Acessibilidade / Reportar erro

Semiquantitative assessment of surgical lung biopsy: predictive value and impact on survival of patients with diffuse pulmonary infiltrate

Avaliação semiquantitativa da biópsia pulmonar cirúrgica: valor preditivo e impacto na sobrevida de pacientes com infiltrado pulmonar difuso

Abstracts

PURPOSE: Surgical lung biopsy has been studied in distinct populations, mostly going beyond clinical issues to impinge upon routine histopathological diagnostic information in diffuse infiltrates; however, detailed tissue analyses have rarely been performed. The present study was designed to investigate the prognostic contribution provided by detailed tissue analysis in diffuse infiltrates. METHODS: Medical records and surgical lung biopsies from the period of 1982 to 2003 of 63 patients older than 18 years with diffuse infiltrates were retrospectively examined. Lung parenchyma was histologically divided into 4 anatomical compartments: interstitium, airways, vessels, and alveolar spaces. Histological changes throughout these anatomical compartments were then evaluated according to their acute or chronic evolutional character. A semiquantitative scoring system was applied to histologic findings to evaluate the intensity and extent of the pathological process. We applied logistic regression to predict the risk of death associated with acute and chronic histological changes and to estimate the odds ratios for each of the independent variables in the model. RESULTS: Impact on survival was found for male gender (P = 0.03), presence of diffuse alveolar damage (P = 0.001), and chronic histological changes (P = 0.0004) on biopsy. Thus, being male was associated with a slightly lower risk (O.R. = 0.18; P=0.03) of dying than being female. Death risk was increased 17 times in the presence of acute histological changes such as diffuse alveolar damage and 2.5 times in the presence of chronic histological changes. CONCLUSION: Detailed analysis of histological specimens can provide more than a nosological diagnosis: this approach can provide valuable information concerning prognosis.

Surgical lung biopsy; Diffuse pulmonary infiltrate; Histopathological score; Diffuse alveolar damage; Prognosis


PROPOSIÇÃO: A biópsia pulmonar cirúrgica tem sido estudada em populações distintas, geralmente abordando aspectos histopatológicos puramente diagnósticos em infiltrados pulmonares difusos, além de dados clínicos. Contudo, análises teciduais detalhadas em tais casos têm sido pouco exploradas. O presente estudo foi delineado com o intuito de se investigar a contribuição prognóstica fornecida pela análise histológica detalhada em infiltrados difusos. MÉTODOS: Foram examinados retrospectivamente os prontuários e biópsias pulmonares cirúrgicas de 63 pacientes maiores de 18 anos, com infiltrados difusos, de 1982 a 2003. O parênquima pulmonar foi dividido em 4 compartimentos histológicos: interstício, vias aéreas, vasos e espaços alveolares. Alterações histológicas de cada compartimento histológico foram então avaliadas de acordo com seu caráter evolutivo agudo ou crônico. Um escore semiquantitativo foi aplicado a achados histopatológicos com o intuito de se avaliar a intensidade e a extensão do processo patológico. Aplicamos regressão logística para predizer o risco de morte para alterações histológicas agudas e crônicas e para estimar a razão de probabilidades para cada uma das variáveis independentes do modelo. RESULTADOS: O impacto sobre a sobrevida foi observado para o gênero masculino (p=0.03), para a presença de dano alveolar difuso (p=0.001) e para alterações histológicas crônicas (p=0.0004) em biópsias. Assim, homens apresentariam menor chance (O.R. = 0.18; P=0.03) de morrer do que mulheres. O risco de morte foi 17 vezes maior na presença de alterações histológicas agudas como dano alveolar difuso e 2,5 vezes na presença de alterações histológicas crônicas. CONCLUSÃO: A análise detalhada de espécimes histológicos pode proporcionar maiores e mais valiosas informações de valor prognóstico do que o simples diagnóstico nosológico.

Biópsia pulmonar cirúrgica; Infiltrado pulmonar difuso; Escore histopatológico; Dano alveolar difuso; Prognóstico


CLINICAL SCIENCES

Semiquantitative assessment of surgical lung biopsy: predictive value and impact on survival of patients with diffuse pulmonary infiltrate

Avaliação semiquantitativa da biópsia pulmonar cirúrgica: valor preditivo e impacto na sobrevida de pacientes com infiltrado pulmonar difuso

Mauro CanzianI; Alexandre de Matos SoeiroII; Marcel Frederico de Lima TagaIII; Cecília FarhatI; Carmen Silvia Valente BarbasI; Vera Luiza CapelozziII

IDivisions of Respiratory Diseases and Pathology, Heart Institute (InCor), São Paulo University Medical School - São Paulo/SP, Brazil

IIDepartment of Pathology, São Paulo University Medical School - São Paulo/SP, Brazil

IIIDivision of Biostatistics, Federal University of São Paulo (Unifesp) - São Paulo/SP, Brazil. Email: vcapelozzi@lim05.fm.usp.br

ABSTRACT

PURPOSE: Surgical lung biopsy has been studied in distinct populations, mostly going beyond clinical issues to impinge upon routine histopathological diagnostic information in diffuse infiltrates; however, detailed tissue analyses have rarely been performed. The present study was designed to investigate the prognostic contribution provided by detailed tissue analysis in diffuse infiltrates.

METHODS: Medical records and surgical lung biopsies from the period of 1982 to 2003 of 63 patients older than 18 years with diffuse infiltrates were retrospectively examined. Lung parenchyma was histologically divided into 4 anatomical compartments: interstitium, airways, vessels, and alveolar spaces. Histological changes throughout these anatomical compartments were then evaluated according to their acute or chronic evolutional character. A semiquantitative scoring system was applied to histologic findings to evaluate the intensity and extent of the pathological process. We applied logistic regression to predict the risk of death associated with acute and chronic histological changes and to estimate the odds ratios for each of the independent variables in the model.

RESULTS: Impact on survival was found for male gender (P = 0.03), presence of diffuse alveolar damage (P = 0.001), and chronic histological changes (P = 0.0004) on biopsy. Thus, being male was associated with a slightly lower risk (O.R. = 0.18; P=0.03) of dying than being female. Death risk was increased 17 times in the presence of acute histological changes such as diffuse alveolar damage and 2.5 times in the presence of chronic histological changes.

CONCLUSION: Detailed analysis of histological specimens can provide more than a nosological diagnosis: this approach can provide valuable information concerning prognosis.

Keywords: Surgical lung biopsy. Diffuse pulmonary infiltrate. Histopathological score. Diffuse alveolar damage. Prognosis.

RESUMO

PROPOSIÇÃO: A biópsia pulmonar cirúrgica tem sido estudada em populações distintas, geralmente abordando aspectos histopatológicos puramente diagnósticos em infiltrados pulmonares difusos, além de dados clínicos. Contudo, análises teciduais detalhadas em tais casos têm sido pouco exploradas. O presente estudo foi delineado com o intuito de se investigar a contribuição prognóstica fornecida pela análise histológica detalhada em infiltrados difusos.

MÉTODOS: Foram examinados retrospectivamente os prontuários e biópsias pulmonares cirúrgicas de 63 pacientes maiores de 18 anos, com infiltrados difusos, de 1982 a 2003. O parênquima pulmonar foi dividido em 4 compartimentos histológicos: interstício, vias aéreas, vasos e espaços alveolares. Alterações histológicas de cada compartimento histológico foram então avaliadas de acordo com seu caráter evolutivo agudo ou crônico. Um escore semiquantitativo foi aplicado a achados histopatológicos com o intuito de se avaliar a intensidade e a extensão do processo patológico. Aplicamos regressão logística para predizer o risco de morte para alterações histológicas agudas e crônicas e para estimar a razão de probabilidades para cada uma das variáveis independentes do modelo.

RESULTADOS: O impacto sobre a sobrevida foi observado para o gênero masculino (p=0.03), para a presença de dano alveolar difuso (p=0.001) e para alterações histológicas crônicas (p=0.0004) em biópsias. Assim, homens apresentariam menor chance (O.R. = 0.18; P=0.03) de morrer do que mulheres. O risco de morte foi 17 vezes maior na presença de alterações histológicas agudas como dano alveolar difuso e 2,5 vezes na presença de alterações histológicas crônicas.

CONCLUSÃO: A análise detalhada de espécimes histológicos pode proporcionar maiores e mais valiosas informações de valor prognóstico do que o simples diagnóstico nosológico.

Unitermos: Biópsia pulmonar cirúrgica. Infiltrado pulmonar difuso. Escore histopatológico. Dano alveolar difuso. Prognóstico.

INTRODUCTION

Diffuse pulmonary disease of uncertain etiology represents a diagnostic and therapeutic challenge in the general population. Most of the causes of pulmonary infiltrates can be diagnosed by noninvasive or minimally invasive means, such as transbronchial or transthoracic needle biopsies. However, when these efforts fail to provide a diagnosis or when a patient does not respond to appropriate therapy, a surgical lung biopsy may be required to assist in treatment efforts. This biopsy produces a histologic diagnosis in almost every case, but considerable controversy exists regarding whether the information provided justifies its routine use. Thus, similarly to the approach used from previously reported tumor recurrence studies1–5 and aiming for the effectiveness of treatment, there is great interest in identifying, as soon as possible, morphological parameters of surgical lung biopsies associated with the shortening of the patient's life.

Because semiquantitative approaches have been thought to be important in evaluating the intensity and extent of pathologic processes,6–9 a scoring system has been considered to be potentially useful with surgical lung biopsies specimen markers.10,11 Several parenchymal alterations related to necrosis, degeneration, hyperplasia, neoplasia, inflammation/remodeling (fibrin and hyaline membranes deposition, polymorphonuclear and mononuclear cell infiltration, granulation tissue, granuloma, fibrocellular proliferation), and circulatory changes (edema, hemorrhage, congestion, thrombosis) have shown promise as useful markers.

Scoring systems have also been found to be significantly associated with survival,8,12 but there has been uncertainty about how best to design a scoring system. Hence, this project was undertaken to validate the importance of a scoring system and to explore the semiquantitative relationship between score and outcome; we also explored the relationship between the result of a scoring system and other epidemiological factors.

METHODS

Patient selection

We examined the medical records of all patients who underwent surgical lung biopsy at our institution from 1982 to 2003 for age, sex, total hospitalization time, days from admission to the biopsy procedure, outcome, main clinical diagnosis, underlying disease, respiratory failure proven through clinical and or gasometric data (respiratory rate over 28 breaths per minute and/or PaO2 < 60 mm Hg and/or SpO2 < 90%, while breathing room air). From this group were selected those patients older than 18 years showing diffuse infiltrates on chest roentgenogram and whose hospitalization was not exclusively motivated by the biopsy procedure.

Over the period examined, 1657 surgical lung biopsies were performed at our institution; 63 patients (3.8%) met our study criteria. Thirty-two patients (51%) were men and 31 (49%) were women, with a mean age of 49 years (range, 18 to 92 years). Arterial blood samples for gas analysis taken during inspiration of room air in the 24 hours preceding SLB were obtained for 51 patients (81%), and 41 of them showed signs of acute respiratory failure. Table 1 lists the preexisting medical conditions in the study population. Thirty-three patients (52%) were immunocompromised, and 48 (76%) had at least 1 underlying disease. The mean time from admission to SLB was 18 days (range, 0 to 61). The mean interval from SLB to hospital discharge or death was 18 days (range, 1 to 143), and the mean total hospitalization time was 39 days (range, 4 to 184). The overall death rate was 49%, and death rate for immunocompromised patients and for patients presenting respiratory failure or underlying diseases was 61%. Death occurred in 69% of patients presenting diffuse alveolar damage. Other details about the patients are summarized in Table 1.

Pathology review of surgical lung biopsy specimens

Samples were uniform and obtained generally in 2 different compromised regions; the entire sample was submitted to histological examination, generally on 2 different slides. The specimens were fixed in 10% phosphate-buffered formaldehyde solution and embedded in paraffin. Serial sections were cut (5 mm), deparaffinized, and processed according to routine tissue processing. Staining with hematoxylin and eosin was done for histological examination in all cases. In cases exhibiting proteinaceous intra-alveolar exudates, granulomas, or microabscesses, the following stains were used: silver stains and PAS for Pneumocystis and fungi, Ziehl-Neelsen for mycobacterium, and Gram stains for bacteria, respectively.

The biopsies were considered representative when the histological sections comprised at least 1 bronchovascular axis in continuity with septal interstitium, alveolar spaces, and peripheral interstitium. The lung parenchyma was then histologically divided into 4 anatomical compartments of reference: a) interstitium (septal, peripheral, and axial); b) airways (terminal and respiratory bronchioles); c) vessels (arteries, veins, and lymphatics); and d) alveolar spaces (including alveolar ducts) (Figure 1).


Histological changes throughout the 4 anatomical compartments were then evaluated for temporal evolution into 2 groups as follows: 1) acute (necrosis, degeneration, edema, hemorrhage, congestion, thrombosis, fibrin deposition, hyaline membranes, and polymorphonuclear cells), and 2) chronic (hyperplasia, neoplasia, mononuclear cells, granulation tissue, granuloma, and fibrocellular proliferation) (Figures 2A to 2I and 3A to 3F).



Semiquantitative assessment of histological compartments and histological changes

The severity of the acute and chronic histological changes in terms of the extent, intensity, and distribution were heterogeneous along the anatomic compartments. Therefore, the severity of these various acute and chronic histological changes was rated semiquantitatively according to the amount and severity of disease by the following histological score:

0: absence of histological changes;

1: parenchymal alterations in 1 to 25% of the tissue examined;

2: parenchymal alterations in 26 to 50% of the tissue examined;

3: parenchymal alterations in 51 to 75% of the tissue examined;

4: parenchymal alterations in 76% to 100% of the tissue examined.

The sum of the scores for acute and chronic changes, respectively, represented continuous variables that we designated as acute and chronic indices.

Statistical Analysis

Logistic regression analysis was used to attain the best separation of survivors and nonsurvivors, discriminating between the two categories of patients according to clinical and histological variables. Evaluation of the predictive ability was determined by the percentage of patients correctly placed into the proper categories by the classification rules developed. In logistic regression, the probability of an event occurring is directly estimated. For more than 1 dependent variable, the model can be written:

Prob (event) = ez / 1 + ez

where Z is the linear combination of b0 (constant) and b1 to b7, the estimated coefficients of the independent variables (X1 to X7), and e is the base of the natural logarithms, (2.718, approximately), as shown below:

Z = b0 + b1X1 + b2 X2b7 X7

We considered results with P values less than 5% to be statistically significant. All analysis was done with SPSS for Windows 10.0 statistical software.

RESULTS

The total mean score for acute histological changes was 2.11 (range, 0.02 to 0.56), and for chronic histological changes it was 4.09 (range, 0.14 to 0.76) (Table 2). The acute or chronic compromise of axial interstitium and airways characterized respectively acute and chronic bronchiolitis (Figure 4A). Similarly, the acute or chronic compromise of septal and peripheral interstitium, alveolar spaces, and vessels comprised the histologic pattern of chronic interstitial pneumonia (Figure 4B), diffuse alveolar damage (Figure 4C), and vasculitis (Figure 4D), respectively (Table 2). Table 3 shows the predictive ability for survival of the clinical and histological variables evaluated using the logistic regression model. Statistically significant impact on survival was found for male gender (P = 0.03), diffuse alveolar damage (P = 0.001), and chronic histological changes (P = 0.0004). Thus, being male was associated with a lower risk (O.R. = 0.18; P=0.03) of dying than being female. Presence of acute histological changes, such as diffuse alveolar damage at biopsy, increased the risk of death 17.5 times, whereas the presence of chronic histological changes increased risk of death related 2.5 times. Although not statistically significant, patients with immunosuppression, arterial hypertension, and chronic cardiac failure presented an apparently greater risk of death. When this model was evaluated on the original data used for its development, 26 of 32 (81.3%) patients were correctly classified as nonsurvivors, and 25 of 31 (80.7%) patients as survivors. Overall, 81% of the cases were correctly classified.



DISCUSSION

Diffuse infiltrates are usually a diagnostic challenge; they are also the most severe pulmonary nosologic pattern when compared to focal and nodular ones.13 At the timing of writing, the role of surgical lung biopsies in the management of diffuse pulmonary infiltrates remains obscure. Although such biopsies reveal some clinical homogeneity, diffuse pulmonary infiltrates can originate from different etiologies such as infectious pneumonias, organizing pneumonia, acute eosinophilic pneumonia, and pulmonary capillaritis, which thus require different treatment strategies.14

Several studies have been published concerning different aspects of surgical lung biopsies in distinct populations with diffuse infiltrates.15,16 Clinical implications of these biopsies have been greatly exploited, mostly concerning their contribution to the determination of prognosis through therapeutic changes, but also because such surgical biopsied can be carried out with relatively low morbidity and frequently promote changes in treatment.17–20

Clearly, most of the studies concerning surgical lung biopsies take into account only diagnostic information provided by routine histological analysis, usually regarded as the gold standard for clinical hypotheses in diffuse infiltrates,21 in addition to clinical data. Histopathological data from surgical lung biopsies have rarely been exploited in detail.22 The likely reason why such biopsies frequently fail to provide information in routine use is that histopathological details have not so far been adequately correlated with either routine clinical or pathological analyses. Frequently, clinical or radiological findings reflect such minimal tissue changes that they can be result in misdiagnosis. The question of interest is whether additional, more technologically enhanced information gathered from surgical lung biopsies or from clinical records can help us to better predict a patient's outcome. Lung pathology undoubtedly comprises a series of complex stereotyped reactions, which make differential diagnosis using only qualitative approaches difficult. However, semiquantitative assessment is thought to be useful because it facilitates the creation of mathematical models to predict outcome. In a variety of conditions, especially diffuse pulmonary parenchymal diseases, a scoring system for quantitative assessment has been associated with guidance or evaluation of therapy response and prognosis.6–8 Thus, for all these reasons, we should not be surprised to learn that detailed pulmonary analysis of the different histological compartments, where alterations are classified in accordance with their acute or chronic character and semiquantified through a system of scores, can provide a significant prognostic contribution.

In addition to presenting a scoring system, our purpose included the correlation of histopathological findings of data concerning survival and epidemiological parameters. Descriptive analyses helped in selecting useful information for which statistical significance was verified through multiple logistic regression.

Most of our diagnoses included airway diseases in the same proportion as interstitial lung diseases; other studies found a higher percentage of idiopathic pulmonary fibrosis.13,16,23–25

We found a negative influence of diffuse alveolar damage and respiratory failure, mainly for men and with underlying disease (P > 0.05). It is widely known that the presence of underlying disease has a deleterious influence on the outcome of a pneumopathy and that diffuse alveolar damage is related to critical clinical pictures. Nevertheless, our study provided important quantitative information concerning these parameters, showing a 17 fold increase in risk of death in the presence of diffuse alveolar damage. Perhaps, according to the objective of this study, the most important evidence was the association of the chronic histological changes with survival. In fact, a direct association was found between low risk of dying and higher values of chronic histological changes. Our results confirm the prognostic importance of histopathological evaluation of surgical lung biopsies. This is possibly the first study concerning such biopsies with emphasis on detailed histological findings. Although further studies are required, our results suggest that quantitative assessment accomplished through a scoring system provides more prognostic information than does the routine clinical and pathological approach.

In conclusion, the detailed histological analysis of surgical lung biopsy specimens can provide more than nosological diagnosis; this approach can bring valuable information concerning prognosis. Additional study in a randomized and prospective trial could confirm this conclusion. We also believe that it is important to validate our semiquantitative assessment using a scoring system, as well as to extend it to other histological types of diffuse pulmonary disease, by studying the scoring system in additional patients.

Received for publication on May 30, 2006.

Accepted for publication on October 19, 2006.

  • 1. Lipford EH 3rd, Eggleston JC, Lillemoe KD, Sears DL, Moore GW, Baker RR. Prognostic factors in surgically resected limited-stage, nonsmall cell carcinoma of the lung. Am J Surg Pathol. 1984;8:357-65.
  • 2. Elson CE, Roggli VL, Vollmer RT, Greenberg SD, Fraire AE, Spjut HJ, et al. Prognostic indicators for survival in stage I carcinoma of the lung: a histologic study of 47 surgically resected cases. Mod Pathol. 1988;1:288-91.
  • 3. Lee TK, Horner RD, Silverman JF, Chen YH, Jenny C, Scarantino CW. Morphometric and morphologic evaluations in stage III non-small cell lung cancers. Prognostic significance of quantitative assessment of infiltrating lymphoid cells. Cancer. 1989;63:309-16.
  • 4. Kodama T, Nishiyama H, Nishiwaki Y. Histology and prognosis in lung cancer treatment. Nihon Kyobu Shikkan Gakkai Zasshi. 1990; 28:216-24.
  • 5. Shahab I, Fraire AE, Greenberg SD, Johnson EH, Langston C, Roggli VL. Morphometric quantitation of tumor necrosis in stage 1 non-small cell carcinoma of lung: prognostic implications. Mod Pathol. 1992;5:521-4.
  • 6. Cherniack RM, Colby TV, Flint A, Thurlbeck WM, Waldron J, Ackerson L, et al. Quantitative assessment of lung pathology in idiopathic pulmonary fibrosis. The BAL Cooperative Group Steering Committee. Am Rev Respir Dis. 1991;144:892-900.
  • 7. Hyde DM, King TE Jr, McDermott T, Waldron JA Jr, Colby TV, Thurlbeck WM, et al. Idiopathic pulmonary fibrosis. Quantitative assessment of lung pathology. Comparison of a semiquantitative and a morphometric histopathologic scoring system. Am Rev Respir Dis. 1992;146:1042-7.
  • 8. King TE Jr, Tooze JA, Schwarz MI, Brown KR, Cherniack RM. Predicting survival in idiopathic pulmonary fibrosis: scoring system and survival model. Am J Respir Crit Care Med. 2001;164:1171-81.
  • 9. Gutierrez EB, Zanetta DM, Saldiva PH, Capelozzi VL. Autopsy-proven determinants of death in HIV-infected patients treated for pulmonary tuberculosis in Sao Paulo, Brazil. Path Res Pract. 2002;198:339-46.
  • 10. Watters LC, King TE, Schwarz MI, Waldron JA, Stanford RE, Cherniack RM. A clinical, radiographic, and physiologic scoring system for the longitudinal assessment of patients with idiopathic pulmonary fibrosis. Am Rev Respir Dis. 1986;133:97-103.
  • 11. Gay SE, Kazerooni EA, Toews GB Lynch JP 3rd, Gross BH, Cascade PN, et al. Idiopathic pulmonary fibrosis: predicting response to therapy and survival. Am J Respir Crit Care Med. 1998;157(4 Pt 1):1063-72.
  • 12. King TE Jr, Schwarz MI, Brown K Tooze JA, Colby TV, Waldron JA Jr, et al. Idiopathic pulmonary fibrosis: relationship between histopathologic features and mortality. Am J Respir Crit Care Med. 2001;164:1025-32.
  • 13. Bove P, Ranger W, Pursel S, Glover J, Bove K, Bendick P. Evaluation of outcome following surgical lung biopsy. Am Surg. 1994;60:564-70.
  • 14. Patel SR, Karmpaliotis D, Ayas NT, Mark EJ, Wain J, Thompson BT, et al. The role of surgical-lung biopsy in ARDS. Chest. 2004,125:197-202.
  • 15. Potter D, Pass HI, Brower S, Macher A, Browne M, Thaler M et al. Prospective randomized study of surgical lung biopsy versus empirical antibiotic therapy for acute pneumonitis in nonneutropenic cancer patients. Ann Thorac Surg. 1985;40:422-8.
  • 16. Blewett CJ, Bennett WF, Miller JD, Urschel JD. Open lung biopsy as an outpatient procedure. Ann Thorac Surg. 2001;71:1113-5.
  • 17. Rossiter SJ, Miller C, Churg AM, Carrington CB, Mark JB. Open lung biopsy in the immunosuppressed patient. Is it really beneficial? J Thorac Cardiovasc Surg. 1979;77:338-45.
  • 18. Walker WA, Cole FH Jr, Khandekar A, Mahfood SS, Watson DC. Does open lung biopsy affect treatment in patients with diffuse pulmonary infiltrates? J Thorac Cardiovasc Surg. 1989;97:534-40.
  • 19. Canver CC, Mentzer RM Jr. The role of open lung biopsy in early and late survival of ventilator-dependent patients with diffuse idiopathic lung disease. J Cardiovasc Surg (Torino). 1994;35:151-5.
  • 20. Kramer MR, Berkman N, Mintz B, Godfrey S, Saute M, Amir G, et al. The role of open lung biopsy in the management and outcome of patients with diffuse lung disease. Ann Thorac Surg. 1998;65:198-202.
  • 21. Flabouris A, Myburgh J. The utility of open lung biopsy in patients requiring mechanical ventilation. Chest. 1999;115:811-7.
  • 22. Papazian L, Thomas P, Bregeon F, Garbe L, Zandotti C, Saux P, et al. Open-lung biopsy in patients with acute respiratory distress syndrome. Anesthesiology. 1998;88:935-44.
  • 23. Gaensler EA, Carrington CB. Open biopsy for chronic diffuse infiltrative lung disease: clinical, roentgenographic, and physiological correlations in 502 patients. Ann Thorac Surg. 1980;30:411-26.
  • 24. Venn GE, Kay PH, Midwood CJ, Goldstraw P. Open lung biopsy in patients with diffuse pulmonary shadowing. Thorax. 1985;40:931-5.
  • 25. Shah SS, Tsang V, Goldstraw P. Open lung biopsy: a safe, reliable and accurate method for diagnosis in diffuse lung disease. Respiration. 1992;59:243-6.

Publication Dates

  • Publication in this collection
    28 Feb 2007
  • Date of issue
    Feb 2007

History

  • Accepted
    19 Oct 2006
  • Received
    30 May 2006
Faculdade de Medicina / USP Rua Dr Ovídio Pires de Campos, 225 - 6 and., 05403-010 São Paulo SP - Brazil, Tel.: (55 11) 2661-6235 - São Paulo - SP - Brazil
E-mail: clinics@hc.fm.usp.br