Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT04095676 |
| Other study ID # |
FIVERVATS1 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
October 30, 2022 |
| Est. completion date |
March 1, 2027 |
Study information
| Verified date |
January 2023 |
| Source |
Aarhus University Hospital |
| Contact |
Thomas D Christensen, MD, PhD |
| Phone |
24778857 |
| Email |
tdc[@]clin.au.dk |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
Pleura empyema is a frequent disease with a high morbidity and a mortality rate of
approximately 15%.
Pleura empyema is characterized by the passage of three stages (I - III). The aim of treating
the disease is to remove the infection and provide fully expansion of the lung.
The initial treatment at the early stage of the disease (stage I) is simple drainage. In
clinical practice, stages II and III are treated alike.
Current standard treatment for these stages is drainage with ultrasound (ULS) -guided
pigtail. Simultaneously with drainage, an intrapleural fibrinolyticum can be given. A
potential better alternative is surgery in terms of Video Assisted Thoracoscopic Surgery
(VATS). The theoretical advantage of early surgery is that patients undergo rapid, definitive
treatment. Furthermore, surgery can ensure optimal drain placement. How best to treat these
patients (drainage or surgery) is still under clinical evaluation and depends to a great
extent on local clinical practice. It is only to a limited extent based on scientific
evidence.
The aim of this study is to determine if there is a difference in outcome in patients
diagnosed with stage II and stage III empyema who either receive primary VATS surgery or ULS
guided drainage and intrapleural therapy (fibrinolytic (altaplasm) with DNase (Pulmozyne ®))
The primary outcome is Hospitalization time and secondary outcomes is e.g. mortality, health
related costs and quality of life.
The present study can thus provide new and highly relevant knowledge as well as change the
treatment of these patients, both nationally and internationally.
It is planned that a total of 184 patients will be included in the project. The study takes
place as a collaboration between all four thoracic surgical departments and the major
pulmonary medicine departments in Denmark. In addition, the study has international
collaborators/consultants who will provide counselling in connection with the study.
Description:
Intrapleural Fibrinolysis and DNase versus VATS for the treatment of pleural empyema: a
randomized, controlled trial
BACKGROUND
Pleural empyema is a disease with an infection inside the chest cavity, often as a result of
a pneumonia. In Denmark there are approximately 500 new cases per year. Patients often have
longer duration of hospitalization, and the disease carries a significant morbidity and
mortality rate of approximately 15%. The state of pleura empyema is characterized by the
passage of three stages (I - III):
- Parapneumonic effusion (stage I)
- Fibropurulent stage (stage II)
- Chronic organizing stage (stage III)
The aim of treating the disease is to remove the infection and provide fully expansion of the
lung.
In our study we want to find the optimal method for treating patients in stage II and III.
The initial treatment at the early stage of the disease (stage I) is simple drainage and the
disease at later stages can be treated with surgical intervention. In clinical practice,
stages II and III are treated alike. Current standard treatment for these stages is drainage
with ultrasound (ULS) -guided pigtail with a minimum size of 10 F. Simultaneously with
drainage, an intrapleural fibrinolyticum can be given, but the indication and evidence for
this is discussed. In the MIST II study, fibrinolytic (alteplase) was combined with DNase,
and the authors found a positive effect using this combination.
Previously, surgery was associated with a significant morbidity and, to a lesser extent,
mortality. The surgery was conducted as open surgery using a thoracotomy. Today, it can often
be performed as a Video Assisted Thoracoscopic Surgery (VATS), which can be performed with a
very low morbidity and mortality. It has been advocated that patients should be operated very
early in the process, but the evidence is weak. In a Cochrane review on surgical versus
non-surgical treatment of pleura empyema, two studies with adult patients have been included.
None of the studies have a size or methodological quality that makes it possible to determine
whether VATS should be included as part of the standard treatment of these patients. In
children (aged <15 years), a randomized, controlled study of 50 patients in each group was
conducted. It found no difference in outcome between fibrinolyticum and VATS, but no fixed
treatment algorithm has been established for this age group. Furthermore, these results
cannot be generalized to an adult population.
The theoretical advantage of early surgery is that patients undergo rapid, definitive
treatment and surgery can ensure optimal drain placement. The potential advantages in early
surgery are reduced mortality, admission time, and fewer late complications. In addition, it
is estimated that an increased number of early-operable patients may reduce the proportion of
patients, who will later be thoracotomized, as early surgery may be performed as VATS.
However, there is the inherent risk of an operation and thereby the increased costs of the
surgical procedure when compared to simple drainage. However, this could possibly be
outweighed by reduced drug consumption, reduced need for supplemental drainage, shorter
duration of admission, and reduced morbidity after discharge.
Accordingly, it is necessary to determine whether early VATS should be introduced as standard
therapy in patients with fibropurulent stage (stage II) and the chronic organizing stage
(stage III).
Hypothesis • Patients over 18 years with a fibropurulent stage (stage II) or a chronic
organizing stage (stage III) pleural empyema will have a significantly reduced time of
hospitalization, if they undergo a VATS operation compared to ULS-guided pigtail drainage and
fibrinolyticum (Acitlyse® (altaplasm)) with DNase (Pulmozyne®)
Aim of study
• To determine the difference in outcome in patients diagnosed with complex parapneumonic
effusion (stage II), and pleural empyema (stage III) who are treated either VATS surgery or
TUS guided drainage and intrapleural therapy (fibrinolytic (Alteplase) with DNase
(Pulmozyme®)) as first line treatment.
Expected improvements If this trial is positive for the primary and/or the secondary
outcomes, it could potentially change and strengthen the treatment of patients with this
disease, both nationally and internationally. We investigate both clinical parameters,
patient satisfaction and economical aspects (cost-effectiveness) in relation to pleura
empyema treatment, so it will cover many aspects of this disease. If the trial is neutral, it
will provide valuable data on intervention that is currently commonly used for this disease
and can guide the treating physician to choose the adequate treatment based on the local
preferences.
METHODS Design
- Randomized, controlled study
- Not blinded (open label)
- National multicenter study
Inclusion and exclusion criteria
Inclusion criteria:
- 18 years or more on the day of hospitalization
- Must be able to provide informed consent
- Acute hospitalization within the last 48 hours
- Meeting diagnostic criteria for community acquired pleural infection using the following
criteria:
1. A clinical presentation compatible with pleural infection AND
2. Has pleural fluid which is either:
1. purulent pleural fluid or
2. gram stain positive or
3. culture positive or
4. acidic with pH < 7.2 or
5. low pleural fluid glucose (< 2 mmol/L) in the absence of accurate pH
measurement or
6. septated pleural fluid on ultrasound
Exclusion criteria:
- • Pregnancy. Prior to inclusion of fertile women (defined as the period from menarche to
postmenopause) a negative pregnancy test must be available
- Breastfeeding
- Declared terminally ill or a predicted survival of less than 3 months
- Previous intrathoracic surgery (within <1 year on the same side of the thorax as where
the parapneumonic effusion/pleural empyema is located
- Previously (within <1 year) hospitalized with with complex parapneumonic effusion (stage
II) or pleural empyema (stage III)
- Drainage during the current admission on the same side of the thorax (excluding
diagnostic pleural puncture)
- Hospitalization within 7 days prior to current hospitalization
- Previous allergic reaction to alteplase or DNase
- Use of alteplase therapy contraindicated:
- Ongoing treatment with oral anticoagulant incl. new oral anticoagulants (e.g.
warfarin (Marevan), Dabigatranetexilat (Pradaxa), Rivaroxaban (Xarelto), Apixaban
(Eliquis), Endoxaban (Lixiana))
- Significant ongoing bleeding or within last six months
- Known haemorrhagic diathesis
- Previous or suspected intracranial hemorrhage
- Suspected subarachnoidal hemorrhage or condition following subarachnoidal
hemorrhage from aneurysm
- All forms of damage to the central nervous system (e.g. cerebral tumors, aneurysm,
intracranial / spinal surgery)
- Recent (within 10 days) cardiac resuscitation, birth, or perforation of
non-compressible blood vessel (e.g. puncture of v. subclavia, v. jugularis)
- Severe, uncontrolled arterial hypertension
- Bacterial endocarditis, pericarditis
- Acute pancreatitis
- Documented ulcerative gastrointestinal disease within last 3 months, esophagal
varices, arterial aneurysm, arterio-venous malformations
- Tumor / malignancy with an increased risk of hemorrhage
- Severe liver disease, including liver failure cirrhosis, portal hypertension
(esophagal varices), and active hepatitis
- Large operation or significant trauma within previous 3 months
Endpoints
Primary endpoint:
• Length of hospital stay, where admission time is defined as the time from first admission
in the course of the hospitalization and to the completion of treatment defined as time of
discharge from hospital without need of any additional invasive treatment.
Secondary endpoints:
- Hospitalization time when patients are stratified in subgroups (Stage, TUS score, RAPID
score)
- Length of hospital stay after commencement of intervention
- Days at home up to 30 days after intervention (DAH30)
- 30-day and in-hospital mortality
- Time from randomization to commencement of intervention
- Drainage time measured in days
- Proportion of patients where primary intervention could be considered as definitive
treatment
- Complications ranked by Clavien-Dindo classification and Comprehensive Complication
Index (CCI)
- Need for additional thoracic surgery within 12 months after hospitalization
- Consumption of painkillers during hospitalization and within 12 months after
hospitalization
- Lung physiology within 12 months after hospitalization
- Quality of life and patient reported outcomes within 12 months after hospitalization
- Health related costs within 12 months after hospitalization
Randomization
Patients will be randomized 1:1 to either:
1. VATS procedure with drainage
2. TUS-guided pigtail catheter placement and intrapleural therapy with Actilyse and DNase
Block randomization with varying block size will be used to get an equal number of
patients in both groups. There will be stratification for each surgical center in the
randomization. The randomization is conducted via a REDCap (Research Electronic Data
Capture), (REDCap Consortium, Vanderbilt University Medical Center, Tennessee, USA).
Blinding Patients and responsible health care staff will not be blinded. Research staff
not involved in the treatment of the included patients are blinded to treatment
allocations until data analyses are complete. Assessment of different scoring systems
(e.g. TUS and radiology score) are blinded to the extent that it is practically
possible.
Patient population and selection All patients admitted during the diagnosis of pleural
empyema or pleural effusion without specification (diagnostic codes: DJ 86, DJ 86.1, DJ
86.9, DJ 90.9), Stages II and III will be potential candidates, whether they are
hospitalized at a Regional Hospital or at a University Hospital.
Practical issues regarding inclusion of patients Patients who immediately meet the
criteria for inclusion and are interested in participating are informed by one of the
project participants or project nurses from the thoracic surgery department or other
relevant department where the patient is hospitalized. The physical location of
information and randomization will vary with the local organization of hospitals and
departments. If the patient is randomized to VATS, the patient is transferred to one of
the four centers where there is a thoracic surgical department. If the patient is
randomized to ULS guided drainage and intrapleural therapy, the patient is transferred
to one of the specialized pulmonology departments participating in the project.
Intervention Drain and intrapleural therapy group Pigtail is applied as soon as possible
and within 48 hours after randomisation. Drain placement is carried out using ULS.
Operators (conductors of the procedure) must have relevant training and competencies
corresponding to the specialist level within the relevant specialty and be approved by
the steering committee to conduct the procedure. A pigtail catheter (minimum 10F) is
inserted. Operator determines the size of drain and whether drain placement is done with
one-step or Seldinger technic.
The intrapleural therapy consists of treatment with the following two drugs:
- intrapleural Actilyse® (alteplase) 10 mg twice daily for three days
- intrapleural Pulmozyme® (DNase) 5 mg twice daily for three days Both drugs are
administered twice daiyly through the pigtail catheter and are left for one hour in
the pleural cavity by blocking the drain (e.g. closing the three-way-stopcock / use
of a pean forceps). The installation of the drugs in the pleural cavity is
performed seperately with a time interval between administrations of at least two
hours. Actilyse® (alteplase) is preparred by diluting 10 mg Actilyse® (alteplase)
in the solvent liquid (10 ml) supplied alongside the drug in a 50 ml syringe. This
mixture is further diluted by drawing isotonic NaCl into the syringe until the
total volume of fluid in the syringe is 30 ml. Following this preparation the
mixture is injected into the pleural cavity using the pigtail catheter. Pulmozyme®
(DNase) is prepared by drawing 5 ml Pulmozyme® (DNase) (1mg/ml)(5 ml = 2 Pulmozyme
cannisters) into a 50 ml syringe. This mixture is further diluted by drawing
isotonic NaCl into the syringe until the total volume of fluid in the syringe is 30
ml. Following this preparation the mixture is injected into the pleural cavity
using the pigtail catheter.
VATS group The VATS procedure must be completed as soon as possible and no later than 48
hours after randomisation. The surgery is performed with the patient in a 90 degree
sideways position, using general anesthesia. Access is obtained through one to three
ports, followed by purification and possibly decortication, and insertion of one pleural
drain (sizes 24 - 32F) at the end of surgery. 20 ml Marcain is used as local analgetic
and applied at the incision sites or as a nerve block. In the VATS group, suction on
drain (- 15 cm H20) is applied in the first day after the procedure. Operator must have
relevant training and competencies corresponding to the specialist level within the
relevant specialty and be registered and approved by the steering committee.
After the procedure Randomized patients are transferred to a specialized respiratory
medical department or remain at the thoracic surgical department.
Saline flushes In both groups following completion of the intervention flushes of 30 ml
normal saline will be given three times daily to ensure tube patency.
Antibiotics
The empiric antibiotic treatment used in all centers is in accordance with the national
guidelines from the Danish Society for Cardiothoracic Surgery and Danish Society for
Respiratory Medicine [19, 20]. Treatment is initiated as intravenous treatment. Type of
antibiotic treatment can be subsequently adjusted depending on results of
microbiological tests. Change to oral treatment can be done when all of the following
three criteria are met:
- Clinical improvement of the patient (e.g. no fever/fever, improved general
condition)
- Paraclinically satisfactory response (with respect to decreases in leukocytes and
CRP's)
- Drain/pigtail is removed This means that 14 days i.v. treatment will not be given
as standard. The duration of i.v. antibiotic treatment will therefore be individual
based on the application of the above criteria. The overall duration of treatment
of antibiotic is 6 weeks as standard.
Other treatments and supportive care
All patients are:
- Offered specialized lung physiotherapy
- Screened for and given additional nutritional support
- Treated with painkillers in accordance with departmental guidelines
- Given thrombosis prophylactic treatment in accordance with national guidelines
Need for additional salvage thoracical surgery or non-surgical pleural procedures
Following the primary intervention subsequent decisions during the admission to perform
salvage thoracic surgery or additional non-surgical pleural procedures is made in
accordance with the national guidelines from the Danish Society for Cardiothoracic
Surgery and Danish Society for Respiratory Medicine.
Removal of drain/pigtail
The decision to remove the drain / pigtail is made by the clinician attending the
patient. The following criteria are used as a guide for discontinuation of drain/pigtail
in both groups:
- Clinical improvement of the patient (e.g. no fever/subfebril, improved general
condition)
- Satisfactory biochemical response (with respect to a decrease in leukocytes and
CRPs)
- Imaging (TUS, CT or Chest X-ray (CXR) in 2 planes) without significant residual
effusion (< 100 ml)
- Drain with clear pleural fluid by rinsing In both groups removal of drain / pigtail
does not await the results of any of the obtained cultures of the pleural fluid. As
such the presence of negative cultures is used as removal criteria.
Discharge from hospital
In current usual practice in Denmark, patients with pleural empyema are typically
discharged when:
- The drain / pigtail has been removed
- Antibiotic treatment has been changed from intravenous to oral treatment without
signs of subsequent clinical or paraclinical treatment within one day following the
change These principles are also used in the study.
Data recording
Prior to informed consent obtained as part of screening for study participation:
- Data needed to determine whether inclusion criteria are met (see above)
- Data needed to determine whether any exclusion criteria are present (see above)
Baseline patient data: age, gender, comorbidities, medication, performance status,
previously recorded lung function etc.
Surgical and TUS data: used time, specific type of procedure, operator, drain size,
complications etc.
Drain data: Length of drain treatment, daily output / input, removal criteria, no. of
drains used etc.
Costs during hospitalization:
Calculated for the two groups regarding the following expenses:
- VATS Group:
- Utensils used during surgery
- Time of the procedure
- Consumption of staff resources
- Hospitalization time
- Medicine
- Drain group:
- Equipment used during the procedure
- Procedure Time
- Consumption of human/staff resources
- Fibrinolyticum and DNase (amount used)
- Hospitalization time
- Medicine
Costs within the 1st year after discharge:
Calculated for the two groups regarding the following expenses:
- Re-admission
- Ambulatory services
- Medication
- Number of sick days
- Visit to a GP
Patient satisfaction and functional level:
• Data in the form of EQ5D and St. George Research Questionnaire is collected at the
following times:
- Upon inclusion in the study
- At discharge
- Outpatient data: 1, 3, 6 and 12 months.
Various parameters acquired from and after hospitalization (including ambulant
outpatient visits):
- Hospitalization time, total and after commencement of intervention
- Primary intervention considered as final treatment
- In hospital and 30 day mortality
- Drainage time
- Radiological regression a.m. MIST II
- Number and types of drains
- Need for additional surgery during and within 12 months after hospitalization
- Need for additional intrapleural therapy during and within 12 months after
hospitalization
- Need for intensive care therapy
- Consumption of painkillers during hospitalization and within 12 months after
hospitalization
- Lung function tests and walking tests
- Re-admission
- Miscellaneous paraclinical parameters (e.g. biochemistry, microbiolology,
pathology)
Data obtained from National Patient Register:
- Health related costs and expenses (e.g. hospital admissions, outpatient visits,
general practice consultations, use of physiotherapy)
- Prescribed medication
- Death (e.g. date, cause)
Outpatient follow-up after discharge In conjunction with participation in the project,
in addition to any common local controls, outpatient follow-up is performed at the
regional respiratory medicine out-patient-clinic after 3, 6 and 12 months after
discharge.
Data collection Media
- REDCap (Research Electronic Data Capture), REDCap Consortium, Vanderbilt University
Medical Center, Tennessee, USA
- Electronic patient record (EPJ in Region Midt, EPJ in Region North, EPJ (COSMIC) in
Region South and EPJ (EPIC Health Platform) in the Capital Region and Region
Zealand).
- Health related costs are retrieved via the National Patient Register (LPR).
Handling and archiving data All data is entered in a Case Report Form in RedCap. REDCap
is a professional database that provides a user-friendly interface. The REDCap data
management system is secure, fully compliant with all regulatory guidelines, and
includes a complete audit-trail for data entry validation. Through these mechanisms, as
well as relevant training for all involved parties, patient confidentiality will be
safeguarded. REDCap is available for free at both Odense and Aarhus University.
When handling, processing and archiving data collected, the Data Inspectorate's
guidelines are followed, which implies that all personal data are deleted at the end of
the project. The collected data is stored at the Department of CardioThoracic and
Vascular Surgery, Aarhus University Hospital and at Department of Pulmonology, Odense
University Hospital.
Sample size and power calculation The study is based on assumptions and knowledge about
admission time, both from national and international publications. We calculated the
sample size based on the following assumptions: the main effect target is the difference
between the total time (primary endpoint) between the two groups of patients (VATS
versus drainage). The distribution of the hospitalization time is expected to be skewed
to the right, so that a logarithmic transformation is needed to achieve normality.
We assume a median hospitalization period in the drainage group of 12 days, a minimum
clinically relevant difference in hospitalization of two days, 80% power, and
coefficient of variation (CV) of 40%.
Significance level is set to 0.05. Thus, 77 patients in each group must be included. To
account for excluded patients (set at 20%), we expect to include 92 patients in each
group. A total of 184 patients is to be included.
In terms of showing clinically relevant non-inferiority with a difference in
hospitalization of 1 day with a 80% power, and CV of 40%, 70 patients is needed in each
group. This is based on a true improvement of 1 hospitalization day. Based on the annual
number of patients diagnosed with pleura empyema in Denmark, we find it feasible to
include the needed number of patients in the trial during the inclusion period.
Data analysis Data extractions are made from RedCap database. Data analysis is performed
using one of the following: Microsoft® Excel® 2011 (Microsoft Corporation, Washington,
USA), Prism Version 8 for Mac OS X (GraphPad Software, Inc., California, USA), STATA
version 16 (StataCorp LLC, Texas, USA). Endpoints will be described for the individual
group by median and percentile, assuming data is not normally distributed.
Differences between the groups in the primary endpoint are determined by t-test at the
log-entry time and reported as median ratios with associated confidence intervals.
Patients dying during the admission is omitted from the analysis if the primary
endpoint. Whether death before discharge affects the primary endpoint is assessed using
survival analysis as sensitivity analysis. We expect that the distribution between
stages II and III will be 75% and 25%, respectively, and whether there is a difference
between stages II and III will be assessed as secondary analysis. When repeating
measurements (e.g. quality of life), repeated measurements ANOVA are used with treatment
and time as systematic effects and patient as random effect. All data are analyzed
primarily according to the intention to treat principle, but there will also be one per
protocol analysis regarding the above-mentioned endpoints. Comparison will take place
between the two groups (drainage and VATS).
Statistical cooperation partner Bo Martin Bibby. Ass. Professor, Biostatistical Advisory
Service (BIAS), Faculty of Health Sciences, Aarhus University.
Risks of participation, ethical considerations and monitoring Common clinical practice
is currently very divergent and there is no national or international consensus on which
of the treatments is preferable (VATS versus drainage). There is thus no safe evidence
for any of the regimes.The individual patient may not immediately benefit from
participating. The results of the study will primarily benefit future patients.
Ethics and dissemination All patients provide informed consent before randomisation. The
research project is carried out in accordance with the Helsinki II Declaration, European
regulations and Good Clinical Practice Guidelines. The Scientific Ethics Committees for
Denmark and the Danish Data Protection Agency have provided permission. Information
about the subjects is protected under the Personal Data Processing Act and the Health
Act. The trial is registered at www.clinicaltrials.gov, and monitored by the regional
Good Clinical Practice monitoring unit. The results of this study will be published in
peer-reviewed journals and presented at various national and international conferences.
Interruption of the experiment Suspected Severe Adverse Reactions suspend the attempt
for the individual patient. However, patient data is still used in the project according
to intention to treat principles.
Earlier termination of the trial for the individual patient
- If the patient wishes to leave the study.
- If unexpected complications occur If leaving the trial, the patient will follow the
department's usual procedure for treating patients treated for pleura empyema. If
the patient wishes to leave the study, the collected data is not used if, as a
result of unexpected complications, the patient cannot receive the intervention the
patient is randomized, the patient enters the data and continues to collect data in
accordance with the intention to treat principles.
Events and side effects All unintended events and adverse events throughout the
treatment period and until the last call after 30 days are recorded. All Adverse Events
are recorded in the patients Case Report Form.
Agreements with other departments / hospitals All involved departments have signed a
document obligating them to take active part in the trial.
All Pulmonary and Thoracic Surgical departements on the four University Hospital has
agreed to participate in the trial The Danish Society of Cardiothoracic Surgery and the
Danish Society of Respiratory Medicine has both recommended and endorsed the study
Project collaboration and work distribution The main applicant will be the principal
investigator, and primarily responsible for the overall practical feasibility,
conducting and hosting of the study. The co-applicants (Morten Bendixen and Thomas
Decker Christensen) is part of the steering committee and equally responsible for the
conduction of the trial.
Morten Bendixen have taking part in the process of preparing and writing the protocol,
organizing the study and applying for economical support. He will take part in the
implementing of the study (inclusion of patients, performing surgery, practical issues
etc.), analyzing and interpretation of data and writing of the manuscripts. His share of
the budget is estimated to 1269400 Dkr.
Thomas Decker Christensen have taking part in the idea/concept of the study, the process
of preparing and writing the protocol, organizing the study and applying for economical
support. He will take part in the implementing of the study (inclusion of patients,
performing surgery, practical issues etc.), analyzing and interpretation of data and
reviewing the manuscripts. His share of the budget is estimated to 1269400 Dkr.
International collaborators
To provide scientific input and an international perspective, we have assembled a group
of international experts with great expertise and experience within pleural emphyema and
clinical trials. This group include:
- Prof. Najib. N. Rahman, Professor, Consultant of Respiratory Medicine, Nuffield
Department of Medicine, Clinical Director, Oxford Respiratory Trials Unit,
University of Oxford, UK
- Eihab Bedawi, MD, Nuffield Department of Medicine, Clinical Director, Oxford
Respiratory Trials Unit, University of Oxford, UK
- Prof. Babu Naidu, Professor, Consultant of Thoracic Surgery, Department of Thoracic
Surgery, Queen Elizabeth Hospital Birmingham, UK & Institute of Inflammation and
Ageing, University of Birmingham, UK.
Report / applied for permission from the following institutions
- Scientific ethics committee
- Data Inspectorate / Region Midt
- Medicines Agency (Case No. 2017084202)
- www.clinicaltrials.gov
Time schedule The proposal covers a 5 years' timeline, with approximately half a year
for further planning and organization of the trial, 2.5 years for patient inclusion, 1
year for follow-up and 1 year for data analyses and publications. Additional details are
provided in the attached figure.
Publications and sharing of the data Both positive, negative and inconclusive results
from the study will be published in international journals. The researchers' free right
to publication cannot be restricted. All information will be disclosed in anonymous
form. The results will also be presented at international scientific congresses.
A minimum of six manuscripts are planned from the current trial. Study findings will be
published irrespective of the results. Completely de-identified data will be shared in
public database after the trial to allow for other researchers to replicate the results
or to test new hypotheses.
Steering committee A steering committee will be responsible for the design and conduct
of the trial. The principal investigator will be Christian B Laursen (see applicant
information) Additional members of the multidisciplinary steering committee will include
Thomas Decker Christensen (co-applicant), Morten Bendixen (co-applicant), Peter B. Licht
MD, PhD (thoracic surgery), Rene H. Petersen MD, PhD (thoracic surgery), Lars Møller MD
(thoracic surgery), Jens-Ulrik Stæhr Jensen MD, PhD (pulmonologist), Vasiliki Panou MD
(pulmonologist) and Søren Helbo Skaarup MD (pulmonologist).
A qualified Ph.D. fellow will be included in the steering committee and involved in the
conduct of the trial.
Abbreviations used in the project description CRP: C-reactive protein CT: Computed
tomography CXR:Chest X-ray EQ5D: European Quality of Life F: French Ml: Milliliter MIST:
Multi-centre Intra-pleural Sepsis Trial TUS: Thoracic Ultrasound ULS: Ultrasound VATS:
Video Assisted Thoracoscopic Surgery
