Video-Assisted Thoracoscopic Lobectomy: State of the Art and Future Directions

Exploring Surgical Management Strategies for Endobronchial Tumors

Endobronchial tumors, though relatively uncommon, present a diverse array of pathological conditions, including both benign and malignant neoplasms. This retrospective study focuses on the surgical management of seven such cases affecting the main or lobar bronchi. The study involves a diverse patient population, ranging in age from 18 to 65 years, with a median age of 26 years. The cases include both male and female individuals, indicating the presence of these tumors across various demographics. We carried out surgical interventions to remove the tumor while preserving the lung parenchyma. Surgical techniques included video-assisted thoracic surgery (VATS), lobectomy, and/or a combination of these methods. The choice of approach was guided by the tumor's location and nature. VATS, although widely performed, can sometimes pose challenges, leading to conversions to open thoracotomy in specific cases. All seven cases resulted in uneventful postoperative periods and excellent long-term outcomes, affirming the efficacy of the surgical procedures. Notably, despite variations in age and gender, the treatment approaches consistently yielded favorable long-term results. This study demonstrates the importance of personalized surgical strategies for endobronchial tumors while considering the nature and location of the tumor. VATS stands as a viable option, particularly in benign cases, provided careful case selection and the availability of skilled surgeons. These findings contribute to the growing body of evidence supporting the benefits of VATS in the management of endobronchial tumors.

Nonintubated spontaneous ventilation versus intubated mechanical ventilation anesthesia for video-assisted thoracic surgery in terms of perioperative complications and practitioners' workload assessments: a pilot randomized control study

BACKGROUND

The use of nonintubated video-assisted thoracoscopic surgery (NI-VATS) has been increasingly reported to yield favourable outcomes. However, this technology has not been routinely used because its advantages and safety have not been fully confirmed. The aim of this study was to assess the safety and feasibility of nonintubated spontaneous ventilation (NI-SV) anesthesia compared to intubated mechanical ventilation (I-MV) anesthesia in VATS by evaluating of perioperative complications and practitioners' workloads.

METHODS

Patients who underwent uniportal VATS were randomly assigned at a 1:1 ratio to receive NI-SV or I-MV anesthesia. The primary outcome was the occurrence of intraoperative airway intervention events, including transient MV, conversion to intubation and repositioning of the double-lumen tube. The secondary outcomes included perioperative complications and modified National Aeronautics and Space Administration Task Load Index (NASA-TLX) scores from anesthesiologists and surgeons.

RESULTS

Thirty-five patients in each group were enrolled in the intention-to-treat analysis. The incidence of intraoperative airway intervention events was greater in the NI-SV group than in the I-MV group (12 [34.3%] vs. 3 [8.6%]; OR = 0.180; 95% CI = 0.045-0.710; p = 0.009). No significant difference was found in the postoperative pulmonary complications between the groups (p > 0.05). The median of the anesthesiologists' overall NASA-TLX score was 37.5 (29-52) when administering the NI-SV, which was greater than the 25 (19-34.5) when the I-MV was administered (p < 0.001). The surgeons' overall NASA-TLX score was comparable between the two ventilation strategies (28 [21-38.5] vs. 27 [20.5-38.5], p = 0.814).

CONCLUSION

The NI-SV anesthesia was feasible for VATS in the selected patients, with a greater incidence of intraoperative airway intervention events than I-MV anesthesia, and with more surgical effort required by anesthesiologists.

TRIAL REGISTRATION

Chinese Clinical Trial Registry, ChiCTR2200055427. https://www.chictr.org.cn/showproj.html?proj=147872 was registered on January 09, 2022.

Signature identification of relapse-related overall survival of early lung adenocarcinoma after radical surgery

Background

The widespread use of low-dose chest CT screening has improved the detection of early lung adenocarcinoma. Radical surgery is the best treatment strategy for patients with early lung adenocarcinoma; however, some patients present with postoperative recurrence and poor prognosis. Through this study, we hope to establish a model that can identify patients that are prone to recurrence and have poor prognosis after surgery for early lung adenocarcinoma.

Materials and Methods

We screened prognostic and relapse-related genes using The Cancer Genome Atlas (TCGA) database and the GSE50081 dataset from the Gene Expression Omnibus (GEO) database. The GSE30219 dataset was used to further screen target genes and construct a risk prognosis signature. Time-dependent ROC analysis, calibration degree analysis, and DCA were used to evaluate the reliability of the model. We validated the TCGA dataset, GSE50081, and GSE30219 internally. External validation was conducted in the GSE31210 dataset.

Results

A novel four-gene signature (INPP5B, FOSL2, CDCA3, RASAL2) was established to predict relapse-related survival outcomes in patients with early lung adenocarcinoma after surgery. The discovery of these genes may reveal the molecular mechanism of recurrence and poor prognosis of early lung adenocarcinoma. In addition, ROC analysis, calibration analysis and DCA were used to verify the genetic signature internally and externally. Our results showed that our gene signature had a good predictive ability for recurrence and prognosis.

Conclusions

We established a four-gene signature and predictive model to predict the recurrence and corresponding survival rates in patients with early lung adenocarcinoma after surgery. These may be helpful for reforumulating post-operative consolidation treatment strategies.

Nalbuphine and dexmedetomidine as adjuvants to ropivacaine in ultrasound-guided erector spinae plane block for video-assisted thoracoscopic lobectomy surgery: A randomized, double-blind, placebo-controlled trial

BACKGROUND

Adjuvants to local anesthetics, such as nalbuphine and dexmedetomidine, can be used to improve the quality and duration of peripheral nerve block effects. Dexmedetomidine has been successfully used as an adjuvant of erector spinae plane block (ESPB) with ropivacaine in video-assisted thoracoscopic lobectomy surgeries (VATLS). This study aimed to compare the effects of nalbuphine and dexmedetomidine used as adjuvants to ropivacaine for ESPB in VATLS.

METHODS

A total of 102 patients undergoing VATLS with ESPB were enrolled and randomized into 3 groups, each of which received a different adjuvant to ropivacaine. The visual analogue scale score, onset and duration of sensory block, use of patient-controlled analgesia (PCA), rate of rescue analgesia, duration of postoperative hospitalization, incidence of postoperative nausea and vomiting, and chronic pain were measured and observed.

RESULTS

The visual analogue scale score, total PCA use, rate of rescue analgesia, and postoperative chronic pain in the ropivacaine with dexmedetomidine (RD), and ropivacaine with nalbuphine (RN) groups were lower than those in the ropivacaine (RC) group (P < .05). The duration of sensory block was longer and the first use of PCA occurred later in the RD and RN groups than they did in the RC group (P < .05).

CONCLUSIONS

As an adjuvant to ropivacaine in ESPB, nalbuphine and dexmedetomidine are comparable in terms of the associated analgesia, sensory block duration, need for rescue analgesia, and incidence of chronic pain in patients after VATLS.

[Reasons for Conversion to Thoracotomy in 83 Cases during Video-assisted Thoracic Surgery Lobectomy: A Summary of 1,350 Consecutive Operations by A Single Surgical Team]

背景与目的

电视胸腔镜手术（video-assisted thoracic surgery, VATS）为肺癌治疗的主流术式，本研究旨在分析单手术组连续VATS肺叶切除术1, 350例中转开胸83例的中转原因，以期对常态下胸腔镜肺叶切除术中转开胸的规律有更深层次的认识，并更好地把握中转开胸的手术时机。

方法

回顾性分析2009年9月21日-2020年6月1日河北医科大学第四医院胸外科单手术组连续行胸腔镜肺叶切除术的1, 350例患者资料。其中男性773例，女性577例，年龄8岁-87岁，中位年龄61.3岁。全组良性疾病83例，肺转移瘤38例，原发性肺癌1, 229例，其中Ⅰ期: 676例，Ⅱ期: 323例，Ⅲa期: 230例。全组行左肺上叶切除术301例（22.30%），左肺下叶切除术231例（17.11%），右肺上叶切除术378例（28.00%），右肺中叶切除术119例（8.81%），右肺下叶切除术262例（19.41%），右肺中上叶切除术16例（1.19%），右肺中下叶切除术43例（3.19%）。

结果

单手术组连续1, 350例胸腔镜肺叶切除术患者中有83例（6.15%）因不同原因中转开胸。良性病变的中转开胸率高于恶性肿瘤（P < 0.05）；病理分期为Ⅲa期的中转开胸率明显高于Ⅰ期、Ⅱ期患者（P < 0.05）。联合肺叶切除术的中转开胸率明显高于单肺叶切除术（P=0.001）；左肺上叶切除术的中转开胸率显著高于其他单肺叶切除术（P < 0.001）；右肺中叶切除术的中转开胸率低于其他单肺叶切除术（P=0.049）。中转开胸主要原因为血管损伤（38.55%）、淋巴结干扰（26.51%）、胸腔致密粘连（16.87%）；中转开胸组总体手术时间为（236.99±66.50）min，总体失血量（395.85±306.38）mL。其中淋巴结干扰组患者手术时间（322.50±22.68）min，长于其他原因中转开胸组（P < 0.05）；血管损伤组术中出血量（560.94±361.84）mL，多于其他原因中转开胸组（P < 0.05）；随着时间的推移以及经验的积累，在手术前、中、后期血管损伤例数逐步下降（P < 0.05）。

结论

在胸腔镜手术中，肺部良性病变和较晚期恶性肿瘤有较高的手术难度和中转率。不同肺叶切除术中转开胸率不同，左肺上叶切除术中转率较高，而右肺中叶切除术中转率较低。血管损伤、淋巴结干扰、胸腔致密粘连仍是常态下胸腔镜肺叶切除术中转开胸的主要原因。中转开胸会导致手术时间延长和手术出血量增加。随着手术例数的增加，胸腔镜肺叶切除术中转开胸率有持续下降趋势，其主要原因是肺血管的处理更加成熟。

Multi-disciplinary approach for the management of non-metastatic non-small cell lung cancer in the Middle East and Africa: Expert panel recommendations

The Middle East and Africa (MEA) region, a large geographical area, lies at the confluence of Asian, Caucasian and African races and comprises of a population with several distinct ethnicities. The course of management of non-small cell lung cancer (NSCLC) differs as per patients' performance status as well as stage of disease, requiring personalized therapy decisions. Although management of NSCLC has received a significant impetus in the form of molecularly targeted therapies and immune therapies in last few years, surgery remains gold standard for patients with early-stage disease. In case of unresectable disease, radiotherapy and chemotherapy are the primary management modalities. With newer therapies being approved for treatment of early stage disease, use of multi-disciplinary team (MDT) for comprehensive management of NSCLC is of prime importance. A group of experts with interest in thoracic oncology, deliberated and arrived at a consensus statement for the community oncologists treating patients with NSCLC in the MEA region. The deliberation was based on the review of the published evidence including literature and global and local guidelines, subject expertise of the participating panellists and experience in real-life management of patients with NSCLC. We present the proposed regional adaptations of international guidelines and recommends the MDT approach for management of NSCLC in MEA.

Morbidity and extent of surgical resection of carcinoid tumors after endobronchial treatment

OBJECTIVES

This study assessed whether endobronchial therapy (EBT) for bronchial carcinoid, if not curative, reduces the extent of the surgical resection and whether EBT is associated with increased surgical morbidity.

MATERIAL AND METHODS

Analysis was performed in a cohort of patients with bronchial carcinoid who have undergone surgical resection. A group that underwent EBT before the surgery (S + EBT) was compared with a group where no EBT was performed (S-EBT). Postoperative complications were also compared between both groups.

RESULTS

A total of 254 patients treated for a bronchial carcinoid tumor between 2003 and 2019 were screened for inclusion. A total of 65 surgically treated patients were included, of whom 41 (63%) underwent EBT prior to surgery. In 5 out of 41 patients (12%) from the S + EBT group, less parenchyma was resected versus 2 out of 24 (8%) from the S-EBT group (OR 1.528, 95% CI 0.273-8.562, p = 1.000). Two patients from the S + EBT group (5%) underwent lobectomy instead of sleeve lobectomy versus 0 from the S-EBT group (OR 1.051, 95% CI 0.981-1.127, p = 0.527). Comparing complications between the S + EBT and S-EBT group did not result in increased postoperative surgical morbidity (15% S + EBT, 24% S-EBT).

CONCLUSION

EBT, if not curative, does not reduce the extent of the subsequent surgical resection. Therefore, if curative EBT is not anticipated, patients should directly be referred for surgery. If curative EBT seems feasible, it should be attempted not only because surgical resection can be prevented, but also because failure of EBT is not associated with excess surgical morbidity.

Thoracoscopic Vs Open Surgery Following Neoadjuvant Chemoradiation for Clinical N2 Lung Cancer

We evaluated the feasibility of video-assisted thoracoscopic surgery (VATS) following neoadjuvant concurrent chemoradiotherapy (nCCRT) for N2 non-small-cell lung cancer (NSCLC). We retrospectively reviewed patients with clinical N2 NSCLC who underwent lobectomy and lymph node dissection after nCCRT. The patients were matched using a propensity score based on age, sex, pulmonary function test, histologic type, clinical T factor, and method of N-staging. A total of 385 patients were enrolled between June 2012 and July 2017 (35 VATS, 350 open). After propensity matching (31 VATS, 112 open), the VATS group showed a significantly lower major complication rate (≥ grade II Clavien-Dindo classification; 9.7% vs 30.4%, P = 0.036). No significant differences were found between 2 group of 5-year survival rates (77.1% for the VATS group, 59.9% for the open group; P = 0.276) and recurrence-free survival rates (66.3% for the VATS group, 54.6% for the open group; P = 0.354). In multivariable analysis, VATS did not affect overall survival and recurrence-free survival. VATS was comparable to open thoracotomy in patients with clinical N2 NSCLC after nCCRT without compromising oncologic efficacy.

Utilities and placement skills of the incision protective sleeve in video-assisted thoracoscopic surgery (VATS)

Background

The incision protective sleeve can protect incisions and help to establish an operating port and thus has been widely applied in thoracic surgeries. However, its other utilities are often neglected. This article explores the additional functions and placement techniques of incision protective sleeves in video-assisted transthoracic surgery (VATS).

Methods

Operators with different surgical experience were divided into three groups: resident group, attending surgeon group, and professor group. Each group independently chose one of the four surgical maneuvers, and the incision protective sleeve was placed during the operation. Up to 200 operations were randomly selected in each group, and the patients’ gender, age, incision site, incision length, the operator’s experience, and the time and technique of incision protective sleeve placement were recorded. CT was performed to measure the thickness of chest wall and the width of intercostal spaces. Data were analyzed using SPSS 21.0 software package. Multivariate linear regression analysis was performed was performed for the time required for incision protective sleeve placement.

Results

The operator’s experience was inversely related to the time required for incision protective sleeve placement, width of intercostal spaces was negatively correlated with operative time, chest wall thickness and incision length were positively correlated with operative time. Among the maneuvers, incision protective sleeve placement skills were significant different.

Conclusions

The placement of the incision protective sleeve for VATS is affected by multiple factors, which are not only related to the patient’s condition, chest wall thickness and intercostal space, but also closely related to the operator’s experience and the manipulation adopted.

International expert consensus on the management of bleeding during VATS lung surgery

Intraoperative bleeding is the most crucial safety concern of video-assisted thoracic surgery (VATS) for a major pulmonary resection. Despite the advances in surgical techniques and devices, intraoperative bleeding is still not rare and remains the most common and potentially fatal cause of conversion from VATS to open thoracotomy. Therefore, to guide the clinical practice of VATS lung surgery, we proposed the International Interest Group on Bleeding during VATS Lung Surgery with 65 experts from 10 countries in the field to develop this consensus document. The consensus was developed based on the literature reports and expert experience from different countries. The causes and incidence of intraoperative bleeding were summarised first. Seven situations of intraoperative bleeding were collected based on clinical practice, including the bleeding from massive vessel injuries, bronchial arteries, vessel stumps, and bronchial stumps, lung parenchyma, lymph nodes, incisions, and the chest wall. The technical consensus for the management of intraoperative bleeding was achieved on these seven surgical situations by six rounds of repeated revision. Following expert consensus statements were achieved: (I) Bleeding from major vascular injuries: direct compression with suction, retracted lung, or rolled gauze is useful for bleeding control. The size and location of the vascular laceration are evaluated to decide whether the bleeding can be stopped by direct compression or by ligation. If suturing is needed, the suction-compressing angiorrhaphy technique (SCAT) is recommended. Timely conversion to thoracotomy with direct compression is required if the operator lacks experience in thoracoscopic angiorrhaphy. (II) Bronchial artery bleeding: pre-emptive clipping of bronchial artery before bronchial dissection or lymph node dissection can reduce the incidence of bleeding. Bronchial artery bleeding can be stopped by compression with the suction tip, followed by the handling of the vascular stump with energy devices or clips. (III) Bleeding from large vessel stumps and bronchial stumps: bronchial stump bleeding mostly comes from accompanying bronchial artery, which can be clipped for hemostasis. Compression for hemostasis is usually effective for bleeding at the vascular stump. Otherwise, additional use of hemostatic materials, re-staple or a suture may be necessary. (IV) Bleeding from the lung parenchyma: coagulation hemostasis is the first choice. For wounds with visible air leakage or an insufficient hemostatic effect of coagulation, suturing may be necessary. (V) Bleeding during lymph node dissection: non-grasping en-bloc lymph node dissection is recommended for the nourishing vessels of the lymph node are addressed first with this technique. If bleeding occurs at the site of lymph node dissection, energy devices can be used for hemostasis, sometimes in combination with hemostatic materials. (VI) Bleeding from chest wall incisions: the chest wall incision(s) should always be made along the upper edge of the rib(s), with good hemostasis layer by layer. Recheck the incision for hemostasis before closing the chest is recommended. (VII) Internal chest wall bleeding: it can usually be managed with electrocoagulation. For diffuse capillary bleeding with the undefined bleeding site, compression of the wound with gauze may be helpful.

Risk factors for post-operative pulmonary complications in lung cancer patients after video-assisted thoracoscopic lung resection: Results of the German Thorax Registry

OBJECTIVE

Post-operative pulmonary complications (PPCs) represent the most frequent complications after lung surgery. The aim of this study was to identify the modifiable risk factors for PPCs after video-assisted thoracoscopic surgery (VATS) in lung cancer patients.

METHODS

Data of this retrospective study were extracted from the German Thorax Registry, an interdisciplinary and multicenter database of the German Society of Anesthesiology and Intensive care medicine and the German Society of Thoracic Surgery. Univariate and multivariate stepwise logistic regression analysis of patient-specific and procedural risk factors for PPCs were conducted.

RESULTS

We analyzed 376 patients with lung cancer who underwent VATS bilobectomy (n = 2), lobectomy (n = 258) or segmentectomy (n = 116) in 2016 and 2017. One-hundred fourteen patients (114/376; 30%) developed PPCs. Two patients died within 30 days after surgery. In the univariate analysis, patients of the PPC group showed significantly more often a body mass index (BMI) ≤ 19 kg/m² ; a pre-operative forced expiratory volume in 1 second (FEV₁ ) ≤ 60%; a pre-operative arterial oxygen partial pressure (p_a O₂ ) ≤ 60 mm Hg; a higher rate of prolonged duration of surgery (≥2 hours [h]) and a higher frequency of intraoperative blood loss ≥500 mL. The multivariate stepwise logistic regression analysis revealed 4 independent risk factors: FEV₁ ≤ 60% (1.9[1.1-3.4] OR [95% CI], P = 0.029); p_a O₂ ≤ 60 mm Hg (4.6[1.7-12.8] OR [95% CI], P = 0.003; duration of surgery ≥2 hours (2.7[1.5-4.7] OR [95% CI], P = 0.001) and intraoperative crystalloids ≥6 mL/kg/h (2.9[1.2-7.5] OR [95% CI], P = 0.023).

CONCLUSION

Intraoperative amount of crystalloid fluids should be kept below 6 mL/kg/h and duration of surgery should be below 2 hours to avoid an increased risk for PPCs.

Surface deformation analysis of collapsed lungs using model-based shape matching

Purpose

To facilitate intraoperative localization of lung nodules, this study used model-based shape matching techniques to analyze the inter-subject three-dimensional surface deformation induced by pneumothorax. Methods: Contrast- enhanced computed tomography (CT) images of the left lungs of 11 live beagle dogs were acquired at two bronchial pressures (14 and 2 cm\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\,\hbox {H}_2\hbox {O}$$\end{document}H2O). To address shape matching problems for largely deformed lung images with pixel intensity shift, a complete Laplacian-based shape matching solution that optimizes the differential displacement field was introduced.

Results

Experiments were performed to confirm the methods’ registration accuracy using CT images of lungs. Shape similarity and target displacement errors in the registered models were improved compared with those from existing shape matching methods. Spatial displacement of the whole lung’s surface was visualized with an average error of within 5 mm.

Conclusion

The proposed methods address problems with the matching of surfaces with large curvatures and deformations and achieved smaller registration errors than existing shape matching methods, even at the tip and ridge regions. The findings and inter-subject statistical representation are directly available for further research on pneumothorax deformation modeling.

Electronic supplementary material

The online version of this article (10.1007/s11548-019-02013-0) contains supplementary material, which is available to authorized users.

Learning Curve of Robotic Lobectomy for Early-Stage Non-Small Cell Lung Cancer by a Thoracic Surgeon Adept in Open Lobectomy

OBJECTIVE

The aim of the study was to characterize the clinical outcomes and learning curve during the adoption of a robotic platform for lobectomy for early-stage non-small cell lung cancer by a thoracic surgeon experienced in open thoracotomy.

METHODS

Retrospective review of 157 consecutive patients (57 open thoracotomies, 100 robotic lobectomies) treated with lobectomy for clinical stage I or II non-small cell lung cancer between 2007 and 2014. Clinical outcomes were compared between the open thoracotomy group and five consecutive groups of 20 robotic lobectomies. We used the following six metrics to evaluate learning curve: operative time, conversion to open, estimated blood loss, hospitalization duration, overall morbidity, and pathologic nodal upstaging.

RESULTS

The robotic and open thoracotomy groups had equivalent preoperative characteristics, except for a higher proportion of clinical stage IA patients in the robotic cohort. The robotic group, as a whole, had lower intraoperative blood loss, less overall morbidity, shorter chest tube duration, and shorter length of hospital stay as compared with the open thoracotomy group. Operative time demonstrated a bimodal learning curve. Conversion rate diminished from 22.5% in the first two robotic groups to 6.7% in the latter three groups. The rate of pathologic nodal upstaging was statistically equivalent to the open thoracotomy group.

CONCLUSIONS

Adoption of a robotic platform for lobectomy for early-stage non-small cell lung cancer by an experienced open thoracic surgeon is safe and feasible, with fewer complications, less blood loss, and equivalent nodal sampling rate even during the learning curve. The conversion to open rate significantly dropped after the first 40 robotic lobectomies, and operative time for robotic lobectomy approached open thoracotomy after 60 cases, after a bimodal curve.

Comparison between video-assisted thoracoscopic lung cancer resection and robot-assisted lung cancer resection: Protocol for a systematic review and meta-analysis

BACKGROUND

Video-assisted thoracoscopic surgery (VATS) has developed rapidly and a variety of feasible technical methods have been formed. VATS is the main way of lung cancer resection nowadays with minor surgical incision and less bleeding. Robot-assisted thoracic surgery (RATS) is a revolution in surgical procedures and robotic pulmonary resection has been put to use by an increasing quantity of hospitals around the world. However, the widespread adoption of robot-assisted lung cancer resection is controversial. We aimed to evaluate quality metrics of these 2 different approaches of operation by this review and meta-analysis.

METHODS AND ANALYSIS

We will search Medline, Embase, Pubmed, Google Scholar, and the Cochrane Central Register of Controlled Trials for related literature published in any language before February 28, 2019. Propensity score matched comparative studies, prospective cohort studies; randomized controlled trials (RCTs) will be included. If sufficient data are available, we will perform subgroup analysis in different operative types of lung cancer resection.

RESULTS

The results of this study will be published in a peer-reviewed journal.

CONCLUSION

To our knowledge, this will be the first time to use meta-analysis to assess quality metrics of video-assisted thoracoscopic lung cancer resection and robot-assisted lung cancer resection. The results of this study will provide more proofs for researchers, clinicians, and patients with lung cancer to choose a suitable surgical procedure. There is not enough high-quality evidence of RCTs to be included, due to the characteristics of interventions. We will try to include some non-randomized controlled trials, small sample trails. Although our team has experience in carrying out a systematic review and meta-analysis, there may be high heterogeneity and low reliability of evidence, which is the limitation of this study.

Thoracotomy versus video-assisted thoracoscopic resection of lung cancer: A protocol for a systematic review and meta-analysis

BACKGROUND

Video-assisted thoracoscopic surgery (VATS) is a kind of minimally invasive surgery with the advantages of small surgical incision, less surgical bleeding, and fewer hospitalization days. However, traditional thoracotomy has advantages in lymph node dissection and radical resection of tumors and the benefits of VATS compared with thoracotomy for lung cancer are controversial. This systematic review and meta-analysis will be conducted to evaluate the advantages and disadvantages of the 2 different surgical methods.

METHODS AND ANALYSIS

PubMed (Medline), Embase, Cochrane Central Register of Controlled Trials, and Google Scholar will be searched for relevant randomized controlled trials (RCTs), quasi-RCTs, and Hi-Q (high quality) prospective cohort trials published or unpublished in any language before March 1, 2019. Subgroup analysis will be performed in type of operation, tumor pathological stage, and ethnicity.

RESULTS

The results of this study will be published in a peer-reviewed journal.

CONCLUSION

As far as we know, this study will be the first time to compare and meta-analyze the efficacy of thoracoscopic lung cancer resection and thoracotomy. This study will provide high-quality and reliable evidence for clinicians' decision-making by comparing published or completed but unpublished trials data. Because of the characteristics of disease and intervention methods, large sample size and RCTs may be insufficient. We will carefully consider the inclusion of small sample RCTs, but this may lead to high heterogeneity and affect the reliability of research results.

PROSPERO REGISTRATION NUMBER

CRD42018118427.

Uniportal video-assisted thoracoscopy major lung resections after neoadjuvant chemotherapy

Background

The combination of neoadjuvant chemotherapy and surgery in lung cancer therapy is well established. The role of uniportal video assisted thoracoscopy (VATS) is still not described in literature. This study presents the preliminary short-term results of uniportal VATS after neoadjuvant therapy in our series.

Methods

The prospectively collected data of 154 patients after uniportal VATS anatomical lung resection (18 patients after neoadjuvant chemotherapy and 136 surgeries alone) were retrospectively reviewed. The perioperative results and follow-up of patients after neoadjuvant therapy were analyzed and compared to those after surgery alone.

Results

The mean age of population was 67.51±10.63 years. The mean operative time was overlapping in both groups: 248.97±118.17 min in surgery group and 287.17±94.13 min in chemotherapy + surgery group (P=0.190), with no difference in terms of types of anatomical lung resections performed and number of lymph nodes retrieved. The intraoperative mortality was null in both groups. The incidence of all complications was the same in both groups and no correlations was found with any possible risk factor evaluated (age, gender, comorbidities, type of resection, histology, etc.). Among minor complications, the incidence of parenchymal fistula was significantly higher in the 18 patients underwent chemotherapy (22.2% vs. 5.1% respectively, P=0.013). The overall survival of the series was 93% at 1 year follow-up and 88% at 5-year. The 1- and 2-year survival in only surgery group was 94% and 89% respectively vs. 85% and 85% in Chemotherapy + surgery, without any significant difference (P=0.324).

Conclusions

According to our experience, uniportal VATS after neoadjuvant therapy is feasible and quite safe. The oncological results and postoperative complications are comparable to those of other techniques. Uniportal VATS can be performed even for complicated cases in experienced centers.

Outcomes of Pulmonary Resection and Mediastinal Node Dissection by Video-Assisted Thoracoscopic Surgery Following Neoadjuvant Chemoradiation Therapy for Stage IIIA N2 Non-Small Cell Lung Cancer

Background

We evaluated the feasibility and outcomes of pulmonary resection and mediastinal node dissection (MND) by video-assisted thoracoscopic surgery (VATS) following neoadjuvant therapy for stage IIIA N2 non-small cell lung cancer (NSCLC).

Methods

From November 2009 to December 2013, a total of 35 consecutive patients with pathologically or radiologically confirmed stage IIIA N2 lung cancer underwent pulmonary resection and MND, performed by a single surgeon, following neoadjuvant chemoradiation. Preoperative patient characteristics, surgical outcomes, postoperative drainage, postoperative complications, and mortality were retrospectively analyzed.

Results

VATS was completed in 17 patients. Thoracotomy was performed in 18 patients, with 13 planned thoracotomies and 5 conversions from the VATS approach. The median age was 62.7±7.9 years in the VATS group and 60±8.7 years in the thoracotomy group. The patients in the VATS group tended to have a lower diffusing capacity for carbon monoxide (p=0.077). There were no differences between the 2 groups in the method of diagnosing the N stage, tumor response and size after induction, tumor location, or histologic type. Complete resection was achieved in all patients. More total and mediastinal nodes were dissected in the VATS group than in the thoracotomy group (p<0.05). The median chest tube duration was 5.3 days (range, 1 to 33 days) for the VATS group and 7.2 days (range, 2 to 28 days) for the thoracotomy group. The median follow-up duration was 36.3 months. The 5-year survival rates were 76% in the VATS group and 57.8% in the thoracotomy group (p=0.39). The 5-year disease-free survival rates were 40.3% and 38.9% in the VATS and thoracotomy groups, respectively (p=0.8).

Conclusion

The VATS approach following neoadjuvant treatment was safe and feasible in selected patients for the treatment of stage IIIA N2 NSCLC, with no compromise of oncologic efficacy.

Enhanced recovery after surgery using uniportal video-assisted thoracic surgery for lung cancer: A preliminary study

Background

This study investigated the clinical efficiency of enhanced recovery after surgery (ERAS) using uniportal video‐assisted thoracoscopic surgery for lung cancer.

Methods

The clinical data of 83 patients with early‐stage non‐small cell lung cancer (NSCLC) at the First Affiliated Hospital of Soochow University from January 2016 to February 2017 were retrospectively analyzed. ERAS was applied to 38 patients (ERAS group), while 45 patients received conventional surgical treatment (control group). The operative duration, number of lymph nodes retrieved, blood loss, visual analogue scale (VAS), postoperative duration of chest tube placement, length of hospital stay, and postoperative complications were compared between the groups.

Results

Surgeries were conducted successfully in all patients, and no mortality occurred during the perioperative period. The ERAS group had better VAS on the third postoperative day, shorter chest tube duration, and shorter length of hospital stay (P < 0.05). No differences between the groups in terms of operative duration, number of lymph nodes retrieved, blood loss, VAS on the first postoperative day, or complication rate were found (P > 0.05).

Conclusions

ERAS using uniportal video‐assisted thoracoscopic surgery for NSCLC patients is safe and practicable, and could also reduce the length of hospital stay.

Video-Assisted Thoracoscopic Lobectomy Is the Preferred Approach Following Induction Chemotherapy

OBJECTIVE

A video-assisted thoracoscopic surgical (VATS) resection, after induction chemotherapy, has long been considered a relative contraindication. We report our experience with VATS lobectomy after induction chemotherapy for patients with nonsmall cell lung cancer (NSCLC), with propensity-matched group of patients, who underwent an open approach, to determine safety and oncological outcome.

METHODS

A retrospective review of a prospective database (2002-2014) was performed to identify patients undergoing potentially curative lobectomy for NSCLC after induction therapy. Propensity score matching (age, gender, and clinical stage) was performed (1:2) to obtain a balanced cohort of patients undergoing VATS resection and thoracotomy.

RESULTS

A total of 285 patients underwent lobectomy after induction therapy, 114 were propensity matched (VATS, n = 40, thoracotomy, n = 74). There were no differences in the clinicopathological factors or type of induction therapy (conventional versus targeted) between VATS and thoracotomy groups. Similarly, no differences were found in the number of lymph nodes resected (12 versus 15, P = .94), the number of stations sampled (4 for each, P = .68), or in the rate of R0 resection (95% versus 96%, P = .81) between VATS and thoracotomy groups. Five VATS cases were converted to an open approach because of adhesions. VATS resection was associated with less estimated blood loss (EBL), shorter length of stay (LOS), and a trend toward fewer postoperative complications. There was no difference in 5 years disease-free survival (DFS) between VATS and thoracotomy groups (73% versus 48%, P = .09). Similarly, for patients who presented with cN2, there were no differences between thoracotomy and VATS groups in DFS (P = .37). On multi-variable analysis (MVA), only the clinical N1/2 status [Hazard ratio (HR): 4.86, P < .001] independently predicted poor DFS.

CONCLUSIONS

A VATS lobectomy is a feasible, safe, and oncologically sound approach after induction therapy for NSCLC. When compared with thoracotomy, VATS lobectomy is associated with lower EBL, shorter LOS, and a trend toward fewer postoperative complications.

Improved application technique of albumin-glutaraldehyde glue for repair of superficial lung defects

Background

Albumin-glutaraldehyde glue has gained widespread acceptance for treatment of alveolar air leaks (AAL) in thoracic surgery. As liquid run-off during application is detrimental to its sealing efficacy, we developed a modified technique and assessed it in vitro.

Methods

Caudal lobes of freshly excised swine lungs (n = 20) were intubated and ventilated. A standardized focal superficial parenchymal defect (40 × 25 mm) was created on the inflated lung. AAL was assessed under exposure to increasing inspired tidal volume (TVi). Lung lobes were randomly selected and subjected to either a standard sealing suggested by the manufacturer (control group) or a modified technique relying on placement of a square silicone frame around the lesion site (study group). AAL was subsequently assessed until burst failure occurred and the occuring lesions length was recorded on the inflated lung to evaluate elasticity of underlying tissue.

Results

Superficial parenchymal defects resulted in AAL increasing with ascending TVi. AAL prior to sealant application was comparable in both groups. An application error occurred once in our control group. At TVi = 400, 500, 600 and 700 ml, the albumin-glutaraldehyde glue achieved complete sealing in 10, 10, 9 and 8 lungs respectively in our study group, as opposed to 9, 7, 6 and 4 lobes in the control group. The required mean burst pressure was significantly higher in our study group (41.0 ± 1.0 vs. 37.5 ± 4.2 cmH₂O, p = 0.0195), but there was no difference in expansion of covered defect between both groups (1.0 ± 0.4 vs. 1.5 ± 1.7 mm, p = 0.3772).

Conclusions

Our tests suggest that frame-assisted sealant application might prevent glue run-off and thus improves its sealing efficacy. We encourage further investigation of this technique in well-designed, controlled clinical trials.

Electronic supplementary material

The online version of this article (doi:10.1186/s13019-016-0544-6) contains supplementary material, which is available to authorized users.

[Troubleshooting Common Unexpected Situations during Thoracoscopic Anatomical Pulmonary Resection]

The history of modern thoracoscopic pulmonary surgery could date back to the 1990s, and the related surgical technique has been matured after 20 years' development. Meanwhile, large amount of clinical data has been collected. Minimally invasive thoracic surgery represented by the thoracoscopic approach has been universally accepted as the preferred choice for the surgical treatment of early-staged non-small cell lung cancer and pulmonary benign diseases, and for the diagnosis of pulmonary diseases. With the generalization of thoracoscopic anatomical pulmonary resection, some unexpected situations during clinical practice has been reported in literatures, with issues involving anatomical variation, pathological factors, and surgical techniques. However, the systemic summary of the unexpected situations during thoracoscopic anatomical pulmonary resection is lacking until now. The present review, therefore, aims to summarize accidental issues and troubleshooting these unexpected situations on the basis of our own clinical practice and literature reports.

Long-term survival following open versus thoracoscopic lobectomy after preoperative chemotherapy for non-small cell lung cancer

OBJECTIVES

Video-assisted thoracoscopic (VATS) lobectomy is increasingly accepted for the management of early-stage non-small cell lung cancer (NSCLC), but its role for locally advanced cancers has not been as well characterized. We compared outcomes of patients who received induction therapy followed by lobectomy, via VATS or thoracotomy.

METHODS

Perioperative complications and long-term survival of all patients with NSCLC who received induction chemotherapy (ICT) (with or without induction radiation therapy) followed by lobectomy from 1996-2012 were assessed using Kaplan-Meier and Cox proportional hazard analysis. Propensity score-matched comparisons were used to assess the potential impact of selection bias.

RESULTS

From 1996 to 2012, 272 patients met inclusion criteria and underwent lobectomy after ICT: 69 (25%) by VATS and 203 (75%) by thoracotomy. An 'intent-to-treat' analysis was performed. Compared with thoracotomy patients, VATS patients had a higher clinical stage, were older, had greater body mass index, and were more likely to have coronary disease and chronic obstructive pulmonary disease. Induction radiation was used more commonly in thoracotomy patients [VATS 28% (n = 19) vs open 72% (n = 146), P < 0.001]. Thirty-day mortality was similar between the VATS [3% (n = 2)] and open [4% (n = 8)] groups (P = 0.69). Seven (10%) of the VATS cases were converted to thoracotomy due to difficulty in dissection from fibrotic tissue and adhesions (n = 5) or bleeding (n = 2); none of these conversions led to perioperative deaths. In univariate analysis, VATS patients had improved 3-year survival compared with thoracotomy (61% vs 43%, P = 0.010). In multivariable analysis, the VATS approach showed a trend towards improved survival, but this did not reach statistical significance (hazard ratio, 0.56; 95% confidence interval, 0.32-1.01; P = 0.053). Moreover, a propensity score-matched analysis balancing patient characteristics demonstrated that the VATS approach had similar survival to an open approach (P = 0.56).

CONCLUSIONS

VATS lobectomy in patients treated with induction therapy for locally advanced NSCLC is feasible and effective and does not appear to compromise oncologic outcomes.

Diagnostic and therapeutic value of computed tomography guided coil placement after digital subtraction angiography guided video-assisted thoracoscopic surgery resection for solitary pulmonary nodules

BACKGROUND

With the widespread use of general health examinations, the detection rate of pulmonary nodules has increased; however, locating the pulmonary nodules is still a challenge.

METHODS

We reviewed cases that underwent computed tomography (CT)-guided coil localization followed by real-time digital subtraction angiography (DSA)-guided accurate resection of solitary pulmonary nodules (SPNs) using video-assisted thoracoscopic surgery (VATS) at our hospital, and we evaluated the clinical value. From September 2011 to October 2014, 116 cases with SPNs were treated in our unit. The lesion was preoperatively localized using coil placement under CT guidance, and the patients were subsequently transferred to the hybrid operating room. VATS wedge resection with real-time DSA guidance was performed, and further processing was conducted in accordance with the intraoperative pathological diagnosis for these lesions.

RESULTS

Coil localization, which averaged 15.30±3.20 min, was successful in all patients (100%), while VATS wedge resection took 24.20±12.10 min and lobectomy or segmentectomy took 88.8±36 min. The pathological results revealed malignant lesions in 61 cases and benign lesions in 55 cases.

CONCLUSIONS

Preoperative CT-guided coil localization for SPNs had a high accuracy with no serious complications. Following real-time DSA-guided VATS resection, the lesions could be accurately removed with a cutting edge distance of >2 cm to the lesion, which may help diagnose and treat the SPN simultaneously.

Video-Assisted Thoracic Surgery After Median Sternotomy for Cardiac Surgery

Video-assisted thoracic surgery (VATS) lobectomy has become a standard approach for early stage 1 lung cancer. However, concerns still remain regarding certain clinical situations, such as potential damage to the heart or bypass grafts when VATS is performed after median sternotomy for cardiac surgery. In this article, techniques are described to minimize risk to an internal mammary artery graft during a VATS anatomic pulmonary resection in this group of patients. The article reviews data on VATS after median sternotomy for cardiac surgery and describes techniques to prevent, treat, and mitigate problems in this group of patients. Management of intraoperative crises is also discussed.

Left lower sleeve lobectomy and systematic lymph node dissection by complete video-assisted thoracic surgery

Sleeve lobectomy for selected cases of central lung cancer has better functional outcomes comparing to pneumonectomy. With improved technology and increased experiences in complete video-assisted thoracic surgery (VATS) lobectomy, complete VATS sleeve lobectomy has been applied in major medical centers recently. A 64-year-old male patient with left lower central lung cancer underwent thoracoscopic sleeve lobectomy and systemic mediastinal lymph node dissection. The major incision, of four incisions in total, was a 4 cm mini-incision in the 4th intercostal space of anterior axillary line. The patient had recovered uneventfully after the surgery.

Video-assisted thoracoscopic (VATS) lobectomy after induction therapy

Concerns regarding the sequelae of neoadjuvant chemotherapy or chemoradiotherapy on the pleural space and tissue planes had previously deterred the application of video-assisted thoracoscopic (VATS) lobectomy for patients who underwent neoadjuvant therapy. As experience with VATS has increased, however, its application toward more technically demanding operations has also expanded. The diminished impact on pulmonary function associated with the VATS approach may make pulmonary resection more tolerable in compromised patients. This article describes an approach designed for maximal safety on carefully selected patients who have undergone induction therapy.

The evolution of cancer surgery and future perspectives

Surgery is the oldest oncological discipline, dating back thousands of years. Prior to the advent of anaesthesia and antisepsis 150 years ago, only the brave, desperate, or ill-advised patient underwent surgery because cure rates were low, and morbidity and mortality high. However, since then, cancer surgery has flourished, driven by relentless technical innovation and research. Historically, the mantra of the cancer surgeon was that increasingly radical surgery would enhance cure rates. The past 50 years have seen a paradigm shift, with the realization that multimodal therapy, technological advances, and minimally invasive techniques can reduce the need for, or the detrimental effects of, radical surgery. Preservation of form, function, and quality of life, without compromising survival, is the new mantra. Today's surgeons, no longer the uneducated technicians of history, are highly trained medical professionals and together with oncologists, radiologists, scientists, anaesthetists and nurses, have made cancer surgeries routine, safe, and highly effective. This article will review the major advances that have underpinned this evolution.

Surgical management of lung cancer

Surgery serves an important role in the diagnosis, staging, and definitive management of non-small cell lung cancer (NSCLC). Resection is the primary mode of treatment for stage I and II NSCLC and an important component of the multimodality approach to stage IIIA disease. Standard resections include removal of the lobe involved with tumor and systematic evaluation of ipsilateral hilar and mediastinal lymph nodes. For early stage disease the evolving surgical treatment goals are aimed at decreasing morbidity and mortality through less invasive approaches including video-assisted thoracoscopic surgery and robotic approaches, and potentially decreasing the volume of lung removed for select patients with well-staged small peripheral tumors. For patients with locally advanced disease, ongoing research is focused on appropriately identifying patients who will most benefit from the addition of surgery to a multimodality regime and safely integrating resection with chemotherapy and radiotherapy.

Contraindications of video-assisted thoracoscopic surgical lobectomy and determinants of conversion to open

Since the introduction of anatomic lung resection by video-assisted thoracoscopic surgery (VATS) was introduced 20 years ago, VATS has experienced major advances in both equipment and technique, introducing a technical challenge in the surgical treatment of both benign and malignant lung disease. The demonstrated safety, decreased morbidity, and equivalent efficacy of this minimally invasive technique has led to the acceptance of VATS as a standard surgical modality for early-stage lung cancer and increasing application to more advanced disease. However, only a minority of lobectomies are performed using the VATS technique, likely owing to concern for intraoperative complications. Optimal operative planning, including obtaining baseline pulmonary function tests with diffusion measurements, positron emission tomography and/or computed tomography scans, bronchoscopy, and endobronchial ultrasound or mediastinoscopy, can be used to anticipate and potentially prevent the occurrence of complications. With increasing focus on operative planning, as well as comfort and experience with the VATS technique, the indications for which this technique is used has grown. As such, the absolute contraindications have narrowed to inability to tolerate single lung ventilation, inability to achieve complete resection with lobectomy, T3 or T4 tumors, and N2 or N3 disease. However, as VATS lobectomy has been applied to more advanced stage disease, the rate of conversion to open thoracotomy has increased, particularly early in the surgeon's learning curve. Causes of conversion are generally classified into four categories: intraoperative complications, technical problems, anatomical problems, and oncological conditions. Though it is difficult to anticipate which patients may require conversion, it appears that these patients do not suffer from increased morbidity or mortality as a result of conversion to open thoracotomy. Therefore, with a focus on a safe and complete resection, conversion should be regarded as a means of completing resections in a traditional manner rather than as a surgical failure.

Nonintubated thoracoscopic surgery: state of the art and future directions

Video-assisted thoracoscopic surgery (VATS) has become a common and globally accepted surgical approach for a variety of thoracic diseases. Conventionally, it is performed under tracheal intubation with double lumen tube or bronchial blocker to achieve single lung ventilation. Recently, VATS without tracheal intubation were reported to be feasible and safe in a series of VATS procedures, including management of pneumothorax, wedge resection of pulmonary tumors, excision of mediastinal tumors, lung volume reduction surgery, segmentectomy, and lobectomy. Patients undergoing nonintubated VATS are anesthetized using regional anesthesia in a spontaneously single lung breathing status after iatrogenic open pneumothorax. Conscious sedation is usually necessary for longer and intensively manipulating procedures and intraoperative cough reflex can be effectively inhibited with intrathoracic vagal blockade on the surgical side. The early outcomes of nonintubated VATS include a faster postoperative recovery and less complication rate comparing with its counterpart of intubated general anesthesia, by which may translate into a fast track VATS program. The future directions of nonintubated VATS should focus on its long-term outcomes, especially on oncological perspectives of survival in lung cancer patients. For now, it is still early to conclude the benefits of this technique, however, an educating and training program may be needed to enable both thoracic surgeons and anesthesiologists providing an alternative surgical option in their caring patients.

Thoracoscopic surgery for non-small-cell lung cancer: elderly vs. octogenarians

Background: Octogenarians are rarely referred for surgical treatment of lung cancer owing to the morbidity and mortality of pulmonary resection, their frailty, and limited lifespan. We reviewed the results of thoracoscopic surgery, performed completely under the monitor, for treatment of primary non-small-cell lung cancer in octogenarians, and compared them with those in elderly patients.

Patients and methods: Between September 25, 2002 and August 25, 2011, a retrospective database of 24 octogenarians and 70 elderly patients (age range, 75–79 years) who underwent thoracoscopic surgery for treatment of primary non-small-cell lung cancer were reviewed. Demographic, histopathologic, preoperative, perioperative, postoperative, outcome variables, and survival were assessed.

Results: In the octogenarian group, 29% had postoperative respiratory complications, 4% had postoperative cardiac complications, operative mortality was 4%, the recurrence rate was 8%, and the postsurgical 5-year survival rate was 74%. In the elderly group, 25% had postoperative respiratory complications, 6% had postoperative cardiac complications, operative mortality was 3%, the recurrence rate was 6%, and the postsurgical 5-year survival rate was 80%.

Conclusions: Thoracoscopic surgery for treatment of primary non-small-cell lung cancer can be performed with similar postoperative complication rates, operative mortality, and survival in octogenarians when compared to elderly patients.

Video-assisted thoracoscopic surgery with posterior spinal reconstruction for the resection of upper lobe lung tumors involving the spine

BACKGROUND CONTEXT

Video-assisted thoracoscopic surgery (VATS) is associated with less morbidity and recovery time compared with traditional open thoracotomy (OT) for the resection of early stage non-small cell lung cancer (NSCLC). Local invasion of NSCLC into adjacent vertebrae confers a TNM T status of T4. Anatomical lobectomy by VATS with simultaneous posterior spinal reconstruction (PSR), as a single procedure, offers advantages to selected patients judged as suitable candidates for resection.

PURPOSE

To report the preliminary results of a novel, multidisciplinary surgical technique for the treatment of upper lobe lung cancers with direct extension to the spine.

STUDY DESIGN

Consecutive case series.

PATIENT SAMPLE

Eight adults who underwent PSR with either VATS or OT for the treatment of a T4 (vertebral body invasion) NSCLC.

OUTCOME MEASURES

Total operative time, estimated blood loss, length of hospital stay, postoperative tumor recurrence and metastasis, survival, reoperations, and any other intraoperative or postoperative complication.

METHODS

Eight consecutive patients who underwent instrumented PSR with corpectomy for the treatment of an upper lobe NSCLC at a single institution were identified. Either VATS (n=4) or OT (n=4) was performed at the time of the reconstruction in each patient. All tumors were stage III NSCLC without metastasis.

RESULTS

Patients who underwent VATS and OT were aged 54±11 and 54±2.9 years, respectively. Mean operative time and blood loss were similar between the groups: VATS: 367±117 minutes versus OT: 518±264 minutes; VATS: 813±463 mL versus OT: 1,250±1,500 mL. Mean follow-up was 16±13 months after surgery. Complications occurred in all eight patients. One OT patient had wound dehiscence requiring a tissue flap, and another suffered from a septic shock. No wound complications developed after VATS. Death secondary to tumor recurrence occurred once in each group. For the six surviving patients, 23±15 months (range, 4.5-43 months) have elapsed since surgery.

CONCLUSIONS

Video-assisted thoracoscopic surgery with PSR is a novel and viable method for the complete resection of T4 NSCLC.

VATS lobectomy: surgical evolution from conventional VATS to uniportal approach

There is no standardized technique for the VATS lobectomy, though most centres use 2 ports and add a utility incision. However, the procedure can be performed by eliminating the two small ports and using only the utility incision with similar outcomes. Since 2010, when the uniportal approach was introduced for major pulmonary resection, the technique has been spreading worldwide. The single-port technique provides a direct view to the target tissue. The conventional triple port triangulation creates a new optical plane with genesis of dihedral or torsional angle that is not favorable with standard two-dimension monitors. The parallel instrumentation achieved during single-port approach mimics inside the maneuvers performed during open surgery. Furthermore, it represents the less invasive approach possible, and avoiding the use of trocar, we minimize the compression of the intercostal nerve. Further development of new technologies like sealing devices for all vessels and fissure, robotic arms that open inside the thorax, and wireless cameras will facilitate the uniportal approach to become the standard surgical procedure for pulmonary resection in most thoracic departments.

Outcomes of a hybrid technique for video-assisted thoracoscopic surgery (VATS) pulmonary resection in a community setting

BACKGROUND

Video-assisted thoracoscopic surgery (VATS) for pulmonary resection was first described 18 years ago; however, it has yet to gain widespread acceptance in community hospitals in the United States. The majority of surgeons who routinely perform VATS resections work in academic or government institutions. There is little data reporting outcomes of VATS pulmonary resections by community-based surgeons. This article reports the outcomes of a hybrid technique for VATS pulmonary resection in a single-surgeon, community-based practice.

METHODS

A retrospective study was performed on all VATS pulmonary resections performed from January 2000 to March 2008 by a community-based, solo-practice surgeon using a hybrid VATS technique, which utilizes dual access through a thoracoscopy port and a utility incision.

RESULTS

A total of 1170 VATS pulmonary resections were performed over the study period, which is the largest single-surgeon series on VATS pulmonary resection to our knowledge. Among them, 746 cases were for malignant disease. Mean operative time was 52 minutes (median 48 minutes). Mean length of stay was 7 days (median 4 days). Mean length of ICU stay was 1.4 days, with 83% of patients having no days spent in the ICU. Mean length of chest tube duration was 4.5 days. The morbidity rate was 21.1 %, with neuropraxia as the most frequent complication. Perioperative mortality was 4.3% and overall mortality was 16.4%, with a mean follow-up of 425 days.

CONCLUSIONS

This series shows that our hybrid VATS approach to pulmonary resection is safe and feasible at community hospital-based practices.

Thoracoscopic lobectomy for lung cancer after coronary artery bypass grafting using internal thoracic artery

Video-assisted thoracic surgery is useful during a typical lobectomy procedure, though challenging in complicated cases. We report successful video-assisted thoracic surgery lobectomy procedures performed after coronary artery bypass grafting in two lung cancer patients, with severe adhesion of lung parenchyma to grafts of the internal thoracic artery. We avoided dissection of the lung from the grafts and divided the lung parenchyma. No intrathoracic infection or local recurrence was found 5 years after surgery in either patient. The present 'non-dissection technique' is a feasible and safe optional procedure during a lobectomy after coronary artery bypass grafting using internal thoracic artery grafts.

A novel method for troubleshooting vascular injury during anatomic thoracoscopic pulmonary resection without conversion to thoracotomy

Background

Massive bleeding caused by vascular injury is considered the most troublesome and dangerous complication during video-assisted thoracoscopic surgery (VATS) pulmonary resection and is an important reason for emergency conversion to thoracotomy. The purpose of this paper was to show the suction-compressing angiorrhaphy technique (SCAT) for troubleshooting this problem without conversion.

Methods

A total of 414 consecutive VATS anatomic pulmonary resections were performed between May 2006 and July 2011, among which 17 operations (4.11 %) encountered unexpected vascular injury. The procedure for troubleshooting vascular injury included bleeding control and angiorrhaphy. Bleeding was first controlled through side compression of the injured site with an endoscopic suction. Angiorrhaphy was then performed with running 5-0 Prolene suture using different procedures according to the size and location of the injuries, including direct suture upon suction compression, suture after substituting suction compression with clamping of the injured site, or suture after attaining proximal cross-clamping of the main pulmonary artery. Detailed information of these patients was carefully reviewed. The reasons for conversion to thoracotomy also were revealed.

Results

Fifteen cases (15/17, 88.24 %) were successfully managed without conversion. Two cases of left main pulmonary artery injury were converted to thoracotomy due to difficulties in proximal cross-clamping of the injured vessel. Blood loss of the 17 patients ranged from 60–935 (median, 350) ml. Two patients were administered with allogeneic blood. The postoperative chest CT scan showed normal blood flow on the injured vessels. The total conversion rate was 2.66 % (11/414). The most common reason for conversion was hilar lymphadenopathy.

Conclusions

The SCAT is an effective procedure for managing vascular injury during VATS anatomic pulmonary resection. In most cases, bleeding control and angiorrhaphy could be achieved using this method with acceptable blood loss, thereby avoiding emergency conversion to thoracotomy.

Traumatic false aneurysms of the left ventricle after an attempt at video-thoracoscopic surgery

OBJECTIVES Video-thoracoscopic surgery (VTS) has been accepted as a safe and credible technique since 1990. Lung injury is one of the main perioperative complications. Few data are available about cardiac trauma and VTS-related false aneurysm of the left ventricular (LV) wall has not yet been reported. METHODS A 62-year old woman presented with a left thoracic empyema. Video-thoracoscopy was attempted for bacterial sampling and surgical drain of the pleura. A rapid conversion to open thoracotomy was necessary to control massive bleeding after the first thoracic port intrusion. An apical systolic murmur was found 2 weeks later during a systematic clinical examination. The patient was asymptomatic and had no personal history of cardiac disease. RESULTS Colour Doppler imaging showed two spurious aneurysms on the LV wall without any haemopericardium. Pericardial enhancement around the left ventricle was observed on the chest computerized tomography scan with the injection of contrast. After the careful excision of the two false aneurysms, a surgical repair was strengthened with a suture under a cardiopulmonary bypass. The postoperative course was uneventful and the patient was safe at 3 years. CONCLUSIONS This is the first report of LV traumatic false aneurysms secondary to an attempt of a video-thoracoscopic procedure. This is a rare but life-threatening complication because of the risk of spontaneous rupture. Left persistent thoracic empyemas associated with the ipsilateral mediastinum deviation carry a high risk of myocardial damage related to the trocar port intrusion.

Video-assisted thoracic surgery for lung cancer

Video-assisted thoracic surgery (VATS) lobectomy is currently accepted as an appropriate procedure for selected patients with early-stage non-small-cell lung cancer (NSCLC). Evidence has demonstrated that VATS lobectomy is not only a safe and feasible technique, it provides better functional recovery and oncological efficacy similar to that achieved with conventional thoracotomy. However, there are still ongoing issues concerning VATS in terms of terminology, oncological efficacy, functional recovery, benefit of screening detected lung cancer, and its role in limited resection. As the number of VATS procedures are increasing and VATS is becoming a dominant procedural choice, it would be wise to collect evidence and come to a consensus to justify the expansion of surgical indications for VATS.

Indications for conversion of thoracoscopic to open thoracotomy in video-assisted thoracoscopic lobectomy

BACKGROUND

The study aims to discuss indications for conversion to thoracotomy in completely thoracoscopic lobectomy.

METHODS

From September 2006 to April 2010, 306 patients (164 men, 142 women, median age 58.1 years, range 15 to 86 years) underwent completely thoracoscopic lobectomy. There were 223 cases of primary lung cancer, 11 other malignant diseases and 72 cases of benign disease. The steps of the thoracoscopic procedures are almost identical to those of traditional open lobectomy, which requires standard mediastinal lymph node dissection for primary lung cancer patients. When conversion to an open procedure is necessary, such as in the presence of lymph node adhesions or metastases and bleeding, operative incisions are extended 12-15 cm towards lower angle of the scapula, retractors are used to separate the ribs, and the procedure is completely under direct visualization.

RESULTS

All procedures were performed without significant complications or intraoperative deaths. The average surgical duration was 195 min, and average blood loss was 256 mL with no blood transfusions required. The average chest tube drainage duration was 7.45 days. The average post-operative hospital stay was 10.34 days. There were 27 cases (8.8%) of conversion to open thoracotomy, for the reasons of interference by lymph nodes (n = 18), bleeding (n = 4), inflammatory adhesions of arteries (n = 3) and large size tumours (n = 2).

CONCLUSION

Adhesions or lymph node metastases and bleeding were the most important causes of conversion to thoracotomy in completely thoracoscopic lobectomy. Large tumours, fused fissures and dense pleural adhesions can always be managed thoracoscopically.