Management of life-threatening hemoptysis in the ICU

Anatomy Insights and Key Pearls for Bronchial Artery Embolization

Although bronchial artery embolization (BAE) initially emerged as a critical minimally invasive image-guided procedure to manage massive hemoptysis regardless of underlying etiologies, there has been a growing interest in BAE to treat pulmonary malignancies within recent years. This article provides an in-depth exploration of bronchial artery anatomy, pathologies, imaging modalities in guiding effective BAE, and procedural pearls for successful intervention. The complexity of bronchial artery anatomy, including its variations and potential complications during embolization, necessitates thorough understanding and precise procedural techniques to optimize patient outcomes and minimize risks.

Advances in the study of nebulized tranexamic acid for pulmonary hemorrhage

PURPOSE

Pulmonary hemorrhage is a life-threatening condition characterized by blood leakage into lung tissues, leading to severe respiratory distress. Nebulized tranexamic acid (TXA) has emerged as a promising treatment option for pulmonary hemorrhage due to its localized hemostatic effects and minimal systemic side effects. This review aims to summarize the research progress on the effectiveness and safety of nebulized TXA in pulmonary hemorrhage.

METHODS

A comprehensive search of the Embase, PubMed, and Scopus databases was conducted to identify relevant studies published between the date of inception of each database and November 2023. A comprehensive search was conducted in the PubMed, Embase, Scopus, and Google Scholar databases using the following keywords: "hemoptysis," "haemoptysis," "pulmonary hemorrhage," "tranexamic acid," "antifibrinolytic," "nebulize," and "inhale." Additional articles were identified by reviewing the references of the retrieved studies. Studies were selected based on their focus on the application of nebulized TXA for pulmonary hemorrhage. The authors and dates of publication, study type, patients, diseases, intervention and main outcomes of these papers are tabulated. This consisted of two randomized controlled trials (RCTs), six case series, and nine case reports.

RESULTS

The commonly used dosage of nebulized TXA in the studies reviewed was 500 mg/5 ml, administered 3-4 times daily. Evidence suggests that nebulized TXA effectively controls bleeding in pulmonary hemorrhage with a hemostatic efficacy comparable to systemic administration, but with a lower risk of venous thrombosis. Safety data indicates that nebulized TXA is generally well-tolerated, with no significant systemic adverse reactions reported. Local reactions, such as bronchospasm, were rare and resolved with short-term bronchodilator treatment.

CONCLUSION

Nebulized TXA appears to be an innovative and minimally invasive therapy for pulmonary hemorrhage, providing targeted hemostatic effects with a favorable safety profile. However, the predominance of small-scale studies and case reports highlights the need for large-scale, high-quality research to establish standardized guidelines.

Major Bleeding in the Emergency Department: A Practical Guide for Optimal Management

Major bleeding is a life-threatening condition with high morbidity and mortality. Trauma, gastrointestinal bleeding, haemoptysis, intracranial haemorrhage or other causes of bleeding represent major concerns in the Emergency Department (ED), especially when complicated by haemodynamic instability. Severity and source of bleeding, comorbidities, and prior use of anticoagulants are pivotal factors affecting both the clinical status and the patients' differential response to haemorrhage. Thus, risk stratification is fundamental in the initial assessment of patients with bleeding. Aggressive resuscitation is the principal step for achieving haemodynamic stabilization of the patient, which will further allow appropriate interventions to be made for the definite control of bleeding. Overall management of major bleeding in the ED should follow a holistic individualized approach which includes haemodynamic stabilization, repletion of volume and blood loss, and reversal of coagulopathy and identification of the source of bleeding. The aim of the present practical guide is to provide an update on recent epidemiological data about the most common etiologies of bleeding and summarize the latest evidence regarding the bundles of care for the management of patients with major bleeding of traumatic or non-traumatic etiology in the ED.

Tracheal intubation in the lateral position in emergency medicine: a narrative review and clinical protocol

BACKGROUND

Tracheal intubation (TI) is a fundamental procedure for securing the airway or assisting ventilation in emergency medicine. Tracheal intubation in the lateral position (TILP) has been utilized in clinical practice, demonstrating potential advantages in specific scenarios, including emergency settings. However, there is a lack of comprehensive reviews and practical protocols on TILP application. To address this gap, we performed a narrative review, and provided evidence-based recommendations to formulate a practice protocol, to assist clinicians to effectively apply TILP.

METHODS

We conducted a narrative review of TILP applications and developed recommendations based on clinical research evidence and clinical experience. Delphi method was used among the TILP consortium to grade the strength of the recommendations and to help reach consensus. The practice protocols were formulated as warranted by advancements in medical knowledge, technology, and practice.

RESULTS

This narrative review summarized the current evidence on TILP application, highlighting its safety, efficacy, challenges, and potential complications. In total, 24 recommendations and a clinical protocol for TILP application in emergency patients were established.

CONCLUSION

TILP is a valuable technique in emergency medicine. We reviewed its application in emergency settings and formulated recommendations along with a clinical practice protocol. Future studies are needed to evaluate the safety and efficacy of TILP, broaden its scope of application, and explore effective training protocols.

High risk and low incidence diseases: Massive hemoptysis

BACKGROUND

Massive hemoptysis (MH) is a serious condition that carries with it a high rate of morbidity and mortality.

OBJECTIVE

This review highlights the pearls and pitfalls of massive hemoptysis, including presentation, diagnosis, and management in the emergency department (ED) based on current evidence.

DISCUSSION

MH is a rare but deadly condition. It is defined clinically as any bleeding from the tracheobronchial tree that compromises respiratory or circulatory function. The bronchial artery system is the primary source in the majority of cases of MH. The most common cause is tuberculosis worldwide, but bronchiectasis, bronchogenic carcinoma, and mycetoma are more common causes in the U.S. Patients with MH require rapid assessment and management, as decompensation can be rapid. Patients with altered mental status, inability to clear their sections, respiratory distress, or hemodynamic compromise require emergent airway intervention. The imaging modality of choice is computed tomography angiography with pulmonary arterial phase contrast. A reasonable order or sequence of management includes initial stabilization; assessment for the need for airway intervention; reversal of any coagulopathy; advanced imaging; and emergent consultation of pulmonary, cardiothoracic surgery, and interventional radiology. Ongoing resuscitation including blood products may be required in some patients with MH until definitive hemostasis is achieved.

CONCLUSIONS

An understanding of MH can assist emergency clinicians in diagnosing and managing this dangerous disease. Providing a prompt evaluation, obtaining intravenous access, pursuing advanced imaging, providing reversal of coagulopathy, supporting hemodynamics, and appropriate consultation are key interventions in MH.

Clinical Approach to Massive Hemoptysis: Perioperative Focus on Causes and Management

Massive hemoptysis is a time critical airway emergency in the perioperative setting, with an associated mortality exceeding 50%. Causes of hemoptysis in the perioperative setting include procedural complication, coagulopathy, malignancy, chronic lung disease, infection, left-sided cardiac disease, pulmonary vascular disease and autoimmune disease. A rapid and coordinated multidisciplinary response is required to secure the airway, isolate the lung, ensure adequate oxygenation and ventilation, identify the underlying cause and initiate specific systemic, bronchoscopic, endovascular, or surgical treatment. This review examines the etiology, pathophysiology, as well as approach to management and interventions in perioperative massive hemoptysis.

The hemostatic activity and Mechanistic roles of glucosyloxybenzyl 2-isobutylmalate extract (BSCE) from Bletilla striata (Thunb.) Rchb.f. in Inhibiting pulmonary hemorrhage

Background

Hemorrhagic events cause numerous deaths annually worldwide, highlighting the urgent need for effective hemostatic drugs. The glucosyloxybenzyl 2-isobutylmalates Control Extract (BSCE) from the orchid plant Bletilla striata (Thunb.) Rchb.f. has demonstrated significant hemostatic activity in both in vitro and in vivo studies. However, the effect and mechanism of BSCE on non-traumatic bleeding remain unclear.

Methods

Pulmonary hemorrhage was induced in 40 Sprague-Dawley rats by administering Zingiber officinale Roscoe. for 14 days. These rats were then randomly divided into five groups: model (Mod), positive control (YNBY), and BSCE low, medium, and high-dose groups. An additional 8 rats served as the control group (Con). The BSCE groups received different doses of BSCE for 10 days, while the YNBY group received Yunnan Baiyao suspension. The effects on body weight, food and water intake, red blood cell count (RBC), hemoglobin concentration (HGB), lung tissue pathology, platelet count, coagulation parameters, and fibrinolytic system markers were evaluated. Network pharmacology and molecular docking analyses were also conducted to identify potential targets and pathways involved in BSCE's effects.

Results

BSCE treatment significantly improved body weight, food intake, and water consumption in rats with pulmonary hemorrhage. RBC and HGB levels increased significantly in the BSCE medium and high-dose groups compared to the Mod group (P < 0.05). Pathological examination revealed that BSCE reduced lung tissue hemorrhage and inflammation, with improvements in alveolar structure. BSCE also positively affected platelet count, thrombin time (TT), activated partial thromboplastin time (APTT), fibrinogen (FIB) levels, and fibrinolytic markers (D-dimer, PAI-1, and t-PA). Network pharmacology and molecular docking identified key targets such as MMPs, CASPs, and pathways including IL-17 and TNF signaling, suggesting BSCE's involvement in hemostasis and anti-inflammatory processes.

Conclusions

BSCE exhibits significant hemostatic and protective effects on Z.officinale-induced pulmonary hemorrhage in rats by improving hematological parameters, reducing lung tissue damage, and modulating the coagulation and fibrinolytic systems. The study provides evidence supporting the potential of BSCE as a therapeutic agent for hemorrhagic diseases, with its efficacy linked to multi-target and multi-pathway interactions.

The efficacy and safety of combined therapy with endobronchial tamponade and bronchial artery embolization for massive hemoptysis

BACKGROUND

Massive hemoptysis is characterized by its life-threatening nature, potentially leading to airway obstruction and asphyxia. The objective of this study was to evaluate the clinical effectiveness of combining endobronchial tamponade with bronchial artery embolization (BAE) in the treatment of massive hemoptysis.

METHODS

Between March 2018 and March 2022, a total of 67 patients with massive hemoptysis who underwent BAE were divided into two groups: the combination group (n = 26) and the BAE group (n = 41). Technical and clinical success rates were assessed, and adverse events were monitored following the treatment. Blood gas analysis and coagulation function indicators were collected before and after the treatment, and recurrence and survival rates were recorded during the follow-up period.

RESULTS

All patients achieved technical success. There were no significant differences in the clinical success rate, recurrence rates at 3 and 6 months, and mortality rates at 3 months, 6 months, and 1 year between the combination group and the BAE group. However, the hemoptysis recurrence rate at 1 year was significantly lower in the combination group compared to the BAE group (15.4% vs. 39.0%, P = 0.039). No serious adverse events were reported in either group. After treatment, the combination group showed higher levels of arterial partial pressure of oxygen (PaO2), oxygenation index (PaO2/FiO2), fibrinogen (FIB), and D-dimer (D-D) compared to the BAE group (P < 0.05). Multivariate regression analysis demonstrated a significant correlation between combined therapy and hemoptysis-free survival.

CONCLUSION

Combination therapy, compared to embolization alone, exhibits superior efficacy in improving respiratory function, correcting hypoxia, stopping bleeding, and preventing recurrence. It is considered an effective and safe treatment for massive hemoptysis.

Nationwide survey in Japan of the causative diseases of bloody sputum and hemoptysis in departments of respiratory medicine at university hospitals and core hospitals

BACKGROUND

The Guidelines for the Management of Cough and Sputum (2019) of the Japanese Respiratory Society (JRS) were the first internationally published guidelines for the management of sputum. However, the data used to determine the causative diseases of bloody sputum and hemoptysis in these guidelines were not obtained in Japan.

METHODS

A retrospective analysis was performed using the clinical information of patients with bloody sputum or hemoptysis who visited the department of respiratory medicine at a university or core hospital in Japan.

RESULTS

Included in the study were 556 patients (median age, 73 years; age range, 21-98 years; 302 males (54.3%)). The main causative diseases were bronchiectasis (102 patients (18.3%)), lung cancer (97 patients (17.4%)), and non-tuberculous mycobacterial disease (89 patients (16%)). Sex and age differences were observed in the frequency of causative diseases of bloody sputum and hemoptysis. The most common cause was lung cancer in males (26%), bronchiectasis in females (29%), lung cancer in patients aged <65 years (19%), and bronchiectasis in those aged >65 years (20%).

CONCLUSIONS

The present study is the first to investigate the causative diseases of bloody sputum and hemoptysis using data obtained in Japan. When investigating the causative diseases of bloody sputum and hemoptysis, it is important to take the sex and age of the patients into account.

Concomitant Intubation with Minimal Cuffed Tube and Rigid Bronchoscopy for Severe Tracheo-Carinal Obstruction

BACKGROUND

Our aim was to report on the use of an innovative technique for airway management utilizing a small diameter, short-cuffed, long orotracheal tube for assisting operative rigid bronchoscopy in critical airway obstruction.

METHODS

We retrospectively reviewed the clinical data of 36 patients with life-threatening critical airway stenosis submitted for rigid bronchoscopy between January 2008 and July 2021. The supporting ventilatory tube, part of the Translaryngeal Tracheostomy KIT (Fantoni method), was utilized in tandem with the rigid bronchoscope during endoscopic airway reopening.

RESULTS

Indications for collateral intubation were either tumors of the trachea with near-total airway obstruction (13), or tumors of the main carina with total obstruction of one main bronchus and possible contralateral involvement (23). Preliminary dilation was necessary before tube placement in only 2/13 patients with tracheal-obstructing tumors (15.4%). No postoperative complications were reported. There was one case of an intraoperative cuff tear, with no further technical problems.

CONCLUSIONS

In our experience, this innovative method proved to be safe, allowing for continuous airway control. It enabled anesthesia inhalation, use of neuromuscular blockage and reliable end-tidal CO2 monitoring, along with protection of the distal airway from blood flooding. The shorter time of the procedure was due to the lack of need for pauses to ventilate the patient.

Is VATS suitable for lung diseases with hemoptysis? Experience from a hemoptysis treatment center in China

BACKGROUND

Surgery is crucial in the treatment of the potentially fatal pulmonary hemoptysis condition. Currently, most patients with hemoptysis are treated by traditional open surgery (OS). To illustrate the effectiveness of video-assisted thoracic surgery (VATS) for hemoptysis, we developed a retrospective study of surgical interventions for lung disease with hemoptysis.

METHODS

We collected and then analysed the data, including general information and post-operative outcomes, from 102 patients who underwent surgery for a variety of lung diseases with hemoptysis in our hospital between December 2018 and June 2022.

RESULTS

Sixty three cases underwent VATS and 39 cases underwent OS. 76.5% of patients were male (78/102). Comorbidities with diabetes and hypertension were 16.7% (17/102) and 15.7% (16/102) respectively. The diagnoses based on postoperative pathology included aspergilloma in 63 cases (61.8%), tuberculosis in 38 cases (37.4%) and bronchiectasis in 1 case (0.8%). 8 patients underwent wedge resection, 12 patients underwent segmentectomy, 73 patients underwent lobectomy and 9 patients underwent pneumonectomy. There were 23 cases of postoperative complications, of which 7 (30.4%) were in the VATS group, significantly fewer than 16 (69.6%) in the OS group (p = 0.001). The OS procedure was identified as the only independent risk factor for postoperative complications. The median (IQR) of postoperative drainage volume in the first 24 h was 400 (195-665) ml, which was 250 (130-500) ml of the VATS group, significantly less than the 550 (460-820) ml of the OS group (p < 0.05). The median (IQR) of pain scores 24 h after surgery was 5 (4-9). The median (IQR) of postoperative drainage tube removal time was 9.5 (6-17) days for all patients, and it was 7 (5-14) days for the VATS group, which was less than 15 (9-20) days for the OS group.

CONCLUSION

VATS for patients with lung disease presenting with hemoptysis is an effective and safe option that may be preferred when the hemoptysis is uncomplicated and the patient's vital signs are stable.

Endovascular Management of Life-Threatening Hemoptysis in Primary Lung Cancer: A Retrospective Study

OBJECTIVE

The aim of this study was to evaluate the efficacy and safety of endovascular treatment of hemoptysis caused by primary lung cancer.

METHODS

We conducted a single-center retrospective study (2005-2021), including patients who underwent thoracic embolization for life-threatening hemoptysis complication of lung cancer. Exclusion criteria were hemoptysis caused by a benign lung tumor or by a lung metastasis of a primary non-lung tumor. Depending on the origin of the bleeding, determined by CT-angiography, systemic arteries were treated with microspheres or coils, and pulmonary arteries with coils, plugs or covered stents. Outcomes were assessed from patients' medical records in April 2022. Primary endpoints were clinical success at one month and at one year. Secondary endpoints were incidence of complications, 1 year overall survival, and relative risk of recurrence of hemoptysis. Survival was compared with a log-rank test.

RESULTS

Sixty-two patients underwent 68 systemic artery embolizations and 14 pulmonary artery procedures. Clinical success defined as cessation of hemoptysis without any recurrence was 81% at one month and 74% at one year. Three major complications occurred: spinal cord ischemia, stroke, and acute pancreatitis. 5% of patient died from hemoptysis. One-year overall survival was 29% and was significantly higher in patients without hemoptysis recurrence when compared to patients with recurring hemoptysis (p = 0.021). In univariate analysis, recurrence of hemoptysis at one year was associated with massive hemoptysis (RR = 2.50; p = 0.044) and with tumor cavitation (RR = 2.51; p = 0.033).

CONCLUSION

Endovascular treatment for primary lung cancer-related hemoptysis is effective but not uneventful.

Massive hemoptysis bridged with VV ECMO: A case report

Objective

Extracorporeal membrane oxygenation (ECMO) can provide full pulmonary support when a patient is completely apneic. The combination of veno-venous (VV) ECMO and induced apnea can be utilized to control significant hemoptysis. We present a case of massive hemoptysis that developed while on VV ECMO and was treated with temporary discontinuation of the ventilator and serial declotting bronchoscopies.

Methods

A 42-year-old male with recent acute ST elevation myocardial infarction status post cardiac stent developed aspiration pneumonia that progressed to acute respiratory distress syndrome. The patient's biventricular function was preserved. VV ECMO was placed for lung rescue on hospital day #7, and tracheostomy was performed for ventilator dependence on hospital day #12. On hospital day #18, the patient developed significant hemoptysis despite the discontinuation of anticoagulation. Bronchoscopy revealed massive bleeding from bilateral bronchi. To facilitate tamponade within the tracheobronchial tree, the ventilator was temporarily discontinued while VV ECMO provided full respiratory support. After 48 h, mechanical ventilation was resumed, and daily bronchoscopies were performed to remove clots from both bronchi until a chest x-ray showed improvement in bilateral opacifications. Bronchoscopy was performed a total of 14 times. There was no recurrence of bronchial bleeding, the patient's respiratory status improved, and VV ECMO was weaned off on hospital day #37. The patient was transferred to a long-term rehabilitation facility 36 days after successful VV ECMO decannulation on hospital day #73.

Conclusions

This patient's survival of massive hemoptysis was facilitated largely by the utilization of serial declotting bronchoscopies with VV ECMO providing full pulmonary support during temporary discontinuation of mechanical ventilation.