Indocyanine green localization for preoperative CT-guided localization of multiple pulmonary nodules.
Thoracic cancer
OBJECTIVES:This study assesses the safety and efficacy of using indocyanine green (ICG) for preoperative CT-guided localization of multiple pulmonary nodules. METHODS:We included patients who underwent CT-guided preoperative ICG localization followed by video-assisted thoracoscopic surgery (VATS). Four primary outcomes were evaluated: technical success, pneumothorax, pulmonary hemorrhage, and postoperative hospital stay (PHS). Patients were classified into single nodule and multiple nodules groups, with further subgroups based on the side of localization including unilateral and bilateral subgroups. Univariate and multivariate analyses were used to evaluate risk factors for PHS and pneumothorax. RESULTS:A total of 374 patients (54.8 ± 11.4 years, 99 with multiple nodules). The success rate in the multiple nodules group was 98.3%, similar to single nodules. Apart from PHS, no significant differences were observed in outcomes between patients with single and multiple nodules. Longer PHS was observed for patients with multiple nodules (3 [2-4] days vs. 3 [3-4] days, p = 0.022). Multivariable analysis indicated longer stays were associated with pulmonary hemorrhage during localization, surgical blood loss, postoperative complications, and non-segmentectomy procedures. Advanced age emerged as the sole independent risk factor for pneumothorax. The success rate in the unilateral subgroup and the bilateral subgroup was 97.8% and 99%, respectively, with higher pneumothorax rates in the unilateral subgroup (38.3% vs. 20%). CONCLUSION:CT-guided preoperative ICG localization of multiple pulmonary nodules is safe and effective. It can be applied to both unilateral and bilateral nodules, supporting simultaneous VATS resection.
10.1111/1759-7714.15461
CT-guided microcoil localization of pulmonary nodules before VATS: clinical experience in 1059 patients.
European radiology
OBJECTIVE:To retrospectively evaluate the efficacy and safety of CT-guided microcoil localization of pulmonary nodules before video-assisted thoracoscopic surgery (VATS). METHODS:A total of 1059 consecutive patients with 1331 pulmonary nodules treated between July 2018 and April 2021 were included in this study. Of the 1331 nodules, 1318 were localized using the tailed method and 13 were localized using the non-tailed method. The localization technical success rate and complications of the microcoil localization procedure were assessed. Univariate and multivariate logistic regression analyses were used to determine potential risk factors for technical failure, pneumothorax, and pulmonary hemorrhage. RESULTS:The technical success rate of the localization procedure was 98.4% (1310/1331 nodules). Nodule location in the lower lobes (p = 0.015) and need for a longer needle path (p < 0.001) were independent predictors of technical failure. All localization procedure-related complications were minor (grade 1 or 2) adverse events, with the exception of one grade 3 complication. The most common complications were pneumothorax (302/1331 nodules [22.7%]) and pulmonary hemorrhage (328/1331 nodules [24.6%]). Male sex (p = 0.001), nodule location in the middle (p = 0.003) and lower lobes (p = 0.025), need for a longer needle path (p < 0.001), use of transfissural puncture (p = 0.042), and simultaneous multiple localizations (p < 0.001) were independent risk factors for pneumothorax. Female sex (p = 0.015), younger age (p = 0.023), nodules location in the upper lobes (p = 0.011), and longer needle path (p < 0.001) were independent risk factors for pulmonary hemorrhage. CONCLUSIONS:CT-guided microcoil localization of pulmonary nodules before VATS using either the tailed or non-tailed method is effective and safe. CLINICAL RELEVANCE STATEMENT:CT-guided microcoil localization of pulmonary nodules before VATS resection is effective and safe when using either the tailed or non-tailed method. Nodules requiring transfissural puncture and multiple nodules requiring simultaneous localizations can also be successfully localized with this method. KEY POINTS:• Pre-VATS CT-guided microcoil localization of pulmonary nodules by tailed or non-tailed method was effective and safe. • When the feasible puncture path was beyond the scope of wedge resection, localization could be performed using the non-tailed method. • Although transfissural puncture and simultaneous multiple localization were independent risk factors for pneumothorax, they remained clinically feasible.
10.1007/s00330-023-10152-x
Intraoperative localization of small pulmonary nodules to assist surgical resection: A novel approach using a surgical navigation puncture robot system.
Zhou Gang,Chen Xiangqian,Niu Baolong,Yan Yadong,Shao Fan,Fan Yubo,Wang Yu
Thoracic cancer
BACKGROUND:Localization and resection of nonvisible, nonpalpable pulmonary nodules during video-assisted thoracoscopic surgery is challenging. In this study we developed a surgical navigation puncture robot system in order to locate small pulmonary nodules before thoracoscopic surgery. METHODS:Four pigs were divided into group A and group B and underwent positioning puncture with the aid of the robotic system. The pigs in group A breathed freely during the experiment, whilst mechanical ventilation was used on the pigs in group B. RESULTS:Using the robotic system to locate nodules achieved good results. For group A, a total of nine simulated nodules were created and successfully localized. The mean positioning accuracy was 9.6 ± 4.9 mm (range, 3.2-17.4 mm), and the time required for system positioning was 7.1 ± 1.0 minutes (range, 5.6-8.2 minutes). For group B, a total of 23 simulated nodules were created and successfully localized. The mean positioning accuracy was 2.9 ± 1.5 mm (range, 0.7-5.9 mm), and the time required for system positioning was 7.8 ± 1.1 minutes (range, 6.3-9.7 minutes). CONCLUSIONS:The new method using a surgical navigation puncture robot system to locate small pulmonary nodules is feasible and safe, and its positioning accuracy is sufficient to meet clinical requirements. In addition, results indicated that breathing had a great influence on the positioning accuracy, mainly in the longitudinal direction. Our surgical navigation puncture robot system has wide future applications for accurately locating small pulmonary nodules in a clinical setting. KEY POINTS:Significant findings of the study: A new method using a surgical navigation puncture robot system was developed to locate small pulmonary nodules before thoracoscopic surgery. The results indicated that this method can provide accurate localization and permit smaller and more precise resections. WHAT THIS STUDY ADDS:A surgical navigation puncture robot system has wide future applications for accurately locating small pulmonary nodules in a clinical setting.
10.1111/1759-7714.13234
Outcomes of CT-Guided Deeper Localization Technique for Superficial Pulmonary Nodules.
The Thoracic and cardiovascular surgeon
BACKGROUND: The possibility of coil dislocation in computed tomography (CT)-guided microcoil localization of superficial pulmonary nodules is relatively high. The aim of the study is to investigate the outcomes of deeper localization technique during CT-guided microcoil localization of superficial pulmonary nodules before video-assisted thoracoscopic surgery (VATS). METHODS: Fifty-seven identified superficial pulmonary nodules (nodule-pleural distance ≤ 1 cm on CT image) from 51 consecutive patients underwent CT-guided microcoil localization, and subsequent VATSs were included. The rate of technical success, complications, and excised lung volume were compared between deeper localization technique group and conventional localization technique group. RESULTS: The technical success rate of the localization procedure was 100% (25/25) in the deeper localization group and 81.3% (26/32) in the conventional localization group ( = 0.030). Excluding one case of lobectomy, the excised lung volume in the deeper localization group and the conventional localization group was 39.3 ± 23.5 and 37.2 ± 16.2 cm, respectively ( = 0.684). The incidence of pneumothorax was similar between the deeper localization group and the conventional localization group (24.0 vs. 21.9%, respectively, = 0.850). The incidence of intrapulmonary hemorrhage in the deeper localization group was higher (16.0%) than that in the conventional localization group (6.3%), but the difference was not statistically significant ( = 0.388). CONCLUSION: CT-guided microcoil localization of superficial pulmonary nodules prior to VATS using a deeper localization technique is feasible. Deeper localization technique reduced the occurrence of dislocation but did not increase excised lung volume.
10.1055/a-2168-9230
Preoperative computed tomography-guided localization for multiple pulmonary nodules: comparison of methylene blue and coil.
Journal of cardiothoracic surgery
BACKGROUND:Preoperative computed tomography (CT)-guided localization has been used to guide the video-assisted thoracoscopic surgery (VATS) sublobar (wedge or segmental) resection for pulmonary nodules (PNs). We aimed to assess the relative efficacy and safety of CT-guided methylene blue (MB)- and coil-based approaches to the preoperative localization of multiple PNs (MPNs). METHODS:Between January 2015 and December 2020, 31 total cases suffering from MPNs at our hospital underwent CT-guided localization and subsequent VATS resection in our hospital, of whom 15 and 16 respectively underwent MB localization (MBL) and coil localization (CL). The clinical effectiveness and complication rates were compared between 2 groups. RESULTS:The PN- and patient-based technical success rates in the MBL group were both 100%, whereas in the CL group they were 97.2% (35/36) and 93.8% (15/16), respectively, with no substantial discrepancies between groups. Patients in the MBL group illustrated a substantially shorter CT-guided localization duration compared with the CL group (18 min vs. 29.5 min, P < 0.001). Pneumothorax rates (P = 1.000) and lung hemorrhage (P = 1.000) were comparable in both groups. In the MBL and CL groups, the median interval between localization and VATS was 1 h and 15.5 h, respectively (P < 0.001). One-stage VATS sublobar resection of the target nodules was successfully performed in all patients from both groups. CONCLUSION:Both CT-guided MBL and CL can be readily and safely utilized for preoperative localization in individuals who had MPNs, with MBL being correlated with a shorter localization duration compared with CL.
10.1186/s13019-022-01941-4
Comparative analysis of medical glue and positioning hooks for preoperative localization of pulmonary nodules.
Frontiers in oncology
Background:Through preoperative localization, surgeons can easily locate ground glass nodules (GGNs) and effectively control the extent of resection. Therefore, it is necessary to choose an appropriate puncture positioning method. The purpose of this study was to evaluate the effectiveness and safety of medical glue and positioning hooks in the preoperative positioning of GGNs and to provide a reference for clinical selection. Methods:From March 30, 2020 to June 13, 2022, a total of 859 patients with a CT diagnosis of GGNs requiring surgical resection were included in our study at the hospital. Among them, 21 patients who either opted out or could not undergo preoperative localization for various reasons were excluded. Additionally, 475 patients who underwent preoperative localization using medical glue and 363 patients who underwent preoperative localization through positioning hooks were also excluded. We conducted statistical analyses on the baseline data, success rates, complications, and pathological results of the remaining patients. The success rates, complication rates, and pathological results were compared between the two groups-those who received medical glue localization and those who received positioning hook localization. Results:There was no statistically significant difference between the two groups of patients in terms of age, body mass index, smoking history, location of the nodule, distance of the nodule from the pleura, or postoperative pathological results ( > 0.05). The success rate of medical glue and positioning hooks was 100%. The complication rates of medical glue and positioning hooks during single nodule positioning were 39.18% and 23.18%, respectively, which were significantly different ( < 0.001); the complication rates during multiple nodule positioning were 49.15% and 49.18%, respectively, with no statistically significant differences ( > 0.05). In addition, the method of positioning and the clinical characteristics of the patients were not found to be independent risk factors for the occurrence of complications. The detection rate of pulmonary nodules also showed some positive correlation with the spread of COVID-19 during the 2020-2022 period when COVID-19 was prevalent. Conclusion:When positioning a single node, the safety of positioning hooks is greater than when positioning multiple nodes, the safety of medical glue and positioning hooks is comparable, and the appropriate positioning method should be chosen according to the individual situation of the patient.
10.3389/fonc.2024.1392213
Advances in the localization of pulmonary nodules: a comprehensive review.
Journal of cardiothoracic surgery
In recent years, with the widespread use of chest CT, the detection rate of pulmonary nodules has significantly increased (Abtin and Brown, J Clin Oncol 31:1002-8, 2013). Video-assisted thoracoscopic surgery (VATS) is the most commonly used method for suspected malignant nodules. However, for nodules with a diameter less than 1 cm, or located more than 1.5 cm from the pleural edge, especially ground-glass nodules, it is challenging to achieve precise intraoperative localization by manual palpation (Ciriaco et al., Eur J Cardiothorac Surg 25:429-33, 2004). Therefore, preoperative accurate localization of such nodules becomes a necessary condition for precise resection. This article provides a comprehensive review and analysis of the research progress in pulmonary nodule localization, focusing on four major localization techniques: Percutaneous puncture-assisted localization, Bronchoscopic preoperative pulmonary nodule localization, 3D Printing-Assisted Localization, and intraoperative ultrasound-guided pulmonary nodule localization.
10.1186/s13019-024-02911-8
Expert consensus workshop report: Guidelines for preoperative assisted localization of small pulmonary nodules.
Liu Baodong,Gu Chundong
Journal of cancer research and therapeutics
Along with increasing incidence of operable small pulmonary nodules, it becomes difficult to localize nodules via palpation. Accurate localization of small pulmonary nodules has remained a big challenge in lung surgery. Therefore, several techniques for preoperative localizing small pulmonary nodules have evolved, but the advantages and disadvantages of each method remain unclear. We reviewed computed tomography-guided percutaneous and bronchoscopic preoperative assisted localization for small pulmonary nodules. Original, peer-reviewed, and full-length articles in English and Chinese were searched with PubMed and Wanfang data. Case reports and case series with <20 patients were excluded. All localization techniques showed good reliability, but some carry a high rate of major or minor complications and drawbacks. No ideal localization technique is available; thus, the choice of preoperative assisted localization technique still depends on surgeons' preference and local availability of both specialists and instruments.
10.4103/jcrt.JCRT_449_20
Electromagnetic Navigation Bronchoscopy-Guided Dye Marking for Localization of Pulmonary Nodules.
The Annals of thoracic surgery
BACKGROUND:Electromagnetic navigation bronchoscopy (ENB)-guided dye marking is a useful localization method for small pulmonary nodules. This study evaluated the efficacy and safety of intraoperative full virtual ENB-guided dye marking. METHODS:Patients who underwent full virtual ENB-guided dye marking without adjunct intraoperative imaging (fluoroscopy or cone-beam computed tomography) for small pulmonary nodules were investigated retrospectively. Efficacy was evaluated on the basis of the success rates of dye marking (visible dye mark) and nodule localization, and safety was evaluated on the basis of the rate of ENB-related complications. RESULTS:ENB-guided dye marking was performed on 164 nodules in 134 patients. Twenty-seven patients (20.1%) had multiple nodules. The total number of dye marking attempts was 241, and the mean number of markings per nodule was 1.5 ± 0.7. The mean ENB procedure duration was 29.4 ± 15.7 minutes. No ENB-related complications were observed. The success rate of dye marking was 86.7% (209 of 241) and that of localization was 94.5% (155 of 164). Among 63 nodules with multiple dye marking attempts, 62 (98.4%) were successfully localized. In 101 nodules with a single dye marking attempt, 87 (86.1%) were localized with the visceral pleural dye mark. In addition, 6 nodules (5.9%) could be localized with the needle hole on the visceral pleura. The number of dye marking attempts was a significant factor in the success of localization (1.5 ± 0.7 vs 1.1 ± 0.3, P = .01). CONCLUSIONS:Full virtual ENB-guided dye marking was effective and safe for the localization of small pulmonary nodules. A multiple dye marking strategy is recommended to achieve a high success rate.
10.1016/j.athoracsur.2021.05.004