Structure of general thoracic surgery in Europe

Clinical guide to perioperative management for videothoracoscopy lung resection (Section of Cardiac, Vascular and Thoracic Anesthesia, SEDAR; Spanish Society of Thoracic Surgery, SECT; Spanish Society of Physiotherapy)

The introduction of video-assisted thoracoscopic (VATS) techniques has led to a new approach in thoracic surgery. VATS is performed by inserting a thoracoscope through a small incisions in the chest wall, thus maximizing the preservation of muscle and tissue. Because of its low rate of morbidity and mortality, VATS is currently the technique of choice in most thoracic procedures. Lung resection by VATS reduces prolonged air leaks, arrhythmia, pneumonia, postoperative pain and inflammatory markers. This reduction in postoperative complications shortens hospital length of stay, and is particularly beneficial in high-risk patients with low tolerance to thoracotomy. Compared with conventional thoracotomy, the oncological results of VATS surgery are similar or even superior to those of open surgery. This aim of this multidisciplinary position statement produced by the thoracic surgery working group of the Spanish Society of Anesthesiology and Reanimation (SEDAR), the Spanish Society of Thoracic Surgery (SECT), and the Spanish Association of Physiotherapy (AEF) is to standardize and disseminate a series of perioperative anaesthesia management guidelines for patients undergoing VATS lung resection surgery. Each recommendation is based on an in-depth review of the available literature by the authors. In this document, the care of patients undergoing VATS surgery is organized in sections, starting with the surgical approach, and followed by the three pillars of anaesthesia management: preoperative, intraoperative, and postoperative anaesthesia.

Clinical guide to perioperative management for videothoracoscopy lung resection (Section of Cardiac, Vascular and Thoracic Anesthesia, SEDAR; Spanish Society of Thoracic Surgery, SECT; Spanish Society of Physiotherapy)

The introduction of video-assisted thoracoscopic (VATS) techniques has led to a new approach in thoracic surgery. VATS is performed by inserting a thoracoscope through a small incisions in the chest wall, thus maximizing the preservation of muscle and tissue. Because of its low rate of morbidity and mortality, VATS is currently the technique of choice in most thoracic procedures. Lung resection by VATS reduces prolonged air leaks, arrhythmia, pneumonia, postoperative pain and inflammatory markers. This reduction in postoperative complications shortens hospital length of stay, and is particularly beneficial in high-risk patients with low tolerance to thoracotomy. Compared with conventional thoracotomy, the oncological results of VATS surgery are similar or even superior to those of open surgery. This aim of this multidisciplinary position statement produced by the thoracic surgery working group of the Spanish Society of Anesthesiology and Reanimation (SEDAR), the Spanish Society of Thoracic Surgery (SECT), and the Spanish Association of Physiotherapy (AEF) is to standardize and disseminate a series of perioperative anaesthesia management guidelines for patients undergoing VATS lung resection surgery. Each recommendation is based on an in-depth review of the available literature by the authors. In this document, the care of patients undergoing VATS surgery is organized in sections, starting with the surgical approach, and followed by the three pillars of anaesthesia management: preoperative, intraoperative, and postoperative anaesthesia.

Simulation-based VATS resection of the five lung lobes: a technical skills test

BACKGROUND

Video-Assisted Thoracoscopic Surgery (VATS) lobectomy is an advanced procedure and to maximize patient safety it is important to ensure the competency of thoracic surgeons before performing the procedure. The objective of this study was to investigate validity evidence for a virtual reality simulator-based test including multiple lobes of the lungs.

METHOD

VATS experts from the department of Cardiothoracic Surgery at Rigshospitalet, Copenhagen, Denmark, worked with Surgical Science (Gothenburg, Sweden) to develop VATS lobectomy modules for the LapSim^® virtual reality simulator covering all five lobes of the lungs. Participants with varying experience in VATS were recruited and classified as either novice, intermediate, or experienced surgeons. Each participant performed VATS lobectomy on the simulator for three different randomly chosen lobes. Nine predefined simulator metrics were automatically recorded on the simulator.

RESULTS

Twenty-two novice, ten intermediate, and nine experienced surgeons performed the test resulting in a total of 123 lobectomies. Analysis of Variances (ANOVA) found significant differences between the three groups for parameters: blood loss (p < 0.001), procedure time (p < 0.001), and total instrument path length (p = 0.03). These three metrics demonstrated high internal consistency and significant test-retest reliability was found between each of them. Relevant pass/fail levels were established for each of the three metrics, 541 ml, 30 min, and 71 m, respectively.

CONCLUSION

This study provides validity evidence for a simulator-based test of VATS lobectomy competence including multiple lobes of the lungs. The test can be used to ensure basic competence at the end of a simulation-based training program for thoracic surgery trainees.

Why do we need harmonization in thoracic surgery: a view from above by the European Union of Medical Specialists

Founded in 1958 the UEMS (Union Européenne des Médecins Spécialistes-European Union of Medical Specialists) has become the largest European Medical organization representing over 1.5 million specialists of 43 Specialties in 39 countries. The primary goal of UEMS is to defend the interests of Specialists in the broadest sense of the word. This includes promoting the highest quality of care, the highest standards of training, continuous professional development (CPD) and continuous medical education (CME). For the latter the European Accreditation Council for Continuous Medical Education (EACCME) is one of the main assets of UEMS. The UEMS Section of Thoracic Surgery was created in 2013 and has substantially contributed to the improvement of the identity of Thoracic Surgery as a specialty throughout Europe. Its main activities are focusing on harmonization of training and organization of the format of the UEMS Board in Thoracic Surgery as well as further molding of the specialty via an intense collaboration with all involved stakeholders over the specialty boundaries.

Is respiratory physiotherapy effective on pulmonary complications after lobectomy for lung cancer?

Background

The aim of this study was to investigate the effects of a postoperative respiratory physiotherapy program on pulmonary complications, length of hospital stay, and hospital cost after lobectomy for lung cancer.

Methods

A total of 90 patients (75 males, 15 females; mean age 63.1±10.4 years; range, 30 to 82 years) who underwent elective lobectomy through thoracotomy due to lung cancer between June 2014 and December 2019 were retrospectively analyzed. The patients were divided into two groups as Group S who received standard postoperative care (n=50) and Group P who received postoperative respiratory physiotherapy in addition to standard care (n=40). Both groups were compared in terms of postoperative pulmonary complications, 30-day mortality, length of hospital stay, and hospital cost.

Results

The preoperative and surgical characteristics of the groups were similar. Group P had a lower incidence of postoperative pulmonary complications (10% vs. 38%, respectively; p=0.002) than Group S. The median length of stay in the hospital was six (range, 4 to 12) days in Group P and seven (range, 4 to 40) days in Group S (p=0.001). The drug cost (639.70 vs. 1,211.46 Turkish Liras, respectively; p=0.001) and the total hospital cost (2,031.10 vs. 3,778.68 Turkish Liras, respectively; p=0.001) of the patients in Group P were significantly lower. The multivariate logistic regression analysis showed that respiratory physiotherapy had a protective effect on the development of postoperative pulmonary complications (odds ratio =0.063, 95% confidence interval: 0.010-0.401, p=0.003).

Conclusion

An intensive physiotherapy program focusing on respiratory exercises is a cost-effective practice which reduces the risk of development of postoperative pulmonary complications in patients undergoing lobectomy for lung cancer.

[Surgical Therapy for Lung Cancer: Why it Should be Performed in High Volume Centres]

Data on surgical lung cancer cases were extracted from the German Federal Statistics on Diagnosis-related groups (DRG) and a possible association between hospital volume and surgical mortality was explored. All treatment cases documented between 2005 and 2015 with the main diagnosis of lung cancer (International Classification of Disease code C34) and the German Operations and Procedure Key (OPS) codes 5-323 to 5-328 for anatomical lung resections were analysed. The treatment cases were assigned to hospital groups, defined according to the number of procedures performed per year. The total number of anatomical lung resections for the diagnosis of lung cancer increased by 24 % from 9376 resections in 2005 to 11,614 resections in 2015. In 2015, 57 % of anatomical lung resections in patients with lung cancer were performed in 47 high volume centres (hospitals with ≥ 75 resections/year); the remaining 43 % of the resections were distributed among 271 hospitals performing fewer than 75 resections per year. In hospitals performing fewer than 25 procedures/year, hospital mortality was almost twice as high as in large centres with ≥ 75 resections per year (5.7 vs. 3.0 %, mean value 2005 to 2015). In summary, our data indicate that a small number of high-volume hospitals perform the major part of lung resections of lung cancer in Germany with better survival as compared to low-volume hospitals. Based on current nationwide data a clear association between hospital volume and surgical mortality could be demonstrated.

Comparison of an expiratory flow accelerator device versus positive expiratory pressure for tracheobronchial airway clearance after lung cancer lobectomy: a preliminary study

OBJECTIVE

A new type of device has recently been introduced in chest physiotherapy as an aid to tracheo-bronchial airway clearance: expiratory flow accelerator (EFA). It promotes mucus clearance without generating any pressure gradient, allowing patients to breathe at tidal volume against no resistance.

DESIGN

Pilot randomized controlled study.

SETTING

Tertiary hospital.

PARTICIPANTS

Fifty adult patients who underwent lung cancer lobectomy were randomized to undergo chest physiotherapy with EFA (n=26) or PEP (n=24).

INTERVENTIONS

EFA; PEP bottle.

MAIN OUTCOMES

Incidence of postoperative pulmonary complications (PPC) and length of stay.

SECONDARY OUTCOMES

trends in inspiratory capacity, respiratory rate, oxygen saturation, and dyspnoea. Patients rated user-friendliness of the two devices on a 5-point Likert scale.

RESULTS

A slightly different incidence of PPCs was observed between the EFA and PEP group. Nevertheless, the length of stay was similar in the two groups. No substantial differences were seen in trends of inspiratory capacity, respiratory rate, oxygen saturation, dyspnoea between the two groups. Patient-reported user-friendliness of the two devices did not differ significantly, although the use of the EFA device appeared less strenuous.

CONCLUSIONS

Results of this pilot study point to the use of EFA as an alternative treatment option rather than as a replacement for the PEP bottle in chest physiotherapy following lung cancer lobectomy. EFA may be preferable for weaker patients and/or with airway leakages in whom PEP has limited indications. Further investigation in a larger sample is required to statistically confirm the findings. Clinical Trial Registration Number ChiCTR-ONC-17013255.

Video-assisted thoracoscopic lobectomy: which patients require postoperative physiotherapy?

OBJECTIVES

Following major thoracic surgery physiotherapy is recommended to improve reduced lung volume, aid secretion clearance, and improve mobility, however, in many centres physiotherapy provision is variable following minimally invasive video-assisted thoracoscopic surgery (VATS). The objective of this study was to observe frequency of problems potentially amenable to physiotherapy following VATS lobectomy, and to identify associated baseline factors of patients in whom physiotherapy may be beneficial.

METHODS

A prospective observational study was performed including all consecutive cancer patients undergoing VATS lobectomy in a regional centre over 4years (2012-2016). Standard postoperative care included early mobilisation by nursing staff from postoperative day one (POD1). Physiotherapy assessment of all patients on POD1 determined presence of issues potentially amenable to physiotherapy intervention, and treatment was commenced. Outcome measures included postoperative pulmonary complication (PPC) development, hospital and high dependency unit (HDU) length of stay (LOS).

RESULTS

Of 285 patients, 209 (73%) received physiotherapy to assist/improve reduced mobility, of these 23 (8%) also received sputum clearance therapies and 65 (23%) specific therapy for lung volume loss. The remaining 76 (27%) patients had significantly lower hospital/HDU LOS (P<0.001) reflecting uncomplicated recovery. Chronic obstructive pulmonary disease (COPD), body mass index (BMI), preoperative mobility and age were independently associated with issues potentially amenable to physiotherapy (P=0.013).

CONCLUSION

Following VATS lobectomy a large proportion of patients demonstrated issues potentially amenable to physiotherapy. The authors recommend that patients receive routine physiotherapy assessment following this type of surgery to ensure that all issues are identified early. Screening of COPD, BMI, preoperative mobility and age will allow early identification of patients who may benefit most from postoperative physiotherapy and preoperative optimisation, however, these factors cannot predict the need for physiotherapy.

Focus on specific disease-part 2: the European Society of Thoracic Surgery chest wall database

Background

Data collection has gained a great importance in numerous areas in the last years and also in the medical field. Collecting data is the key to knowledge and consequently improving data quality is fundamental, as the results of the data analysis can have a large impact on the clinical practice.

Methods

Collected data can be employed to assess the performance of surgeons or institutions and to implement hospital´s performance and productivity. The chest wall database is one of the satellites composing the European Society of Thoracic Surgery (ESTS) database and includes data on risk factors, surgical techniques, processes of care and outcomes related to chest wall pathologies. The participation to the registry is free and voluntary for the ESTS members. The ESTS chest wall database includes data on risk factors, surgical techniques, processes of care and outcomes related to chest wall pathologies. The collected data are designed for quality control and performance audit. Acquired data are anonymous, independently accessed and encrypted on a Dendrite platform, which provides data security and regular backups. The registry is managed by an external company (KData Clinicak Srl), which works together with the database committee in revising and updating periodically the database.

Results

The ESTS chest wall database is structured in four main sections: preoperative, intraoperative, postoperative and follow up. For each procedure registered in the database are collected a number of different variables regarding the patients' characteristics, the surgical technique, the postoperative course until the discharge and also follow up data. Correction of pectus excavatum is the most common procedures registered in 2017 (392 patients, 67% of all data), followed by pectus bar removal (159 patients, 27% of all procedures).

Conclusions

The ESTS chest wall database is an ambitious European project, which aims to standardize all chest wall procedures in all their aspects.

Thoracic surgery training in Europe-the perspective of a trainee

Duration and content of Thoracic surgery training differs considerably across Europe, leading to unequal levels of knowledge, skills and attitudes at the time of graduation as a specialist. The European Board of Thoracic Surgery examination strives to overcome these regional differences by offering a diploma to achieve harmonization and equal qualified certification. The HERMES initiative, driven by a joint task force from European Society of Thoracic Surgeons (ESTS) and European Respiratory Society (ERS) is currently establishing a consensual syllabus and curriculum for Thoracic Surgery to standardize content of training and achieve equal levels of qualification all-over Europe. In this context, new opportunities in teaching and learning have become available and should be considered to support and encourage for beneficial development in the future. International platforms are the key for connecting with experts and other trainees and are provided by annual meetings and within the ESTS School.

Thoracic surgical training in Europe: what has changed recently?

Training in thoracic surgery (TS) traditionally varies amongst countries in Europe. The theoretical content of the training, the length of training, the amount of self-performed procedures to be done and the definition of training units all differ in European countries. However, in the past two decades, several initiatives were taken to harmonize TS training in Europe. The purpose of this paper is to highlight these initiatives and their impact on today's TS training in Europe.

The European educational platform on thoracic surgery

As the largest scientific organisation world-wide exclusively dedicated to general thoracic surgery (GTS), the European Society of Thoracic Surgeons (ESTS) recognized that one of its priorities is education. The educational platform designed ESTS addresses not only trainees, but also confirmed thoracic surgeons. The two main aims are (I) to prepare trainees to graduation and to the certification by the European Board of Thoracic Surgery and (II) to offer opportunities for continuous medical education in the perspective of life-long learning and continuous professional development to certified thoracic surgeons. It is likely that recertification will become an obligation during the coming decade. At its inception, the platform differentiated two different events. A 6-day course emphasizing on theoretic knowledge was created in Antalya in 2007. The same year, a 2-day school oriented to practical issues with hands-on in the animal lab was launched in Antalya. These two teaching tracks need further development. In the knowledge track, we intend to organize highly specialized 2-day courses to deepen insight into theoretical questions. The skill track will be implemented by specialized courses for high technology such as tracheal surgery, ECMO, robotics or chest wall reconstruction. In order to promote tomorrows' leadership, we created an academic competence track giving an insight into medical communication, methodology and management. We also had to respond to an increasing demand from the Russian speaking countries, where colleagues may face problems to attend western meetings, and where the language bareer may be a major impediment. We initiated a Russian school with three events yearly in 2012. Contemporary teaching must be completed with an e-learning platform, which is currently under development. The school activities are organized by the educational committee, which is headed by the ESTS Director of Education, assisted by coordinators of the teaching tracks and e-learning platform. Ongoing discussions concern development of contemporary teaching techniques and measure of outcome. The major challenge for the coming years is harmonisation of training and certification in thoracic surgery in the European space.

European institutional accreditation of general thoracic surgery

To improve standardization of general thoracic surgery (GTS) practice across Europe, the European Society of Thoracic Surgeons (ESTS) has implemented a program of Institutional Accreditation. We reviewed the methods and rules of engagement of this program. A composite performance score (CPS) including outcome and process indicators is used to measure institutional performance and assess eligibility for accreditation. Eligible units are invited to participate and accept a local audit performed by an external auditors team composed by data inspectors and thoracic surgeons. In addition to data quality, a series of structural, procedural and qualification characteristics are inspected. Once the visit is complete, the team will produce an audit report to be sent to the members of the database committee for deliberation on the institutional accreditation of that unit. The Database committee will send an executive report to the ESTS Executive Committee for their final decision on the accreditation.

Predicting risk of intensive care unit admission after resection for non-small cell lung cancer: a validation study

A model for predicting the risk of emergency, unplanned intensive care unit (ICU) admission after lung resection for lung cancer has been reported. However, it has not been validated outside of the derivation cohort, and the aim of our study was to undertake external validation at our institution. We reviewed a series of consecutive patients who underwent major lung resection for non-small cell lung cancer over a 6-year period. Test performance was evaluated by area under the receiver operator characteristic (ROC) curve. Between 2003 and 2008, 425 patients underwent major lung resections for lung cancer. The mean age (SD) was 65 (10) years and 241 (57%) were men. A total of 77 (18%) patients were admitted to ICU, 47 for elective admission and 30 (7%) for treatment of post-procedure complications. Of the 30 patients admitted for complications, the median length of ICU (interquartile range) stay was 3 days (1-15 days). The mortality rate among these patients was 17%. The area under the ROC curve was 0.66 (95% CI 0.53-0.79). The Brunelli scoring system had moderate discriminating ability to predict the risk of ICU admission after lung resection in our institution.

Mortality and associated factors in a thoracic surgery ICU

OBJECTIVE

To assess mortality and identify mortality risk factors in patients admitted to a thoracic surgery ICU.

METHODS

We retrospectively evaluated 141 patients admitted to the thoracic surgery ICU of the Denizli State Hospital, located in the city of Denizli, Turkey, between January of 2006 and August of 2008. We collected data regarding gender, age, reason for admission, invasive interventions and operations, invasive mechanical ventilation, infections, and length of ICU stay.

RESULTS

Of the 141 patients, 103 (73.0%) were male, and 38 (23.0%) were female. The mean age was 52.1 years (range, 12-92 years), and the mortality rate was 16.3%. The most common reason for admission was trauma. Mortality was found to correlate with advanced age (p < 0.05), requiring invasive mechanical ventilation (OR = 42.375; p < 0.05), prolonged ICU stay (p < 0.05), and specific reasons for admission-trauma, gunshot wound, stab wound, and malignancy (p < 0.05 for all).

CONCLUSIONS

Among patients in a thoracic surgery ICU, the rates of morbidity and mortality are high. Increased awareness of mortality risk factors can improve the effectiveness of treatment, which should reduce the rates of morbidity and mortality, thereby providing time savings and minimizing costs.

The European societies subjective and objective scores

This article explores the issue of risk modeling for patients undergoing lung resection. The development of risk stratification in thoracic surgery is discussed together with its application in patient populations and in individual patients. The European Societies Risk Scores (Objective and Subjective) Version 1 are discussed in detail. The development of Version 2 of the risk score is described, and the future role of risk scoring on thoracic surgical practice is considered.

Audit, quality control, and performance in thoracic surgery--a European perspective

The internal audit process is preparatory to independent, external quality control assessment. The current status of quality control implementation in European thoracic surgery comprises existing and functioning but uncoordinated resources. There is a need to coordinate these resources to achieve a consistent external audit process.

Towards establishing standards of practice in general thoracic surgery: the European perspective

The European situation makes it not easy to establish uniform conditions for quality assurance in GTS. However, by setting up the necessary tools in the form of the European Board, the European Cardiovascular and Thoracic Surgery Institute of Accreditation, and the European Registry, the two major scientific societies of Europe have prepared the necessary requirements for that quality assurance [6]. All these instruments and the application of the suggested mechanisms currently are still voluntary; nevertheless, it is important that regulations are defined within the concerned scientific societies and not imposed from an outside legal body. It lies in the interest and in the discretion the individual departments and surgeons to use and to comply with these existing possibilities to perform GTS at a uniform European quality level.

[Minimum quantities from a thoracic surgical standpoint]

The dependence of operation lethality on hospital volume has been scientifically determined for thoracic surgery. Conclusions on the quality of the results are possible based on the structure and quality of the procedure. Minimum quantities for specialized centers in thoracic surgery have been established as 300 resectional operations on thoracic organs without mediastinoscopy, operations with the heart-lung machine, and thoracic drainage. Minimum quantities are necessary to uphold sufficient complication management by appropriate practice and experience and to keep operation lethality down. They are also needed for financing staff (at least two full-time active specialists in thoracic surgery). The concentration of thoracic surgical services at main hospitals (minimum 300 operations per year) and organ centers (minimum 500 resectional operations on thoracic organs per year) is reasonable for the 45,500 operations expected in Germany.

How to promote, improve and test adherence to scientific evidence in clinical practice

BACKGROUND

Negative variation in the management of patients with the same clinical condition is frequent, and affects quality of care. Recent studies indicate that single interventions are not an effective solution. We aim to demonstrate that a multifaceted strategy can favor the introduction of research into practice, and to assess its long-term effects on a set of common medical conditions exhibiting significant negative variation at our institution.

METHODS

The strategy, devised and agreed upon by a multidisciplinary group, was first applied to one relevant medical condition--cerebral ischemic stroke. To test its effectiveness a quasi-experimental study was conducted, comparing an intervention group with historical controls. After validation the strategy was extended to other pathologies, and its long-term effect measured using evidence-based quality indicators. Adherence to each indicator was determined prospectively on a six-month basis for a period of at least two consecutive years. Measures are expressed as proportions with 95% confidence intervals.

RESULTS

Validation findings demonstrated that the strategy improved compliance with scientific evidence: the percentage of patients who received a CT scan within 24 hours of hospital presentation rose from 56% to 75%, (chi2 = 7.43 p < 0.01); admissions to selected wards increased from 45% to 64%, (chi2 = 7.81 p < 0.01); the number of physical medicine visits within 24 hours of the request grew from 59% to 91% (chi2 = 14,40 p < 0.001). Over a four-year period the program was gradually applied to 14 medical conditions. Except for 3 cases, compliance with the pathway, i.e. number of eligible patients for whom data on the care process is collected, was above the minimum requirement of 75%. Indicator adherence generally exhibited a positive trend, though variability was observed both among different conditions and between different semesters for the same pathology.

CONCLUSION

According to our experience, incorporation of research into practice can be favored by systematically applying a shared, multifaceted strategy, involving multidisciplinary teams supported by central coordination. Institutions should device a tailor-made approach, should train personnel on implementation strategies, and create cultural acceptance of change. Just like for experimental trials, human and economic resources should be allocated within health care services to allow the achievement of this objective.