Peroral Endoscopic Myotomy for Treatment of Esophageal Achalasia - CAM 20191HB

Description
Esophageal achalasia is characterized by reduced numbers of neurons in the esophageal myenteric plexuses and reduced peristaltic activity, making it difficult for patients to swallow food and possibly leading to complications such as regurgitation, coughing, choking, aspiration pneumonia, esophagitis, ulceration and weight loss. Peroral endoscopic myotomy (POEM) is a novel endoscopic procedure that uses the oral cavity as a natural orifice entry point to perform myotomy of the lower esophageal sphincter. This procedure is intended to reduce the total number of incisions needed and thus the overall invasiveness of surgery.

Background 
ESOPHAGEAL ACHALASIA 
Esophageal achalasia is characterized by reduced numbers of neurons in the esophageal myenteric plexuses and reduced peristaltic activity, making it difficult for patients to swallow food and possibly leading to complications such as regurgitation, coughing, choking, aspiration pneumonia, esophagitis, ulceration, and weight loss. The estimated U.S. prevalence of achalasia is 10 cases per 100,000, and the estimated incidence is 0.6 cases per 100,000 per year.1

Treatment 
Treatment options for achalasia have included pharmacotherapy (e.g., injections with botulinum toxin), pneumatic dilation, and laparoscopic Heller myotomy.1,2 Although the latter 2 are considered the standard treatments because of higher success rates and relatively long-term efficacy compared with pharmacotherapy, both are associated with a perforation risk of about 1%. Heller myotomy is the most invasive of the procedures, requiring laparoscopy and surgical dissection of the esophagogastric junction.2 One-year response rates of 86% and major mucosal tear rates requiring the subsequent intervention of 0.6% have been reported.3

Peroral endoscopic myotomy (POEM) is a novel endoscopic procedure developed in Japan.2,4 POEM is performed with the patient under general anesthesia.5 After tunneling an endoscope down the esophagus toward the esophageal-gastric junction, a surgeon performs the myotomy by cutting only the inner, circular lower esophageal sphincter muscles through a submucosal tunnel created in the proximal esophageal mucosa. POEM differs from laparoscopic surgery, which involves the complete division of both circular and longitudinal lower esophageal sphincter muscle layers. Cutting the dysfunctional muscle fibers that prevent the lower esophageal sphincter from opening allows food to enter the stomach more easily.2,5

Note that the acronym POEM in this review refers to peroral endoscopic myotomy. POEMS syndrome, which has a similar acronym, is discussed in evidence review 8.01.17.

Regulatory Status
POEM uses available laparoscopic instrumentation and, as a surgical procedure, is not subject to regulation by the U.S. Food and Drug Administration (FDA).

Policy 

POEM is considered MEDICALLY NECESSARY when ALL of the following criteria are met:

  • The individual is aged 18 years or older
  • The individual has been diagnosed with achalasia
  • The diagnosis of achalasia has been confirmed by a positive esophageal manometry, esophagogastroduodenoscopy (EGD), and barium swallow

POEM not meeting the criteria as indicated in this policy is investigational/unproven therefore considered NOT MEDICALLY NECESSARY, non-covered because the safety and/or effectiveness of this service cannot be established by the available published peer reviewed literature.

Gastric peroral endoscopic myotomy is considered investigational therefore NOT MEDICALLY NECESSARY as a treatment for gastroparesis. 

Policy Guidelines
See Codes table for details..

Benefit Application
BlueCard
®/National Account Issues
No applicable information

Rationale 

Evidence reviews assess the clinical evidence to determine whether the use of technology improves the net health outcome. Broadly defined, health outcomes are the length of life, quality of life, and ability to function, including benefits and harms. Every clinical condition has specific outcomes that are important to patients and managing the course of that condition. Validated outcome measures are necessary to ascertain whether a condition improves or worsens; and whether the magnitude of that change is clinically significant. The net health outcome is a balance of benefits and harms.

To assess whether the evidence is sufficient to draw conclusions about the net health outcome of technology, 2 domains are examined: the relevance, and quality and credibility. To be relevant, studies must represent 1 or more intended clinical use of the technology in the intended population and compare an effective and appropriate alternative at a comparable intensity. For some conditions, the alternative will be supportive care or surveillance. The quality and credibility of the evidence depend on study design and conduct, minimizing bias and confounding that can generate incorrect findings. The randomized controlled trial (RCT) is preferred to assess efficacy; however, in some circumstances, nonrandomized studies may be adequate. Randomized controlled trials are rarely large enough or long enough to capture less common adverse events and long-term effects. Other types of studies can be used for these purposes and to assess generalizability to broader clinical populations and settings of clinical practice.

Promotion of greater diversity and inclusion in clinical research of historically marginalized groups (e.g., people of color [African American, Asian, Black, Latino and Native American]; LGBTQIA [lesbian, gay, bisexual, transgender, queer, intersex, asexual]; women; and people with disabilities [physical and invisible]) allows policy populations to be more reflective of and findings more applicable to our diverse members. While we also strive to use inclusive language related to these groups in our policies, use of gender-specific nouns (e.g., women, men, sisters, etc.) will continue when reflective of language used in publications describing study populations.

Peroral Endoscopic Myotomy for Adult Individuals with Achalasia
Clinical Context and Therapy Purpose

The purpose of peroral endoscopic myotomy (POEM) in individuals who have esophageal achalasia is to provide a treatment option that is an alternative to or an improvement on existing therapies.

The following PICO was used to select literature to inform this review.

Populations
The relevant population of interest is individuals with esophageal achalasia. Esophageal achalasia is characterized by reduced numbers of neurons in the esophageal myenteric plexuses and reduced peristaltic activity, making it difficult for individuals to swallow food and possibly leading to complications such as regurgitation, coughing, choking, aspiration pneumonia, esophagitis, ulceration, and weight loss.

Interventions
The therapy being considered is POEM. The POEM procedure involves tunneling an endoscope down the esophagus toward the esophageal-gastric junction. A surgeon performs the myotomy by cutting only the inner, circular lower esophageal sphincter (LES) muscles through a submucosal tunnel created in the proximal esophageal mucosa.

Comparators
Comparators of interest include esophageal dilation, laparoscopic Heller myotomy (LHM), and botulinum toxin injection.

Esophageal dilation is performed in a graded approach, starting with a small balloon (typically 30 mm), then progressing to larger balloons (35 to 40 mm) 2 to 4 weeks later. The balloons are placed at the level of the gastroesophageal junction and inflated slowly, in order to tear the muscle fibers in a controlled manner. Esophageal perforations are a potential complication. Long-term studies have estimated that approximately one-third of patients may need a repeat procedure.

Laparoscopic Heller myotomy is a minimally invasive procedure in which the thick muscle of the lower esophagus and the upper stomach is cut to open the tight LES. The procedure involves 5 small incisions to insert the camera and surgical instruments. Reported success rates are high (> 90%), with a 5-year follow-up study showing an 8% rate of symptom recurrence.

Endoscopic botulinum toxin is injected with a sclerotherapy needle approximately 1 cm above the esophagogastric junction. The complication rate is low and approximately 80% of patients experience immediate symptom relief. The effect diminishes over time, with more than 60% of patients reporting recurrent symptoms at 1 year.

Outcomes
The general outcomes of interest are symptom relief and treatment-related morbidity.

Symptom relief may be measured by the Eckardt score, which is comprised of 4 major symptoms of achalasia: dysphagia, regurgitation, retrosternal pain, and weight loss. Each symptom receives a score from 0 (none) to 3 (severe), for a maximum score of 12. Total scores of 4 or greater represent treatment failure.7

Treatment-related morbidity of concern is the development of gastroesophageal reflux disease (GERD). Gastroesophageal reflux disease risk is high with this procedure because POEM involves ablating the LES without adding any type of anti-reflux mechanism. Additional complications include thoracic effusion, subcutaneous emphysema, and esophagitis.

Symptom relief may be experienced shortly following the procedure. Assessment of durability of relief requires a follow-up of months to years.

Study Selection Criteria
Methodologically credible studies were selected using the following principles:

  • To assess efficacy outcomes, comparative controlled prospective trials were sought, with a preference for RCTs.
  • In the absence of such trials, comparative observational studies were sought, with a preference for prospective studies.
  • To assess long-term outcomes and adverse effects, single-arm studies that capture longer periods of follow-up and/or larger populations were sought.
  • Studies with duplicative or overlapping populations were excluded.

Review of Evidence
Systematic Reviews

Multiple systematic reviews and meta-analyses have been published to evaluate POEM as a treatment for achalasia. These reviews are heterogenous in whether they assessed data on POEM alone or compared POEM to other interventions , which outcomes they assessed, which studies they included, and in the statistical methods used. The majority addressed the comparison of POEM to LHM.

Results of systematic reviews that primarily relied on data from noncomparative case series studies are not comprehensively summarized herein.8,9,10,11,12 This is because conclusions on comparative effects cannot be determined from their findings. Some systematic reviews of noncomparative case series did not calculate comparative treatment effects. Others that did had important limitations in their statistical methods, including use of unadjusted indirect comparison approaches, which are subject to a variety of confounding factors that may bias the effect estimate. For example, Andolfi et al. (2019) published a meta-analysis of success rates based on manometric subtypes.12 The authors calculated pooled success rates for POEM, LHM, and pneumatic dilation (PD) in type I, II, and III achalasia, respectively, based primarily on data from noncomparative case series studies. Pooled success rates for POEM in types I, II, and III were 94% (95% confidence interval [CI], 89% to 98%), 97% (95% CI, 93% to 99%), and 93% (95% CI, 88% to 97%), respectively, which were significantly higher compared to LHM for type I (odds ratio [OR], 2.97; 95% CI, 1.09 to 8.03) and type III (OR, 3.50; 95% CI, 1.39 to 8.77), but not type II. However, the use of an unadjusted indirect comparison approach in this analysis precludes drawing conclusions based on these findings.

Peroral Endoscopic Myotomy Versus Laparoscopic Heller Myotomy or Pneumatic Dilation
Below are summarized the most recent systematic reviews (published on or after 2020) that address the comparison of POEM to LHM or PD using data from comparative observational studies and RCTs. Table 1 provides a crosswalk of the comparative studies included in these systematic reviews.

Table 1. Comparison of Studies of POEM Versus LHM or PD Included in SR and M-A

Study Dirks et al. (2021)13 Facciorusso et al. (2021)14 Martins et al. (2020)15 Aiolfi et al. (2020)16
Hungness et al. (2013)5  
Teitelbaum et al. (2013)17    
Ujiki et al. (2013)18  
Bhayani et al. (2014)19  
Kumagai et al. (2015)20  
Kumbhari et al. (2015)21    
Chan et al. (2016)22    
Sanaka et al. (2016)23    
Schneider et al. (2016)24    
Kashab et al. (2017)25    
Leeds et al. (2017)26    
de Pascale et al. (2017)27    
Peng et al. (2017)28    
Ward et al. (2017)29    
Hanna et al. (2018)30    
Ramirez et al. (2018)31    
Caldaro et al. (2015)32      
Fumagalli et al. (2016)33      
Greenleaf et al. (2018)34      
Kim et al. (2019)35      
Meng et al. (2017)36      
Miller et al. (2017)37      
Ponds et al. (2019)38    
Sanaka et al. (2019)39      
Wang et al. (2016)40      
Werner et al. (2019)41    
Wirsching et al. (2019)42      
Zheng et al. (2019)43      
Podboy et al. (2020)44      
Tan et al. (2016)45      
Boeckxstaens et al. (2011)46      
Borges et al. (2014)47      
Kostic et al. (2007)48      
Hamdy et al. (2015)49      

LHM: laparoscopic Heller myotomy; M-A: meta-analysis; PD: pneumatic dilation; POEM: peroral endoscopic myotomy; SR: systematic review.

Tables 2 and 3 summarize characteristics and results of the included systematic reviews published on or after 2020 that address the comparison of POEM to LHM or PD using data from comparative studies. The included comparative studies are heterogenous in their patient populations, proportions of patients with any previous treatments, and proportions of each achalasia subtype I through III, follow-up duration, and definition of treatment success. These differences limit interpretation of their findings.

Dirks et al. (2021) conducted a systematic review and meta-analysis that evaluated the efficacy and safety of POEM in comparison to LHM and PD.13 The review included 28 studies (2 RCTs [Ponds et al. (2019)38 and Werner et al. (2019)41]; 26 observational studies). Most comparative studies on POEM included LHM (n = 21), with a minority involving POEM versus PD (n = 8). One study included all 3 interventions. Since POEM is a relatively new intervention, studies evaluating POEM often had shorter follow-up. Two studies included children, with 1 each comparing POEM to PD and LHM. The majority of included studies had a baseline achalasia subtype that was either predominantly type 2 and/or type 1; only 1 study had predominantly type 3 achalasia. The vast majority of included studies had < 100 total patients. Results revealed POEM to have similar efficacy to LHM. However, POEM treated dysphagia better than PD in a RCT and observational studies and POEM needed reintervention less than PD in a RCT (risk ratio [RR] 0.19; 95% CI, 0.08 to 0.47) and LHM in an observational study (RR 0.33; 95% CI, 0.16 to 0.68). POEM had similar safety outcomes to LHM and PD. The authors concluded that POEM has similar outcomes to LHM and greater efficacy than PD;

Facciorusso et al. (2021) completed a systematic review and network meta-analysis of first-line therapeutic interventions for achalasia.14 The review included 6 RCTs in adults with achalasia that compared the efficacy of PD (n = 260), LHM (n = 309) and POEM (n = 176). Four trials compared LHM with PD, 1 compared POEM to PD, and 1 compared POEM with LHM. Overall, low-quality evidence, based primarily on direct evidence, supported the use of POEM over PD for treatment success at 1 year while there was no significant difference observed between LHM and POEM. Severe esophagitis occurred at an incidence of 5.3%, 3.7%, and 1.5% for POEM, LHM, and PD, respectively. Procedure-related serious adverse events after POEM, LHM, and PD were 1.4%, 6.7%, and 4.2%, respectively. The authors concluded that POEM and LHM have comparable efficacy and may increase treatment success as compared to PD, with low confidence in estimates.

Martins et al. (2020) conducted a systematic review and meta-analysis of the largest number of comparative observational studies and patients treated with POEM (n = 359) or LHM (n = 534).15 Study quality was assessed using the Modified New Castle Ottawa Scale and all included studies were considered to be adequate for analysis. POEM demonstrated small improvements in Eckardt scores and reduced length of stay, comparable operative time, but more major adverse events. Most of the major adverse events were described as being related to unrecognized intraoperative mucosal perforation. An important limitation of this meta-analysis is that it did not take into account between-group differences in pre-operative Eckardt score levels at baseline.

Aiolfi et al. (2020) conducted a systematic review and Bayesian random-effects network meta-analysis that compared POEM to LHM and PD.16 Overall, 19 studies of 4,407 patients were included. Of those, 10 studies of 645 patients directly compared POEM and LHM and none directly compared POEM and PD. POEM was associated with improved dysphasia remission and Eckardt scores, but higher risk of GERD compared to LHM. Results of the comparison to PD are discussed below Table 3. Important limitations of this network meta-analysis include its inclusion of arm-based indirect comparisons and the inherent bias of its reliance on observational studies.

Table 2. SR and M-A Characteristics

Systematic Review Dates Included Comparative Studies Participants N (Range) Design Duration
Dirks et al. (2021)13 2010 – 2019 28 Adult and pediatric patients with achalasia 2,339 (15 to 241) 26 observational;
2 RCTs
Follow-up: ≥ 2 months to 5.4 years; most studies had < 2 year follow-up
Facciorusso et al. (2021)14 Through Dec 2019 6 Adults with achalasia 745 (50 to 221) RCTs Minimum follow-up of 1 year; range: 1 to 5 years
Martins et al. (2020)15 2012 – 2017 12 All adult patients (≥ 18 years of age) with 1 of 3 subtypes of achalasia, with or without prior history of therapy for achalasia 893 (31 to 178) Observational 9 to 260 weeks
Aiolfi et al. (2020)16 2012 – 2018 10 Esophageal achalasia 645 (23 to 101) Observational NR

M-A: meta-analysis; NR: not reported; RCT: randomized controlled trial; SR: systematic review.

Table 3. SR and M-A Results

Systematic Review Dysphasia Eckardt Score/Treatment Success GERD Length of Hospital Stay Overall major /severe adverse events
Dirks et al. (2021)13
POEM vs. LHM;
Pooled effect (95% CI)
  RCT (success by Eckhardt score): 83% vs. 82%; RR, 1.02 (0.9 to 1.15) RCT (severe reflux esophagitis): 4.6% vs. 6.4%; RR, 0.73 (0.20 to 2.58) RCT (mean): 2.9 vs.3.2; MD, -0.3 (-0.67 to 0.07) RCT (treatment-related serious adverse events): 3% vs. 7%; RR, 0.32 (0.9 to 1.17)
POEM vs. PD
Pooled effect (95% CI)
  RCT (success by Eckhardt score): 92% vs. 54%; RR, 1.71 (1.34 to 2.17) RCT (severe reflux esophagitis): 6% vs. 0%; RR, 3.82 (0.20 to 71.48)   RCT (treatment-related serious adverse events): 0% vs. 1.6%; RR, 0.19 (0.08 to 0.47)
Facciorusso et al. (2021)14
POEM vs. LHM
RR (95% CI)
  Treatment success at 1 year: no significant difference observed

Treatment success at 2 years: RR, 1.02 (0.90 to 1.15)
     
POEM vs. PD
RR (95% CI)
  Treatment success at 1 year: RR, 1.29 (0.99 to 1.69)

Treatment success at 2 years: RR, 1.76 (1.37 to 2.25)
     
Martins et al. (2020)15
Total N N/A 249 354 451 Total N
Pooled effect (95% CI) NR MD, -0.257 (-0.512 to -0.002) RD, 0.00 (-0.09 to 0.09)
I2: 0%
MD, -0.6 (-1.11 to -0.09)
I2 = 70%
"Major events (CD III a and IIIb)
were more common in the POEM group"; analysis NR
Aiolfi et al. (2020)16
Total N NR NR NR N/A N/A
Pooled effect (95% CI) Remission RR, 1.21 (1.04 to 1.47)
I2 = 0.0%
MD, -0.6 (-1.4 to -0.2)
I2 = 17.5%
RR, 1.75 (1.35 to 2.03)
I2 = 6.3%
NR NR

CD: Clavien-Dindo; CI: confidence interval; GERD: gastroesophageal reflux disease; LHM: laparoscopic Heller myotomy; M-A: meta-analysis; MD: mean difference; N/A: not applicable; NR: not reported; PD: pneumatic dilation; POEM: peroral endoscopic myotomy; RCT: randomized controlled trial; RD: risk difference; RR: risk ratio; SR: systematic review.

Peroral Endoscopic Myotomy Versus Pneumatic Dilation
Zhong et al. (2020) conducted a meta-analysis of 7 observational studies comparing POEM (n = 298) to PD (n = 321).50 Achalasia type varied, with 33% type I, 55% type II, and 12% type III. The mean age of the patients in the included studies ranged from 14 to 69 years , including 2 pediatric studies and 2 studies of older adults. Follow-up ranged from 2 to 49.23 months. POEM improved the clinical success rate (24-month RR, 1.35; 95% CI, 1.10 to 1.65; I2 = 70%) and change in Eckardt scores (mean difference [MD], 1.19, 95% CI 0.78 to 1.60, I2 = 70%); however, the risk of GERD and other complications was higher for POEM compared with PD (RR, 4.17, 95% CI, 1.52 to 11.45, and RR, 3.78; 95% CI, 1.41 to 10.16, respectively). Important limitations of this meta-analysis include the inherent bias of reliance on observational studies and the high between-study clinical and statistical heterogeneity.

Aiolfi et al. (2020) conducted a systematic review and Bayesian random-effects network meta-analysis that compared POEM to LHM and PD.16 Overall, 19 studies of 4,407 patients were included. Of those, none directly compared POEM and PD. Therefore, data from the POEM and PD arms of studies that compared them each, respectively, to LHM, were indirectly compared in the network meta-analysis. Compared to PD, POEM was associated with improved dysphasia remission (RR, 1.40; 95% CI, 1.14 to 1.79) and Eckardt scores (MD, -1.2; 95% CI, -2.3 to -0.2), but a higher risk of GERD (RR, 1.36; 95% CI, 1.18 to 1.68). Important limitations of this network meta-analysis include its inclusion of arm-based indirect comparisons and the inherent bias of its reliance on observational studies.

Randomized Controlled Trials
Although included in the 2 most recent meta-analyses, the RCTs by Ponds et al. (2019)38, and Werner et al. (2019)41 remain the landmark studies involving POEM. These are described below along with 2 more recent trials which have yet to be included in a review or meta-analysis.51,52

Ponds et al. (2019) published a RCT comparing POEM and PD for treatment-naïve patients with achalasia.38 Between 2012 and 2015, patients from 6 sites in 5 countries were randomized to receive either POEM or PD (Tables 4 and 5). The primary outcome was overall treatment success at 2 years, defined as an Eckardt score < 3 and the absence of severe complications or retreatment. Based on previously reported success rates, the power calculation for the primary outcome was based on a difference of at least 20%. Treatment success at 2 years was significantly higher in the POEM group. However, POEM had higher rates of reflux esophagitis than PD. Two serious adverse events (including 1 perforation) occurred after PD; no serious adverse events occurred after POEM. The study was limited by lack of blinding, lack of an intention-to-treat analysis, and by the follow-up time starting at treatment initiation rather than at randomization.

Results at 5 years from the RCT by Ponds et al. (2019) were published by Kuipers et al. (2022).53 A total of 62 patients in the POEM group and 63 in the PD group were available for analysis. Treatment success (Eckardt score ≤ 3) at 5 years follow-up favored the POEM group with 50 (81%) having success when compared to 25 (40%) of those treated with pneumatic dilation (absolute difference, 41%; 95% CI, 25% to 57%; p < .0001). The median time to treatment failure was 60 months in the POEM group compared with 24 months in the PD group. Retreatment occurred in 8 (13%) \patients in the POEM group compared with 7 (11%) in the PD group. Recurrence of symptoms (defined as having an Eckhardt score > 3) occurred in 11 (18%) of POEM patients and 25 (40%) of PD patients. The rate of adverse events was 0% in the POEM group and 2% in the PD group. Amongst patients still in clinical remission at 5 years, proton pump inhibitor (PPI) use was significantly more common in patients treated with POEM (46%) than participants treated with PD (13%; P = .0082). In this same subset of patients, the mean GERD questionnaire scores in the POEM group (7; range, 6 to 9) were also significantly higher (P = .0081) than in the PD group (6; range, 6 to 7) at 5 years follow-up.

Werner et al. (2019) published a randomized, noninferiority trial that compared POEM to LHM plus Dor's fundoplication in patients with idiopathic achalasia.41 The primary outcome was clinical success at 2 years, defined as an Eckardt score < 3, without the use of additional treatments. A noninferiority margin of -12.5 percentage points was prespecified as "clinically acceptable" for the primary end point, based on input from the interventional gastroenterologists and surgeons involved in the trial. Analyses were primarily performed in a modified intention-to-treat population of 221 patients, which excluded 20 (8%) patients who withdrew consent, had exclusion criteria discovered post-randomization, or did not undergo treatment. Among the modified intention-to-treat population, the mean age was 48.6 years, 64.2% had no previous therapy, 26.2% had a previous endoscopic PD, and their mean Eckardt symptom score was 6.8. POEM was noninferior to LHM plus Dor's fundoplication for clinical success at 2 years, but rates of reflux esophagitis were higher for POEM. This resulted in more patients in the POEM group receiving daily low-dose PPIs at 24 months. Although a higher rate of serious adverse events was reported in the LHM group, the difference was not statistically significant. This was likely owing to insufficient statistical power for measuring differences in rare outcomes. The most common serious adverse event in the LHM group was mucosal perforation (n = 3; 2.7%). The RCT was limited by the lack of blinding of outcome assessment.

Mourna et al. (2022) published an RCT that compared POEM to LHM and partial fundoplication in adult patients with achalasia at a single center.51 The primary outcome was reflux esophagitis assessed at baseline, 1 month, 6 months, and 1 year post-treatment. Both groups significantly improved from baseline Eckhardt scores at all time points follow-up, but no significant between-group differences were observed. In the combined LHM and partial fundoplication group, treatment success, defined as ≤ 3-point reduction in Eckardt score, was confirmed in all patients at each time point follow-up; the POEM group had 100% success at 1 month which fell to 90% and 95% at 6 and 12 months follow-up, respectively. The rates of esophagitis were significantly higher in the POEM group at 1, 6, and 12 months follow-up. No differences in the rate of adverse events were detected between groups.

Saleh et al. (2023) published an RCT that compared POEM to pneumatic dilation in adult patients with persistent achalasia symptoms after LHM.52 The primary outcome was clinical success at 1 year, defined as an Eckardt score < 3, without the use of additional treatments. Two patients in the POEM group were lost to follow-up after randomization or treatment, but analyses of the primary and secondary outcomes were intention-to-treat analyses, and a priori power calculations required only 43 participants in each study arm. The median age was 52.5 years with a range of 36% to 40% male participation. At enrollment, both groups had a mean Eckardt score of 6 (interquartile range of 4 to 8). Patients randomized to POEM were significantly more likely to have treatment success at 1-year follow-up than those in the PD group; however, the rate of endoscopic reflux esophagitis was higher amongst participants treated with POEM than PD. The rate of serious adverse events attributed to the intervention was equivalent between groups, but POEM was associated with a greater number of adverse events (31.1%) than PD (20%). Events included candida esophagitis (n = 1), Heliobacter pylori infection (n = 3), periprocedural mucosal bleeding (n = 2), gastric perforations (n = 2), foot impaction (n = 1), and several other non-upper-gastrointestinal related adverse events (n = 5). The RCT was limited by the lack of blinding of outcome assessment and having outcome data through 1-year follow-up.

Table 4. Summary of Key RCT Characteristics

Study Countries Sites Dates Participants Interventions
          Active Comparator
Ponds et al. (2019)38 Netherlands, Germany, Italy, Hong Kong 6 2012 – 2015 Treatment naïve adults with newly diagnosed achalasia and Eckardt score ≥ 3 POEM (n = 64) PD (n = 66)
Initial with 30 mm balloon
Subsequent with 35 mm balloon if Eckardt score ≥ 3 at 3 weeks
 
Werner et al. (2019)41 Belgium, Czech Republic, Germany, Italy, Netherlands, Sweden 8 2012 – 2015 Adults with symptomatic achalasia and Eckardt score ≥ 3 POEM (n = 120) LHM plus Dor's fundoplication (n = 121)
Mourna et al. (2022)51 Brazil 1 2017 – 2018 Adults diagnosed with achalasia POEM (n = 20) LHM plus partial fundoplication(n = 20)
Saleh et al. (2023)52 Netherlands, Belgium, Italy 3 2014 – 2020 Adults with symptomatic achalasia and Eckardt score ≥ 3 following LHM POEM (n = 45) PD (n = 45)
Initial with 30 mm balloon and subsequent treatment w 35 mm balloon. Patients with recurrent symptoms between 3 and 12 moths were offered additional treatments with 35 mm or 40 mm balloons.

LHM: laparoscopic Heller's myotomy; PD: pneumatic dilation; POEM: peroral endoscopic myotomy; RCT: randomized controlled trial.

Table 5. Summary of Key RCTs: 2-Year Results

Study Treatment success, n (%) PPI use Endoscopic Reflux Esophagitis Retreatment Treatment-related SAE
Ponds et al. (2019)38 126 92 92 126 126
POEM

58 (92%)

58
Median(IQR) SD
24(41) 6.5
54
No.(%) SD
22(41) 6.5
63
No.(%) SD
5 (8) 3.4
63
No.(%) SD
0
PD
34 (54%)
34
Median (IQR) SD
7(21) 7
29
n (%) SD
2(7) 4.7
63
n (%) SD
26 (41) 10.5
63
n (%) SD
1(1.6) 1.7
Comparative treatment effect (95% CI) RR, 1.71 (1.34 to 2.17)a AD, 20 (1 to 38)a AD, 34 (12 to 49)a AD, 33 (17 to 47)a AD, 1.6 (-5 to 10)a
Werner et al. (2019)41 221 221 165   221
POEM 93 (83.0) n (%)
41 (38.7)
n (%)
38 (44)
NR n (%)
3 (2.7)
LHM 89 (81.7) n (%)
21 (19.4)
n (%)
23 (29)
NR n (%)
8 (7.3)
Comparative treatment effect (95% CI) RR, 1.4 (-8.7 to 11.4)a NR OR, 2.00 (1.03 to 3.85) NR RR, 4.6 (-1.1 to 10.4)a
Mourna et al. (2022)51 40   40   40
POEM 6 months: 90%
12 months: 95%
NR 6 months: 10 (63%)
12 months: 11 (65%)
NR Any AE: 3 (15%)
LHM 6 months: 100%
12 months: 100%
NR 6 months: 1 (6%)
12 months: 2 (11.%)
NR Any AE: 1 (5%)
Comparative treatment effect (95% CI) 6 months: p = .487
12 months: p = 1
NR 6 months: p < .001
12 months: p = .002
NR p = .605
Saleh et al. (2023)52 90 90 90 90 90
POEM 28 (62.2%) 29 (69%) 12 (34.3%) 2 (4.44%) 1 (2.22%)
PD 12 (26.7%) 26 (57.8%) 6 (15%) 14 (42.9%) 1 (2.22%)
Comparative treatment effect (95% CI) RR: 2.33 (1.37 to 3.99) NS NS NR NR

a Unadjusted 
AD: absolute difference; AE: adverse event; CI: confidence interval; IQR: interquartile range; LHM: laparoscopic Heller's myotomy; NR: not reported; NS: not significant; OR: odds ratio; PD: pneumatic dilation; POEM: peroral endoscopic myotomy; PPI: proton pump inhibitor; RCT: randomized controlled trial; RR: risk ratio; SAE: severe adverse even; SD: standard deviation.

Tables 6 and 7 summarize the important limitations of the RCTs discussed above.

Table 6. Study Relevance Limitations

Study Populationa Interventionb Comparatorc Outcomesd Follow-Upe
Ponds et al. (2019)38     2. PD protocol limited to 1 to 2 dilations as compared to clinical practice
2. Optimal comparator would be LHM
4. Eckardt score not validated symptom assessment  
Werner et al. (2019)41 4. Non-U.S.   2. LHM plus Dor's fundoplication    
Mourna et al. (2022)51 4. Non-U.S.   2. LHM plus partial fundoplication 4. Eckardt score not validated symptom assessment  
Saleh et al. (2023)52 4. Non-U.S.     4. Eckardt score not validated symptom assessment  

The study limitations stated in this table are those notable in the current review; this is not a comprehensive gaps assessment.
a Population key: 1. Intended use population unclear; 2. Clinical context is unclear; 3. Study population is unclear; 4. Study population not representative of intended use.
b Intervention key: 1. Not clearly defined; 2. Version used unclear; 3. Delivery not similar intensity as comparator; 4. Not the intervention of interest.
c Comparator key: 1. Not clearly defined; 2. Not standard or optimal; 3. Delivery not similar intensity as intervention; 4. Not delivered effectively.
d Outcomes key: 1. Key health outcomes not addressed; 2. Physiologic measures, not validated surrogates; 3. No CONSORT reporting of harms; 4. Not establish and validated measurements; 5. Clinical significant difference not prespecified; 6. Clinical significant difference not supported.
e Follow-Up key: 1. Not sufficient duration for benefit; 2. Not sufficient duration for harms.
LHM: laparoscopic Heller's myotomy; PD: pneumatic dilation.

Table 7. Study Design and Conduct Limitations

Study Allocationa Blindingb Selective Reportingc Follow-Upd Powere Statisticalf
Ponds et al. (2019)38   1. Blinding not possible due to different technical approaches to each procedure 6. Per protocol analysis 6. Not intent to treat analysis
6. Follow-up insufficient to define long-term effects
  3. Inadequate statistical analysis and reporting
Werner et al. (2019)41   1. Not blinded outcome assessment        
Mourna et al. (2022)51   1. Not blinded outcome assessment        
Saleh et al. (2023)52   1. Blinding not possible due to different technical approaches for each procedure        

The study limitations stated in this table are those notable in the current review; this is not a comprehensive gaps assessment.
a Allocation key: 1. Participants not randomly allocated; 2. Allocation not concealed; 3. Allocation concealment unclear; 4. Inadequate control for selection bias.
b Blinding key: 1. Not blinded to treatment assignment; 2. Not blinded outcome assessment; 3. Outcome assessed by treating physician.
c Selective Reporting key: 1. Not registered; 2. Evidence of selective reporting; 3. Evidence of selective publication.
d Follow-Up key: 1. High loss to follow-up or missing data; 2. Inadequate handling of missing data; 3. High number of crossovers; 4. Inadequate handling of crossovers; 5. Inappropriate exclusions; 6. Not intent to treat analysis (per protocol for noninferiority trials).
e Power key: 1. Power calculations not reported; 2. Power not calculated for primary outcome; 3. Power not based on clinically important difference.
f Statistical key: 1. Intervention is not appropriate for outcome type: (a) continuous; (b) binary; (c) time to event; 2. Intervention is not appropriate for multiple observations per patient; 3. Confidence intervals and/or p values not reported; 4. Comparative treatment effects not calculated.

Nonrandomized Comparative Studies
Numerous nonrandomized comparative studies have compared POEM and LHM in adults with achalasia. The majority of these studies are included in the systematic reviews described above and will not be comprehensively summarized herein. Those that were not included in previous systematic reviews or that have notable characteristics (ie, focus on important subpopulations, have long-term follow-up) are summarized below.

Docimo et al. (2016) published a retrospective study comparing POEM and LHM for individuals with achalasia that was not included in any above-described systematic review.54 Patients who underwent POEM (n = 44) or LHM (n = 122) between 2006 and 2015 were included. There was no difference in average pain scores for POEM and LHM after the first 24 hours (2.7 ± 2.067 vs. 3.29 ± 1.980, p = .472) or at time of discharge (1.6 ± 2.420 vs. 2.09 ± 2.157, p = .0657). The POEM group required significantly fewer narcotics while hospitalized than the LHM group (35.8 mg vs. 101.8 mg, p < .001), and fewer POEM patients needed a prescription for a narcotic analgesic at discharge (6.81% vs. 92.4%, p < .001). Also, the average length of stay was 31.2 hours for POEM and 55.79 for LHM (p < .001). The study was limited by its retrospective nature and its lack of randomization and blinding.

Wang et al. (2016) retrospectively reviewed outcomes for POEM (n = 21) and PD (n = 10) in patients ages 65 years and older.40 All were treated successfully, with decreases in Eckardt scores. At a mean follow-up of 21.8 months for POEM and 35 months for PD patients, 1 POEM case failed, and 2 PD procedures failed.

In a retrospective study of patients with type III achalasia, Kumbhari et al. (2015) compared outcomes for 49 patients who underwent POEM across 8 centers between 2011 and 2013, and a historical control group of 25 patients who underwent LHM between 2000 and 2013.21 Defining clinical response as a reduction in Eckardt score of no more than 1, clinical response was more frequent in the POEM group (98.0%) than the LHM group (80.8%; p = .01). On multivariable analysis, there was no statistically significant difference in the odds of failure between procedures, although the point estimate of the odds favored POEM (OR, 11.32; p = .06). Procedure times were shorter with POEM. There was no difference in length of stay. The overall rate of adverse events was lower in the POEM group (6% vs. 27%, p = .01). However, an important limitation of this study is that LHM patients had more severe disease at baseline by several different measures (ie, higher Eckardt symptom stage, prior endoscopic interventions). Also, the LHM and POEM groups differed in the achalasia diagnostic criteria used, with the LHM group lacking use of the current gold standard of high-resolution esophageal manometry to diagnose type III because it was not yet available at that time.

Haseeb et al. (2023) published a retrospective study using National Readmission Database data from 2016 to 2019 to compare short-term outcomes after POEM (n = 1,911) to LHM (n = 9,710) and PD (n = 2,453) in adults with achalasia.55 The rate of readmissions was highest in patients treated with PD (12.6%), followed by POEM (4.3%) and LHM (3.9%). PD had significantly greater adjusted odds of readmission compared to POEM (OR, 2.42; 95% CI, 1.56 to 3.75), but no difference was identified between POEM and LHM (OR, 0.91; 95% CI, 0.62 to 1.33). No significant differences were detected in the rate of mortality, length of stay, or periprocedural adverse events between POEM and LHM. Compared to PD, POEM had a lower rate of mortality (0% vs 1.1%; p = .012), sepsis (1% vs. 2.3%; p = .016), blood transfusions (0.7% vs 2.3%; p < .001), and length of stay (3.4 days vs 6.29 days; p < .001).

Shally et al. (2023) conducted a retrospective cohort study of POEM compared to LHM in adult patients with achalasia at a single center from 2014 to 2021.56 A total of 33 POEM and 25 LHM patients were included and were well-balanced on pre-operative characteristics. Treatment success was defined as having an Eckardt score of ≤ 3 at follow-up and was achieved by 88% of patients in the POEM group and 76% of patients in LHM group (p = .302). Patients in the POEM group had a significantly shorter median operative time (106 minutes) compared to those in the LHM group (145 minutes; p = .003); additionally, individuals treated with POEM had lengths of stay less than one day in 48.5% of patients compared to 0% in the LHM group (P < .001). Both groups observed improvements in dysphagia, heartburn, regurgitation, Eckardt score, GERD health-related quality of life, and anti-reflux medication use. Between-group differences were observed in the improvement of dysphagia scores with POEM patients having a superior resolution of dysphagia (2.3 vs 1.12; p = .003).

Section Summary: Peroral Endoscopic Myotomy for Adult Individuals With Achalasia
Studies on POEM for adults with achalasia included systematic reviews, nonrandomized studies, and 4 RCTs. Conclusions on comparative efficacy cannot be determined from the systematic reviews because they did not appear to have accounted for differences in patient characteristics in the nonrandomized studies. Findings from RCTs demonstrated that POEM had a similar or greater treatment success rate based on the Eckardt score and similar or fewer adverse events compared with PD or LHM. However, POEM had significantly higher rates of endoscopically confirmed reflux esophagitis. An important conduct limitation of the RCTs is that blinded assessment of outcomes was not used. Given that the primary outcome was based on subjective patient report of symptoms, this is a potential source of bias. Additionally, a potential relevance limitation is that the RCTs did not include any US sites. The nonrandomized studies comparing POEM with other procedures were retrospective and involved patients who might not be comparable in terms of age and severity of the disease. Although outcomes were generally similar between POEM and the comparator treatments (LHM, PD), potential confounding and selection bias makes outcome comparisons uncertain. Long-term follow-up was available for 1 RCT which showed a greater rate of clinical success at 5 years for POEM patients compared to PD, but the POEM group also showed higher rates of PPI usage and GERD questionnaire scores.

Peroral Endoscopic Myotomy for Pediatric Individuals with Achalasia
Clinical Context and Therapy Purpose

The purpose of POEM in pediatric individuals who have esophageal achalasia is to provide a treatment option that is an alternative to or an improvement on existing therapies.

The following PICO was used to select literature to inform this review.

Populations
The relevant population of interest is pediatric individuals with esophageal achalasia. Esophageal achalasia is characterized by reduced numbers of neurons in the esophageal myenteric plexuses and reduced peristaltic activity, making it difficult for individuals to swallow food and possibly leading to complications such as regurgitation, coughing, choking, aspiration pneumonia, esophagitis, ulceration, and weight loss.

Interventions
The therapy being considered is POEM. The POEM procedure involves tunneling an endoscope down the esophagus toward the esophageal-gastric junction. A surgeon performs the myotomy by cutting only the inner, circular LES muscles through a submucosal tunnel created in the proximal esophageal mucosa.

Comparators
Comparators of interest include esophageal dilation, LHM, and botulinum toxin injection.

Esophageal dilation is performed in a graded approach, starting with a small balloon (typically 30 mm), then progressing to larger balloons (35 to 40 mm) 2 to 4 weeks later. The balloons are placed at the level of the gastroesophageal junction and inflated slowly, in order to tear the muscle fibers in a controlled manner. Esophageal perforations are a potential complication. Long-term studies have estimated that approximately one-third of patients may need a repeat procedure.

Heller laparoscopic myotomy is a minimally invasive procedure in which the thick muscle of the lower esophagus and the upper stomach is cut to open the tight LES. The procedure involves 5 small incisions to insert the camera and surgical instruments. Reported success rates are high (> 90%), with a 5-year follow-up study showing an 8% rate of symptom recurrence.

Endoscopic botulinum toxin is injected with a sclerotherapy needle approximately 1 cm above the esophagogastric junction. The complication rate is low and approximately 80% of patients experience immediate symptom relief. The effect diminishes over time, with more than 60% of patients reporting recurrent symptoms at 1 year.

Outcomes
The general outcomes of interest are symptom relief and treatment-related morbidity.

Symptom relief may be measured by the Eckardt score, which is comprised of 4 major symptoms of achalasia: dysphagia, regurgitation, retrosternal pain, and weight loss. Each symptom receives a score from 0 (none) to 3 (severe), for a maximum score of 12. Total scores of 4 or greater represent treatment failure.10

A treatment-related morbidity of concern is the development of GERD. Gastroesophageal reflux disease risk is high with this procedure because POEM involves ablating the LES without adding any type of anti-reflux mechanism. Additional complications include thoracic effusion, subcutaneous emphysema, and esophagitis.

Symptom relief may be experienced shortly following the procedure. Duration of relief is measured after months to years of follow-up.

Study Selection Criteria
Methodologically credible studies were selected using the following principles:

  • To assess efficacy outcomes, comparative controlled prospective trials were sought, with a preference for RCTs.
  • In the absence of such trials, comparative observational studies were sought, with a preference for prospective studies.
  • To assess long-term outcomes and adverse effects, single-arm studies that capture longer periods of follow-up and/or larger populations were sought.
  • Studies with duplicative or overlapping populations were excluded.

Review of Evidence
Systematic Reviews

Nabi et al. (2023) published a meta-analysis pooling outcomes of POEM in pediatric achalasia. The review included 14 studies from 2010 to 2021 (N = 419; 234 boys).57 The mean age of patients ranged from 10.9 to 15.2 years with symptom duration of 6.3 to 30.1 months. Technical success occurred in 415 individuals with a pooled rate of 97.1% (95% CI, 94.5% to 98.5%; I2, 0%). A pooled clinical success rate in the intention-to-treat-analysis population was 88% (95% CI, 84.4% to 90.9%). The MD from baseline in Eckhardt scores was available from 9 studies and was significantly different from baseline (MD, 6.71; 95% CI, 6.14 to 7.28; I2, 81%); however, this estimate had substantial heterogeneity. The overall pooled rate of any adverse event was 12.9% (95% CI, 7.4 to 21.7%, I2, 64.5%) and for major adverse events, the rate was 4.2% (95% CI, 2.4% to 7.4). The authors concluded that POEM was a safe and effective modality for treating children with achalasia, but noted that prospective studies with longer-term follow-up and objective evaluation of gastroesophageal reflux are necessary.

Zhong et al. (2021) published an updated systematic review and meta-analysis evaluating clinical outcomes of POEM for the treatment of achalasia in children.58 The review included 11 studies published between January 2009 to June 2020 (N = 389; 222 boys). The mean age of the patients ranged from 5.5 to 15.2 years with symptom duration ranging from 1.7 to 26.4 months. The pooled technical success (completion of the POEM procedure successfully) was achieved in 385 children (97.4%; 95% CI, 94.7% to 98.7%) and the pooled clinical success (decrease in Eckhardt score to ≤ 3 during follow-up) was achieved in 343 children (92.4%; 95% CI, 89% to 94.8%). The Eckhardt score was significantly reduced by 6.76 points following POEM (95% CI, 6.18 to 7.34; p < .00001). Regarding adverse events, the pooled major adverse event rate was 12.8% (95% CI, 4.5% to 31.5%) with a pooled GERD rate of 17.8% (95% CI, 14.2% to 22%). The authors concluded that POEM was effective and safe for treating children with achalasia; however, all included studies in the analysis were observational in nature.

Lee et al. (2019) published a systematic review and meta-analysis evaluating POEM for the treatment of pediatric achalasia.59 Twelve studies, published between 2013 and 2018, with a total of 146 patients (53.68% female), were included in the analysis. There was a reduction in the Eckardt score of 6.88 points (95% CI 6.28 to 7.48, p < .001) and a reduction in LES pressure of 20.73 mmHg (95% CI 15.76 to 25.70, p < .001). Improvement or resolution of short- and long-term achalasia symptoms was experienced in 93% of patients. The study was limited by several of the included studies being case series (5/12) with no control groups or comparators, all of the studies having a sample size of < 30, and by most studies only reporting follow-up of ≤ 2 years.

Nonrandomized Studies
Bi et al. (2023) published a retrospective cohort study of POEM for the treatment of pediatric achalasia and compared pediatric patients to a 1:1 matched adult cohort on gender, operating physician, surgery date, and baseline Chicago and Ling classification between 2012 and 2020.60 A total of 48 pediatric patients were included with a median age of 16 years (range 7 to 18 years of age). Most patients (75%) lacked prior treatment for achalasia. Fourteen patients were lost to follow-up, and a total of 34 pediatric patients were available for long-term follow-up with a mean of 5.7 years (range, 2.6 to 10.6 years). The clinical success rate, defined as a post-POEM Eckhardt score of < 3, was 97%. Pediatric patients had significant improvements between pre- and post-POEM for Eckhardt score (8 vs 1.1, p < .001), Urbach score (24.7 vs 12.8, p < .001), dysphagia, regurgitation, chest pain, and weight loss (p<.001). In addition, the number of absences from school decreases from a median of 3.3 months versus 0.1 months post-POEM (p < .001). Adverse events reported in the pediatric group following POEM at 5 years included symptomatic reflux (17.6%), reflux esophagitis (5.9%), and clinical reflux (11.8%); all adverse events were controlled with medical therapy. Compared to a matched adult cohort (n = 34), pediatric patients had identical rates of complications post-treatment (14.6%), similar rates of clinical success, changes in Eckardt and Urbach scores, clinical reflux evaluations, and procedure times.

Petrosyan et al. (2022) conducted a retrospective study of all patients who underwent POEM for pediatric achalasia from 2015 to 2021 at a single center.61 A total of 37 children (mean age, 11.6 years) were treated; 43.2% had a pre-POEM intervention for achalasia. Participants were followed for a median of 15 months (range 5.5 to 74 months) following POEM. Baseline Eckhardt scores were 6.73 (standard deviation ± 1.5), and following POEM, scores decreased to a mean of 0.6 ± 0.9. One patient failed POEM (2.7%). The reintervention rate was 16.2% (5 patients required PD and 1 patient required LHM). Intraoperative complications occurred in 16 (43.2%) patients; however, these complications did not require reoperation during index admission. Intraoperative complications included mucosectomy distal to submucosal tunnel entry (13.5%), pneumothoraxes (24.3%), pneumomediastinum (5.4%), pneumoperitoneum (27%). Post-operative complications were recurrent dysphagia (13.5%) and GERD (8.1%).

Nabi et al. (2019) published a retrospective study assessing POEM for the treatment of children with achalasia.62 Forty-four patients ≤ 18 years old and weighing ≥ 10kg who were diagnosed with achalasia between 2013 and 2018 were included. POEM was successfully performed in 43 patients (technical success 97.72%). Eleven (25.6%) children experienced intra-operative adverse events, including retroperitoneal carbon dioxide (n = 7), capnoperitoneum (n = 3), and mucosal injury (n = 1). Clinical success at 1, 2, 3, and 4 years of follow-up was 92.8%, 94.4%, 92.3%, and 83.3%, respectively. The study was limited by its retrospective design, the lack of confirmation of GERD in about half the patients, and the small number of patients who completed 3 or more years of follow-up.

Miao et al. (2017) published a retrospective, single-center study of POEM for the treatment of pediatric achalasia.63 Twenty-one children (aged 11 months to 18 years) diagnosed with achalasia and treated between 2014 and 2016 were included. Mean follow-up time was 13.2 months. No severe adverse events were reported, and for all patients, difficulty in feeding or swallowing was significantly alleviated or resolved. By 1 month after POEM, all Eckardt scores were < 3 and by 6 months were 0.75 on average (average pre-operative score: 7.18; p < .001). At 6 months, an average weight gain of 2.7 kg was observed. Four patients had gastroesophageal reflux and 2 had concomitant gastroesophageal reflux and reflux esophagitis at 3 months follow-up. No limitations to the study were reported.

Section Summary: Peroral Endoscopic Myotomy for Pediatric Individuals With Achalasia
Three systematic reviews and meta-analyses evaluating POEM for the treatment of pediatric achalasia were identified. A significant decrease was observed in both Eckardt scores and LES pressure, as well as improvement in symptoms; however, no RCTs were included and the majority of included studies had sample sizes < 30. Four comparative observational studies were available evaluating POEM for the treatment of pediatric achalasia. All four studies reported high rates of success for POEM and alleviation of achalasia symptoms. One study retrospectively compared POEM in pediatric patients to a matched adult cohort and found similar rates of clinical success, clinical reflux symptoms, and adverse events.

Gastric Peroral Endoscopic Myotomy for Adult Individuals With Gastroparesis
Clinical Context and Therapy Purpose

The purpose of gastric peroral endoscopic myotomy (G-POEM) in individuals who have gastroparesis is to provide a treatment option that is an alternative to or an improvement on existing therapies.

The following PICO was used to select literature to inform this review.

Populations
The relevant population of interest is individuals with gastroparesis. Gastroparesis is characterized by nausea, vomiting, bloating, early satiety, with or without abdominal pain which is caused by delayed gastric emptying without any mechanical obstruction.

Interventions
The therapy being considered is G-POEM. The G-POEM procedure involves tunneling an endoscope down the esophagus toward the esophageal-gastric junction. A surgeon performs the myotomy by cutting the pylorus muscles through a submucosal tunnel created in the proximal esophageal mucosa.

Comparators
Comparators of interest include sham control, medical management with metoclopramide or antiemetics, and gastric electrical stimulation.

Anti-emetic drugs can provide symptom relief to individuals for whom dietary modifications are insufficient to alleviate symptoms. Metoclopramide is a prokinetic medication that has been approved by the US Food and Drug Administration (FDA) for the treatment of gastroparesis; it is usually taken 15 minutes before a meal 5 times per day and is approved for 12 weeks of treatment due to the potential for adverse effects (anxiety, restlessness, hyperprolactinemia, and QT prolongation).

Gastric electrical stimulation is a non-pharmacologic approach to relieve some symptoms of gastroparesis, chiefly vomiting and the need for nutritional support. Individuals with gastroparesis who do not respond to medical management may consider gastric electrical stimulation as an FDA-approved therapy under a humanitarian device exemption. The device needs implantation of a pair of leads which is done via laparotomy or laparoscopically in the muscularis propria proximal to the pylorus which is then connected to a pulse generator. Risks include infection of the device, risk of lead migration, perforation, and battery replacement, which may necessitate additional procedures.

Outcomes
The general outcomes of interest are symptom relief and treatment-related morbidity.

Symptom relief may be measured by the Gastroparesis Cardinal Symptom Index (GCSI), which is comprised of 3 major symptoms of gastroparesis: postprandial fullness/early satiety (4 items), nausea/vomiting (3 items), and bloating (2 items). Each item receives a score from 0 (none) to 5 (severe), for a maximum score of 45. An average GCSI score of ≥ 3 is defined as severe gastroparesis.64

Treatment-related morbidity of concern is infection, ulcers near the pylorus, bleeding or tears in the gastric mucosa.

Symptom relief may be experienced shortly following the procedure. Assessment of durability of relief requires a follow-up of months to years.

Study Selection Criteria
Methodologically credible studies were selected using the following principles:

  • To assess efficacy outcomes, comparative controlled prospective trials were sought, with a preference for RCTs.
  • In the absence of such trials, comparative observational studies were sought, with a preference for prospective studies.
  • To assess long-term outcomes and adverse effects, single-arm studies that capture longer periods of follow-up and/or larger populations were sought.
  • Studies with duplicative or overlapping populations were excluded.

Review of Evidence
Systematic Reviews

Two systematic reviews and meta-analyses evaluating G-POEM for the treatment of gastroparesis were identified.65,66, Both reviews included only observational studies of G-POEM for gastroparesis in adult patients. Outcome data was reported up to 1-year post-treatment in the study by Kamal et al. (2022) and up to 3 years post-treatment in the study by Canakis et al. (2023). Clinical success was found to be 60.7% (95% CI, 49.1% to 71.2%) at 1 year with high heterogeneity pooling data from 8 studies. Pooled clinical success rates at 3 years follow-up across 4 studies was 75% (95% CI, 68.2% to 80.5%) with low heterogeneity. Following G-POEM, mean GCSI scores decreased by -1.44 (95% CI, -1.91 to -0.97) at 1 year post-treatment in 7 studies and by -3.3 (95% CI, -1.8 to -4.7) in 4 studies at 3-years follow-up; both estimates had very high heterogeneity between studies. One study reported a pooled rate of adverse events at 1-year follow-up of 8.2% and the other meta-analysis reported strata of events (bleeding, perforation, pain or other) which ranged from 0.7% to 4.1% at 3-years following G-POEM.

Table 8. Comparison of Studies of G-POEM Included in SR and M-A

Study

Kamal et al. (2022)65

Canakis et al. (2023)66

Labond et al. (2022)67

 

Hernandez-Mondragon et al. (2022)68

 

Vosoughi et al. (2021)69

 

Gregor et al. (2021)70

 

Conchillo et al. (2020)71

 

Abdelfatah et al. (2021)72

Hustak et al. (2020)73

 

Tan et al. (2021)74

 

Attaar et al. (2021)75

 

Ragi et al. (2020)76

 

Shen et al. (2020)77

 

Vosoughi et al. (2020)78

 

Xu et al. (2018)79

 

Davis et al. (2017)80

 

M-A: meta-analysis; G-POEM: gastric peroral endoscopic myotomy; SR: systematic review.

Table 9. SR and M-A Characteristics

Systematic Review

Dates

Included Studies

Participants

N (Range)

Design

Duration

Kamal et al. (2023)65

Through June 2021

10

Adults with gastroparesis treated with G-POEM

482 (9 to 97)

7 retrospective 3 prospective

Minimum follow-up of 1 year

Canakis et al. (2023)66

Through March 2023

5

Adults with gastroparesis treated with G-POEM

560 (23 to 374)

3 retrospective 2 prospective

Minimum follow-up of 3 years

G-POEM: gastric peroral endoscopic myotomy; M-A: meta-analysis; SR: systematic review.

Table 10. SR and M-A Results

Systematic Review

Clinical Success

Technical Success

Pre and Post G-POEM GCSI

Length of Hospital Stay (days)

Adverse Events

Kamal et al. (2023)81, all results at 1 year f/u

N studies

8

 

7

 

8

Pooled effect (95% CI)

60.7% (49.1% to 71.2%)
I2: 74%

 

SMD: -1.44 (-1.91 to -0.97)
I2: 97%

 

8.2% (5.9% to 11.4%), I2: 0%

Canakis et al. (2023)66, all results at 3 years f/u

N studies

4

5

4

4

3 to 4 per event

Pooled effect (95% CI)

75% (68.2% to 80.5%)
I2: 20%

98.6% (91% to 99.8%)
I2: 70%

SMD: -3.3 (-1.8 to -4.7)
I2: 94%

SMD 3.06 (2.6 to 3.5%)
I2: 91%

Perforation: 0.7% (0.2% to 2.4%), I2: 0%
Bleeding: 4.1% (2.7% to 6.3%), I2: 0%
Pain: 0.9% (0.3% to 3.1%), I2: 0%
Other (clip dislodgement, pre-pyloric ulcer, or mucosal tear): 3.4% (2.1% to 5.5%), I2: 0%

CI: confidence interval; GCSI: gastroparesis cardinal symptom index; G-POEM: gastric peroral endoscopic myotomy; M-A: meta-analysis; SMD: standardized mean difference; SR: systematic review.

Randomized Controlled Trials
Martinek et al. (2022) published a randomized, multi-center trial that compared G-POEM to sham treatment in patients with gastroparesis.82 From November 2017 to February 2021 a total of 41 participants were recruited who were randomized 1:1 to either G-POEM (n = 21) or sham control (n = 20) (Table 11); 1 individual in the sham control group withdrew consent and 1 participant in the G-POEM group could not have the procedure completed due to submucosal fibrosis and were not included in the per-protocol analysis. The median age of patients in the G-POEM arm was 43 years (range, 30 to 51 years) and was 51 years (range, 45 to 56 years) in the sham control group. Participants in the G-POEM group had a higher baseline GCSI score of 3.5 compared to 3.2 in the sham control group.

Treatment success (≥50% reduction in GCSI score) at 6 months post-intervention occurred in 15 (71%) of the G-POEM patients in the intention to treat (ITT) analysis and 14 (70%) in the per-protocol analysis compared with 21% or 22% in the sham control group. Twelve patients crossed over to G-POEM and 9 (75%) had treatment success 6 months after crossing over. At 6 months follow-up the median reduction in GCSI score favored G-POEM over sham control (Table 12); in the patients that crossed over from sham control to G-POEM, an additional median reduction in GCSI of 0.3 (95% CI, 0.1 to 1.6) was observed 6 months from the time of crossing over. The authors found that gastric retention decreased significantly after G-POEM compared to sham control and that after crossing over from sham to G-POEM, a similar effect was observed in the cross-over patients. A sub-group analysis showed a greater level of treatment effect in patients with a diabetic etiology of gastroparesis over post-surgical or idiopathic etiologies.

Table 11. Summary of Key RCT Characteristics

Study

Countries

Sites

Dates

Participants

Interventions

 

 

 

 

 

Active

Comparator

Martinek et al. (2022)82

Czech Republic

2

2017-2021

Adults with severe gastroparesis with a Gastroparesis Cardinal Symptom Index score of >2.3 and who were refractory for >6 months

G-POEM (n = 21)

Sham (n = 20)

G-POEM: gastric peroral endoscopic myotomy; RCT: randomized controlled trial.

Table 12. Summary of Key RCTs Results

Study

Treatment success, n (%)

Median GCSI, (95% CI)

Median Quality of Life Index, change from BL at 3 mos

Treatment-related SAE

Martinek et al. (2022)82

41

41

41

41

G-POEM

ITT: 15 (71%)
PP: 14 (70%)

BL: 3.5 (3.2 to 3.7)
3 mos: 1.4 (0.9 to 1.9)
6 mos: 1.1 (0.5 to 1.5)

1.1 (0.1 to 1.6)

7*

Sham

ITT: 4 (22%)
PP: 4 (21%)

BL: 3.2 (2.8 to 3.4)
3 mos: 2.5 (1.9 to 3.1)
6 mos: 2.5 (1.9 to 3.2)

0.4 (-0.1 to 0.8)

3

Comparative treatment effect (95% CI)

OR: 9.0 (95% CI: 2 to 40.2)

2.4 (2.0 to 2.8) vs 0.7 (0 to 1.2) at 6 mos

 

 

* 5 events occurred in the initial group and then 2 occured after patients in the sham group crossed over; 3 events were related to the G-POEM procedure. 

BL: baseline; CI: confidence interval; G-POEM: gastroparesis peroral endoscopic myotomy; GCSI: gastroparesis cardinal symptom index; ITT: intention to treat; OR: odds ratio; PP: per protocol; RCT: randomized controlled trial; SAE: severe adverse event. 

Tables 13 and 14 summarize the important limitations of the RCTs discussed above.

Table 13. Study Relevance Limitations

Study

Populationa

Interventionb

Comparatorc

Outcomesd

Follow-Upe

Martinek et al. (2022)82

4. Non-U.S.

 

1. Sham procedure is not clearly defined, and no assessment of the adequacy of blinding

 

1. Follow-up is limited to 6 months where patients in the control group were eligible to cross-over

The study limitations stated in this table are those notable in the current review; this is not a comprehensive gaps assessment.
a Population key: 1. Intended use population unclear; 2. Clinical context is unclear; 3. Study population is unclear; 4. Study population not representative of intended use.
b Intervention key: 1. Not clearly defined; 2. Version used unclear; 3. Delivery not similar intensity as comparator; 4. Not the intervention of interest.
c Comparator key: 1. Not clearly defined; 2. Not standard or optimal; 3. Delivery not similar intensity as intervention; 4. Not delivered effectively.
d Outcomes key: 1. Key health outcomes not addressed; 2. Physiologic measures, not validated surrogates; 3. No CONSORT reporting of harms; 4. Not establish and validated measurements; 5. Clinical significant difference not prespecified; 6. Clinical significant difference not supported.
e Follow-Up key: 1. Not sufficient duration for benefit; 2. Not sufficient duration for harms.

Table 14. Study Design and Conduct Limitations

Study

Allocationa

Blindingb

Selective Reportingc

Follow-Upd

Powere

Statisticalf

Martinek et al. (2022) Martinek et al. (2022)82

 

 

6. Per protocol analysis for some outcomes

6. Follow-up insufficient to define long-term effects

5. Trial terminated for success prior to recruiting # of participants specified in protocol

3. Inadequate statistical analysis and reporting

The study limitations stated in this table are those notable in the current review; this is not a comprehensive gaps assessment.
a Allocation key: 1. Participants not randomly allocated; 2. Allocation not concealed; 3. Allocation concealment unclear; 4. Inadequate control for selection bias.
b Blinding key: 1. Not blinded to treatment assignment; 2. Not blinded outcome assessment; 3. Outcome assessed by treating physician.
c Selective Reporting key: 1. Not registered; 2. Evidence of selective reporting; 3. Evidence of selective publication.
d Follow-Up key: 1. High loss to follow-up or missing data; 2. Inadequate handling of missing data; 3. High number of crossovers; 4. Inadequate handling of crossovers; 5. Inappropriate exclusions; 6. Not intent to treat analysis (per protocol for noninferiority trials).
e Power key: 1. Power calculations not reported; 2. Power not calculated for primary outcome; 3. Power not based on clinically important difference.
f Statistical key: 1. Intervention is not appropriate for outcome type: (a) continuous; (b) binary; (c) time to event; 2. Intervention is not appropriate for multiple observations per patient; 3. Confidence intervals and/or p values not reported; 4.Comparative treatment effects not calculated.

Nonrandomized Studies
Numerous nonrandomized single-arm studies have been published many of which are included in the 2 meta-analyses discussed above.67,68,69,70,71,72,73,74,75,76,77,78,79,80 This section will focus on the largest of these studies which also provides long-term efficacy outcomes through 4 years follow-up.

Hernandez-Mondragon et al. (2022) retrospectively analyzed data from a prospective cohort of adult refractory gastroparesis patients (N = 374) collected at a single center from 2017 to 2021.68 Patients were followed for 4 years and evaluated at baseline and then following G-POEM at 1 month, 6 months and every 6 months thereafter through 48 months. The technical success of the procedure was 100% with an average hospital length of stay of 2 days. Prior to treatment with G-POEM, the mean GCSI score was 3.84 ± 0.53 which was significantly reduced to 2.1 ± 0.7 (p < .001) at 4 years follow-up (n = 102). The clinical success rate was 77.5% at 4 years follow-up. Adverse events occurred in 8.6% of patients and were all managed conservatively or treated endoscopically. Twelve patients (3.2%) had a treatment failure with G-POEM and 72 (19.2%) had a recurrence of gastroparesis symptoms. Patients were stratified by the etiology of their gastroparesis for the purposes of subgroup analyses: 141 patients (37.7%) had diabetic gastroparesis, 115 (30.7%) had idiopathic gastroparesis, 102 (27.3%) had postsurgical gastroparesis, and 16 (4.3%) had another etiology. Between group comparisons based on etiology showed variations in the rate of recurrence (with diabetic etiology having a lower rate) as well as in the rate of final clinical success (with diabetic etiology showing a significantly greater rate of success than idiopathic, postsurgical, or other etiologies of gastroparesis [p < .01]).

Section Summary: Gastric Peroral Endoscopic Myotomy for Gastroparesis
Two systematic reviews and meta-analyses evaluating G-POEM for the treatment of gastroparesis were identified. Pooled rates of clinical success were 60.7% at 1 year and 75% at 3 years following G-POEM with significant reductions in GCSI scores at 1 and 3 years post-treatment. All studies included in these reviews were observational. One RCT found a significantly greater rate of treatment success and improvement in gastric retention for G-POEM compared to a sham control group with the most pronounced effect occurring in patients with a diabetic etiology for gastroparesis.

The purpose of the following information is to provide reference material. Inclusion does not imply endorsement or alignment with the evidence review conclusions.

Practice Guidelines and Position Statements
Guidelines or position statements will be considered for inclusion in Supplemental Information if they were issued by, or jointly by, a U.S. professional society, an international society with U.S. representation, or National Institute for Health and Care Excellence (NICE). Priority will be given to guidelines that are informed by a systematic review, include strength of evidence ratings, and include a description of management of conflict of interest.

American College of Gastroenterology
In 2020, the American College of Gastroenterology (ACG) issued evidence-based clinical guidelines on the diagnosis and management of achalasia.60 The quality of the evidence and the strength of recommendations were rated based on the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) framework. The evidence review includes the 2 RCTs of POEM compared to LHM or pneumatic dilation (PD). Based on their evaluation, the ACG made the following recommendations:

  • "In patients with achalasia who are candidates for definite therapy, PD, LHM and POEM are comparable effective therapies for type I or type II achalasia and POEM would be a better treatment option in those with type III achalasia.
  • "We suggest that POEM or PD result in comparable symptomatic improvement in patients with types I or II achalasia." (GRADE quality = Low, Recommendation strength = Conditional)
  • "We recommend that POEM and LHM result in comparable symptomatic improvement in patients with achalasia." (GRADE quality = Moderate; Recommendation strength = Strong)
  • "We recommend tailored POEM or LHM for type III achalasia as a more efficacious alternative disruptive therapy at the lower esophageal sphincter compared to PD." (GRADE quality = Moderate; Recommendation strength = Strong)
  • "We suggest that in patients with achalasia, POEM compared with LHM with fundoplication or PD is associated with a higher incidence of GERD." (GRADE quality = Moderate; Recommendation strength = Strong)
  • "We suggest that POEM is a safe option in patients with achalasia who have previously undergone PD or LHM." (GRADE quality = Low; Recommendation strength = Strong)

American Gastroenterological Association Institute
In 2017, the American Gastroenterological Association Institute published a clinical practice update on the use of POEM for the treatment of achalasia.81, Based on the expert review, the Institute made the following recommendations:

  • POEM should be performed by experienced physicians in high-volume centers (competence achieved after an estimated 20 to 40 procedures)
  • If expertise is available, POEM should be considered primary therapy for type III achalasia
  • If expertise is available, POEM should be considered comparable to Heller myotomy for any achalasia syndromes
  • Patients receiving POEM should be considered high-risk to develop reflux esophagitis and be advised of management considerations (e.g., proton pump inhibitor therapy and/or surveillance endoscopy) prior to undergoing POEM.

In 2023, the American Gastroenterological Association Institute issued a clinical practice update commentary regarding gastric peroral endoscopic myotomy for gastroparesis.84, Based on an expert review the following recommendations were provided:

  • Gastric POEM (G-POEM), also called peroral endoscopic pyloromyotomy, should be considered for patients with medically refractory gastroparesis who:
    • 1) Have undergone esophagogastroduodenoscopy to confirm no mechanical gastric outlet obstruction
    • 2) Had a solid phase gastric emptying scan (GES) confirming delayed gastric emptying, preferably with retention > 20% at 4 hours
    • 3) have moderate to severe symptoms including nausea and vomiting as the dominant symptoms on the gastroparesis cardinal symptom index
      • Patients who have failed gastric electrical stimulator therapy, pyloric stenting and botulinum toxin injection should be offered G-POEM but failure of these alternatives therapies should not be a prerequisite.
  • G-POEM should not be offered to the following patients:
    • Patients with opioid dependence should be weaned off opioids whenever possible and have their gastric emptying re-evaluated.
    • Most patients with postinfectious gastroparesis should not be offered G-POEM.
  • G-POEM should only be performed by interventional endoscopists with expertise or training in third-space endoscopy.
  • Patients should remain on a liquid diet for at least 24 hours before G-POEM to minimize residual gastric contents.
  • A high-definition gastroscope, with a waterjet, affixed with a clear distal cap, should be used to perform G-POEM. And a modern electrosurgical generator capable of modulating power based on tissue resistance and circuit impedance is necessary for G-POEM.

American Society of Gastrointestinal and Endoscopic Surgeons
In 2020, ASGE issued an evidence-based guideline on the management of achalasia.62 The methodologic quality of systematic reviews was assessed using the Methodological Quality of Systematic Reviews-2 (AMSTAR-2) tool and the certainty of the body of evidence was rated as very low to high based on the GRADE framework. ASGE rated the strength of individual recommendations based on the aggregate evidence quality and an assessment of the anticipated benefits and harms. ASGE used the phrase "we suggest" to indicate weaker recommendations and "we recommend" to indicate stronger recommendations. This guideline did not include either of the two available RCTs of POEM. Based on their evaluation, ASGE issued the following recommendations:

  • "We suggest POEM as the preferred treatment for management of patients with type III achalasia." (Very low quality evidence)
  • "In patients with failed initial myotomy (POEM or laparoscopic Heller myotomy), we suggest PD or redo myotomy using either the same or an alternative myotomy technique (POEM or laparoscopic Heller myotomy)." (Very low quality evidence)
  • "We suggest that patients undergoing POEM are counseled regarding the increased risk of postprocedure reflux compared with PD and laparoscopic Heller myotomy. Based on patient preferences and physician expertise, postprocedure management options include objective testing for esophageal acid exposure, long-term acid suppressive therapy, and surveillance upper endoscopy." (Low quality evidence)
  • We suggest that POEM and laparoscopic Heller myotomy are comparable treatment options for management of patients with achalasia types I and II, and the treatment option should be based on shared decision-making between the patient and provider." (Low quality evidence)

These 2020 ASGE guidelines were endorsed by the American Neurogastroenterology and Motility Society and the Society of American Gastrointestinal and Endoscopic Surgeons (SAGES).

International Society for Diseases of the Esophagus
In 2018, the International Society for Diseases of the Esophagus published guidelines on the diagnosis and management of achalasia.85 The Society convened 51 experts from 11 countries, including several from the U.S., to systematically review evidence, assess recommendations using the GRADE system, and vote to integrate the recommendations into the guidelines (> 80% approval required for inclusion). Table 15 summarizes POEM recommendations.

Table 15. Recommendations for the Treatment of Achalasia

Recommendation LOR GOR
POEM is an effective therapy for achalasia both in short- and medium-term follow-up with results comparable to Heller myotomy. Conditional Very low
POEM is an effective therapy for achalasia both in short- and medium-term follow-up with results comparable to PD. Conditional Low
Pretreatment information on GERD, nonsurgical options (PD), and surgical options with lower GERD risk (Heller myotomy) should be provided to the patient. Good practice NA
POEM is feasible and effective for symptom relief in patients previously treated with endoscopic therapies. Conditional Very low
POEM may be considered an option for treating recurrent symptoms after laparoscopic Heller myotomy. Conditional Low
Appropriate training (in vivo/in vitro animal model) and proctorship should be considered prior to a clinical program of POEM. Good practice NA

GERD: gastroesophageal reflux disease; GOR: grade of recommendation; LOR: level of recommendation; NA: not applicable; PD: pneumatic dilation; POEM: peroral endoscopic myotomy.

Society of American Gastrointestinal and Endoscopic Surgeons
In 2020, SAGES endorsed the guideline on the management of achalasia issued by ASGE (2020) as described above.62

In 2021, SAGES issued its own evidence-based guidelines for the use of POEM for the treatment of achalasia.64 The expert panel agreed on 4 recommendations for adults and children with achalasia. These include:

  • The panel suggests that adult and pediatric patients with type I and II achalasia may be treated with either POEM or LHM based on surgeon and patient's shared decision making (conditional recommendation; very low certainty evidence).
  • The panel suggests POEM over LHM for type III adult or pediatric achalasia. (expert opinion)
  • The panel recommends POEM over PD in patients with achalasia. (strong recommendation, moderate certainty evidence)
  • For the subgroup of patients who are particularly concerned about the continued use of proton pump inhibitors post-operatively, the panel suggests that either POEM or PD can be used based on joint patient and surgeon decision-making. (conditional recommendation, very low certainty evidence)

U.S. Preventive Services Task Force Recommendations
Not applicable

Ongoing and Unpublished Clinical Trials
Some currently ongoing and unpublished trials that might influence this review are listed in Table 16.

Table 16. Summary of Key Trials

NCT No. Trial Name Planned Enrollment Completion Date
Ongoing      
NCT01601678 Endoscopic Versus Laparoscopic Myotomy for Treatment of Idiopathic Achalasia: A Randomized, Controlled Trial 240 Apr 2023
(last update posted June 2023)
NCT01832779 Prospective Evaluation of the Clinical Utility of Peroral Endoscopic Myotomy (POEM) 600 Dec 2022
(last update posted May 2023)
NCT01793922 A Prospective Randomized Multi-center Study Comparing Endoscopic Pneumodilation and Per Oral Endoscopic Myotomy (POEM) as Treatment of Idiopathic Achalasia 150 Jan 2023
(last update posted Feb 2023)
NCT04434781 Gastric Per-Oral Endoscopic Myotomy (G-POEM) for the Treatment of Gastroparesis: A Database Repository 75 Aug 2024
NCT05830994 Randomized Sham-controlled Trial Investigating Efficacy of Gastric Peroral Endoscopic Myotomy in Treatment of Diabetic Gastroparesis 20 Jun 2025
NCT04869670 A Pilot and Feasibility Trial of G-POEM for Gastroparesis to Assess Safety, Physiological Mechanisms and Efficacy 30 Jun 2025
NCT02518542 Per Oral Endoscopic Myotomy (POEM) and Prolonged Dilatation (PRD) as Additional Endoscopic Treatment Options for Achalasia and Other Esophageal Motility Disorders 400 Jun 2027
Unpublished      
NCT02138643 Laparoscopy Heller Myotomy With Fundoplication Associated Versus Peroral Endoscopic Myotomy (POEM) 30 Dec 2017 (last update posted April 2017)
NCT03228758 Efficacy of Anterior Versus Posterior Myotomy Approach in Peroral Endoscopic Myotomy (POEM) for the Treatment of Achalasia - a Single Operator Analysis 89 May 2019 (last update posted May 2020)

NCT: national clinical trial.

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Coding Section

Codes

Number

Description

CPT

43497 (code effective on 01/01/2022)

Lower esophageal myotomy, transoral

 

43499

Unlisted procedure, esophagus

ICD-10-CM

 

Investigational for achalasia

 

K22.0

Achalasia of cardia

ICD-10-PCS

 

ICD-10-PCS codes are only used for inpatient services. There is no specific ICD-10-PCS code for this procedure.

 

0D848ZZ, 0DN48ZZ

Surgery, gastrointestinal system, via natural or artificial opening, endoscopic – codes for division and release

TOS

Medicine 

 

POS

Inpatient/Outpatient 

 

Procedure and diagnosis codes on Medical Policy documents are included only as a general reference tool for each policy. They may not be all-inclusive.

This medical policy was developed through consideration of peer-reviewed medical literature generally recognized by the relevant medical community, U.S. FDA approval status, nationally accepted standards of medical practice and accepted standards of medical practice in this community, Blue Cross Blue Shield Association technology assessment program (TEC) and other nonaffiliated technology evaluation centers, reference to federal regulations, other plan medical policies, and accredited national guidelines.

"Current Procedural Terminology © American Medical Association. All Rights Reserved" 

History From 2024 Forward     

09/13/2024 Interim review adding policy statement: Gastric peroral endoscopic myotomy is investigational and unproven and therefore considered not medically necessary as a treatment for gastroparesis. Also updating Rationale and References.

01012024  NEW POLICY

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