Endobronchial Brachytherapy - CAM 80311

Description:
Endobronchial brachytherapy is the delivery of radiotherapy directly to endobronchial lesions, either intraluminally or interstitially, using permanently implanted radioactive seeds or a temporary afterloading implant. The technique permits targeted radiation while minimizing exposure to surrounding radiosensitive structures, such as normal lung, heart, and spinal cord.

For individuals with non-small-cell lung cancer (NSCLC) with airway obstruction or severe hemoptysis who receive endobronchial brachytherapy as palliative treatment, the evidence includes single-arm series and randomized controlled trials (RCTs) summarized in systematic reviews. Relevant outcomes are overall survival, symptoms, morbid events, and treatment-related morbidity. Overall, the RCTs were assessed as low quality, and there is no evidence that endobronchial brachytherapy improves survival. However, the single-arm studies have suggested that endobronchial brachytherapy improves symptoms (pulmonary obstruction, hemoptysis), particularly in patients who are not candidates for external-beam radiotherapy (EBRT). If symptoms persist after EBRT, endobronchial brachytherapy is well-accepted as short-term palliation for symptoms such as hemoptysis, cough and dyspnea, and resolution of obstructive atelectasis or pneumonitis. The evidence is sufficient to determine that the technology results in a meaningful improvement in the net health outcome. 

For individuals with NSCLC who receive endobronchial brachytherapy as primary treatment, the evidence includes single-arm series. Relevant outcomes are overall survival, symptoms, morbid events, and treatment-related morbidity. For primary treatment (ie, with intent to improve survival outcomes), the effects of endobronchial brachytherapy on survival outcomes compared to alternative therapies are not well-defined. Additional comparative data are needed. The evidence is insufficient to determine the effects of the technology on health outcomes. 

For individuals with endobronchial hyperplastic granulation tissue who receive endobronchial brachytherapy, the evidence includes case series. Relevant outcomes are symptoms, morbid events, and treatment-related morbidity. The evidence for endobronchial brachytherapy for hyperplastic granulation tissue is limited. The available case series typically include endobronchial brachytherapy as part of multimodal management, making it difficult to assess the specific contribution of brachytherapy. The evidence is insufficient to determine the effects of the technology on health outcomes.

Background 
Endobronchial Lesions
Brachytherapy
Endobronchial brachytherapy has been primarily investigated as a palliative treatment of obstructing primary or metastatic tumors, particularly in non-small-cell lung cancer. Endobronchial brachytherapy has also been used as a tool in the curative treatment for some primary bronchial and tracheal tumors. Two to four fractions delivered weekly is a typical schedule. Median overall survival of patients with obstructing endobronchial tumors is typically less than nine months.

In the outpatient setting, the patient receives local anesthesia and monitored sedation. A flexible bronchoscope is passed transnasally; a separate port on the bronchoscope allows passage of the afterloading catheter to the target lesion. Once the catheter is placed, the radioisotope can be administered by the high-dose rate radiotherapy afterloading machine. Patients with potential airway compromise due to bleeding may require treatment with a rigid bronchoscope, which requires general anesthesia and frequently an overnight stay.

Other Treatments
Endobronchial brachytherapy is an approach to the local treatment of endobronchial lesions. Other technologies include electrocoagulation, cryosurgery, laser resection, endosurgery, and endobronchial stent placement. In some instances, the therapies may be used together, such as laser therapy for initial debulking followed by brachytherapy.

Regulatory Status
Several bronchoscopes (product code: EOQ) and remote-controlled afterload/radionuclide applicator systems (product code: JAQ) have received U.S. Food and Drug Administration 510(k) marketing clearance, eg, Video Sciences BRS-5000 Video Bronchoscopy with EndoSheath System (Vision-Sciences, Orangeburg, NY) and MicroSelectron (Nucletron, Columbia, MD), respectively.

Policy:
Endobronchial brachytherapy may be considered MEDICALLY NECESSARY in the following clinical situations:

  • In patients with primary endobronchial tumors who are not otherwise candidates for surgical resection or external beam radiation therapy due to co-morbidities or location of the tumor
  • As a palliative therapy in patients with obstructing endobronchial primary or metastatic, or recurrent endobronchial  tumors

Other applications of endobronchial brachytherapy are investigational and/or unproven and therefore considered NOT MEDICALLY NECESSARY:  including, but not limited to, its use as a radiation "boost" to curative external beam radiotherapy, as treatment for asymptomatic recurrences of non-small-cell lung cancer, or in the treatment of hyperplastic granulation tissue.  

Policy Guidelines
Coding
Please see the Codes table for details.

Rationale  
This evidence review was created in March 1999 and has been updated regularly with searches of the PubMed database. The most recent literature update was performed through June 7, 2021.

Evidence reviews assess the clinical evidence to determine whether the use of a 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 to 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 a technology, 2 domains are examined: the relevance and the quality and credibility. To be relevant, studies must represent one 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.

Endobronchial Brachytherapy as Palliative Treatment
Clinical Context and Therapy Purpose
The purpose of endobronchial brachytherapy for palliation of patients who have obstructive lesions is to provide a treatment option that is an alternative to or an improvement on existing therapies.

The question addressed in this evidence review is: Does the use of endobronchial brachytherapy as palliative treatment improve the net health outcome in patients with non-small cell lung cancer (NSCLC) and airway obstruction or severe hemoptysis?

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

Populations
The relevant population of interest is patients with NSCLCwith airway obstruction or severe hemoptysis.

Many patients with NSCLC are initially treated with external-beam radiotherapy (EBRT) but ultimately experience local recurrence. Many are not candidates for additional EBRT due to limited tolerance of normal tissue.

Interventions
The therapy being considered is endobronchial brachytherapy as palliative treatment.

Comparators
The following practices and treatments are currently being used for the palliative treatment of NSCLC with airway obstruction or severe hemoptysis : EBRT, laser resection, surgical resection, and palliative care.

Outcomes
The general outcomes of interest are overall survival (OS), symptoms, morbid events, and treatment-related morbidity. Specific benefits include palliation of obstructive symptoms, avoidance of blood loss due to hemoptysis, and avoidance of adverse events associated with more invasive therapies. Specific harms may occur early due to immediate procedure-related complications. Late-occurring and the most serious complications described for endobronchial brachytherapy are massive hemoptyses, the formation of tracheoesophageal fistulas, bronchospasm, bronchial stenosis, radiation bronchitis, and palliative care.1,The duration of follow-up for advanced malignant lesions treated with endobronchial brachytherapy is weeks to months.

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 events, 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
A comparative effectiveness review by Ratko et al (2013), prepared for the Agency for Healthcare Research and Quality, assessed local nonsurgical therapies for symptomatic obstructive NSCLC.2, For patients with an obstruction due to inoperable NSCLC, 4 RCTs ( N = 268 patients) examined endobronchial brachytherapy alone or in combination with EBRT or Nd-YAG laser therapy for palliative or curative intent. All RCTs were determined to be of poor quality. Seven single-arm studies ( N = 740 patients) examined endobronchial brachytherapy alone or in combination with EBRT, stent placement, or chemotherapy plus photodynamic therapy for palliative or curative intent. The evidence was considered "insufficient to permit conclusions on the comparative effectiveness of local nonsurgical therapies for…inoperable NSCLC patients with endoluminal tumor causing pulmonary symptoms."

A 2008 Cochrane review (updated in 2012) assessing palliative endobronchial brachytherapy for NSCLC analyzed 13 RCTs but did not conduct meta-analyses because of heterogeneity in the doses of radiotherapy delivered, patient characteristics, and outcomes measured.1,3, Reviewers concluded that EBRT alone was more effective for palliation of symptoms than endobronchial brachytherapy alone. Findings did not provide conclusive evidence that endobronchial brachytherapy plus EBRT improved symptom relief, reduced complication rates, or extended survival compared with EBRT alone. Additionally, reviewers did not find sufficient evidence to recommend endobronchial brachytherapy as an add-on to first-line EBRT, chemotherapy, or Nd-YAG laser palliative treatment. For patients previously treated with EBRT who remain symptomatic, endobronchial brachytherapy was considered an option.

Ung et al (2006) conducted a systematic review of endobronchial brachytherapy for palliative treatment of NSCLC.4, Based on 29 studies, including 6 randomized trials, reviewers also concluded that EBRT alone was more effective than endobronchial brachytherapy alone for symptom palliation in previously untreated patients. Unlike the Cochrane reviews, however, the Ung et al (2006) review concluded that endobronchial brachytherapy plus EBRT seems to provide better symptom relief than EBRT alone, yet the final recommendation was to use endobronchial brachytherapy only for symptomatic recurrent endobronchial obstruction after EBRT.

Randomized Controlled Trials
Mallick et al (2006), in a prospective randomized trial from India ( N = 45), suggested that endobronchial brachytherapy alone and endobronchial brachytherapy plus EBRT have similar efficacy and safety profiles in the palliative management of NSCLC.5,

Nonrandomized Studies
Goldberg et al (2015) reported on a prospective, observational cohort study evaluating the quality of life and symptom-related outcomes for 98 patients with locally advanced inoperable lung cancer receiving high-dose rate (HDR) endobronchial brachytherapy.6, Patients were followed every 3 months for 1 year. Most (78%) were treated for a newly diagnosed disease that was inoperable at diagnosis. The OS rate was 13.4% at 12 months. Endobronchial brachytherapy was not associated with longer OS or improved quality of life, compared with chemotherapy or EBRT, in multivariable analyses.

Ozkok et al (2008) published a case series from Turkey on the use of HDR endobronchial brachytherapy for palliation of symptoms in 158 patients with 3 lung cancer profiles.7, Group A comprised 43 patients with stage IIIA or IIIB NSCLC, who received endobronchial brachytherapy plus EBRT; group B comprised 74 previously untreated patients with incurable, locally advanced lung cancer; and group C comprised 41 patients with symptomatic endobronchial recurrences who had previously received full-dose radiotherapy. Participants in group A were from a previously reported prospective trial by Gejerman et al (2002)8,; data from these participants were reanalyzed for symptom palliation in the Ozkok et al (2008) report. Not all patients received the intended number of fractions due to patient refusal or deterioration in performance status. A few patients required more than the prescribed doses due to repetitive obstructive symptoms. Response rates for cough, dyspnea, and hemoptysis were measured using the Speiser Symptom Index scoring system. Response rates in group A were 58% for cough (30% complete response [CR]), 77% for dyspnea (76% CR), and 100% for hemoptysis (92% CR). Groups B and C had CR rates of 57% and 55% for cough and 90% and 78% for dyspnea, respectively. Eighteen (11%) patients died of hemoptysis, with a median time to event of 7 months. Significant prognostic factors for fatal hemoptysis were the use of brachytherapy intended as a treatment (as opposed to palliation, p <.001), total radiobiologic equivalent dose (p <.001), and the number of HDR endobronchial brachytherapy fractions (p <.001). The authors concluded that HDR endobronchial brachytherapy was effective for palliation of symptoms related to inoperable lung cancer, either alone or in combination with EBRT. They cautioned that optimal dose, fractionation, and combination schedule with EBRT were unknown.

Although endobronchial brachytherapy is often used to palliate hemoptysis, historically, there has been concern about an observed association between treatment with endobronchial brachytherapy and fatal hemoptysis. The largest study retrospectively reviewed 938 patients treated with external irradiation and/or endobronchial brachytherapy for inoperable NSCLC.9, In this study, Langendijk et al (1998) reported that 101 (10.8%) patients died from massive hemoptysis; 78 (77%) of those who died had clinical or radiologic evidence of tumor progression while 23 (23%) did not. On multivariate analysis, intrabronchial tumor extension in the main bronchus, hemoptysis before radiotherapy, and tumor location in the upper bronchus were independently associated with massive hemoptysis. A dose-response relation between fraction dose and massive hemoptysis also was found; in all subgroups, a higher incidence of massive hemoptysis was seen after fraction dose of 15 gray (Gy). These data were largely consistent with data from Hennequin et al (1998) who reported that hemoptysis was most likely due to disease progression, with brachytherapy facilitating bleeding, rather than directly causing bleeding.10, However, for tumors located in the upper lobes, brachytherapy may be causal. Tumor location was cited as the most important factor in predicting pulmonary hemoptysis in a case series reported by Bedwinek et al (1992), in which 32% of patients died of massive hemoptysis after brachytherapy.11,

Dagnault et al (2010) retrospectively reviewed 81 patients treated with brachytherapy for symptom palliation due to endobronchial primary lung tumors or metastases.12, Between 2002 and 2007, 81 patients who were not candidates for surgery or EBRT because of poor respiratory function, medical comorbidities, or previous treatment with thoracic radiation or surgery, were treated at a single institution. Mean patient age was 66 years (range, 39 to 87 years). Previous treatment included surgical resection of the primary tumor in 58% of patients, lung radiotherapy in 44%, and chemotherapy in 41%. After endobronchial brachytherapy, patients were followed until death or loss to follow-up. Patient characteristics included 59 (73%) with a lung primary and the remainder with metastatic disease, including primary colorectal cancer (13%), kidney, gynecologic, or head and neck cancers (4% each), and other cancers (2%). Presenting symptoms included dyspnea (66%), cough (47%), hemoptysis (28%), and no symptoms (6%). After brachytherapy, major symptomatic improvement was seen in most patients: dyspnea improved during or shortly after the end of treatment in 85% of patients; hemoptysis stopped in all 23 patients; cough improved in 77% of patients, and 18% remained stable. At 6-week follow-up, 72% of tumors were evaluable for bronchoscopic response. A visible bronchoscopic response was evident in 77 patients; for 42 (52%) of 81 patients, the tumor shrank significantly during treatment. Median survival was 14.7 months; local progression-free survival (PFS) was 77% at 12 months and 64% at 24 months. For comparison, the authors stated that OS estimates for most patients with inoperable endobronchial tumors or metastases were less than 6 months. The incidence of complications was low, and all complications resolved.

Guarnaschelli et al (2010) reviewed treatment outcomes of 52 patients with recurrent endobronchial tumors who underwent palliative HDR endobronchial brachytherapy between 1995 and 2005 at a single institution.13, Objective response was assessed by bronchoscopy and chest computed tomography, and subjective clinical response by patient reports. All patients had histologically confirmed bronchogenic carcinoma, recurrent or persistent symptoms (hemoptysis, cough, dyspnea, or postobstructive pneumonia), previous definitive EBRT, and bronchoscopic evidence of endobronchial obstruction. The mean patient age was 63 years (range, 41 to 83 years); 37% of patients were women. Tumor histology was non-small cell in 77% of patients, small cell in 13%, adenoid cystic in 2%, and metastatic in 2%. Patient symptoms before brachytherapy included dyspnea on exertion (79%), cough (89%), hemoptysis (62%), wheezing (52%), dysphagia (8%), chest pain (15%), and shortness of breath (83%). Symptomatic improvement was defined as significant if there was an improvement in 2 or more symptoms and mild if only 1 symptom improved. Forty-eight (92%) patients showed symptom reductions. One patient had worsening hemoptysis, and 2 (4%) of 52 patients did not return for assessment. Median time to symptom relapse after the first fraction of brachytherapy was 6 months (range, 1 to > 6 months). Complete or partial tumor regression was confirmed in 44 (85%) patients on repeat bronchoscopy. For the entire cohort, the median follow-up was 31 months, and median actutimes OS from the first brachytherapy session was 7 months (range, 0 to 55 months). Fifty (96%) patients tolerated treatment without acute, treatment-related complications. Significant treatment-related complications (grade 3 or 4) were reported as possibly occurring in 2 (4%) patients: 1 developed a pneumothorax 6 weeks after brachytherapy, and another died from hemoptysis 48 hours after treatment (it was unknown whether hemoptysis was due to brachytherapy or to the erosion of tumor into a blood vessel).

Section Summary: Endobronchial Brachytherapy as Palliative Treatment
Single-arm series and RCTs summarized in systematic reviews comprise the evidence base for use of endobronchial brachytherapy with palliative intent for NSCLC. Overall, the RCTs were assessed as low-quality, and there is no evidence that endobronchial brachytherapy improved survival. However, the single-arm studies suggested that endobronchial brachytherapy reduced symptoms (pulmonary obstruction, hemoptysis), particularly in patients not candidates for EBRT.

Endobronchial Brachytherapy as Primary Treatment
Clinical Context and Therapy Purpose
The purpose of endobronchial brachytherapy as primary treatment for patients who have NSCLC is to provide a treatment option that is an alternative to or an improvement on existing therapies.

The question addressed in this evidence review is: Does the use of endobronchial brachytherapy as primary treatment of NSCLC improve the net health outcome?

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

Populations
The relevant population of interest is patients with NSCLC and early-stage endobronchial tumors who are not candidates for surgical resection or EBRT due to comorbidities or tumor location. Most studies have been case series, which have reported CR rates of 50% to 80%.14,15,16,

Interventions
The therapy being considered is endobronchial brachytherapy as primary treatment.

There also have been investigations using brachytherapy to deliver a focused radiation boost to patients undergoing curative EBRT. Because patients usually present with surgically unresectable disease and because NSCLC is unresponsive to chemotherapy, the primary treatment for most patients with NSCLC is typically EBRT.

Comparators
The following practices and treatments are currently being used to treat NSCLC: EBRT and surgical resection.

Outcomes
The general outcomes of interest are OS, symptoms, morbid events, and treatment-related morbidity. Specific benefits include avoidance of blood loss due to hemoptysis and avoidance of adverse events associated with more invasive therapies. Specific harms may occur early due to immediate procedure-related complications. Late-occurring and the most serious complications described for endobronchial brachytherapy are massive hemoptyses, the formation of tracheoesophageal fistulas, bronchospasm, bronchial stenosis, radiation bronchitis, and palliative care.1,The duration of follow-up for early-stage lesions treated with endobronchial brachytherapy is 1 to 5 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 events, 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
Case Series
Aumont-le Guilcher et al (2011) reported on 226 patients with primary NSCLC (endobronchial only) who underwent HDR brachytherapy because of contraindications to surgery and EBRT.17, The patient sample comprised 223 men and 3 women from 9 institutions; the mean age was 62 years (range, 40 to 84 years). Tumor histology was squamous cell carcinoma in 96%, adenocarcinoma in 2%, and other in 2%. Response to HDR brachytherapy at 2 to 3 months was classified as a complete histologic response (disappearance of the lesion by bronchoscopy and negative biopsy), complete macroscopic response (disappearance of the lesion but no biopsy), partial response (> 50% decrease in endobronchial tumor volume), or progression (increase in endobronchial tumor volume or tumor visible on computed tomography scan). At 3 months, complete local response was observed in 213 (94%) patients, and in 137 patients with biopsies, 126 (91%) had a CR. Also, 7 patients had tumor progression, 5 had a partial response, and 1 had stable disease. The OS rate was 57% at 2 years and 29% at 5 years. Median survival was 28.6 months. The cancer-specific survival rate was 81% at 2 years and 56% at 5 years. Complications led to treatment interruption in 4.5% of patients. Fatal complications (most commonly fatal hemoptysis) occurred in 6% of patients.

Skowronek et al (2013) reported on a small cohort of 34 patients in Poland who had stage IB, II, or III lung cancer (74% squamous cell carcinoma histology; all distant metastasis-free) and had undergone lobar resection.18, Thirteen (38%) patients developed postoperative recurrence in the bronchial stump, and 21 (72%) patients had histopathologically positive margins after nonradical resection. All patients had dyspnea and cough, and 8 (24%) patients had hemoptysis. Median patient age was 57 years (range, 47 to 73 years). Median time to recurrence after surgery was 11 months. It was not specified whether patients were candidates for reoperation. Nine patients received HDR endobronchial brachytherapy (total dose, 12 Gy) in combination with EBRT (total dose, 50 Gy), and 25 patients received brachytherapy alone (total dose, 30 Gy). At 1 month, complete local and radiologic response was observed in 25 (74%) patients, with 100% CR in the nonradical surgery group. All partial responses occurred in the recurrent tumor group (9 [69%] of 13 patients). Median OS for the entire cohort was 19 months. With a median follow-up of 2 years, the 2-year OS rate was 15% in the group with recurrent tumor and 48% in the nonradical resection group (p =.05). Adverse events were not reported.

Rochet et al (2013) reported on a cohort of 35 patients in Germany who had stage I, II, or III inoperable NSCLC (31% squamous cell carcinoma histology; all distant metastasis-free) and received primary treatment with HDR endobronchial brachytherapy (median total dose, 15 Gy) in combination with EBRT (median total dose, 50 Gy).19, Mean age was 64 years (range, 45 to 75 years). With a median follow-up of 26 months, the median OS was 39 months. One-, 2-, and 5-year OS rates were 76%, 61%, and 28%, respectively. Median PFS and local PFS were 17 months and 42 months, respectively. In patients without mediastinal node involvement, the 5-year local PFS rate was 56% and 11% with positive mediastinal nodes (p =.008). Grade 3 adverse events were hemoptysis in 2 patients and necrosis in 1 patient. Fatal hemoptysis in 1 patient resulted from tumor recurrence.

Hosni et al (2016) reported on a series of 10 patients with endobronchial tumors treated at a single center with endobronchial brachytherapy with curative intent, with (n = 8) or without (n = 2) EBRT.20, Among the 10 patients treated with curative intent, the median follow-up was 17 months. For these patients, the 2-year local control rate was 89% (95% confidence interval, 79% to 99%) and the 2-year OS rate was 67% (95% confidence interval, 51% to 83%). Given the high rate of combination therapy, it is difficult to draw conclusions about brachytherapy alone.

Section Summary: Endobronchial Brachytherapy as Primary Treatment
For primary treatment (ie, with intent to improve survival outcomes), the effects of endobronchial brachytherapy on survival outcomes compared with alternative therapies are not well-defined. Additional comparative data are needed.

Endobronchial Brachytherapy to Treat Hyperplastic Granulation Tissue
Clinical Context and Therapy Purpose
The purpose of endobronchial brachytherapy in patients who have endobronchial hyperplastic granulation tissue is to provide a treatment option that is an alternative to or an improvement on existing therapies.

The question addressed in this evidence review is: Does the use of endobronchial brachytherapy in the treatment of endobronchial hyperplastic granulation tissue improve the net health outcome?

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

Populations
The relevant population of interest is patients with endobronchial hyperplastic granulation tissue causing recurrent airway stenosis after lung transplantation or stent placement.

Interventions
The therapy being considered is endobronchial brachytherapy.

Comparators
The following practices and treatments are currently being used to treat endobronchial hyperplastic granulation tissue: surgical resection and other endobronchial therapies.

Outcomes
The general outcomes of interest are symptoms, morbid events (eg, recurrence of central airway obstructions), and treatment-related morbidity. Specific benefits include avoidance of blood loss due to hemoptysis and avoidance of adverse events associated with more invasive therapies. Specific harms may occur early due to immediate procedure-related complications. The duration of follow-up for hyperplastic granulation tissue treated with endobronchial brachytherapy is weeks to months.

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 events, 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
Case Series
Tendulker et al (2008) reported on a case series assessing endobronchial brachytherapy in 8 patients after excision of obstructive granulation tissue; 6 (75%) patients showed a good or excellent subjective early response for the first 6 months.21, In another case series, Madu et al (2006) used endobronchial brachytherapy to treat 5 patients with benign, post-lung transplantation granulation tissue refractory to multiple other bronchoscopic interventions.22, After a median follow-up of 12 months, 3 (60%) of 5 patients had marked symptom improvement.

Rahman et al (2010) reported on long-term follow-up for 115 patients who underwent various flexible bronchoscopic therapeutic modalities for the management of benign tracheal stenosis between 2001 and 2009.23, High-dose rate endobronchial brachytherapy was used in cases defined as requiring 3 or more interventions within 6 months due to refractory stent-related granulation tissue formation. All patients presented with signs and symptoms of upper airway obstruction, including shortness of breath, stridor, cough, dyspnea, and wheezing. Stents were placed in 33 patients to restore airway patency, and 28 of them underwent brachytherapy to prevent granulation tissue reformation. All 28 experienced a reduction in therapeutic bronchoscopic procedures after brachytherapy compared with the pretreatment period; no further details about response duration or other outcomes were reported. There were no treatment-related complications. Small sample size and concerns about outcomes reporting limit conclusions that can be drawn from this series.

Section Summary: Endobronchial Brachytherapy to Treat Hyperplastic Granulation Tissue
The evidence for endobronchial brachytherapy for hyperplastic granulation tissue is limited by sample sizes. The available case series also typically included endobronchial brachytherapy as part of multimodal management, making it difficult to assess the specific contribution of brachytherapy.

Summary of Evidence
For individuals with NSCLC with airway obstruction or severe hemoptysis who receive endobronchial brachytherapy as palliative treatment, the evidence includes single-arm series and RCTs summarized in systematic reviews. Relevant outcomes are OS, symptoms, morbid events, and treatment-related morbidity. Overall, the RCTs were assessed as low-quality and provided no evidence that endobronchial brachytherapy improves survival. However, the single-arm studies have suggested that endobronchial brachytherapy reduces symptoms (pulmonary obstruction, hemoptysis), particularly in patients who are not candidates for EBRT. If symptoms persist after EBRT, endobronchial brachytherapy is well-accepted as short-term palliation for symptoms such as hemoptysis, cough and dyspnea, and resolution of obstructive atelectasis or pneumonitis. The evidence is sufficient to determine that the technology results in an improvement in the net health outcome.

For individuals with NSCLC who receive endobronchial brachytherapy as primary treatment, the evidence includes single-arm series. Relevant outcomes are OS, symptoms, morbid events, and treatment-related morbidity. For primary treatment (ie, with intent to improve survival outcomes), the effects of endobronchial brachytherapy on survival outcomes compared with alternative therapies are not well-defined. Additional comparative data are needed. The evidence is insufficient to determine that the technology results in an improvement in the net health outcome.

For individuals with endobronchial hyperplastic granulation tissue who receive endobronchial brachytherapy, the evidence includes case series. Relevant outcomes are symptoms, morbid events, and treatment-related morbidity. The evidence for endobronchial brachytherapy for hyperplastic granulation tissue is limited. The available case series typically include endobronchial brachytherapy as part of multimodal management, making it difficult to assess the specific contribution of brachytherapy. The evidence is insufficient to determine that the technology results in an improvement in the net health outcome.

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 US professional society, an international society with US 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 Radiology & American Brachytherapy Society
In 2017, the practice guidelines published jointly by American College of Radiology and the American Brachytherapy Society addressed the use of high-dose-rate brachytherapy (≥ 12 gray per hour) in the treatment of multiple medical conditions, including malignancies in the endobronchial region.24, The guidelines cited studies on the use of high-dose-rate brachytherapy as palliative care and as primary care and noted that brachytherapy might be combined with external-beam radiotherapy (EBRT).

In 2017, both groups also published guidelines on the use of low-dose-rate radionuclide brachytherapy, defined as a treatment between 4 and 200 centigray per hour.25, The guidelines considered low-dose-rate brachytherapy an appropriate treatment for a number of malignancy types, including those found in the bronchus or trachea. Such treatment may be especially appropriate when used to augment EBRT, or when the target volume may be defined.

Both sets of joint guidelines provided a standard for procedural protocol, as well as a summary of the potential treatment sites of the respective types of brachytherapy.

American College of Chest Physicians
In 2017, guidelines on the treatment of a cough as a symptom of lung cancer from the American College of Chest Physicians were updated.26, The systematic review used to inform the guidelines included a number of low-quality studies and the strength of the recommendations were diminished, accordingly. Acknowledging a lack of studies about the effect of brachytherapy on specific lung cancer symptoms (eg, cough), the College recommended that endobronchial brachytherapy be used in patients who cannot receive surgery, chemotherapy, or EBRT (grade 2C evidence). Citing the accompanying risk of side effects such as hemoptysis, the College suggested that a pharmacologic therapy trial be considered initially, or, if endobronchial brachytherapy is used, that caregivers administer the lowest dose.

American Brachytherapy Society
In 2016, the American Brachytherapy Society issued consensus guidelines on thoracic brachytherapy for lung cancer.27, The guidelines included the following recommendations:

  • As palliative care for patients with central, obstructive lesions, particularly those who have previously received EBRT.
  • Alone or in combination with "endobronchial resection, laser therapy, stenting, and photodynamic therapy."
  • As either "high dose rate or pulsed dose rate with the ability to optimize dose" (low dose rate not recommended).

National Comprehensive Cancer Network
The National Comprehensive Cancer Network Guidelines (v. 4.2021) for non-small cell lung cancer include EBRT and brachytherapy as treatment options for severe hemoptysis or endobronchial obstruction in locoregional recurrent disease (category 2A).28,

U.S. Preventive Services Task Force Recommendations
Not applicable.

Ongoing and Unpublished Clinical Trials
Some currently unpublished trials that might influence this review are listed in Table 1.

Table 1. Summary of Key Trials

NCT No. Trial Name Planned Enrollment Completion Date
Ongoing      
NCT03290534a Feasibility Study to Treat Lung Cancer With the Permanently Implantable LDR CivaSheet® 40 Dec 2021
Unpublished      
NCT01351116
 
A Phase III, Multi-centre, Randomized Trial to Evaluate the Symptomatic and Quality of Life Improvements in Lung Cancer Patients Receiving External Beam Radiation With or Without High Dose Rate Intraluminal Brachytherapy 134 Jan 2017
(completed)

NCT: national clinical trial.
Denotes industry-sponsored or cosponsored trial.

References: 

  1. Cardona AF, Reveiz L, Ospina EG, et al. Palliative endobronchial brachytherapy for non-small cell lung cancer. Cochrane Database Syst Rev. Apr 16 2008; (2): CD004284. PMID 18425900
  2. Ratko TA, Vats V, Brock J, Ruffner BW Jr, Aronson N. Local Nonsurgical Therapies for Stage I and Symptomatic Obstructive NonSmall-Cell Lung Cancer [Internet]. Rockville (MD): Agency for Healthcare Research and Quality (US); 2013 Jun. Report No.: 13-EHC071-EF. PMID: 23865091.
  3. Reveiz L, Rueda JR, Cardona AF. Palliative endobronchial brachytherapy for non-small cell lung cancer. Cochrane Database Syst Rev. Dec 12 2012; 12: CD004284. PMID 23235606
  4. Ung YC, Yu E, Falkson C, et al. The role of high-dose-rate brachytherapy in the palliation of symptoms in patients with non-small-cell lung cancer: a systematic review. Brachytherapy. Jul-Sep 2006; 5(3): 189-202. PMID 16864071
  5. Mallick I, Sharma SC, Behera D, et al. Optimization of dose and fractionation of endobronchial brachytherapy with or without external radiation in the palliative management of non-small cell lung cancer: a prospective randomized study. J Cancer Res Ther. Jul-Sep 2006; 2(3): 119-25. PMID 17998689
  6. Goldberg M, Timotin E, Farrell T, et al. A prospective analysis of high-dose-rate endobronchial brachytherapy in the palliation of obstructive symptoms in lung cancer patients: A single-institution experience. Brachytherapy. Sep-Oct 2015; 14(5): 655-61. PMID 25983031
  7. Ozkok S, Karakoyun-Celik O, Goksel T, et al. High dose rate endobronchial brachytherapy in the management of lung cancer: response and toxicity evaluation in 158 patients. Lung Cancer. Dec 2008; 62(3): 326-33. PMID 18482780
  8. Gejerman G, Mullokandov EA, Bagiella E, et al. Endobronchial brachytherapy and external-beam radiotherapy in patients with endobronchial obstruction and extrabronchial extension. Brachytherapy. 2002; 1(4): 204-10. PMID 15062168
  9. Langendijk JA, Tjwa MK, de Jong JM, et al. Massive haemoptysis after radiotherapy in inoperable non-small cell lung carcinoma: is endobronchial brachytherapy really a risk factor?. Radiother Oncol. Nov 1998; 49(2): 175-83. PMID 10052884
  10. Hennequin C, Tredaniel J, Chevret S, et al. Predictive factors for late toxicity after endobronchial brachytherapy: a multivariate analysis. Int J Radiat Oncol Biol Phys. Aug 01 1998; 42(1): 21-7. PMID 9747815
  11. Bedwinek J, Petty A, Bruton C, et al. The use of high dose rate endobronchial brachytherapy to palliate symptomatic endobronchial recurrence of previously irradiated bronchogenic carcinoma. Int J Radiat Oncol Biol Phys. 1992; 22(1): 23-30. PMID 1727125
  12. Dagnault A, Ebacher A, Vigneault E, et al. Retrospective study of 81 patients treated with brachytherapy for endobronchial primary tumor or metastasis. Brachytherapy. Jul-Sep 2010; 9(3): 243-7. PMID 20122873
  13. Guarnaschelli JN, Jose BO. Palliative high-dose-rate endobronchial brachytherapy for recurrent carcinoma: the University of Louisville experience. J Palliat Med. Aug 2010; 13(8): 981-9. PMID 20666622
  14. Hennequin C, Bleichner O, Tredaniel J, et al. Long-term results of endobronchial brachytherapy: A curative treatment?. Int J Radiat Oncol Biol Phys. Feb 01 2007; 67(2): 425-30. PMID 17084547
  15. Perol M, Caliandro R, Pommier P, et al. Curative irradiation of limited endobronchial carcinomas with high-dose rate brachytherapy. Results of a pilot study. Chest. May 1997; 111(5): 1417-23. PMID 9149603
  16. Raben A, Mychalczak B. Brachytherapy for non-small cell lung cancer and selected neoplasms of the chest. Chest. Oct 1997; 112(4 Suppl): 276S-286S. PMID 9337304
  17. Aumont-le Guilcher M, Prevost B, Sunyach MP, et al. High-dose-rate brachytherapy for non-small-cell lung carcinoma: a retrospective study of 226 patients. Int J Radiat Oncol Biol Phys. Mar 15 2011; 79(4): 1112-6. PMID 20510543
  18. Skowronek J, Piorunek T, Kanikowski M, et al. Definitive high-dose-rate endobronchial brachytherapy of bronchial stump for lung cancer after surgery. Brachytherapy. Nov-Dec 2013; 12(6): 560-6. PMID 23850277
  19. Rochet N, Hauswald H, Stoiber EM, et al. Primary radiotherapy with endobronchial high-dose-rate brachytherapy boost for inoperable lung cancer: long-term results. Tumori. Mar-Apr 2013; 99(2): 183-90. PMID 23748812
  20. Hosni A, Bezjak A, Rink A, et al. High Dose Rate Brachytherapy as a Treatment Option in Endobronchial Tumors. Lung Cancer Int. 2016; 2016: 3086148. PMID 27493804
  21. Tendulkar RD, Fleming PA, Reddy CA, et al. High-dose-rate endobronchial brachytherapy for recurrent airway obstruction from hyperplastic granulation tissue. Int J Radiat Oncol Biol Phys. Mar 01 2008; 70(3): 701-6. PMID 17904764
  22. Madu CN, Machuzak MS, Sterman DH, et al. High-dose-rate (HDR) brachytherapy for the treatment of benign obstructive endobronchial granulation tissue. Int J Radiat Oncol Biol Phys. Dec 01 2006; 66(5): 1450-6. PMID 16997502
  23. Rahman NA, Fruchter O, Shitrit D, et al. Flexible bronchoscopic management of benign tracheal stenosis: long term follow-up of 115 patients. J Cardiothorac Surg. Jan 17 2010; 5: 2. PMID 20078894
  24. Erickson BA, Bittner NH, Chadha M, et al. The American College of Radiology and the American Brachytherapy Society practice parameter for the performance of radionuclide-based high-dose-rate brachytherapy. Brachytherapy. Jan 2017; 16(1): 75-84. PMID 28109634
  25. Viswanathan AN, Erickson BA, Ibbott GS, et al. The American College of Radiology and the American Brachytherapy Society practice parameter for the performance of low-dose-rate brachytherapy. Brachytherapy. Jan 2017; 16(1): 68-74. PMID 28109633
  26. Molassiotis A, Smith JA, Mazzone P, et al. Symptomatic Treatment of Cough Among Adult Patients With Lung Cancer: CHEST Guideline and Expert Panel Report. Chest. Apr 2017; 151(4): 861-874. PMID 28108179
  27. Stewart A, Parashar B, Patel M, et al. American Brachytherapy Society consensus guidelines for thoracic brachytherapy for lung cancer. Brachytherapy. Jan-Feb 2016; 15(1): 1-11. PMID 26561277
  28. National Comprehensive Cancer Network (NCCN). NCCN Clinical Practice Guidelines in Oncology: Non-small cell lung cancer. Version 4.2021. https://www.nccn.org/professionals/physician_gls/PDF/nscl.pdf. Accessed June 7, 2021.

Coding Section

Codes Number Description
CPT 31643 Bronchoscopy (rigid or flexible); with placement of catheter(s) for intracavitary radioelement application
  77316-77318 Brachytherapy isodose plan; code range
  77761-77763 Intracavitary radiation source application; code range
  77770-77772 Remote afterloading high dose rate radionuclide brachytherapy interstitial or intracavitary; code range
  77790 Supervision, handling, loading of radiation source
HCPCS No code  
ICD-10-CM C34.00-C34.92 Malignant neoplasm of bronchus lung, code range
  C78.00-C78.02 Secondary malignant neoplasm of lung, code range
  D02.20-D02.22 Carcinoma in situ of bronchus and lung, code range
ICD-10-PCS   ICD-10-PCS codes are only used for inpatient services. There is no specific ICD-10-PCS code for this procedure.
  0BH001Z, 0BH031Z,0BH041Z, 0BH071Z,0BH081Z Surgical, respiratory system, insertion, tracheobronchial tree, radioactive element, code by approach (open, percutaneous, percutaneous endoscopic, via natural or artificial opening, or via natural or artificial opening endoscopic)
  0BHK01Z, 0BHK31Z, 0BHK41Z, 0BHK71Z,0BHK81Z, 0BHL01Z, 0BHL31Z, 0BHL41Z,0BHL71Z, 0BHL81Z Surgical, respiratory system, insertion, radioactive element, code by body part (right lung or left lung) and approach (open, percutaneous, percutaneous endoscopic, via natural or artificial opening, or via natural or artificial opening endoscopic)
Type of service Radiation therapy  
Place of service 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 and Blue Shield Association technology assessment program (TEC) and other non-affiliated 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 2014 Forward     

06/01/2022 

Annual review, no change to policy intent. Updating rationale and references. 

06/01/2021 

Annual review, no change to policy intent. Updating guidelines, coding and rationale. 

06/01/2020 

Annual review, no change to policy intent. Updating background, rationale and references. 

06/04/2019 

Annual review, no change to policy intent. Updating rationale and references 

06/07/2018 

Annual review, no change to policy intent. Updating rationale and references. 

06/07/2017 

Annual review, no change to policy intent. Updating background, description, rationale and references. 

05/12/2017 

Corrected review date. No other changes made. 

06/01/2016 

Annual review, no change to policy intent.

06/17/2015 

Annual review, no change to policy intent. Updated background, description, rationale and references. Added coding and guidelines.

06/02/2014

Annual review. Updated rationale and references. No change to policy intent. 

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