Pneumothoraces and chest tube placement after CT-guided transthoracic lung biopsy using a coaxial technique: incidence and risk factors

OBJECTIVE: This study investigates factors influencing the risk of pneumothorax and chest tube placement in patients undergoing CT-guided transthoracic lung biopsy for pulmonary lesions using a coaxial technique. SUBJECTS AND METHODS: The study included 307 patients with pulmonary lesions biopsied under CT guidance. Patient-related parameters considered were age, sex, presence of emphysema or bullae, and lung function data. Lesion-related variables were size, location, cavitary appearance on CT, pleural contact, and depth of the lesion. Procedure variables were duration, type of needle, and experience of the operator. All variables were analyzed as single and multiple dependent variables for occurrence of pneumothorax. RESULTS: Pneumothorax occurred in 61 (19.9%) of the 307 patients, and chest tube placement was required in six patients (2.0%). Univariate analysis showed that lesion size, lesion location, lesion depth, and difficulty of the procedure were significantly associated with a higher rate of pneumothorax. Using multivariate logistic regression analysis, we found that lesion depth from the pleural entry point was the sole variable that was significantly associated with an increased risk of pneumothorax. This risk increased with the depth of the lesion. Chest tube placement was required more frequently in patients with severe emphysema, obstructive lung disease, or hyperinflation. CONCLUSION: Lesion depth is the predominant risk factor for pneumothorax in patients undergoing CT-guided transthoracic lung biopsy. Chest tube placement is necessary more frequently in patients with severe emphysema, obstructive lung disease, or hyperinflation.     

Transthoracic needle aspiration biopsy: variables that affect risk of pneumothorax.

PURPOSE: To analyze the influence of multiple variables on the rate of pneumothorax and chest tube placement associated with transthoracic needle aspiration biopsy of the lung. MATERIALS AND METHODS: In 346 patients, 331 computed tomographically (CT) guided and 24 fluoroscopically guided lung biopsies were performed. Variables analyzed were lesion size, depth, and location; number of pleural passes; needle size; presence of emphysema; and training level of the person who performed the biopsy. RESULTS: Pneumothorax occurred at 144 (40.4%) of 356 biopsies, including 139 (42.0%) CT-guided and five (21%) fluoroscopically guided biopsies. Chest tube placement was needed in 25 (17.4%) of 144 cases of pneumothorax (7% of all biopsies). An increased rate of pneumothorax was correlated with smaller lesion size (P = .001) and presence of emphysema (P = .01). Patients with emphysema were three times as likely to require chest tube placement. The pneumothorax rate was 15% (16 of 105) if no aerated lung was traversed and approximately 50% if aerated lung was penetrated. Lesion location, needle size, number of pleural passes, and level of training were not correlated with pneumothorax rate. CONCLUSION: Smaller lesion size and emphysema are strongly correlated with occurrence of pneumothorax. Pneumothorax was more than three times less frequent if no aerated lung was traversed. After pneumothorax, chest tube placements were related to the presence of emphysema.     

CT引导下肺内孤立性病变经皮穿刺活检并发症的分析

目的分析肺外围型孤立病变CT引导下经皮穿刺活检并发症的原因。方法选取2002-10～2004-10连续2年内的所有肺内外围型孤立病变行CT引导下肺穿刺活检的患者71例,回顾性研究总结穿刺活检的并发症发生率与年龄、性别、穿刺针所经肺组织深度、肿块周围有无肺气肿表现、穿刺的次数、穿刺针的粗细等几个方面的关系。结果并发症共26例次,气胸3例(4.23%),肺内出血9例(12.67%),出现血痰或血痰加重13例(18.3%),胸膜反应1例(1.41%)。经统计学分析,并发症的发生与穿刺针所经肺组织深度、病变周围肺气肿及穿刺次数和穿刺针的粗细有明显的相关性。结论CT引导下肺内病变经皮穿刺活检并发症以血痰最常见。病灶离胸膜的间距、病灶周围肺气肿、穿刺次数及穿刺针粗细是经皮穿刺肺活检并发症的危险因素。     

Transthoracic needle biopsy: factors effecting risk of pneumothorax

OBJECTIVE: to evaluate the factors that could effect the risk of pneumothorax in patients undergoing transthoracic biopsy. MATERIAL AND METHODS: variables that could increase the risk of pneumothorax were evaluated in 453 CT-guided transthoracic biopsies. Factors were evaluated in two groups: (1) lesion related (presence of emphysema around the lesion, lesion depth, cavitation, presence of fissure/atelectasis and pleural tag in the needle trajectory); and (2) procedure related (biopsy type, needle size, number of passages, level of experience of the operator). All variables were analysed by chi2 test and multivariate logistic regression statistics. RESULTS: pneumothorax was developed in 85 (18.8%) out of 453 procedures. A chest tube was inserted in ten (11.7%) of them. Variables that were significantly associated with an increased risk of pneumothorax were depth of the lesion (P<0.001) and severity of the emphysema (P<0.01). CONCLUSION: the length of the lung parenchyma traversed during the biopsy is the predominant risk factor for pneumothorax in patients undergoing CT-guided transthoracic biopsy. The risk of pneumothorax was also increased with the severity of the emphysema around the lesion.     

经皮肺穿刺气胸发生率分析

目的：分析了多种因素对肺穿刺活检气胸发生率的影响。方法46例病人均在X线透视引导下操作。所分析的各种因素为病灶大小、位置、穿刺次数、肺气肿及穿刺后体位。结果：46例病人中9例发生气胸（19．6％）,9例肺气肿病人中4例发生气胸（44．4％）,其中2例经胸腔置管引流治愈。10例病灶＜3cm者3例产生气胸（30％）。穿刺点向下卧位的20例中4例产生气胸（205）;剩余的26例自由卧位中5例产生气胸（19．2％）。结论：经皮肺穿活检中的病灶愈小气胸发生率愈高。肺气肿病人肺穿后气胸发生率较高,且常为症状性气胸。穿刺点向下及非向下卧位对气胸的发生率没有明显影响。     

Computed tomography-navigated transthoracic core biopsy of pulmonary lesions: which factors affect diagnostic yield and complication rates?

RATIONALE AND OBJECTIVES: Only a few studies have systematically evaluated risk factors for pneumothorax and pulmonary hemorrhage in computed tomographically (CT)-guided transthoracic lung biopsy (TLB). We evaluated the diagnostic yield of CT-guided TLB and determined risk factors for pneumothorax and hemorrhage. METHODS: One hundred seventy-two CT-guided TLBs were performed on 159 patients (mean age 66 +/- 11 years; 72% male) using a 16-gauge core biopsy needle. Lesion and patient characteristics, lung function analysis, CT signs of emphysema, histopathologic diagnoses, and complications were recorded. Statistical analysis was performed with multivariate regression analysis. RESULTS: Histopathologic diagnosis was established in 153 cases (89%). Although lesion size was higher (47 +/- 29 vs. 43 +/- 35 mm, P = .191) and depth was lower (22 +/- 23 vs. 6 +/- 23 mm, P = .350) in procedures with histopathologic diagnosis, no parameter showed significant impact on diagnostic yield. Sensitivity and specificity for detection of malignancy were 93% and 100%, respectively, whereas positive and negative predictive values were 100% and 88%. Overall accuracy was 95%. Pneumothorax occurred in 45 procedures (26%). Hemorrhage was recorded in 17 procedures (10%). There was higher frequency of pneumothorax in smaller lesions (35 +/- 23 vs. 50 +/- 31 mm, P = .003; odds ratio = .96) and greater depth (29 +/- 29 vs. 20 +/- 19 mm, P = .05; odds ratio = 1.03). CT signs of emphysema revealed higher incidence of hemorrhage (35% vs. 23%; P = .04; odds ratio=41.03). Other parameters were nonsignificant. CONCLUSIONS: The high diagnostic yield of CT-guided TLB was not affected by lesion characteristics or emphysema. Pneumothorax rate was influenced by lesion size and depth. Hemorrhage was associated with CT signs of emphysema.     

Risk factors for pneumothorax and bleeding after CT-guided percutaneous coaxial cutting needle biopsy of lung lesions.

PURPOSE: To evaluate risk factors for pneumothorax and bleeding after computed tomography (CT)-guided percutaneous coaxial cutting needle biopsy of lung lesions. MATERIALS AND METHODS: This study involved 117 consecutive patients with 117 intrapulmonary lesions. Statistical analysis of factors related to patient characteristics, lung lesions, and biopsy technique was performed to determine possible contribution to the occurrence of pneumothorax and bleeding. Interactions between related factors were considered to prevent colinearity. RESULTS: Pneumothorax occurred in 12% (14 of 117) of patients. Needle aspiration of two moderate asymptomatic pneumothoraces were performed; there was no chest tube insertion. Lesion depth (P =.0097), measured from the pleural puncture site to the edge of the intrapulmonary lesion along the needle path, was the single significant predictor of pneumothorax. The highest risk of pneumothorax occurred in subpleural lesions 2 cm or shorter in depth (this represented 33% of lung lesions but caused 71% of all pneumothoraces; OR = 7.1; 95% CI, 1.3-50.8). Bleeding presented as lung parenchyma hemorrhage and hemoptysis in 30 patients (26%). Hemoptysis occurred in four patients (3%). Univariate analysis identified lesion depth (P <.0001), lesion size (P <.015), and pathology type (P =.007) as risk factors for bleeding. Multivariate logistic regression analysis identified lesion depth as the most important risk factor, with the highest bleeding risk for lesions more than 2 cm deep (14% of lesions caused 46% of all bleeding; OR = 17.3; 95% CI, 3.3-121.4). CONCLUSIONS: In CT-guided coaxial cutting needle biopsy, lesion depth is the single predictor for risk of pneumothorax, which occurs at the highest rate in subpleural lesions. Increased risk of bleeding occurs in lesions deeper than 2 cm.     

Variables affecting the risk of pneumothorax and intrapulmonal hemorrhage in CT-guided transthoracic biopsy

The influence of various variables on the rate of pneumothorax and intrapulmonal hemorrhage associated with computed tomography (CT)-guided transthoracic needle biopsy of the lung were evaluated retrospectively. One hundred and thirty-three patients underwent CT guided biopsy of a pulmonary lesion. Two patients were biopsied twice. Variables analyzed were lesion size, lesion location, number of pleural needle passes, lesion margin, length of intrapulmonal biopsy path and puncture time. Eighteen-gauge (18G) cutting needles (Trucut, Somatex, Teltow, Germany) were used for biopsy. Pneumothorax occurred in 23 of 135 biopsies (17%). Chest tube placement was required in three out of 23 cases of pneumothorax (2% of all biopsies). Pneumothorax rate was significantly higher when the lesions were located in the lung parenchyma compared with locations at the pleura or chest wall (P < 0.05), but all pneumothorax cases which required chest tube treatment occurred in lesions located less than 2 cm from the pleura. Longer puncture time led to an increase in pneumothorax rate (P < 0.05). Thirty-seven (27%) out of 135 biopsies showed perifocal hemorrhage. Intrapulmonal biopsy paths longer than 4 cm showed significantly higher numbers of perifocal hemorrhage and pneumothorax (P < 0.05). Significantly more hemorrhage occurred when the pleura was penetrated twice during the puncture (P < 0.05). Lesion size <4 cm is strongly correlated with higher occurrence of perifocal hemorrhage (P < 0.05). Lesion margination showed no significant effect on complication rate. CT-guided biopsy of smaller lesions correlates with a higher bleeding rate. Puncture time should be minimized to reduce pneumothorax rate. Passing the pleura twice significantly increases the risk of hemorrhage. Intrapulmonal biopsy paths longer than 4 cm showed significantly higher numbers of perifocal hemorrhage as well as pneumothorax.     

CT-guided transthoracic needle aspiration biopsy of small (< or = 20 mm) solitary pulmonary nodules

OBJECTIVE: The purpose of our study was to determine the diagnostic accuracy and to analyze the factors influencing the diagnostic accuracy and incidences of pneumothorax and chest tube insertion rates for percutaneous CT-guided needle biopsy of small (< or = 20 mm) solitary pulmonary nodules. SUBJECTS AND METHODS: One hundred sixty-two patients with 162 small solitary pulmonary nodules underwent CT-guided transthoracic needle aspiration biopsy. The overall diagnostic accuracy, pneumothorax rate, and chest tube insertion rate were calculated. Factors influencing the diagnostic accuracy and pneumothorax rate were statistically evaluated. Influencing factors, diagnostic accuracies, pneumothorax rates, and chest tube insertion rates were statistically compared. RESULTS: Overall diagnostic accuracy, pneumothorax rate, and chest tube insertion rate were 77.2%, 28.4%, and 2.5%, respectively. Diagnostic accuracy was significantly affected by length of needle path and lesion size (p < 0.05). The pneumothorax rate was significantly affected by the percentage of predicted forced expiratory volume in 1 sec, the number of punctures, and the needle path length (p < 0.05). The chest tube insertion rate was significantly affected by the number of punctures (p < 0.05). For diagnostic accuracy, needle path lengths of 40 mm or less and lesion sizes greater than 10 mm were significantly more accurate than other factors (p < 0.05). For pneumothorax rates, a percentage of predicted forced expiratory volume in 1 sec of greater than 70%, a single puncture, and a needle path length of 40 mm or less were significantly lower than other factors (p < 0.05). CONCLUSION: CT-guided transthoracic needle aspiration biopsy is a useful diagnostic tool for small solitary pulmonary nodules smaller than 20 mm in diameter. The diagnostic accuracy is significantly improved for large (> 10 mm) lesion size and short (< or = 40 mm) needle path length.     

CT guided percutaneous fine needle biopsy of small lung lesions in outpatients. Safety and efficacy of the procedure compared to inpatients

PURPOSE: To compare the safety and efficacy of CT-guided fine needle biopsy (FNAB) of small (<15 mm) lung lesions in inpatients and outpatients. MATERIALS AND METHODS: 108 consecutive inpatients (69 M, 39 F, mean age 56) and 121 consecutive outpatients (90 M, 31 F, mean age 50) who underwent CT-guided FNAB of small lung lesions were included. Lesion size, depth, number of needle passes, presence of emphysema were recorded. 22 G Chiba needles and the roll-over technique were used for all patients; if no significant pneumothorax was detected after FNAB, outpatients were allowed to go home and instructed to return in case of complications. The incidence of pneumothorax and other complications, sensitivity, specificity, diagnostic accuracy were calculated. RESULTS: 12 inpatients and 33 outpatients were lost to follow-up. No statistical differences were observed in lesion size, depth, needle passes, presence of emphysema between the groups. We had 15 pneumothoraces in inpatients, 4 requiring a chest tube, 12 in outpatients, 2 requiring a tube. Diagnostic accuracy was 92.7% in inpatients and 90.9% in outpatients. There were 7 false negatives in inpatients and 8 in outpatients, with negative predictive value of 79% and 78%, respectively. There were no false positives. All differences are nonsignificant. CONCLUSIONS: CT-guided FNAB of small lung lesions is an equally safe and effective procedure in inpatients and outpatients; outpatient performance of FNAB can decrease costs.     

Effect of needle tract bleeding on occurrence of pneumothorax after transthoracic needle biopsy

PURPOSE: Occasionally bleeding along the needle trajectory is observed at post-biopsy computed tomographic sections. This study was designed to evaluate the possible effect of needle tract bleeding on the occurrence of pneumothorax and on requirement of chest tube insertion. MATERIALS AND METHODS: Two hundred eighty-four needle biopsies performed in 275 patients in whom the needle traversed the aerated lung parenchyma were retrospectively reviewed. Bleeding along the needle tract, occurrence of pneumothorax and need for chest tube insertion, type and size of the needle, size of the lesion, length of the lung traversed by the needle, presence or absence of emphysema were noted. Effect of these factors on the rate of pneumothorax and needle-tract bleeding was evaluated. The data were analyzed by chi2 test. RESULTS: Pneumothorax developed in 100 (35%) out of 284 procedures requiring chest tube placement in 16 (16%). Variables that were significantly associated with an increased risk of pneumothorax were depth of the lesion (P < 0.001) and severity of emphysema (P < 0.05). There was bleeding along the needle tract in 18.6% (n = 53) of the procedures. Pneumothorax occurred in 18 (33.9%) out of 53 procedures in which tract-bleeding was observed and in 82 (35.4%) out of 231 procedures in which tract-bleeding was not seen. The difference between the two groups was not significant (P > 0.05). However, analysis of the relation between length of lung traversed by the needle, tract-bleeding and pneumothorax rate indicated that tract-bleeding had a preventive effect on development of pneumothorax (P < 0.001). Occurrence of tract bleeding also had preventive effect on pneumothorax in the presence of emphysema (P < 0.05). The only variable which had effect on occurrence of tract-bleeding was the length of the lung traversed by needle (p < 0.001). Requirement for chest tube insertion was smaller in the tract-bleeding group than non-tract bleeding group, 11% (2/18) to 17% (14/82), respectively. But this difference was not significant statistically (P > 0.05). CONCLUSION: Bleeding in the needle tract has a preventive effect on the occurrence of the pneumothorax in deep-seated lesions and in the presence of emphysema, although it does not affect the overall rate of pneumothorax.     

CT引导下经皮肺穿刺活检并发症的相关因素分析

目的:分析引起CT引导下经皮肺穿刺活检并发症发生的相关因素.方法:选取2003年10月～2005年9月CT引导下肺穿刺活检的病例284例,分析穿刺并发症的发生与性别、年龄、病灶大小、深度、病灶周围有无肺气肿、穿刺次数、穿刺针粗细等的关系,并进行统计分析.结果:共发生气胸26例,出血(包括肺内出血和针道出血)48例.并发症的发生与病灶大小、深度、病灶周围有无肺气肿、穿刺次数、穿刺针粗细及年龄有关(P＜0.05).结论:CT引导下经皮肺穿刺活检常见并发症有气胸和出血.病灶大小、深度、病灶周围肺气肿、穿刺次数、穿刺针粗细以及年龄是肺穿刺活检并发症的相关因素.     

Transthoracic CT-guided biopsy with multiplanar reconstruction image improves diagnostic accuracy of solitary pulmonary nodules

OBJECTIVE: To evaluate the utility of multiplanar reconstruction (MPR) image for CT-guided biopsy and determine factors of influencing diagnostic accuracy and the pneumothorax rate. MATERIALS AND METHODS: 390 patients with 396 pulmonary nodules underwent transthoracic CT-guided aspiration biopsy (TNAB) and transthoracic CT-guided cutting needle core biopsy (TCNB) as follows: 250 solitary pulmonary nodules (SPNs) underwent conventional CT-guided biopsy (conventional method), 81 underwent CT-fluoroscopic biopsy (CT-fluoroscopic method) and 65 underwent conventional CT-guided biopsy in combination with MPR image (MPR method). Success rate, overall diagnostic accuracy, pneumothorax rate and total procedure time were compared in each method. Factors affecting diagnostic accuracy and pneumothorax rate of CT-guided biopsy were statistically evaluated. RESULTS: Success rates (TNAB: 100.0%, TCNB: 100.0%) and overall diagnostic accuracies (TNAB: 96.9%, TCNB: 97.0%) of MPR were significantly higher than those using the conventional method (TNAB: 87.6 and 82.4%, TCNB: 86.3 and 81.3%) (P < 0.05). Diagnostic accuracy were influenced by biopsy method, lesion size, and needle path length (P < 0.05). Pneumothorax rate was influenced by pathological diagnostic method, lesion size, number of punctures and FEV1.0% (P < 0.05). CONCLUSION: The use of MPR for CT-guided lung biopsy is useful for improving diagnostic accuracy with no significant increase in pneumothorax rate or total procedure time.     

CT-guided lung biopsy: incidence of pneumothorax after instillation of NaCl into the biopsy track

This study was conducted to evaluate whether instillation of NaCl 0.9% solution into the biopsy track reduces the incidence of pneumothoraces after CT-guided lung biopsy. A total of 140 consecutive patients with pulmonary lesions were included in this prospective study. All patients were alternatingly assigned to one of two groups: group A in whom the puncture access was sealed by instillation of NaCl 0.9% solution during extraction of the guide needle (n = 70) or group B for whom no sealing was performed (n = 70). CT-guided biopsy was performed with a 18-G coaxial system. Localization of lesion (pleural, peripheral, central), lesion size, needle-pleural angle, rate of pneumothorax and alveolar hemorrhage were evaluated. In group A, the incidence of pneumothorax was lower compared to group B (8%, 6/70 patients vs. 34%, 24/70 patients; P < 0.001). All pneumothoraces occurred directly post punctionem after extraction of the guide needle. One patient in group A and eight patients in group B developed large pneumothoraces requiring chest tube placement (P = 0.01). The frequency of pneumothorax was independent of other variables. After CT-guided biopsy, instillation of NaCl 0.9% solution into the puncture access during extraction of the needle significantly reduces the incidence of pneumothorax.     

Pneumothorax Complicating Coaxial and Non-coaxial CT-Guided Lung Biopsy: Comparative Analysis of Determining Risk Factors and Management of Pneumothorax in a Retrospective Review of 650 Patients

Purpose

To assess the scope and determining risk factors related to the development of pneumothorax throughout CT-guided biopsy of pulmonary lesions in coaxial and non-coaxial techniques and the outcome of its management.

Materials and Methods

The study included CT-guided percutaneous lung biopsies in 650 consecutive patients (407 males, 243 females; mean age 54.6 years, SD 5.2) from November 2008 to June 2013 in a retrospective design. Patients were classified according to lung biopsy technique into coaxial group (318 lesions) and non-coaxial group (332 lesions). Exclusion criteria for biopsy were lesions <5 mm in diameter, uncorrectable coagulopathy, positive-pressure ventilation, severe respiratory compromise, pulmonary arterial hypertension, or refusal of the procedure. Risk factors related to the occurrence of pneumothorax were classified into: (a) Technical risk factors, (b) patient-related risk factors, and (c) lesion-associated risk factors. Radiological assessments were performed by two radiologists in consensus. Mann–Whitney U test and Fisher’s exact tests were used for statistical analysis. p values <0.05 were considered statistically significant.

Results

The incidence of pneumothorax complicating CT-guided lung biopsy was less in the non-coaxial group (23.2 %, 77 out of 332) than the coaxial group (27 %, 86 out of 318). However, the difference in incidence between both groups was statistically insignificant (p = 0.14). Significant risk factors for the development of pneumothorax in both groups were emphysema (p < 0.001 in both groups), traversing a fissure with the biopsy needle (p value 0.005 in non-coaxial group and 0.001 in coaxial group), small lesion, less than 2 cm in diameter (p value of 0.02 in both groups), location of the lesion in the basal or mid sections of the lung (p = 0.003 and <0.001 in non-coaxial and coaxial groups, respectively), and increased needle track path within the lung tissue of more than 2.5 cm (p = 0.01 in both groups). The incidence of pneumothorax in the non-coaxial group was significantly correlated to the number of specimens obtained (p = 0.006). This factor was statistically insignificant in the coaxial group (p = 0.45). The biopsy yield was more diagnostic and conclusive in the coaxial group in comparison to the non-coaxial group (p = 0.008). Simultaneous incidence of pneumothorax and pulmonary hemorrhage was 27.3 % (21/77) in non-coaxial group and in 30.2 % (26/86) in coaxial group. Conservative management was sufficient for treatment of 91 out of 101 patients of pneumothorax in both groups (90.1 %). Manual evacuation of pneumothorax was efficient in 44/51 patients (86.3 %) in both groups and intercostal chest tube was applied after failure of manual evacuation (7 patients: 13.7 %), from which one patient developed a persistent air leakage necessitating pleurodesis.

Conclusion

Pneumothorax complicating CT-guided core biopsy of pulmonary lesions, showed the insignificant difference between coaxial and non-coaxial techniques. However, both techniques have the same significant risk factors including small and basal lesions, increased lesion’s depth from pleural surface, and increased length of aerated lung parenchyma crossed by biopsy needle and passing through pulmonary fissures in the needle tract.

     

MAGNUM活检枪经皮肺穿刺活检的临床应用

目的:探讨CT导向下MAGNUM活检枪在经皮肺穿刺活检术中的临床应用价值.方法:对临床及影像学不能确诊的肺部病变94例行CT导向下MAGNUM活检枪经皮肺穿刺活检.结果:94例(100%)穿刺成功;88例(94%)获得正确诊断,其中肺癌53例,结核16例,慢性炎性病变19例;并发症主要为气胸和出血,其发生率分别为9%和16%.结论:CT导向下MAGNUM活检枪经皮肺穿刺活检术操作简便,诊断准确,值得临床进一步推广应用.     

CT引导下经皮肺穿刺活检对周围型肺部病变的诊断价值

目的探讨CT引导下经皮肺穿刺活检对周围型肺部病变的诊断价值及其安全性。方法对58例周围型肺部病变的患者,在CT引导下行经皮肺穿刺活检。结果 58例患者中穿刺标本经组织病理学检查确诊病例48例,确诊率为82.8%,其中恶性肿瘤32例,良性病变16例。术后出现有症状并发症7例,其中咯血2例,气胸4例,高热伴脓胸1例,总发生率为12.1%。结论 CT引导下经皮肺穿刺活检定位准确,成功率高,安全可靠,在周围型肺部病变诊断中具有较高的应用价值。     

Punch biopsy or fine needle aspiration biopsy in percutaneous puncture

Purpose: The diagnostic accuracy and rate of complications of CT-guided core biopsies (CB) from suspected tumors of the chest were compared to the accuracy a complications of fine-needle aspiration biopsies (FNAB). Methods: The accuracy in the diagnosis of a benign or malignant lesion of 79 FNAB (19.5 G self-aspirating cutting needle) and of 83 CB (18 G automated core biopsy) and the rates of pneumothorax, pleural drainage and hemoptysis were retrospectively evaluated. Results: With FNAB, the sensitivity for malignant lesions was 62.1 % and the accuracy 68.4 %. With CB the sensitivity amounted to 85.9 % and accuracy to 86.7 %. The rate of pneumothorax was 25.3 % following FNAB, with a drainage rate of 5.1 % compared to 19.3 % and 6.0 %, respectively, following CB. The rate of pneumothorax and drainage increased with increasing path length through aerated lung. In advanced emphysema, the pneumothorax rate did not increase; however, in pneumothoraces, pleural drainage was mandatory in 20 % of FNAB and in 100 % of CB. Hemoptysis without any therapeutic consequences occurred in 3.8 % following FNAB and in 6.0 % following CB. Conclusions: With CB diagnostic accuracy can be clearly increased without an obvious increase in the complication rate. However, in patients with obvious emphysema, the pleural drainage rate of pneumothorax may be higher following CB.      

病灶因素对CT导向下经皮肺穿刺活检并发症发生率的影响

目的:探讨CT导向下经皮肺穿刺活检并发症发生率与病灶大小、深度和部位之间的关系。方法:复习CT导向下肺部病变穿刺活检184例,所有病灶按大小分为≥3cm(122个)和<3cm(62个)两组,按病灶深度分为≥2cm(98个)和<2cm(86个)两组,按病灶部位分为上肺野(28个)、中肺野(61个)和下肺野(95个)3组,分别统计各组的并发症发生率。结果:直径<3cm病灶的并发症发生率(气胸19.23%,出血44.19%)明显高于≥3cm病灶(气胸5.17%,出血15.09%,P<0.05);深度≥2cm病灶的并发症发生率(气胸13.27%,出血25.51%)显著高于<2cm者(气胸3.49%,出血11.63%,P<0.05);不同肺野病灶的并发症发生率之间差异无显著性意义(P>0.05)。结论:病灶大小和深度是影响CT导向下经皮肺穿刺活检并发症发生率的主要因素。     

Transthoracic fine-needle aspiration biopsy of the lungs using a C-arm cone-beam CT system: diagnostic accuracy and post-procedural complications

Objective: The purpose of our study was to evaluate the diagnostic accuracy of transthoracic fine-needle aspiration biopsy (TFNAB) using a C-arm cone-beam CT (CBCT) system and to assess risk factors for immediate post-procedural complications in patients with lung lesions. Methods: From October 2007 to April 2009, 94 TFNAB procedures using a C-arm system were studied in 91 patients with pulmonary lesions a chest CT scans. We retrospectively reviewed the patients' radiological and histopathological findings. We evaluated the lesion size, lesion abutted to pleura and presence or absence of emphysema along the needle path, lesion depth, visibility of target lesion and patient's position. Pneumothorax and pulmonary haemorrhage were assessed after TFNAB. Overall diagnostic accuracy, sensitivity, specificity, positive predictive value (PPV) and negative predictive value (NPV) were analysed. Results: In 94 TFNAB procedures, 58 lesions were malignant and 36 were benign. The sensitivity, specificity, PPV, NPV and overall diagnostic accuracy rate of TFNAB were 93.1%, 100%, 100%, 90% and 97.9%, respectively. Pneumothorax was developed in 24 procedures. None of the parameters showed significant impact on the frequency of the pneumothorax. Overall haemorrhage occurred in 43 procedures. The incidence of overall haemorrhage was higher in patients with smaller lesions, longer pleural distance and pleural abutted lesions (p<0.05). Differences in visibility at projection radiographs were statistically significant between patients with or without perilesional haemorrhage (p<0.05). Conclusion: Transthoracic fine-needle aspiration biopsy using a C-arm CBCT system is feasible for imaging guidance of lung lesion and early detection of the procedural-related complications.