PD is typically an outpatient procedure [7]. The patient is required to take nothing by mouth for 12 h preceding endoscopy with recommended adherence to a liquid diet for at least 1–2 days prior. In those with clinical or radiographic evidence of severe food retention and resultant dilation of the esophagus, a lavage with a large bore tube may be necessary [8]. All patients should be appropriate candidates for surgical intervention if an esophageal perforation were to arise.

The balloon system should first be inflated and checked for leaks or signs of malfunction. A comprehensive endoscopic evaluation should be performed prior to dilation with special attention to the gastric cardia during the retroflexed exam, to rule out mechanical obstruction or pseudoachalasia which can mimic achalasia [3]. Landmarks should also be determined, particularly the distance between the incisors and the gastroesophageal junction.

A guidewire is placed into the stomach via the working channel on the endoscope. The endoscope should be carefully removed to preserve the position of the guidewire in the stomach. The balloon and tip of the catheter are then lubricated and passed over the guidewire.

The previously noted distance between the gastroesophageal junction and incisors should be measured from the center of the balloon to ensure that the center will be across the LES. The position of the balloon should be so that the “waist” caused by the non-relaxing LES applies pressure on the center of the distending balloon [8].

This position is usually at or above the level of the diaphragm, except in patients after Heller myotomy, when the narrowing may be below the diaphragm. Minor re-adjustments in positioning may have to be made to ensure proper location, with deflation of the balloon with each adjustment. If performed under fluoroscopic guidance, a small volume of dilute contrast can be injected into the balloon to assist in radiographic visualization [9].

After proper positioning, the balloon is then connected to an external pressure gauge and is inflated until the pressure reaches 7–15 pounds per square inch (psi) of pressure (approximately 120 mL of air) and held for 6–60 s. Balloon distension time is variable, but studies have shown distension times as short as 6–15 s are as effective as longer distension times up 60 s [10, 11].

If a second inflation is necessary, the pressure will typically be at least 3 psi less than the initial pressure. A precipitous decrease of the intra-balloon pressure signifies successful disruption of LES muscle fibers. After this is achieved, the balloon is then deflated and carefully removed.

Post-procedurally, it is recommended that patients routinely undergo a Gastrografin study followed by a barium esophogram to exclude perforation, however, in clinical practice, this is often only done if suspicious signs or symptoms are present [12, 13]. Observation of the patient is generally recommended for 5–8 h to monitor for chest pain, fevers, and signs of perforation [14]. The patient is subsequently discharged if tolerating fluids without difficulty and the recovery was otherwise uneventful.

There is no clear consensus on the optimal method for performing PD with regard to balloon diameter and the amount and rate of inflation pressure. However, a 30 mm Rigiflex balloon is typically used for the initial dilation in most adults [8]. The standard approach is to perform one dilation per session, with repeat dilations being performed according to symptomatic recurrence.

Pneumatic dilation is considered to be the most cost-effective first-line therapy for achalasia over a 5–10 year post-procedure period [15–17]. The graded approach to dilation is effective in achieving symptom relief. The 3 year success rate for a single dilation with a 30-mm balloon is 37 % in comparison with 86 % for the graded dilation protocol [18].

Other studies estimate that with a graded dilation approach, symptomatic relief is achieved in 50–93 % of patients [19]. The 2013 American College of Gastroenterology guidelines regarding the diagnosis and management of achalasia cite that PD with 30, 35, and 40 mm balloon diameters result in symptomatic relief in 74, 86, and 90 % of patients, respectively, with an average follow-up of 1.6 years (range: 0.1–6 years) [3, 20].

Variability in these results is likely secondary to both inconsistent follow-up times as well as lack of consensus regarding a distension protocol. Data from retrospective studies are more limited by lack of follow-up, while prospective studies may be more accurate in predicting efficacy. One recent prospective study reported that 70 % of patients who underwent PD maintained control of symptoms after a median of 5.6 years of follow-up [21]. A prospective randomized controlled trial comparing PD to LHM found that there was no significant difference in rates of therapeutic success. In patients who underwent PD, clinical remission was reported in 90 % and 86 % after 1 and 2 years of follow up, respectively [22].

Persistent symptoms, especially in conjunction with impaired esophageal emptying or an LES pressure above 10 mmHg warrants repeat dilation with incrementally larger balloons. Generally, if symptom relief is not achieved with a 40 mm balloon or with three consecutive dilations, surgical intervention is then pursued [8].

While symptom-free periods at shorter term follow up times have been reported, approximately one-third of treated patients are expected to experience symptom relapse over 4–6 years of follow up, despite adherence to a graded pneumatic dilation approach [3, 23].

The lack of strong long-term data makes the efficacy of repeated dilations after relapse of symptoms difficult to definitively assess. However, existing studies suggest that patients who remain in clinical remission for 5 years are likely to benefit from the longstanding treatment effect of PD [24].

As there is no definitive cure for achalasia, the proportion of patients who remain in remission after successful graded PD or surgical myotomy declines over time and repeat intervention is typically warranted in 23–33 % of patients within 5–7 years [25].

Significant predictors of favorable clinical outcomes after PD include LES pressure after dilation of less than 10 mmHg, older age, female gender, and type II achalasia pattern on high resolution manometry [3].

Post-dilation LES pressure has been considered the single most valuable factor for predicting the long-term clinical response [26]. A post-dilation LES pressure to approximately 10 mmHg has been suggested as a goal of PD. Prospective studies of patients over 10 years also found that those patients with a post-dilation LES pressure of less than 10–15 mmHg were more likely to achieve sustainable clinical response compared to those with higher LES pressures [24, 27].

Young males, aged less than 45 years, have a greater failure after 30 mm PD as well as after graded PD as compared to older men or women in general, which may be secondary to thicker LES musculature [28]. Age younger than 40 years, irrespective of gender, also predicts a poor response to pneumatic dilation [24, 26, 29].

Females have a better clinical outcome after PD when compared to males [30]. Young men initially treated with a 30 mm balloon were found to require repeat dilations more often than young women [28]. For this reason, initial PD with a 35 mm balloon or surgical myotomy is often considered as first-line therapy in young male patients [8].

The use of high-resolution esophageal manometry has stratified achalasia into three main subtypes which influence the response to therapeutic interventions. While each subtype is unified by the presence of impaired LES relaxation and aperistalsis, each has a distinct manometric finding. Type I, known as classic achalasia, is defined as no pressure generation in the esophageal body. Type II patients exhibit rapidly propagated compartmentalized pressurization, localized to the distal esophagus or present across the entire esophagus. In Type III, or spastic achalasia, patients have lumen-obliterating contractions in the distal esophagus, causing a functional obstruction. A study investigating clinical response to botulinum toxin injections, LHM, and PD found that Type II patients are most likely to respond to any therapy (botulinum toxin injections [71 %], PD [91 %], or LHM [100 %]) than type I (56 % overall) or type III (29 % overall) patients [31]. Severe esophageal dilation associated with any subtype of achalasia also is associated with a decreased response to therapeutic attempts.

Several other variables, such as pre-treatment LES pressure, duration of symptoms, size of balloon dilators utilized, and results of post-dilation barium esophograms have been studied but not found to significantly affect therapeutic response to PD [28, 30, 32].

The overall PD-associated complication rate is estimated to be lower than 10 % and most commonly include perforation, chest pain, bleeding, fever, aspiration pneumonia, and formation of diverticula [33, 34].

The most important and serious complication of PD is esophageal perforation, with an overall reported rate of 1.9 % (range 0–21 %) [3, 18, 35]. Perforations are typically small and located above the cardia along the left side of the esophagus, where there is an anatomic area of weakness and usually occur during the first dilation session.