastro‑oesophageal reflux disease; HO, hypersensitive oesophagus; LR, likelihood ratio; MII‑pH, impedance‑pH; NPV, negative predictor value; n, number of patients; PPV, positive predictor value; RSI, reflux symptom index; SAP, symptom association probability index; SEM, standard error of the mean.