Percutaneous core cutting needle biopsy compared with fine-needle aspiration in the diagnosis of peripheral lung malignant lesions: results in 156 patients

Special Considerations and Techniques of Interventions in Lung Transplant Recipients

Lung transplant remains an important treatment option for patients with end-stage lung diseases providing improvement in survival rates and quality of life. Specialized considerations should be applied with interventions of lung transplant recipients as they host specific anatomic variations and high risk towards certain complications. In this article, we highlight the role of interventional radiology for lung transplant recipients along with discussion of interventional techniques. Specific emphasis is placed on describing and explaining the techniques pertained to the points of anastomosis, diagnosis and treatment of malignancies, and management of complications in lung transplant recipients.

CT-guided transthoracic needle biopsy of pulmonary lesions: comparison between the cutting needle and aspiration needle

OBJECTIVES

To compare CT-guided transthoracic cutting needle biopsy (TCNB) with transthoracic aspiration needle biopsy (TANB) for pulmonary lesions with respect to the diagnostic accuracy and complication rate.

METHODS

Of the 859 cases that underwent consecutive CT-guided biopsy of pulmonary lesions, 713 cases confirmed by surgical pathology or clinical follow-up were enrolled. Of these, the first consecutive 275 cases underwent TANB, and the remaining 438 received TCNB. The final diagnosis determined the accuracy of biopsy. Based on the post-biopsy CT and clinical medical records, the presence or absence of biopsy-related complications was determined. The χ² test was used to compare the differences between TCNB and TANB in terms of diagnostic accuracy and complication rate.

RESULTS

Among the 713 biopsy lesions, the final diagnosis was malignant in 411 cases and benign in 302 cases. As compared to TANB, the diagnostic accuracy of TCNB (98.9% vs 93.8%, χ² = 14.35, p < 0.01), sensitivity to malignant lesions (97.8% vs 90.6%, χ² = 10.58, p < 0.01), negative predictive value (97.6% vs 84.8%, χ² = 19.03, p < 0.01), and specific diagnostic rate for benign lesions (73.4% vs 57.9%, χ² = 7.29, p < 0.01) were improved. On the other hand, a statistical difference was detected between TCNB and TANB with respect to the incidence of pneumothorax (20.6% vs 13.1%, χ² = 6.46, p = 0.01), hemorrhage (32.2% vs 13.1%, χ² = 33.03, p < 0.01), and hemoptysis (8.2% vs 3.3%, χ² = 6.87, p < 0.01). One patient died just several minutes after TCNB due to severe hemorrhage with hemoptysis.

CONCLUSIONS

Compared to TANB, CT-guided TCNB improves the diagnostic accuracy of pulmonary lesions, but complication rate increases significantly.

ADVANCES IN KNOWLEDGE

In general, TCNB should be recommended, especially for highly suspicious benign lesions. For patients with small lesions adjacent to vessels or vessels within the lesion, TANB should be considered.

CT-guided fine-needle aspiration biopsy of solitary pulmonary nodules under 15 mm in diameter: time for an afterthought?

Background

Many studies on fine-needle aspiration biopsy (FNAB) for undetermined pulmonary nodules reported that diagnostic accuracy tended to decline, whereas complication prevalence raised as the size of nodule decreased. Reconsideration on the effectiveness of FNAB would be appropriate considering the dramatic increase in the identification of small nodules with screening programs and new demands of target therapies. The aim of this study was to verify the efficacy of FNAB in pulmonary nodules smaller than 15 mm.

Methods

A retrospective, cohort study was conducted on patients with undetermined solitary pulmonary nodules (SPNs) who underwent computer tomography (CT) guided FNAB at our Institution from January 2012 to December 2014. Patients with SPNs with diameter up to 15 mm were considered; inclusion criteria comprised ASA 3, FEV1 <70% of predicted, cardiac comorbidity or previous chest surgery. FNAB diagnostic performance and clinical efficacy were calculated.

Results

Out of 225 patients referred for FNAB, 68 covered inclusion criteria. Forty-nine out of 68 smears (72%) were adequate for diagnosis. Specificity was 100% (95% CI: 77-100%), sensitivity was 100% (95% CI: 90-100%). Positive and negative predictive values were 1.0 (95% CI: 0.9-1.0) and 1.0 (95% CI: 0.77-1.0) respectively. A post-biopsy pneumothorax was detected in 27 cases (39%); the pneumothorax rate was significantly affected by the number of passages (P=0.01).

Conclusions

The satisfactory results of our study lead to reconsidering FNAB in patients with pulmonary nodules below 15 mm in diameter, especially in order to avoid unnecessary surgery.

Diagnostic accuracy and complications of CT-guided core needle lung biopsy of solid and part-solid lesions

OBJECTIVE

To evaluate whether diagnostic accuracy and complications of CT-guided core needle biopsy (CNB) differ for solid and part-solid lung lesions Methods: This retrospective study included 354 consecutive patients from April 2012 to July 2016 who underwent CT-guided CNB of lung lesions by a radiologist. Patient demographics, lung lesions' characteristics; solid or part-solid, underlying pulmonary disease, distance of path, procedure time, complications (hemorrhage or pneumothorax), histopathological results of biopsy specimens and final diagnosis were reviewed. The diagnostic yields, biopsy-related factors and complications were compared for patients with solid lesions and patients with part-solid lesions. Factors related to true diagnoses and complications were analyzed statistically.

RESULTS

The biopsies of part-solid lesions take more time (p = 0.021). Non-diagnostic biopsies were not statistically different between solid and part-solid lesions (p = 0.804). There was no significant difference in the diagnostic yields including sensitivity, specificity, accuracy, positive predictive value and negative predictive value for solid and part-solid lesions statistically. The occurrence of hemorrhage on postbiopy follow-up CT was significantly higher (p = 0.016) for part-solid lesions. The occurrence of symptomatic major hemorrhage (p = 0.859) and pneumothorax (p = 0.106) was not significantly different between solid and part-solid lesions.

CONCLUSION

The diagnostic accuracy of CT-guided CNB for diagnosing malignancy was comparable for solid and part-solid lesions. The frequency of hemorrhage on the follow up CT was higher in patients with part-solid lesions, but there were no significant differences in major hemorrhage and pneumothorax for solid and part-solid lesions. Advances in knowledge: The diagnostic yield of CT-guided CNB for diagnosing malignancy is comparable for solid and part-solid lesions. Although the post procedural hemorrhage occurs more frequently in part-solid lesions, the occurrence of symptomatic major hemorrhage is not significantly different. Therefore, CT-guided CNB should be considered for histopathological confirmation of intrapulmonary lesions regardless of the presence of ground-glass opacity portion.

Practice Pattern of Transthoracic Needle Biopsy: 2016 Survey in the Members of Korean Society of Thoracic Radiology

Objective

To assess the current practice patterns of radiologists who perform transthoracic needle biopsy (TNB).

Materials and Methods

An email survey of 71 questions on TNB was sent to 240 members of the Korean Society of Thoracic Radiology. The answers to multiple-choice questions (n = 56) were analyzed.

Results

Of 60 respondents, 45% had 10 or more years of experience in chest radiology, and 70% had 5 or more years of experience in TNB. For the question on the most frequently used diagnostic method for lesions with high probability of being resectable-stage lung cancer, 70% of respondents answered that TNB is initially used, with or without bronchoscopy. In patients at high-risk of TNB-related complications, the proportion of the respondents who consistently declined TNB was only 5%. The number of rebiopsies was said to be increased; molecular analysis for an established target therapy (43.6%) and clinical trial of a new drug (28.2%) were the two most common reasons for it. The most popular needle type was the coaxial cutting needle (55%), and the popular guiding modality was conventional computed tomography (CT) (56.7%). In addition, 15% of respondents have encountered air embolism.

Conclusion

Despite high variation in how TNB is being performed in Korea, some patterns were noted. It is common for patients with resectable-stage lung cancer to undergo TNB prior to surgery. Rebiopsy is now more common than before, with personalized medicine as the most important reason for it. The most popular type of needle is the coaxial system; the most popular modality for guidance is still CT.

Diagnostic Accuracy of Fine Needle Aspiration Cytology versus Concurrent Core Needle Biopsy in Evaluation of Intrathoracic Lesions: a Retrospective Comparative Study

BACKGROUND

Transthoracic fine needle aspiration (FNA) cytology and core needle biopsy (CNB) are two commonly used approaches for the diagnosis of suspected neoplastic intrathoracic lesions. This study compared the diagnostic accuracy of FNA cytology and concurrent CNB in the evaluation of intrathoracic lesions.

MATERIALS AND METHODS

We studied FNA cytology and concurrent CNB specimens of 127 patients retrospectively, using hematoxylin and eosin (H and E), immunohistochemistry, and, on certain occasions cytochemistry. Information regarding additional tissue tests was derived from the electronic archives of the Department of Pathology and Laboratory Medicine as well as patient records. Diagnostic accuracy was calculated for each test.

RESULTS

Of 127 cases, 22 were inconclusive and excluded from the study. The remaining 105 were categorized into 73 (69.5%) malignant lesions and 32 (30.5%) benign lesions. FNA and CNB findings were in complete agreement in 63 cases (60%). The accuracy and confidence intervals (CIs) of FNA and CNB for malignant tumors were 86.3% (CI: 79.3-90.7) and 93.2% (CI: 87.3- 96.0 ) respectively. For epithelial malignant neoplasms, a definitive diagnosis was made in 44.8% of cases by FNA and 80.6% by CNB. The diagnostic accuracy of CNB for nonepithelial malignant neoplasms was 83.3% compared with 50% for FNA. Of the 32 benign cases, we made specific diagnoses in 16 with diagnostic accuracy of 81.3% and 6.3% for CNB and FNA, respectively.

CONCLUSIONS

Our findings suggest that FNA is comparable to CNB in the diagnosis of malignant epithelial lesions whereas diagnostic accuracy of CNB for nonepithlial malignant neoplasms is superior to that for FNA. Further, for histological typing of tumors and examining tumor origin, immunohistochemical work up plays an important role.

Percutaneous transthoracic needle biopsy: special considerations and techniques used in lung transplant recipients

Lung transplant recipients are among the patients most likely eventually to undergo diagnostic lung biopsy. Unfortunately, these patients are at particularly high risk for experiencing intra- and periprocedural complications. Percutaneous transthoracic needle biopsy (TNB) has over time emerged as an increasingly safe and reliable method of obtaining lung tissue for diagnosis. This article gives an overview of TNB including its indications, the imaging modalities currently used for guidance, and the special techniques utilized in performing the procedure and minimizing complications with an emphasis placed upon the special case of TNB performed in lung transplant recipients.

Diagnostic performance of percutaneous core needle lung biopsy under multi-CT fluoroscopic guidance for ground-glass opacity pulmonary lesions

OBJECTIVE

The diagnostic performance of percutaneous core needle lung biopsy under multi-CT fluoroscopic guidance for ground-glass opacity (GGO) pulmonary lesions was evaluated.

MATERIALS AND METHODS

Out of 90 patients who underwent CT fluoroscopy-guided core needle biopsy of GGO lesions at our institution, the biopsy results and the final diagnoses were retrospectively compared in 67 patients with available data (one lesion per patient). Diagnostic performance was also compared according to the lesion size (≤ 10 mm (n=8) versus 11-20mm (n=42) versus >20mm (n=17)), the percentage of GGO component (50-90% (n=31) versus >90% (n=36)), and the length of needle path (≤ 7 cm (n=45) versus > 7 cm (n=22)). Finally, all 90 cases were reviewed for complications.

RESULTS

The overall sensitivity, specificity, and accuracy were 97%, 100%, and 97%, respectively. The diagnostic sensitivity and accuracy tended to be lower in smaller lesions (≤ 10 mm; 86 and 88%, 11-20mm; 97 and 98%, >20mm; 100 and 100%, respectively, p>0.05), and in lesions with lower percentage of GGO component (50-90%; 93 and 94%, >90%; 100 and 100%, respectively, p=0.21), but statistical significances were not reached. The sensitivity and accuracy were not significantly affected by the length of needle path (≤ 7 cm; 98 and 98%, > 7 cm; 95 and 96%, respectively, p=1.00). Fourteen patients (16%) developed pneumothoraces, and 13 patients (14%) experienced mild hemoptysis, all of which resolved conservatively.

CONCLUSION

The diagnostic performance was satisfactory, and it was considered that the procedure was appropriate for GGO lesions regardless of lesion size, the percentage of GGO component, or the length of needle path. The procedure was also feasible without any major complications.

[CT-guided cutting needle biopsies of thoracic lesions in patients with negative bronchoscopic findings]

PURPOSE

The usefulness and the complication rate of CT-guided core biopsies for obtaining specimens for histopathological examinations in patients with uncertain thoracic lesions were evaluated.

MATERIALS AND METHODS

Under local anesthesia CT-guided core biopsies were performed in 121 patients using tru-cut systems (14-18 gauge). Prior to CT all patients underwent bronchoscopy without obtaining sufficient material for a definite histopathological diagnosis. The following areas were punctured: lungs 84 (69%), pleura, chest-wall, ribs 24 (20%) and mediastinum 13 (11%). The diameter of the punctured lesion averaged 4.3 cm.

RESULTS

Using CT-guided puncture techniques specimens could be obtained in 118 (97.5%) out of 121 patients. Of these 118 specimens 3 (2.5%) showed marked artifacts and necrosis, which obscured a definite histopathological opinion. In the end the biopsies from 115 (95.0%) out of 121 patients could be used whereby 84 (73.0%) were classified as malignant and 31 (27.0%) as benign. Due to further operations or bronchoscopic procedures in 35 patients additional material was obtained for histopathological tests. In 3 (8.6%) of those 35 patients newly malignant disease was diagnosed, therefore these specimens showed a relevant discrepancy as compared to the result of the CT-guided biopsy. Obviously the vital central part of the tumor was not biopsied due to poor delineation caused by peritumoral infiltration. A small pneumothorax or haemoptysis was seen in 17 (14.3%) out of 121 patients.

CONCLUSIONS

Despite negative bronchoscopic findings CT-guided core biopsies will deliver sufficient specimens for histopathological tests in 95% of patients with uncertain thoracic lesions. Infiltrations surrounding the vital part of the tumor may obscure the correct targeting and lead to false negative results in a few patients. Severe complications were not seen in this study, although they might happen in rare cases according to reports in the literature. Therefore CT-guided core biopsies represent an efficient and safe procedure in patients with thoracic lesions.

CT-guided biopsy of lesions of the lung, liver, pancreas or of enlarged lymph nodes: value of additional fine needle aspiration (FNA) to core needle biopsy (CNB) in an offsite pathologist setting

RATIONALE AND OBJECTIVES

To assess the value of additional fine needle aspiration (FNA) to core needle biopsy (CNB) in computed tomography-guided biopsy of lesions of the lung, liver, pancreas, or of enlarged lymph nodes in an offsite cytopathologist setting.

MATERIALS AND METHODS

This retrospective Health Insurance Portability and Accountability Act-compliant study was approved by the Institutional Review Board (IRB); informed consent (IC) was waived. Data of 377 patients who underwent computed tomography-guided FNA and CNB of lesions of the lung, liver, pancreas, or enlarged lymph nodes were enrolled. An onsite cytopathologist was not available. Sensitivity and specificity were calculated for FNA, CNB, and combined FNA/CNB. For the purpose of our study, positive diagnoses from CNB specimens or subsequent biopsy or surgical resection specimens or clinical follow-up data were considered as the standard of reference.

RESULTS

CNB yielded a significantly higher sensitivity than FNA in all sites, except the pancreas, where the difference did not reach statistical significance. Additional FNA to CNB did not significantly increase the sensitivity. Specificity did not significantly differ between FNA, CNB, and combined FNA/CNB in all sites. Malignancies of 1.7% were detected only with FNA, without evidence of malignancy in CNB; for the remaining malignancies, CNB was positive or indeterminate.

CONCLUSION

Additional FNA to CNB without an onsite cytopathologist does not yield higher sensitivity or specificity compared to CNB alone.

Predictive complication factors for CT-guided fine needle aspiration biopsy of pulmonary lesions

OBJECTIVE

Distinct aspects can influence the complication rates of computed tomography-guided percutaneous fine needle aspiration biopsy of lung lesions. The purpose of the current study is to determine the influence of radiological techniques and clinical characteristics in predicting complications from this procedure.

SUBJECTS AND METHODS

A retrospective study was developed involving 340 patients who were submitted to a consecutive series of 362 computed tomography-guided fine needle aspiration biopsies of lung lesions between July 1996 and June 2004, using 22-gauge needles (CHIBA). Variables such as the radiological characteristics of the lesions, secondary pulmonary radiological findings, co-morbidities, and aspects concerning the procedure were studied.

RESULTS

The diameters of the lung lesions varied from 9 to 140 mm, with a mean of 51.5 ± 24.3 mm and median of 40mm. The depth of the lesions varied from 10 mm to 130 mm, with a mean of 44 ± 20.9mm, and median median of 52 mm. Complications occurred in 52 (14.4%) cases, pneumothorax being the most frequent, with 40 (11.1%) cases, followed by hemoptisis with 7 (1.9%) cases, and hematoma with 4 (1.1%) cases. Lesions that did not contact the pleura, with normal pulmonary tissue interposition between lesion and pleura, had higher complication rates, with 22 (22%) cases, than lesions that contact the pleura, with 6 (9%) cases, with a statistically significant difference (p = 0.03).

CONCLUSIONS

CT-guided percutaneous fine needle aspiration biopsy of lung lesions had a lower rate of complications in our study and presented more rates of complications on lesions that lack pleural contact.

Diagnostic accuracy of CT fluoroscopy-guided needle aspiration biopsy of ground-glass opacity pulmonary lesions

OBJECTIVE

The purpose of this study was to evaluate the diagnostic performance of CT fluoroscopy-guided percutaneous needle aspiration biopsy of ground-glass opacity (GGO) pulmonary lesions.

MATERIALS AND METHODS

Twenty-eight patients with GGO lesions who underwent CT fluoroscopy-guided needle aspiration biopsy were enrolled in this study. GGO lesions were divided into three groups according to their size: group 1, lesions < or = 10 mm (n = 10); group 2, lesions 11-20 mm (n = 10); and group 3, lesions > 20 mm (n = 8). Sensitivity, specificity, and diagnostic accuracy were calculated on the basis of 28 needle aspiration biopsy results and were compared among the three groups using Fisher's exact test. Diagnostic accuracy was also compared according to length of needle path (< 5 cm vs 5-9 cm vs > 9 cm) and GGO component (50-90% vs > 90%). Each case was reviewed for complications, which included pneumothorax, thoracostomy tube insertion, and hemoptysis.

RESULTS

There were 17 (61%) malignant and 11 (39%) benign lesions. Three (10%) biopsy results were nondiagnostic, all of which were confirmed as benign. The sensitivity, specificity, and accuracy of CT fluoroscopy-guided needle aspiration biopsy for diagnosing GGO were 67%, 100%, and 80% in group 1; 71%, 100%, and 80% in group 2; and 75%, 100%, and 88% in group 3. The diagnostic accuracy of CT fluoroscopy-guided needle aspiration biopsy for diagnosing GGO was not significantly different among the three groups (p > 0.05). The diagnostic accuracy was not significantly different according to the length of the needle path (p > 0.05). However, diagnostic accuracy was significantly more accurate in mixed GGO lesions than in pure GGO lesions (p = 0.046). Five patients (18%) developed a pneumothorax, two of whom (7%) required placement of a thoracostomy tube. Mild hemoptysis occurred in three patients (11%).

CONCLUSION

CT fluoroscopy-guided needle aspiration biopsy is a useful diagnostic technique for GGO pulmonary lesions and has an acceptable complication rate, even for small and deeply located lesions. The diagnostic accuracy is influenced by the GGO component.

Diagnostic accuracy of CT-guided core biopsy of ground-glass opacity pulmonary lesions

OBJECTIVE

The purpose of our study was to evaluate the accuracy of CT-guided percutaneous core biopsy of ground-glass opacity (GGO) pulmonary lesions.

MATERIALS AND METHODS

The study included 50 patients (24 men, 26 women; age range, 43-78 years) who had a GGO pulmonary lesion and underwent CT-guided core biopsy. Diagnostic accuracy was compared between two groups according to lesion size (< 2 cm vs > or = 2 cm) and GGO component (> 90% vs 50-90%). Each case was reviewed for complications, including pneumothorax, thoracostomy tube insertion, and hemoptysis.

RESULTS

Malignancy was finally diagnosed in 33 patients, including three who underwent repeated biopsies, with 33 true-positive and three false-negative findings for an overall sensitivity of 92% (33/36). A benign lesion was finally diagnosed in 10 patients with one false-positive result, for a specificity of 90%. Two benign lesions without confirmative diagnosis because of loss of follow-up and five nondiagnostic samples were excluded from the calculations of sensitivity, specificity, and diagnostic accuracy. The overall diagnostic accuracy was 91%, with a positive predictive value of 97% and a negative predictive value of 75%. Sensitivity and accuracy were not significantly different between the two groups of lesion size and GGO components (p = 0.0491). Ten (18%) patients had pneumothorax, with one (2%) requiring placement of a thoracostomy tube. Mild hemoptysis occurred in seven (13%) patients.

CONCLUSION

CT-guided core biopsy of GGO lesions can yield high diagnostic accuracy and acceptable complication rates approaching those of solid lesions.

Accuracy of CT-guided transthoracic needle biopsy of lung lesions: factors affecting diagnostic yield

PURPOSE

This study was performed to analyse the variables affecting the diagnostic accuracy of computed tomography (CT)-guided transthoracic needle biopsy of pulmonary lesions.

MATERIALS AND METHODS

A retrospective study of 612 consecutive procedures with confirmed final diagnoses was undertaken. Benign and malignant needle biopsy results were compared with final outcomes to determine diagnostic accuracy. A statistical analysis of factors related to patient characteristics, lung lesions and biopsy technique was performed to determine possible influences on diagnostic yield. A p value less than 0.05 was interpreted as statistically significant.

RESULTS

There were 508 (83%) malignant and 104 (17%) benign lesions. Sensitivity, specificity, positive predictive value, negative predictive value and accuracy for a diagnosis of malignancy were 90.2%, 99.0%, 99.8%, 67.3% and 91.7%, respectively. Overall diagnostic accuracy was 83.3%. Variables affecting diagnostic accuracy were the final diagnosis (benign 67%, malignant 92%; p<0.001) and lesion size (lesions<1.5 cm 68%, lesions 1.5-5.0 cm 87%, lesions>5 cm 78%; p<0.05).

CONCLUSIONS

In CT-guided transthoracic needle biopsy, the final diagnosis and lesion size affect diagnostic accuracy: benign lung lesions and lesions smaller than 1.5 cm or larger than 5.0 cm in diameter provide lower diagnostic yield.

The role of ThinPrep cytology in the investigation of lung tumors

AIMS OF THE STUDY

The aim of this study was to evaluate the role of liquid-based cytology with the ThinPrep (TP) (Cytyc; Cytyc, Co, Boxborough, MA, USA) technique, using fine-needle aspiration (FNA) for sampling, in the investigation of suspicious pulmonary lesions.

METHODS

We performed percutaneous computed tomography (CT)-guided FNA biopsy of focal pulmonary lesions in 80 adult patients. Study subjects were all consecutive patients and potential candidates for surgery. The sample was then examined by both conventional smears (CS) and TP techniques. TP smears of all FNA were prepared from needle rinsing obtained following preparation of CS. All cytological diagnoses were correlated with the CS and/or thoracotomy histological diagnoses in order to evaluate the role of liquid-based cytology with the TP technique.

RESULTS

Using TP technique diagnosis was successfully established in 75 patients out of 80, whereas using CS cytology diagnosis was established in 54 patients (p<0.001, z=3899). Inadequate material was observed in 5 cases (6.25%) with the TP technique and in 13 cases (16.25%) with the CS technique (z=-2.77, p<0.05).

CONCLUSIONS

We believe that the TP technique has a good overall yield for the diagnosis of suspicious for malignant lung lesions. We found that the accuracy of determining lung cancer was excellent.

Formalin-fixed Blood Clots-Additional Histological Findings on Computed Tomography-guided Fine-Needle Aspiration Biopsies in Comparison with Core Biopsies

OBJECTIVE

We investigated the diagnostic yield of histological examined formalin-fixed blood clots (FFBCs) in comparison with the established procedures of fine-needle aspiration biopsy (FNAB) and core biopsy (CB) obtained by percutaneous puncture under computed tomography (CT) guidance.

METHODS

A total of 76 CT-guided punctures with removal of tissue by means of all 3 different techniques (FFBC, FNAB, and CB) were performed. Specimens were obtained from the lung (n=18), mediastinum (n=10), upper abdominal organs (n=32), pelvis (n=4), retroperitoneum (n=4), bones (n=7), and neck (n=1). All results were correlated with the clinical course of the patients (minimum, 6 months; mean period, 10 months). The results of each technique were compared. Results of a combined use of FFBC and FNAB were analyzed.

RESULTS

The overall sensitivity (regardless of biopsy site) was 79% for FFBC, 83% for FNAB, and 95% for CB. In chest biopsies, FFBC reached a sensitivity of 92%, FNAB of 86%, and CB of 96%. In liver biopsies, the sensitivities were 47%, 70%, and 88% for FFBC, FNAB, and CB and, for the remaining biopsy sites, 90%, 90%, and 100%, respectively. The combination of FFBC and FNAB showed higher sensitivities than FFBC and FNAB alone. Overall sensitivity for the combination was 88%, with 92%, 72%, and 100% for thorax, liver, and other locations. A definitive diagnosis was made by FFBC in 87% of cases, by FNAB in 74%, and by CB in 88%. The combination of FFBC and FNAB showed a definite diagnosis in 90% of the cases. A tentative diagnosis has been established in 12%, 7%, 5%, and 4%, respectively. In 4 cases (5%), all 3 techniques failed to yield reliable diagnoses.

CONCLUSIONS

The examination of FFBCs is a useful supplement to the established technique of CT biopsy. In combination with FNAB, FFBC has a comparable sensitivity as CB in chest punctures and other extrahepatic lesions.

Percutaneous CT-guided fine needle aspiration for lung cancer smaller than 2 cm and revealed by ground-glass opacity at CT

The purpose of this retrospective study was to evaluate the value of preoperative percutaneous CT-guided fine needle aspiration biopsy (CTNB) for peripheral lung cancers less than 2 cm in size, especially in cases showing of ground-glass opacities (GGO). From 1999 to 2002, 151 small lung cancers were resected in Tokyo Medical University Hospital. Among them, 96 patients (63.6%) in whom the lesions were located in the outer half of the lung field underwent CTNB in order to obtain a preoperative diagnosis. The factors influencing the diagnostic yield were analyzed. The overall diagnostic yield of CTNB was 64.6%: 48.5% for lesions smaller than 10 mm, 62.5% for those 11-15 mm, and 83.9% for those 16-20 mm, respectively. The diagnostic yield in GGO-dominant lesions (GGO ratio < 50%) and solid-dominant lesions (GGO ratio < 50%) were 51.2% and 75.6% (p = 0.018). In the GGO-dominant group, the diagnostic yields were 35.2% for lesions smaller than 10 mm, 50.0% for those 11-15 mm, and 80.0% for those 16-20 mm. In the solid-dominant group, diagnostic yield was 62.5% for cases smaller than 10 mm, 75% for 11-15 mm and 85.7% for 16-20 mm, respectively. Satisfactory diagnostic yield (>80%) was obtained by CTNB in cases larger than 15 mm. CTNB is a useful diagnostic modality for peripheral small lung cancers; however, for GGO-dominant lesions, the preoperative diagnostic yield is not significantly better than for solid-dominant lesions.

Transthoracic needle biopsy of lung masses: a survey of techniques

AIM

In order to assess the range and everyday use of the various techniques for percutaneous transthoracic needle biopsy of lung masses in the USA and Canada, we surveyed thoracic radiologists in academic and community practice on their standard approach to the procedure.

MATERIALS AND METHODS

The 300 questionnaires that were mailed to members of the Society of Thoracic Radiology throughout the USA and Canada contained specific questions on their approach to a transthoracic needle biopsy of a routine case of a 3cm lung mass located in the right lower lobe 1cm from the pleural surface.

RESULTS

A total of 140 (47%) members responded. Of the 139 responders who performed lung biopsies, 103 (74%) were located at a teaching centre affiliated to a university or medical school, and 36 (26%) were community-based radiologists. In total 97 (70%) replied that they would perform the procedure under CT guidance, 31 (22%) under either CT or fluoroscopy guidance, and 11 (8%) only under fluoroscopy. Fine-needle aspiration was the procedure of choice for the given case by 101 (73%) responders, whereas 20 (14%) preferred doing core biopsy, and 18 (13%) chose both techniques. On-site cytology confirmation for obtaining diagnostic material was available to 101 (73%) responders. Before performing the procedure, 107 (77%) verified coagulation tests whereas 32 (23%) did not. Follow-up imaging for pneumothorax assessment was not routinely performed by 15 (11%) responders.

CONCLUSION

The majority of radiologists performed percutaneous transthoracic needle biopsy of a lung mass under CT guidance, by fine-needle aspiration, using repeated pleural puncture technique, and with a cytologist on site. A significant minority did not obtain coagulation screening before the procedure, and a small minority did not routinely assess for pneumothorax by late chest radiography.

Transthoracic needle biopsy in the diagnosis of large-cell neuroendocrine carcinoma of the lung

To determine the effect of cytological diagnosis, fine-needle aspiration and brush cytology on lung tumors and core-needle biopsy, we retrospectively reviewed 11 cases of large-cell neuroendocrine carcinoma (LCNEC) found in our archives between the years 1997 and 2004. The preoperative cytological diagnosis of LCNEC is challenging because of the broad histologic similarity to other neuroendocrine tumors of the lung. The original cytologic diagnosis was LCNEC in nine of the cases while the remaining two were misdiagnosed as small-cell lung carcinoma. Smears were composed of clusters of intermediate-size cells with amphophylic cytoplasm, some with large nuclei and prominent nucleoli. In two of the cases there was discordance between the cytological findings and the immunohistochemical results. The cytological findings were correlated with histopathological observations.

Percutaneous fine-needle biopsy of deep thoracic and abdominal masses in dogs and cats

Percutaneous fine-needle biopsy was used to investigate thoracic and abdominal masses in the dog and cat. One hundred and thirty-two cases were included in the study; 20 cases were excluded from the comparative study due to poor cellularity or blood contamination (retrieval rate 86.8 per cent). One hundred samples (56 dogs and 44 cats) were classified by cytology as neoplastic. All the cytological diagnoses of neoplasia were confirmed by histological samples obtained either by non-surgical methods, at surgery or during postmortem examination. No false positive diagnoses of neoplasia were made. Thirty-two samples were cytologically classified as 'negative for neoplasia'. Subsequent histological examination revealed 18 true negative and 14 false negative results. The procedure had an overall 89.4 per cent (118 cases out of 132) agreement between the diagnosis of inflammatory disease versus neoplasia, with a sensitivity of 87.8 per cent, a specificity of 100 per cent, a predictive value of a positive test of 100 per cent and a predictive value of a negative test of 56.3 per cent.

Cytologic approach to tumors of the tracheobronchial tree

Cytologic testing is an integral part of the workup of patients suspected of having lung cancer. These tests are less invasive than other tissue procurement methods, with minimal risk of complications. In experienced hands, the tests are highly accurate and reliable. To achieve good results and avoid diagnostic errors, clinicians must be educated in proper collection and fixation methods and the pathologist should be cognizant of clinical and radiologic data. Close communication between the clinician and pathologist should be encouraged.

Percutaneous biopsy in lung cancer

This paper presents current indications, contraindications, technical aspects, complications and yield of diagnosis of percutaneous lung biopsy in the setting of lung cancer. Percutaneous lung biopsy should be performed each time that the therapeutic strategy can be significantly influenced, when the procedure is technically feasible and to patients for which the benefits outweigh the risks, that are pneumothorax and pulmonary haemorrhage. Factors identified as potentially favouring post-biopsy pneumothorax are numerous whereas the use of a needle size larger than 18 gauge is the major risk factor of bleeding. Although a coaxial system is highly suitable in any case, two categories of needles can be used; those providing aspiration and those for core biopsies. Both offer similar yields for the diagnosis of malignancy, but core biopsies are more efficient for the specific diagnosis of benignity and lymphoma. Technical improvements of guidance, needle design and pathological techniques may contribute to lower the size limit of the nodule to be biopsied, to decrease the complication rate and their severity and to increase the yield of diagnosis.

Real-time chest ultrasonography: a comprehensive review for the pulmonologist

This review discusses real-time pulmonary ultrasonography (US) for the practicing pulmonologist. US supplements chest radiography and chest CT scanning. Major advantages include bedside availability, absence of radiation, and guided aspiration of fluid-filled areas and solid tumors. Pulmonary vessels and vascular supply of consolidations may be visualized without contrast. US may help to diagnose conditions such as pneumothorax, hemothorax, pleural or pericardial effusion, pneumonia, and pulmonary embolism in the critically ill patient who is in need of bedside diagnostic testing. The technique of US, which is cost-effective compared to CT scanning and MRI, may be learned relatively easily by the pulmonologist.

The incidence and the risk of pneumothorax and chest tube placement after percutaneous CT-guided lung biopsy: the angle of the needle trajectory is a novel predictor

STUDY OBJECTIVE

Pneumothorax remains the most common complication of percutaneous CT-guided lung biopsy, despite improved techniques. The rate of pneumothorax reported in the literature ranges from 19 to 60%. The aims of this study were to estimate the risk of pneumothorax in patients undergoing CT-guided lung biopsy, and to determine which factors affect its occurrence.

DESIGN

Retrospective study.

PATIENTS AND METHODS

This study involved 289 consecutive patients who underwent biopsy in our hospital under consistent methods, using only one type of needle, the 19-gauge Tokyo Medical College (TMC) Needle (Takei; Tokyo, Japan), under CT guidance.

RESULT

Seventy-seven patients (26.6%) had pneumothorax after percutaneous CT-guided lung biopsy. Forty-one of the 77 patients (53.2%) who had pneumothorax (14.2% of the entire series) required placement of a chest tube. Our present study, using multivariate logistic regression analysis, confirmed that greater lesion depth, wider trajectory angle, and increasing FVC percent predicted are independent risk factors of pneumothorax, and that two former factors are independent risk factors of chest tube placement following percutaneous CT-guided lung biopsy.

CONCLUSIONS

The angle of needle route is a novel predictor of this complication. Our findings suggest that low pneumothorax rates are achieved by combining several techniques to reduce the risk of pneumothorax.

Imaging guided thoracic interventions

Interventional Radiology is a technique based medical specialty, using all available imaging modalities (fluoroscopy, ultrasound, computed tomography, magnetic resonance, angiography) for guidance of interventional techniques for diagnostic or therapeutic purposes. Actual, percutaneous transthoracic needle biopsy includes core needle biopsy besides fine needle aspiration. Any pleural, pulmonary or mediastinal fluid or gas collection is amenable to percutaneous pulmonary catheter drainage. Treatment of haemoptysis of the bronchial artery or pulmonary artery origin, transcatheter embolization of pulmonary arteriovenous malformations and pseudoaneurysms, angioplasty and stenting of the superior vena caval system and percutaneous foreign body retrieval are well established routine procedures, precluding unnecessary surgery. These techniques are safe and effective in experienced hands. Computed tomography is helpful in pre- and postoperative imaging of patients being considered for endobronchial stenting. Many procedures can be performed on an outpatient basis, thus increasing the cost-effectiveness of radiologically guided interventions in the thorax.

CT-guided cutting needle biopsy of lung lesions--safety and efficacy of an out-patient service

AIM

To determine the safety and efficacy of CT-guided cutting needle biopsy of lung lesions as an out-patient procedure.

MATERIALS AND METHODS

A total of 185 consecutive biopsies were performed under CT guidance on 183 patients between January 1991 and December 1998 using 20-gauge (n= 33), 18-gauge (n= 151) or 14-gauge (n= 1) core biopsy needles. A chest radiograph was taken after observation in the Radiology department for 1 h and asymptomatic patients were discharged.

RESULTS

The histology was malignant in 150 biopsies (81. 1%) and benign in 23 (12.4%) with 12 false-negative results (6.5%); there were no false-positive results. The sensitivity was 92.6%; specificity 100%; negative predictive value 65.7%; and overall accuracy 93.5%. Pneumothoraces occurred in 48 patients (25.9%); one required aspiration only and four required insertion of an intercostal drain. One patient developed a pneumothorax after discharge. Small haemoptyses occurred in 13 patients without pneumothorax (7.0%), one of whom was admitted. In-patient treatment was required in 10 patients (5.4%).

CONCLUSION

Computed tomography-guided cutting needle biopsy of pulmonary lesions is a safe technique with a diagnostic accuracy and complication rate comparable to reported figures for fine needle aspiration biopsy. It can be safely performed on an out-patient basis.

CT-guided transthoracic needle biopsy using an ipsilateral dependent position

OBJECTIVE

We postulated that the pneumothorax rate of transthoracic needle biopsy might improve with an ipsilateral dependent position of the affected side. We tried to determine the feasibility, effectiveness, and safety of CT-guided biopsy with the patient in this position.

SUBJECTS AND METHODS

CT-guided needle biopsy with the patient in an ipsilateral dependent position was performed in 23 patients with 17 lung lesions (15 posterior and two anterior) and six mediastinal lesions. Fine-needle aspiration was used in all patients, and core biopsy was also used in six patients. The technical difficulty of the procedure was classified into three grades compared with a routine transthoracic needle biopsy as follows: grade I, no more difficult; grade II, somewhat more difficult; and grade III, much more difficult.

RESULTS

Adequate samples were obtained in 22 (96%) of 23 patients. A small asymptomatic pneumothorax occurred in two patients (8.7%). Difficulty was rated grades I, II, and III in 18 (78%), two (9%), and three (13%) procedures, respectively. Four of the five grades II and III procedures were biopsies of anterior lesions. Traversing the pleura was avoided in three of six mediastinal masses.

CONCLUSION

Transthoracic needle biopsy of selected lung and mediastinal lesions using an ipsilateral dependent position is feasible, effective, and safe. The role of this technique for reducing the rate of pneumothorax as a result of the biopsy requires further investigation.