Bronchial artery embolization
Bronchial artery embolization | |
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Specialty | Pulmonology, interventional radiology |
Bronchial artery embolization is a treatment for hemoptysis, abbreviated as BAE. It is a kind of catheter intervention to control hemoptysis (airway bleeding) by embolizing the bronchial artery, which is a bleeding source. Embolic agents are particulate embolic material such as gelatin sponge or polyvinyl alcohol (PVA), and liquid embolic material such as NBCA, or metallic coils.[1]
Basic principle
It is said that hemoptysis is caused by the formation of anomalous anastomosis (bronchial artery-pulmonary artery shunt) between the bronchial artery and the pulmonary artery, and if the bronchial artery is embolized, hemorrhage will cease.[1] This is a fundamental concept of BAE. Traditionally, BAE was mostly performed as an emergency hemostatic procedure. Recently, it is often performed as an elective catheter treatment to prevent recurrence after massive hemoptysis, or control chronic repetitive hemoptysis.[2] Although it is termed bronchial artery embolization, various systemic arteries other than the bronchial artery (non-bronchial arteries) also form a shunt with the pulmonary artery and cause hemoptysis. Therefore, it is common to embolize such non-bronchial arteries, but the expression of bronchial artery embolization, BAE, rather than the universal expression “arterial embolization” is more common.[3] The therapeutic outcomes are improving due to the combined approach such as spreading the treatment target to non-bronchial arteries, development of 3D-CT angiography following the development of MDCT, the advancement of devices such as coils and micro-catheters, and the evolution of therapeutic strategies. BAE has become the gold standard for hemoptysis for its dramatic improvement.[4][1] Although the hemostatic effect is greatly affected by the underlying disease, some high-volume centers report hemostatic rate of about 90.4% within one year of treatment, and 85.9% even in two years after treatment.[2] The occlusion of the blood vessels in the brain, heart, and kidneys, which are supplied by the so-called end arteries, can cause cerebral, myocardial, and renal infarctions. In BAE, both bronchial mucosal necrosis and pulmonary infarction seldom occur.[1] It is presumed that this is because the pulmonary circulation is dually controlled by the bronchial artery and the pulmonary artery; and even if the blood flow in the bronchial artery is lost, blood flow from the pulmonary artery is slightly maintained.[1] In the case of non-bronchial arteries, it is empirically known that some collateral circulations also develop.[5] In addition, direct hemorrhage from the pulmonary artery is rare (less than 5%), which requires embolization of the pulmonary artery.
Treatment indications
BAE is effective for hemoptysis in most underlying diseases such as bronchiectasis, nontuberculous mycobacterial disease (NTM), cryptogenic hemoptysis, pulmonary aspergillosis, and pulmonary tuberculosis sequelae.[1] According to Ishikawa who reported long-term treatment results of BAE for 489 hemoptysis patients, each underlying disease's ratio is 34.0%, 23.5%, 18.4%, 13.3%, 6.8%, respectively.[2] Other diseases for which BAE is effective include lung abscess and pulmonary actinomycosis.[6]
As for lung cancer, hemoptysis is caused mostly by bleeding from the tumor itself, and not by the bronchial-pulmonary artery shunt mechanism; embolism of the feeding vessels for the tumor causes necrosis of the cancer which may evoke massive hemoptysis. In addition, subsequent chemotherapy and endovascular treatment cannot be performed if the route of anticancer drugs is permanently obstructed. Lung cancer needs a different strategy. Seki et al. reported the usefulness of endovascular treatment for lung cancer hemoptysis.[7] Kichang et al. reported BAE for hemoptysis in 84 lung cancer patients, and demonstrated that massive hemoptysis and cavity formation were significantly poor prognosis factors; re-hemoptysis rate was 23.8% in their follow-up period.[8]
Even though BAE is currently considered the gold standard treatment for hemoptysis, Ishikawa et al.[9] found that only 9065 patients (8.4%) out of 107389 patients hospitalized for hemoptysis between 2010 and 2018 in Japan were treated with BAE. According to Ishikawa basically, all patients with hemoptysis who are admitted to the hospital are eligible for BAE, and the reason why BAE has been performed only in such a small number of patients is that there are still few facilities that can perform BAE,
Besides, among the 660 hospitals that performed BAE, half of them (334 centers) experienced less than one case per year.[9] Centralization of hemoptysis treatment facilities will be necessary to increase the performance rate of BAE and to improve the quality of BAE.
Treatment technique details
A catheter with a diameter of less than 2 mm is inserted at the base of the foot (femoral artery) or the artery in the wrist (radial artery).[2] The tip of the catheter is inserted into the orifice of the bronchial artery (normally smaller than 1 mm) or other non-bronchial hemoptysis-related arteries. Contrast agent is injected through the catheter, and when abnormal findings are observed, such as systemic–pulmonary shunts, proliferations of the capillary vessels, or extravasation of the contrast medium to the lung tissues, they were super selectively embolized using the 3 Fr microcatheter system.[5] A thinner microcatheter (about 0.8 mm) is passed through the catheter into the blood vessel, and then, embolic material is injected into the appropriate site. Thus, hemostasis is performed by ceasing or reducing the pressure applied to a bronchial (or non-bronchial)-pulmonary shunt (abnormal anastomosis). BAE is performed under local anesthesia, and the required time is about 1 hour to 3 hours.[2]
Effectiveness
In the past, BAE was mostly considered a palliative or a bridge therapy to surgical operation owing to the high rate of re-hemoptysis with BAE. But with the improvement in treatment strategy and devices, it is regarded as a permanent therapy for hemoptysis nowadays.[1][4]
There are few facilities in which sophisticated BAE is feasible, and there are significant disparities between hospitals in the treatment quality and their experience. In most of the facilities, BAE is operated by interventional vascular radiology doctors,[10] but in recent years, specialized high volume centers where a trained pulmonologist performs BAE are emerging.[11][2] It is particularly effective for cryptogenic hemoptysis. Ando, Masuda et al. reported in their article that the hemostatic rate is 97% at 20 months,[12] which is equivalent to the results of the article by Ishikawa.[2] Ando, Masuda et al. state that micro bronchial aneurysms are involved in 22.9% of cryptogenic hemoptysis[12]
For pulmonary aspergillosis, BAE was relatively less effective and was once thought to be contraindicated, but hemostatic rates have improved in recent years. Ando, Masuda et al. demonstrated that the re-hemoptysis rate was significantly higher in cases of disease progression.[11]
The hemostatic rate in each underlying disease by Ishikawa is shown below.[2] In this paper, both re-hemoptysis and death are defined as composite endpoints, and among these, only re-hemoptysis free rate is shown in the following table. It is originally a long-term performance data for 3 years; In the third year, the 95% confidence interval was too wide except for cryptogenic hemoptysis; hence, they are regarded as statistically unreliable figures. Therefore, the third year result is not posted here except for idiopathic hemoptysis.[2] The poorest hemostatic rate after 2 years was observed in nontuberculous mycobacterial disease (NTM). The result shown by Okuda, Masuda et al. was similar (73.8%).[13] It is considered to reflect the progressive nature of the disease.
Underground diseases | 1 year | 2 year |
---|---|---|
Total | 90.4% | 85.9% |
Bronchiectasis | 87.6% | 85.1% |
NTM | 89.0% | 75.9% |
Cryptogenic Hemoptysis | 97.8% | 97.8% |
Pulmonary aspergillosis | 86.4% | 82.1% |
Tb sequelae | 91.3% | 85.3% |
Below are the treatment results summarized according to underlying diseases based on peer-reviewed papers published by Eishinkai Kishiwada Rehabilitation Hospital Hemoptysis and Pulmonary Circulation Center (EHPC), and The National Hospital Organization Tokyo Hospital Pulmonary Circulation and Hemoptysis Center (Tokyo Hp) ; the top two representatives of high-volume centers in Japan.
1year | 2year | 3year | Cases | Follow-up period | |
---|---|---|---|---|---|
Tokyo Hp | 97.0% | 35 | 3 years | ||
EHPC | 97.8% | 97.8% | 97.8% | 90 | 5.7 years |
1 year | 2 year | 3 year | Cases | Follow-up period | |
---|---|---|---|---|---|
Tokyo Hp | 79.1% | 73.8% | 63.3% | 43 | 5 years |
EHPC | 89.0% | 75.9% | N.A. | 115 | 5.7 years |
1 year | 2 year | 3 year | Cases | Follow-up period | |
---|---|---|---|---|---|
Tokyo Hp | 65.8% | 50.0% | 47.9% | 41 | 5 years |
EHPC | 86.4% | 82.1% | N.A. | 65 | 5.7 years |
In cases of recurrence, re-BAE is possible to perform several times.
Furthermore, Takeda et al. showed that the 1, 2, 3, and 5-year hemostatic rates of bronchiectasis (without nontuberculous mycobacteriosis or pulmonary aspergillosis) were 91.3, 84.2, 81.5, and 78.9%, respectively.[15] This paper is valuable for its long-term results of 5 years.
Embolic material
These include polyvinyl alcohol (PVA), n-butyl-2-cyanoacrylate (NBCA), gelatin sponge, metallic coil, etc.[1][4]
PVA
Woo et al. reported 406 cases of BAE long-term results, including 293 cases of PVA and 113 cases of NBCA.[16]
NBCA
This is a kind of medical instant adhesive. Generally, there are many complications such as non-target blood vessel embolization and adhesion of catheter and vessel wall. However, in the article by Woo et al., major complication rate was 0%.[16]
This kind has many advantages, such as low cost, instantaneous embolization, and very low recanalization rate since it does not depend on the patient's thrombus formation. It appears to be the best indication for traumatic bleeding control, particularly, in the peripheral bronchial aneurysms that the micro-catheter cannot access in BAE procedures, is a very good indication, and Mine, Hasebe et al. reported a technique called B-glue; NBCA combined with a balloon.[10]
Gelatin sponge (GS)
Gelatin sponge (GS) is a transient embolic material, and in most cases, it dissolves within one to two weeks, and blood flow resumes. For this reason, it is important for emergency hemostatic purposes such as palliative treatment until surgery, which was the former positioning of BAE. GS is not suitable for the prevention of recurrence after massive hemoptysis or elective BAE for chronic repetitive hemoptysis. Wada et al. demonstrated that hemostatic rate was 24% (median follow-up time was 15 months) in their retrospective analysis of BAE for 33 patients using GS.[17]
Metallic coil
There are three kinds of platinum vascular embolic coil. One is a detachable coil, which is expensive, but can be deployed repetitively until electric detach. This enables safest and fully controlled embolization. The second one is pushable coil, which is affordable, and allows for only one deployment. The third one is mechanical detachable coil; it has a moderate price range, and repetitive deployment is feasible. Ishikawa termed BAE with metallic coil as ssBACE, and published the world's largest number of cases of ssBACE long-term results in 2017.[2] As described below, there are no reports on spinal cord ischemia in ssBACE,[2][11] which is considered the most serious complication of BAE. This is one of the strongest merit of ssBACE.
Despite a rumor that it cannot be re-treated if ssBACE is performed once, Ryuge demonstrated in their article on “the mechanism of re-hemoptysis” that the technical success rate in re-BAE was at least 97.7%.[18]
Re-hemoptysis mechanism
Ryuge classified the re-hemoptysis mechanism after ssBACE into four as shown below. They also demonstrated that for the improvement of the long-term results in ssBACE in the future, suppressing recanalization is necessary.[18]
Some readers misunderstand that 45.2% of the embolized coils recanalized. This, in fact, is the ratio of re-hemoptysis mechanism occurring in 9.6% cases in 1 year, and in 14.1% of those in 2 years.[18]
Recanalization was the main cause of re-hemoptysis, and the suppression of new hemoptysis-related vessels, which is the second cause, cannot be controlled by the BAE procedure itself. It was shown that suppression of the recanalization was the key to improvement in ssBACE result in future.[18]
Mechanism | Ratio | Explanation |
---|---|---|
Recanalization | 45.2% | Blood flow recurrence in the embolized area |
New HRA | 38.5% | Totally new hemoptysis-related artery |
Bridging collateral | 14.7% | Collateral from the proximal of the same artery |
Conventional collateral | 1.7% | Collateral from the different artery |
Complications
In the past, paraplegia caused by spinal cord ischemia due to erroneous embolization of the anterior spinal artery was well known as a rare, but serious complication.[1][19] Super selective BAE using microcatheter reduced the incidence of the spinal ischemia.[1]
However, according to Ishikawa et al., spinal cord infarction still occurs, with an incidence of 0.19% (16/8563).[9]
They also compared it between three embolic agents (GS, NBCA, Coil) and demonstrated that the incidence of spinal cord infarction was significantly lower in coils: 0.06% (1/1577) compared with GS 0.18% (12/6561) and NBCA 0.71% (3/425) (p=0,04).
Major complications reported by Ishikawa et al. are presented below.[2]
Mediastinal hematoma occurs by injury of hemoptysis-related vessel, mainly by wire, and can easily bail out by proximal coil embolization.
Complications | Cases | Incidence |
---|---|---|
Mediastinal hematoma | 5 | 1.0% |
Symptomatic cerebellar infarction | 2 | 0.4% |
Aortic dissection | 1 | 0.2% |
Symptomatic Cerebral infarction | 0 | 0% |
Spinal ischemia | 0 | 0% |
Death | 0 | 0% |
Improvement in mortality and quality of life
The majority of research on BAE was the single-center retrospective observational studies. Descriptive epidemiological studies using French medical big data is precious in that aspect.[20] From the fall of 2020 to January 2021, a collaborative study led by the Yasunaga Laboratory of the University of Tokyo published two landmark papers using the Japanese medical database.[21][9] One of them is a study by Ando et al. of the Department of Respiratory Medicine, University of Tokyo, which demonstrated for the first time in the world that early BAE (within three days after endotracheal intubation) significantly reduced in-hospital mortality in patients with severe hemoptysis on ventilators (30 days): 7.5% in the early BAE group vs. 16.8% in the non-early BAE group. (odds ratio, 0.45; 95% CI, 0.28-0.73; p = 0.001).[11]
Omachi et al. of the Hemoptysis and Pulmonary Circulation Center, Kishiwada Rehabilitation Hospital, demonstrated for the first time in the world that elective BAE with coils significantly improved the quality of life of hemoptysis patients(single-center prospective observational study). In this study, both physical and mental QOL improved significantly after BAE, especially the latter.[22]
References
- 1 2 3 4 5 6 7 8 9 10 Panda, Ananya; Bhalla, Ashu Seith; Goyal, Ankur (2017-07-07). "Bronchial artery embolization in hemoptysis: a systematic review". Diagnostic and Interventional Radiology. 23 (4): 307–317. doi:10.5152/dir.2017.16454. PMC 5508955. PMID 28703105.
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 HIdeo, Ishikawa; Hara, Masahiko; Ryuge, Misaki; Takafuji, Jun; Youmoto, Mihoko; Akira, Masanori; Nagasaka, Yukio; Kabata, Daijiro; Yamamoto, Kouji; Shintani, Ayumi (February 2017). "Efficacy and safety of super selective bronchial artery coil embolisation for haemoptysis: a single-centre retrospective observational study". BMJ Open. 7 (2): e014805. doi:10.1136/bmjopen-2016-014805. ISSN 2044-6055. PMC 5318547. PMID 28213604.
- ↑ Frood, Russell; Karthik, Shishir; Mirsadraee, Saeed; Clifton, Ian; Flood, Karen; McPherson, Simon J. (June 2020). "Bronchial Artery Embolisation for Massive Haemoptysis: Immediate and Long-Term Outcomes—A Retrospective Study". Pulmonary Therapy. 6 (1): 107–117. doi:10.1007/s41030-020-00112-x. ISSN 2364-1754. PMC 7229022. PMID 32185642.
- 1 2 3 Olsen, Kathryn M.; Manouchehr-pour, Shawdi; Donnelly, Edwin F.; Henry, Travis S.; Berry, Mark F.; Boiselle, Phillip M.; Colletti, Patrick M.; Harrison, Nicholas E.; Kuzniewski, Christopher T.; Laroia, Archana T.; Maldonado, Fabien (May 2020). "ACR Appropriateness Criteria® Hemoptysis". Journal of the American College of Radiology. 17 (5): S148–S159. doi:10.1016/j.jacr.2020.01.043. PMID 32370959.
- 1 2 Yoon, Woong; Kim, Jae Kyu; Kim, Yun Hyun; Chung, Tae Woong; Kang, Heoung Keun (November 2002). "Bronchial and Nonbronchial Systemic Artery Embolization for Life-threatening Hemoptysis: A Comprehensive Review". RadioGraphics. 22 (6): 1395–1409. doi:10.1148/rg.226015180. ISSN 0271-5333. PMID 12432111.
- ↑ Suzuki, Manabu; Araki, Kyoko; Matsubayashi, Sachi; Kobayashi, Konomi; Morino, Eriko; Takasaki, Jin; Iikura, Motoyasu; Izumi, Shinyu; Takeda, Yuichiro (March 2019). "A case of recurrent hemoptysis caused by pulmonary actinomycosis diagnosed using transbronchial lung biopsy after bronchial artery embolism and a brief review of the literature". Annals of Translational Medicine. 7 (5): 108. doi:10.21037/atm.2019.02.11. ISSN 2305-5839. PMC 6462664. PMID 31019958.
- ↑ Seki, Akihiko; Shimono, Chigusa (September 2017). "Transarterial chemoembolization for management of hemoptysis: initial experience in advanced primary lung cancer patients". Japanese Journal of Radiology. 35 (9): 495–504. doi:10.1007/s11604-017-0659-2. ISSN 1867-1071. PMID 28608003. S2CID 19991488.
- ↑ Han, Kichang; Yoon, Ki Woong; Kim, Jin Hyoung; Kim, Gyoung Min (March 2019). "Bronchial Artery Embolization for Hemoptysis in Primary Lung Cancer: A Retrospective Review of 84 Patients". Journal of Vascular and Interventional Radiology. 30 (3): 428–434. doi:10.1016/j.jvir.2018.08.022. PMID 30819488.
- 1 2 3 4 Ishikawa, Hideo; Ohbe, Hiroyuki; Omachi, Naoki; Morita, Kojiro; Yasunaga, Hideo (2021-01-19). "Spinal Cord Infarction after Bronchial Artery Embolization for Hemoptysis: A Nationwide Observational Study in Japan". Radiology. 298 (3): 673–679. doi:10.1148/radiol.2021202500. ISSN 0033-8419. PMID 33464182.
- 1 2 Mine, Takahiko; Matsumoto, Tomohiro; Hayashi, Toshihiko; Tomita, Kosuke; Masuda, Kimihiko; Kawashima, Masahiro; Sakamaki, Fumio; Hasebe, Terumitsu (2018-08-01). "A Stepwise Embolization Strategy for a Bronchial Arterial Aneurysm: Proximal Coil and Distal Glue with the Optional Use of a Microballoon Occlusion System". CardioVascular and Interventional Radiology. 41 (8): 1267–1273. doi:10.1007/s00270-018-1969-1. ISSN 1432-086X. PMID 29687263. S2CID 5039956.
- 1 2 3 4 5 Ando, Takahiro; Kawashima, Masahiro; Masuda, Kimihiko; Takeda, Keita; Okuda, Kenichi; Suzuki, Junko; Ohshima, Nobuharu; Horibe, Mitsuko; Tamura, Atsuhisa (2019-05-01). "Exacerbation of chronic pulmonary aspergillosis was associated with a high rebleeding rate after bronchial artery embolization". Respiratory Investigation. 57 (3): 260–267. doi:10.1016/j.resinv.2018.12.009. ISSN 2212-5345. PMID 30692051.
- 1 2 3 Ohta, Ken; Akagawa, Shinobu; Nagai, Hideaki; Tamura, Atsuhisa; Matsui, Hirotoshi; Ohshima, Nobuharu; Suzuki, Junko; Okuda, Kenichi; Takeda, Keita (2017-11-01). "Clinical and Angiographic Characteristics of 35 Patients With Cryptogenic Hemoptysis". Chest. 152 (5): 1008–1014. doi:10.1016/j.chest.2017.05.007. ISSN 0012-3692. PMID 28526654. S2CID 3763317.
- 1 2 Okuda, Kenichi; Masuda, Kimihiko; Kawashima, Masahiro; Ando, Takahiro; Koyama, Kazuya; Ohshima, Nobuharu; Tamura, Atsuhisa; Nagai, Hideaki; Akagawa, Shinobu (2016-01-01). "Bronchial artery embolization to control hemoptysis in patients with Mycobacterium avium complex". Respiratory Investigation. 54 (1): 50–58. doi:10.1016/j.resinv.2015.08.004. ISSN 2212-5345. PMID 26718145.
- ↑ Ishikawa, Hideo; Hara, Masahiko; Ryuge, Misaki; Takafuji, Jun; Youmoto, Mihoko; Akira, Masanori; Nagasaka, Yukio; Kabata, Daijiro; Yamamoto, Kouji (February 17, 2017). "Efficacy and safety of super selective bronchial artery coil embolisation for haemoptysis: a single-centre retrospective observational study". BMJ Open. 7 (2): e014805. doi:10.1136/bmjopen-2016-014805. ISSN 2044-6055. PMC 5318547. PMID 28213604.
- ↑ Takeda, Keita; Kawashima, Masahiro; Masuda, Kimihiko; Kimura, Yuya; Yamamoto, Shota; Enomoto, Yu; Igei, Hiroshi; Ando, Takahiro; Narumoto, Osamu; Morio, Yoshiteru; Matsui, Hirotoshi (2020). "Long-Term Outcomes of Bronchial Artery Embolization for Patients with Non-Mycobacterial Non-Fungal Infection Bronchiectasis". Respiration. 99 (11): 961–969. doi:10.1159/000511132. ISSN 0025-7931. PMID 33264771. S2CID 227259320.
- 1 2 Woo, Sungmin; Yoon, Chang Jin; Chung, Jin Wook; Kang, Sung-Gwon; Jae, Hwan Jun; Kim, Hyo-Cheol; Seong, Nak Jong; Kim, Young-Joo; Woo, Young-Nam (November 2013). "Bronchial Artery Embolization to Control Hemoptysis: Comparison of N -Butyl-2-Cyanoacrylate and Polyvinyl Alcohol Particles". Radiology. 269 (2): 594–602. doi:10.1148/radiol.13130046. ISSN 0033-8419. PMID 23801773.
- ↑ Wada, Noriaki; Furuya, Akio; Ike, Toshihiro; Kasai, Naofumi; Takata, Shohei; Tao, Yoshiaki; Asayama, Yoshiki (2019). "Clinical Features, Outcomes, and Predictors of Recurrence in Patients Treated with Bronchial Arterial Embolization Using a Gelatin Sponge to Control Hemoptysis". Interventional Radiology. 4 (3): 37–42. doi:10.22575/interventionalradiology.2019-0002. ISSN 2432-0935.
- 1 2 3 4 5 Ryuge, Misaki; Hara, Masahiko; Hiroe, Takanori; Omachi, Naoki; Minomo, Shojiro; Kitaguchi, Kazushi; Youmoto, Mihoko; Asakura, Norihiro; Sakata, Yasushi (2019-02-01). "Mechanisms of recurrent haemoptysis after super-selective bronchial artery coil embolisation: a single-centre retrospective observational study". European Radiology. 29 (2): 707–715. doi:10.1007/s00330-018-5637-2. ISSN 1432-1084. PMC 6302874. PMID 30054792.
- ↑ Padgett, Max; Abi-Jaoudeh, Nadine; Benn, Bryan S.; Rahimian, Ramin; Nelson, Kari (June 2019). "Anterior Cord Syndrome after Embolization for Malignant Hemoptysis". Seminars in Interventional Radiology. 36 (2): 111–116. doi:10.1055/s-0039-1688424. ISSN 0739-9529. PMC 6531023. PMID 31123382.
- ↑ Abdulmalak, Caroline; Cottenet, Jonathan; Beltramo, Guillaume; Georges, Marjolaine; Camus, Philippe; Bonniaud, Philippe; Quantin, Catherine (August 2015). "Haemoptysis in adults: a 5-year study using the French nationwide hospital administrative database". European Respiratory Journal. 46 (2): 503–511. doi:10.1183/09031936.00218214. ISSN 0903-1936. PMID 26022949.
- ↑ Ando, Takahiro; Kawashima, Masahiro; Jo, Taisuke; Masuda, Kimihiko; Yamauchi, Yasuhiro; Tanaka, Goh; Kage, Hidenori; Suzukawa, Maho; Nagai, Hideaki; Matsui, Hiroki; Fushimi, Kiyohide (October 2020). "Early Arterial Embolization and Mortality in Mechanically Ventilated Patients With Hemoptysis: A Nationwide Retrospective Cohort Study". Critical Care Medicine. 48 (10): 1480–1486. doi:10.1097/CCM.0000000000004513. ISSN 0090-3493. PMID 32931191. S2CID 221671429.
- ↑ Omachi, Naoki; Ishikawa, Hideo; Hara, Masahiko; Nishihara, Takashi; Yamaguchi, Yu; Yamamoto, Yumiko; Youmoto, Mihoko; Hattori, Tomoaki; Kitaguchi, Kazushi; Yamamoto, Shota; Kawaguchi, Tomoya (2021-01-06). "The impact of bronchial artery embolisation on the quality of life of patients with haemoptysis: a prospective observational study". European Radiology. 31 (7): 5351–5360. doi:10.1007/s00330-020-07533-x. ISSN 0938-7994. PMC 8213576. PMID 33409794.