Transbronchial biopsy in the thrombocytopenic patient

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.

Which Is the Best Way to Treat Massive Hemoptysis? A Systematic Review and Meta-Analysis of Observational Studies

INTRODUCTION

Hemoptysis is one of the most common symptoms of respiratory system diseases. Common causes include bronchiectasis, tumors, tuberculosis, aspergilloma, and cystic fibrosis. The severity of hemoptysis varies from mild to moderate to massive hemoptysis and can easily lead to hemodynamic instability and death from suffocation or shock. Nevertheless, the most threatening hemoptysis that is presented to the emergency department and requires hospitalization is the massive one. In these cases, today, the most common way to manage hemoptysis is bronchial artery embolization (BAE).

METHODS

A systematic literature search was conducted in PubMed and Scopus from January 2017 (with the aim of selecting the newest possible reports in the literature) until May 2023 for studies reporting massive hemoptysis. All studies that included technical and clinical success rates of hemoptysis management, as well as rebleeding and mortality rates, were included. A proportional meta-analysis was conducted using a random-effects model.

RESULTS

Of the 30 studies included in this systematic review, 26 used bronchial artery embolization as a means of treating hemoptysis, with very high levels of both technical and clinical success (greater than 73.7% and 84.2%, respectively). However, in cases where it was not possible to use bronchial artery embolization, alternative methods were used, such as dual-vessel intervention (80% technical success rate and 66.7% clinical success rate), customized endobronchial silicone blockers (92.3% technical success rate and 92.3% clinical success rate), antifibrinolytic agents (50% clinical success rate), and percutaneous transthoracic embolization (93.1% technical success rate and 88.9% clinical success rate), which all had high success rates apart from antifibrinolytic agents. Of the 2467 patients included in these studies, 341 experienced rebleeding during the follow-up period, while 354 other complications occurred, including chest discomfort, fever, dysphagia, and paresis. A total of 89 patients died after an episode of massive hemoptysis or during the follow-up period. The results of the meta-analysis showed a pooled technical success of bronchial artery embolization equal to 97.22% and a pooled clinical success equal to 92.46%. The pooled recurrence was calculated to be 21.46%, while the mortality was 3.5%. These results confirm the ability of bronchial artery embolization in the treatment of massive hemoptysis but also emphasize the high rate of recurrence following the intervention, as well as the risk of death.

CONCLUSION

In conclusion, massive hemoptysis can be treated with great clinical and technical success using bronchial artery embolization, reducing mortality. Mortality has now been reduced to a small percentage of cases.

Thrombocytopenic patients with hematological malignancy who underwent fiberoptic bronchoscopy are they really under a significant hemorrhagic risk?

Background

Fiberoptic bronchoscopy (FOB) is a very important procedure in hematology clinics. Clinicians often worry about thrombocytopenia before performing FOB because hemorrhagic complications may occur during and after FOB. We have planned a retrospective study about hemorrhagic complications in thrombocytopenic patients who underwent FOB and treated for hematological malignancy. In this study, we have analyzed hemorrhagic complications, which are related to thrombocytopenia, in 114 adult patients who have hematologic malignancy and underwent FOB between January 1, 2005 and October 20, 2015. The platelet counts of all the patients were below 100 × 109/L.

Results

The complications related to FOB were observed in 4 (3.5%) out of 114 patient. Three out of 4 the complications were related to hemorrhage. One out of these 3 patients who occured hemorrhage was in “no bleeding group” according to BTS classification. The other 1 out of these 3 patients was in “mild bleeding” group. No bleeding was observed during FOB in the third patient. Hemoptysis was observed after FOB in the third patient, it was not required replacement and hemoptysis regressed spontaneously.

In this study, we categorized all the patients into three groups. The first group was comprised of 32 patients whose platelet counts were between 0 and 30 × 109/L. The second group was comprised of 47 patients whose platelets counts were between 30 and 50 × 109/L and lastly, the third group was comprised of 35 patients whose platelets counts were between 50 and 100 × 109/L. When we compared the groups to each other, there was no significant difference between these three groups in regards to occurrence of hemorrhagic complications. We observed that there was no significant relationship between thrombocytopenia level and risk of hemorrhagic complications in thrombocytopenic patients who underwent FOB.

Conclusions

In conclusion, this study demonstrated that FOB is safe procedures in thrombocytopenic patients if it is performed in multidisciplinary centers by experienced pulmonologists.

Management of life-threatening hemoptysis in the ICU

Life-threatening hemoptysis is commonly encountered in the ICU and its management can be challenging even for experienced clinicians. Depending on the etiology and severity, one can tailor the treatment modality and therapeutic intervention(s). The grading of severity of hemoptysis varies greatly in the literature; however, unlike hemorrhage in other scenarios, small amounts of blood can significantly impair oxygenation and ventilation leading to cardiovascular collapse. Importantly, the initial evaluation and management should focus on airway and hemodynamic stabilization along with maintenance of oxygenation and ventilation. In this review, we discuss commonly encountered etiologies, vascular anatomy, diagnostic evaluation, and therapeutic interventions. We examine the evolving trends in etiologies of life-threating hemoptysis over the years. The role of flexible and rigid bronchoscopy as both a diagnostic and therapeutic modality is explored, as well as the use and indications of several bronchoscopic techniques, such as topical hemostatic agents, endobronchial tamponade, and tranexamic acid (TXA). In addition, we assess the use of multi-row detector computed tomography as the initial rapid diagnostic method of choice and its use in planning for definitive treatment. The efficacy and long-term results of bronchial artery embolization (BAE) are evaluated, as well as indications for surgical intervention. Furthermore, the importance of a multidisciplinary approach is emphasized. The necessary interplay between intensivists, consultative services, and radiologists is described in detail and an algorithmic management strategy incorporating the above is outlined. Given the complexity in management of life-threatening hemoptysis, this paper aims to summarize the available diagnostic and therapeutic methods and provide a standardized approach for the management of patients with this often difficult to treat condition.

Use of an Extended Working Channel in High-Risk Transbronchial Biopsy: An Innovative Use of an Existing Modality to Minimize Bleeding and Hypoxia

OBJECTIVE

Bleeding is one of the main complications of transbronchial lung biopsy (TBBx) more so with conditions such as azotaemia and coagulopathy. Baseline hypoxia worsens the consequences of TBBx bleeding and can lead to escalation of care. In our experience, TBBx performed through a guide sheath (GS) using it as an extended working channel (EWC) helps minimize bleeding risk. We hypothesized that the EWC produces a tamponade effect in the close vicinity of the biopsy site, both reducing bleeding risk and restricting bleeding to a smaller segment. In this study, we assessed the impact of an additional EWC in high-risk (HR) patients undergoing TBBx, to reduce bleeding and enhance safety.

METHODS

Retrospective study between January 2014 and December 2018 looking at the risk of bleeding following TBBx performed through a GS (EWC) in patients at high risk for bleeding-related complications. Bleeding incidence and consequent hypoxic events requiring escalation of care were noted. The specimen diagnostic yield was also analyzed. SPSS statistics were used-data are reported as mean and standard deviation for continuous variables, and number and percentage for discrete variables.

RESULTS

Eight hundred four TBBxs were performed during the study period, and 105 (13.1%) procedures were done in the HR individuals using a GS as an EWC. No significant bleeding requiring escalation of care was seen with the use of EWC-GS. Histopathology revealed adequate sampling in all cases.

CONCLUSIONS

A GS as an EWC was used to reduce the bleeding risk, consequent hypoxia, and prevent escalation of care in TBBx in HR patients. Adequate tissue was obtained without any complications. Though prospective, randomized, multicenter trials using an EWC in HR-TBBx are important, they are challenging to do due to the HR population under study.

Guidelines for diagnostic flexible bronchoscopy in adults: Joint Indian Chest Society/National College of chest physicians (I)/Indian association for bronchology recommendations

Flexible bronchoscopy (FB) is commonly performed by respiratory physicians for diagnostic as well as therapeutic purposes. However, bronchoscopy practices vary widely across India and worldwide. The three major respiratory organizations of the country supported a national-level expert group that formulated a comprehensive guideline document for FB based on a detailed appraisal of available evidence. These guidelines are an attempt to provide the bronchoscopist with the most scientifically sound as well as practical approach of bronchoscopy. It involved framing appropriate questions, review and critical appraisal of the relevant literature and reaching a recommendation by the expert groups. The guidelines cover major areas in basic bronchoscopy including (but not limited to), indications for procedure, patient preparation, various sampling procedures, bronchoscopy in the ICU setting, equipment care, and training issues. The target audience is respiratory physicians working in India and well as other parts of the world. It is hoped that this document would serve as a complete reference guide for all pulmonary physicians performing or desiring to learn the technique of flexible bronchoscopy.

Management of oral antiplatelet agents and anticoagulation therapy before bronchoscopy

Although, bronchoscopy is a relatively safe procedure, small amount of bleeding in the airway can have serious consequences. Careful consideration of the risks of diagnostic and therapeutic bronchoscopic intervention can help minimize potential complications. With increasing number of patients using antiplatelet and anticoagulation therapies, strategies for minimizing thromboembolic and operative bleeding events need to be included in the risk and benefit analyses. Growing evidence suggests that aspirin is safe and does not increase bleeding during bronchoscopy. In addition, despite small studies reporting that it may be safe to perform bronchoscopic procedures that have low risk for bleeding such as endobronchial ultrasound with transbronchial needle aspiration on clopidogrel, it is still recommended to hold it for 7 days prior to performing elective bronchoscopy. It is recommended to hold vitamin K antagonist, as well as new oral anticoagulation agents prior to bronchoscopy. The timing for pre-procedural discontinuation of anticoagulation therapy and the decision to bridge depend on the agent used, the renal function and the thromboembolic risk. In this review article, we will discuss available data regarding management of anticoagulation and antiplatelet therapy as it applies to bronchoscopic procedures.

A systematic approach to the management of massive hemoptysis

Massive hemoptysis is regarded as a potentially lethal condition that requires immediate attention, and prompt action. Although minor hemoptysis is frequently encountered by most clinicians, massive hemoptysis in far less frequent and most physicians are not prepared to manage this time-sensitive clinical presentation in a systematic and timely fashion. Critical initial steps in management need to be implemented in an expedited fashion, such that patients may have a chance at a more definitive treatment. In this article, we review the definition, vascular anatomy, etiology, diagnostic evaluation, epidemiology and prognostic markers of massive hemoptysis. A systematic approach to management, stabilization and treatment options is followed. An algorithm is proposed for the management of massive hemoptysis and the importance of a multidisciplinary approach is emphasized.

Diagnostic Approach to Life-Threatening Pulmonary Infiltrates

Diagnosis of pulmonary disease is typically based upon consideration of presenting symptoms, physical examination, and pulmonary function testing in combination with classification of radiographic features, to guide diagnostic tests and initiate empiric treatment. When diagnostic efforts and/or empiric treatment fails, thoracic surgeons have traditionally been called upon to perform surgical biopsy of the lung to aid in the diagnosis of indeterminate, life-threatening pulmonary disease. Such biopsy has been requested specifically in the case of diffuse lung disease among patients receiving treatment for solid-organ or hematologic cancers, particularly when symptoms of respiratory failure progress and when noninvasive diagnostic tests and empiric treatments fail to halt progression. In such circumstances, radiologists, pulmonologists, and thoracic surgeons may be consulted and asked to provide tissue specimens that will allow rapid, accurate diagnosis leading to specific treatment. It is imperative that biopsy take place before respiratory failure supervenes [1], and that the specimens provided to clinical laboratories, pathologists, and microbiologists are comprehensive and properly preserved.

Radial Ultrasound-Assisted Transbronchial Biopsy: A New Diagnostic Approach for Non-Resolving Pulmonary Infiltrates in Neutropenic Hemato-Oncological Patients

The role of radial-endobronchial ultrasound (R-EBUS) assisted transbronchial biopsy (TBB) for the diagnosis of peripheral pulmonary lesions is well established. However, no study has addressed its safety and value in hemato-oncological patients presenting with non-resolving infiltrates during persistent febrile neutropenia. To assess safety and feasibility of R-EBUS assisted TBB in severe thrombocytopenic and neutropenic patients. Over a period of 18 months, eight patients were assessed with R-EBUS assisted TBB after adequate platelet transfusion. This technique allowed precise localisation and sampling of the pulmonary lesions in seven of eight patients. In the seven patients, R-EBUS assisted TBB enabled treatment optimization. Invasive fungal infection was diagnosed in four patients, idiopathic acute fibrinous and organising pneumonia in three patients, and a granulomatous inflammation of undetermined origin in one patient. Importantly, no complications, such as bleeding, were observed. R-EBUS assisted TBB is a promising and safe procedure for the evaluation of nonresolving pulmonary infiltrates in febrile neutropenic hemato-oncological patients.

Flexible bronchoscopy

Although bronchoscopy technology continues to evolve at a fairly rapid pace, basic procedures, such as bronchoalveolar lavage, transbronchial lung biopsy, and transbronchial needle aspiration, continue to play a paramount role in the diagnosis of bronchopulmonary diseases. Pulmonologists should be trained in these basic bronchoscopic procedures.

Blood loss during flexible bronchoscopy: a prospective observational study

BACKGROUND

Haemorrhage remains a complication of flexible bronchoscopy.

OBJECTIVES

We aimed to measure the actual blood loss in patients at low risk of bleeding and to assess its association with the underlying pulmonary pathology, superior vena cava (SVC) syndrome, procedure(s) performed and laboratory values.

METHODS

We screened all patients scheduled for flexible bronchoscopy and enrolled 234 subjects over 18 months. Subjects with a history of haemorrhagic tendency, platelets <20 × 10(3)/µl, a history of anti-coagulation or anti-platelet therapy and a history or clinical evidence of liver failure were excluded. Blood loss during the procedure was measured from aspirated secretions with a haemoglobin detector and categorised into minimal (<5 ml), mild (5-20 ml), moderate (20-100 ml) and severe bleeding (>100 ml).

RESULTS

Overall, 210 subjects had minimal, 19 had mild and 5 had moderate bleeding. No subject experienced severe blood loss. Patients with SVC syndrome had the highest mean blood loss (6.0 ml) when compared to bronchogenic carcinoma without SVC syndrome (p = 0.033) and other diagnosis (p = 0.026). The blood loss with trans-bronchial needle aspiration (TBNA, mean 3.4 ml) was significantly less than with TBNA combined with endobronchial or transbronchial biopsy (mean 5.0 ml, p < 0.001). Anaemia, a platelet count of 25-155 × 10(3)/µl and an international normalized ratio of >1.3 were not associated with an increased risk of bleeding.

CONCLUSIONS

We found no severe bleeding in this cohort preselected to have a low clinical risk of bleeding. Moreover, our data suggest that clinical screening and a platelet count ≥20 × 10(3)/µl alone may be sufficient to identify low-risk patients.

Thrombocytopenia and platelet transfusions in patients with cancer

Platelet transfusions are a critical component of the supportive care for patients receiving intensive therapy for hematologic malignancies. The platelet count "triggering" prophylactic transfusion has decreased over the years, and studies comparing a prophylactic versus a therapeutic transfusion approach are in progress. The evidence supporting the need for platelet transfusions prior to different invasive procedures is reviewed. Lastly, studies evaluating the use of thrombopoietic stimulating agents to reduce hemorrhage and decrease the need for platelet transfusions are discussed. To date, there is no evidence that this approach is of clinical utility.

[Diagnostic flexible bronchoscopy. Recommendations of the Endoscopy Working Group of the French Society of Pulmonary Medicine]

These guidelines on flexible bronchoscopy depict important clues to be known and taken into account while practicing flexible bronchoscopy, in adult, except in emergency situations. This is a practical clarification. Safety conditions, complications, anesthesia, infectious risks, cleaning and disinfection are detailed from a review of the literature. Intensive care practice of bronchoscopy requires more attention due to higher risks patients and is discussed extensively. Standards and performances of the various sampling techniques complete this work. Indications for bronchoscopy, therapeutic and paediatric bronchoscopy are not covered in these guidelines.

Safety, diagnostic yield, and therapeutic implications of flexible bronchoscopy in patients with febrile neutropenia and pulmonary infiltrates

OBJECTIVE

To evaluate the safety, diagnostic yield, and therapeutic implications of flexible bronchoscopy with bronchoalveolar lavage (BAL) and transbronchial biopsy in patients with febrile neutropenia and pulmonary infiltrates.

PATIENTS AND METHODS

We retrospectively reviewed the medical records of all patients with neutropenic fever and pulmonary infiltrates evaluated by flexible bronchoscopy and BAL between January and December 2002 at the Mayo Clinic in Rochester, Minn. Appropriate demographic, clinical, microbiological, and histological data and procedure-related complications were summarized. Therapeutic decisions implemented based on Information obtained by bronchoscopy, and 28-day mortality were determined.

RESULTS

Thirty-five patients with febrile neutropenia and associated pulmonary infiltrates were identified. Flexible bronchoscopy, including 35 BALs and 9 transbronchial biopsies, was performed safely (3 complications). The diagnostic yield of BAL was 49%. Sputum analysis was underused (only 34%) but complementary to BAL. The combined diagnostic yield of BAL and sputum analysis was 63%. Transbronchial biopsy provided additional information to BAL and sputum analysis In only 1 patient and did not substantially increase the combined diagnostic yield. The most common diagnoses identified were fungal pneumonias (15/35 [43%]) and diffuse alveolar hemorrhage (5/35 [14%]). Bronchoscopic findings resulted in management changes in 51% of patients. The 28-day mortality rate was 26% and was highest in patients who required mechanical ventilatory assistance before bronchoscopy.

CONCLUSION

The favorable safety record, good diagnostic yield, and frequent therapeutic implications support the routine use of BAL for the evaluation of pulmonary inflitrates in neutropenic patients. Bronchoalveolar lavage should be combined with the analysis of several sputum specimens. Transbronchial biopsy did only change the management of 1 patient.

Contraindications and safety of transbronchial lung biopsy via flexible bronchoscopy. A survey of pulmonologists and review of the literature

BACKGROUND

Transbronchial lung biopsy (TBLB) via flexible bronchoscopy is a common procedure performed by pulmonologists. Limited scientific data exist concerning the risk of this procedure in patients with conditions that may adversely affect the rate of procedural complications.

OBJECTIVES

To evaluate the current practice pattern and attitude of pulmonologists toward the performance of TBLB in the presence of high-risk conditions.

METHODS

A survey was constructed and distributed at the American College of Chest Physicians annual meeting, held in Philadelphia, USA, in November of 2001.

RESULTS

A total of 227 surveys were distributed with a return of 158 (69.6%). Anticoagulation medications are temporarily held prior to TBLB by the majority of our survey respondents (98.7% for intravenous heparin, 90.5% for warfarin, and 87.3% for low-molecular-weight heparin). Medications with effect on platelet function are held by fewer pulmonologists. There is a wide variation in the pulmonologists' perception of the risk of performing TBLB when certain medical conditions coexist: pulmonary hypertension [absolute contraindication (AC), 28.7%; relative contraindication (RC) 58.6%], superior vena cava syndrome (AC 19.6%, RC 51%), mechanical ventilation (AC 17.8%, RC 58.6%) and lung cavity/abscess (AC 7%, RC 44.9%). A significant percentage of pulmonologists (55%) do not regard an elevated serum creatinine at any level as AC to TBLB. Thirty-eight percent of the survey participants administer desmopressin prior to TBLB in uremic patients to prevent excessive bleeding.

CONCLUSIONS

Prior to performing bronchoscopic TBLB, the majority of pulmonologists temporarily holds anticoagulation medications. However, there is a lack of agreement in relation to perceived contraindications and safety of TBLB.

Surgical lung biopsy for diffuse pulmonary disease: experience of 196 patients

OBJECTIVE

Surgical lung biopsy is considered the final method of diagnostic modality in patients with undiagnosed diffuse pulmonary disease. Nevertheless, the effect of surgical lung biopsy on the diagnosis, treatment, and outcome of the patient still remains controversial. This study reviewed the experiences of surgical lung biopsies in 196 consecutive patients during the past 7 years.

METHODS

Surgical lung biopsy was performed after achievement of general anesthesia through video-assisted thoracoscopic surgery or a 7-cm minithoracotomy. Biopsy specimens were swabbed for aerobic and anaerobic bacterial, fungal, and mycobacterial cultures. The sections of specimens were routinely stained with hematoxylin and eosin, and acid-fast, Gomori methenamine silver, Gram stain, or other special stains were added if necessary.

RESULTS

The pathologic diagnosis after surgical lung biopsy included infection (30.6%), interstitial pneumonia or fibrosis (21.9%), diffuse alveolar damage (17.3%), neoplasm (13.3%), autoimmune diseases (8.2%), and others (8.2%). After surgical lung biopsy, 165 (84.2%) patients had changes in their therapy, 124 (63.3%) patients had clinical improvement of their conditions, and 119 (60.7%) patients survived to hospital discharge. Comparison between immunocompromised and immunocompetent patients showed that diagnosis of infection was significantly higher ( P < .01) in the former group (41.2% vs 20.2%). In addition, there was no significant difference in the distribution of diagnosis and rate of change in therapy between the respiratory failure and nonrespiratory failure groups. However, the rates of response to therapy and patient survival were significantly lower in the respiratory failure group (51.2% and 41.5%) than in the nonrespiratory failure group (71.9% and 78.1%, P < .05). There was no surgical mortality directly related to the procedure. The surgical morbidity rate was 6.6%.

CONCLUSION

Surgical lung biopsy is a safe and accurate diagnostic tool for diffuse pulmonary disease. For a large proportion of the patients, change of therapy and then clinical improvement can be achieved after surgical lung biopsy. Surgical lung biopsy should be considered earlier in patients with undiagnosed diffuse pulmonary disease, especially when the respiratory condition is deteriorating.

Standardized guidelines for surveillance bronchoscopy reduce complications in lung transplant recipients

BACKGROUND

The role of surveillance bronchoscopy in the care of lung transplant recipients remains controversial. Although there are no controlled studies to suggest a survival advantage, many transplant physicians support the practice. The procedure is generally safe but is associated with some complications. A review of practices at our institution revealed significant variation in patient preparation, management of risk related to the procedure, and in the technical aspects of the bronchoscopy itself. In an effort to minimize these differences and potentially improve outcomes, a standard set of procedural guidelines for all bronchoscopies was adopted in January 2000.

METHODS

Reports from 1028 surveillance bronchoscopies performed in our outpatient facility from January 1999 to December 2001 were reviewed. Baseline patient data and procedure-related complications were identified. Specific complications recorded included oversedation, the need for prolonged supplemental oxygen, major and minor bleeding, pneumothorax, bronchospasm, vomiting, arrhythmia, hypotension and death. Differences between groups were analyzed using chi-square or Student's t-tests as appropriate.

RESULTS

The incidence of complications after the introduction of the guidelines (2000 and 2001) was significantly lower than in the year prior (1999) (1.95% vs 6.45%, p < 0.001). The lower rate of adverse events was mainly a result of a reduction in the incidence of minor bleeding (0.28% vs 2.26% p = 0.006) and of sedation-related complications (0.97% vs 2.90%, p = 0.04).

CONCLUSIONS

The use of a standardized set of guidelines for surveillance fiber-optic bronchoscopy reduces complication rates. Similar guidelines should be considered by transplant centers performing the procedure.

Evaluation of pulmonary infiltrates in critically ill patients with cancer and marrow transplant

Pulmonary infiltrates in critically ill patients with cancer or marrow transplant can be evaluated by the differential diagnosis presented at the beginning of this article. The patient's quantitative immune system dysfunction, epidemiologic history and chest radiographic findings (pattern, rapidity, and time of onset) will help focus the differential diagnosis. In this patient population, however, common diagnoses can have atypical presentations, unusual diagnoses do occur, and more than one process may be responsible for a patient's infiltrates. Early bronchoscopy to rule out infection is the focus of diagnostic testing. Surgical lung biopsy in this patient population has a low yield.

Bronchoscopic invasive diagnostic techniques in the cancer patient

The cancer patient often presents with fever and pulmonary infiltrates, in particular during the course of chemotherapy or after bone marrow transplantation. In these conditions, specific diagnoses are mainly related to an infective cause, but noninfectious processes, malignant or not, are also found alone or in combination with infection. Identification of the pulmonary process can be achieved by bronchoscopic techniques, including bronchoalveolar lavage (BAL) and transbronchial biopsy (TBB). BAL may help identify opportunistic organisms but also bacterial pneumonia, provided quantitative cultures are performed, and TBB has been shown to increase the diagnostic yield of BAL. These two procedures should then be combined, provided there is no contraindication.

Platelet transfusion for patients with cancer: clinical practice guidelines of the American Society of Clinical Oncology

OBJECTIVE

To determine the most effective, evidence-based approach to the use of platelet transfusions in patients with cancer.

OUTCOMES

Outcomes of interest included prevention of morbidity and mortality from hemorrhage, effects on survival, quality of life, toxicity reduction, and cost-effectiveness.

EVIDENCE

A complete MedLine search was performed of the past 20 years of the medical literature. Keywords included platelet transfusion, alloimmunization, hemorrhage, threshold and thrombocytopenia. The search was broadened by articles from the bibliographies of selected articles.

VALUES

Levels of evidence and guideline grades were rated by a standard process. More weight was given to studies that tested a hypothesis directly related to one of the primary outcomes in a randomized design. BENEFITS/HARMS/COST: The possible consequences of different approaches to the use of platelet transfusion were considered in evaluating a preference for one or another technique producing similar outcomes. Cost alone was not a determining factor.

RECOMMENDATIONS

Appendix A summarizes the recommendations concerning the choice of particular platelet preparations, the use of prophylactic platelet transfusions, indications for transfusion in selected clinical situations, and the diagnosis, prevention, and management of refractoriness to platelet transfusion.

VALIDATION

Five outside reviewers, the ASCO Health Services Research Committee, and the ASCO Board reviewed this document.

SPONSOR

American Society of Clinical Oncology

Bronchoscopic diagnosis of pneumonia

Lower respiratory tract infections are characterized by significant morbidity and mortality but also by a relative inability to establish a specific etiologic agent on clinical grounds alone. With the recognized shortcomings of expectorated or aspirated secretions toward establishing an etiologic diagnosis, clinicians have increasingly used bronchoscopy to obtain diagnostic samples. A variety of specimen types may be obtained, including bronchial washes or brushes, protected specimen brushings, bronchoalveolar lavage, and transbronchial biopsies. Bronchoscopy has been applied in three primary clinical settings, including the immunocompromised host, especially human immunodeficiency virus-infected and organ transplant patients; ventilator-associated pneumonia; and severe, nonresolving community- or hospital-acquired pneumonia in nonventilated patients. In each clinical setting, and for each specimen type, specific laboratory protocols are required to provide maximal information. These protocols should provide for the use of a variety of rapid microscopic and quantitative culture techniques and the use of a variety of specific stains and selective culture to detect unusual organism groups.

Endobronchial urokinase for dissolution of massive clot following transbronchial biopsy

Endobronchial streptokinase has been used previously to dissolve blood clots caused by massive spontaneous hemoptysis, in settings including sarcoidosis, cavitary histoplasmosis, and multiple myeloma. To our knowledge, however, the use of thrombolytic agents to dissolve clots following transbronchial biopsy has not been reported previously. We describe a patient in whom endobronchial urokinase was used for successful dissolution of clots secondary to massive bleeding after transbronchial biopsy.

The diagnostic yield of bronchoscopy

The endoscopic examination of the tracheobronchial tree is most helpful in the diagnosis and staging of bronchial carcinoma. Tumors that are endoscopically visible may be confirmed in more than 95% of the cases. In localized peripheral tumors, the diagnostic yield of bronchoscopy is significantly lower; for peripheral metastases, only about 10%. In diffuse interstitial pulmonary diseases other than malignancies, some infections, and histiocytosis X, bronchoscopy including transbronchial biopsy is less successful.

Pulmonary hemorrhage in an immunocompromised, thrombocytopenic patient. How to make a difficult diagnosis

Bilateral, diffuse infiltrates visible on chest radiographs of an immunocompromised patient suggest the possibility of infection, but occasionally other interesting conditions are responsible for the clinical picture. In this article, the authors describe a case in which special procedures were necessary to make the correct diagnosis.

Transbronchial biopsy and needle aspiration

Transbronchial biopsy and transbronchial needle aspiration greatly increase the utility of bronchoscopy in the diagnosis of a variety of disease processes. Transbronchial needle aspiration has brought into focus the importance of good cytopathologic support. The addition of histologic specimens (for light and electron microscopy) with the newer large-bore needles may further increase the utility of transbronchial needle aspiration. Both techniques are limited, in part, by the lack of distal tip deflection of the sampling instrument for steering accurately to peripheral masses. Tip deflection may have been partly responsible for the good yields reported for the double-hinged curet on small nodules, although the bronchographic map was also a factor. A steerable brush was described several years ago, but it was somewhat difficult to accurately maneuver, and long-term results were never reported. As yet, no easy answer is available for this problem. In the future, new generations of ultrathin bronchoscopes may permit much more accurate placement of sampling devices in the periphery of the lung and will represent an exciting diagnostic advance.

Comparison of nonbronchoscopic bronchoalveolar lavage to open lung biopsy for the bacteriologic diagnosis of pulmonary infections in mechanically ventilated patients

We compared nonbronchoscopic bronchoalveolar lavage (NB-BAL) with open lung biopsy to determine the etiological diagnosis of lung infiltrates in patients requiring mechanical ventilation. NB-BAL was performed via a cuffed reusable 7F catheter generally used for right heart catheterization (BAL-C). In 13 patients, BAL-C and open lung biopsy were performed in the same lobe immediately after death when the ventilator was still functioning. No organism was cultured from BAL-C cultures when histopathologic examination of the lung showed no pneumonia and lung culture isolated no organism. Among the 10 positive BAL-C cultures, lung biopsy showed histologic pneumonia in 9 cases. Among these 9 pneumonia cases, 14 organisms were isolated in lung cultures and BAL-C correctly identified the causative agent in 13 cases. BAL-C appears to be an effective and safe procedure in the diagnosis of pulmonary infections in patients under mechanical ventilation who have previously received antibiotic therapy.

Transbronchial biopsy during mechanical ventilation

The value and risk of transbronchial biopsy (TBB) was assessed in 15 cases requiring mechanical ventilation for progressive pulmonary infiltrates. TBB was diagnostic in five patients, and in two additional cases a diagnosis was made from the accompanying bronchial secretions. TBB results significantly altered the therapeutic management in seven cases. The alveolar-arterial gradient P(A-a)O2, widened by a mean of 110 mm Hg in nine patients; however, this change was transient and clinically insignificant. Three instances of reversible hypercapnia (mean of 15 mm Hg) occurred. Complications included self-limited bleeding in three cases and one tension pneumothorax. No fatalities were attributable to TBB. In these hemodynamically stable patients requiring mechanical ventilation for diffuse lung disease, TBB was performed safely and provided important data.