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In the general intensive care unit (ICU) population, there is strong evidence for benefit from lung-protective mechanical ventilation, including the use of low tidal volumes and adequate levels of positive end-expiratory pressure (PEEP). In burn patients it is highly uncertain whether these settings are beneficial and there are even concerns over safety of, in particular use of low tidal volumes. There is lack of international guidelines and consequently ventilation practice in burn patients may widely vary.
The primary objective is to determine ventilation practice in burn ICUs worldwide, focusing on the size of tidal volumes and the levels of PEEP used for burn patients. In addition, data on other strategies considered important in patients who receive ventilation are also collected, including data on neuromuscular blocking agents, sedatives and analgesics, and type and amount of intravenous fluids used in the period of ventilation. The secondary objective is to determine the association between tidal volume size and levels of PEEP, and duration of ventilation in burn patients.
Patient population: Consecutive burn patients admitted to participating burn ICUs who receive invasive ventilation, irrespective of severity of burn injury and/or presence of inhalation trauma are eligible for participation.
Data collection: includes burn patients admitted within a period of three months. Demographic and baseline data are collected from the clinical files on the day of admission. If available, standard of care and clinical outcome parameters are collected daily until day 14, death or discharge from ICU, whatever comes first.
Sample size: The primary objective is to determine (variations in) ventilation practice in burn patients in burn ICUs. Therefore, the sample size is based on the main secondary objective, which is to determine the association between the following ventilator settings: tidal volume, PEEP, FiO2 and mode; and outcome of burn patients. The investigators calculated the sample size for a multiple regression model: a sample size of at least 300 patients is required to have a power of 0.80, a significance level of 0.05, using an estimated effect size of 0.04, while using 4 independent variables in the model.
Ethics Approval: National coordinators will be responsible for clarifying the need for ethics approval and applying for this where appropriate according to local policy. Centres will not be permitted to record data unless ethics approval or an equivalent waiver is in place. The investigators expect that in most, if not every participating country, a patient informed consent is not be required.
Monitoring: Due to the observational nature of the study, a DSMB is not necessary.
Organization: National co-ordinators will lead the project within individual nations and identify participating hospitals, translate study paperwork, distribute study paperwork and ensure necessary regulatory approvals are in place. They provide assistance to the participating clinical sites in trial management, record keeping and data management. Local coordinators in each site will supervise data collection and ensure adherence to Good Clinical Practice during the trial.
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| No intervention | Other | not applicable, observational study |
| Measure | Description | Time Frame |
|---|---|---|
| Ventilation parameters | Tidal volume size; milliliters per kilogram of predicted body weight | Up to 14 days during mechanical ventilation |
| Ventilation parameters | Level of positive end-expiratory pressure (PEEP); cm H2O | Up to 14 days during mechanical ventilation |
| Ventilation parameters | Fraction of oxygen in inspired air (FiO2), % | Up to 14 days during mechanical ventilation |
| Ventilation parameters | Mode of ventilation; assist-control or spontaneous modes of ventilation | Up to 14 days during mechanical ventilation |
| Measure | Description | Time Frame |
|---|---|---|
| Number of ventilator-free days and alive at day 28 | Defined as the number of days, from day 1 to day 28, the patient is alive and breathes without assistance of a mechanical ventilator, if the period of unassisted breathing lasted at least 24 consecutive hours. Notably, if after successful withdrawal of mechanical ventilation the patient requires ventilation for a surgical procedure, this will not count as a 'ventilator day'. If ventilation is prolonged after surgery due to respiratory insufficiency, the day(s) ventilation is required counts as a 'ventilator day' |
| Measure | Description | Time Frame |
|---|---|---|
| Standard care strategies | Strategies considered to be important in patients who receive ventilation, including: Fluid balance, types and dose of fluids used | Daily up to 14 days from inclusion |
| Standard care strategies |
Inclusion Criteria:
Exclusion Criteria:
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Consecutive intubated and ventilated burn patients admitted to participating ICUs during a period of 3 months
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| Name | Affiliation | Role |
|---|---|---|
| Marcus J. Schultz, MD, PhD | Academisch Medisch Centrum - Universiteit van Amsterdam (AMC-UvA) | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Academic Medical Center | Amsterdam | South Holland | 1105AZ | Netherlands |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 34926707 | Derived | Schultz MJ, Horn J, Hollmann MW, Preckel B, Glas GJ, Colpaert K, Malbrain M, Neto AS, Asehnoune K, de Abreu MG, Martin-Loeches I, Pelosi P, Sjoberg F, Binnekade JM, Cleffken B, Juffermans NP, Knape P, Loef BG, Mackie DP, Enkhbaatar P, Depetris N, Perner A, Herrero E, Cachafeiro L, Jeschke M, Lipman J, Legrand M, Horter J, Lavrentieva A, Glas G, Kazemi A, Guttormsen AB, Huss F, Kol M, Wong H, Starr T, De Crop L, de Oliveira Filho W, Manoel Silva Junior J, Grion CMC, Jeschke MG, Burnett M, Mondrup F, Ravat F, Fontaine M, Asehoune K, Floch RL, Jeanne M, Bacus M, Chaussard M, Lehnhardt M, Mikhail BD, Gille J, Sharkey A, Trommel N, Reidinga AC, Vieleers N, Tilsley A, Onarheim H, Bouza MT, Agrifoglio A, Freden F, Palmieri T, Painting LE; LAMiNAR investigators. Ventilation practices in burn patients-an international prospective observational cohort study. Burns Trauma. 2021 Dec 16;9:tkab034. doi: 10.1093/burnst/tkab034. eCollection 2021. |
| Label | URL |
|---|---|
| LAMiNAR Website | View source |
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| From day 1 to day 28 |
| Other Ventilation Parameters | Peak and plateau pressures or maximum airway pressure | Up to 14 days during mechanical ventilation |
| Other Ventilation Parameters | Respiratory rate | Up to 14 days during mechanical ventilation |
| Other Ventilation Parameters | Inspiration to expiration ratio | Up to 14 days during mechanical ventilation |
| Other Ventilation Parameters | Peripheral oxygen saturation | Up to 14 days during mechanical ventilation |
| Other Ventilation Parameters | Arterial blood gas parameters | Up to 14 days during mechanical ventilation |
| Length of Stay in ICU on Day 90 | Time between admission and discharge or death | Until day 90 |
| Length of Stay in Hospital on Day 90 | Time between admission and discharge or death | Until day 90 |
| All-cause ICU Mortality | Any death during ICU stay | Until day 90 |
| All-cause Hospital Mortality | Any death during hospital stay | Until day 90 |
| Need for Tracheostomy | Need for tracheostomy, first tracheostomy will be assessed up to 14 days from inclusion | daily up to 14 days from inclusion |
| Daily Lung Injury Scores | Score based on chest X-ray findings (if obtained), PaO2/FiO2, PEEP level and respiratory compliance. | Up to 14 days during mechanical ventilation |
| Daily Sequential Organ Failure Assessment (SOFA)-scores | six-organ dysfunction/failure score measuring multiple organ failure daily | Daily up to 14 days from inclusion |
| Complications | Complications will include: Skin and soft tissue infections | Daily up to 14 days from inclusion |
| Complications | Complications will include: (Ventilator associated) Pneumonia | Daily up to 14 days from inclusion |
| Complications | Complications will include: Sepsis | Daily up to 14 days from inclusion |
| Complications | Complications will include: Acute respiratory distress syndrome according to Berlin criteria | Daily up to 14 days from inclusion |
| Complications | Complications will include: Acute renal failure | Daily up to 14 days from inclusion |
| Complications | Complications will include: Abdominal compartment syndrome | Daily up to 14 days from inclusion |
Strategies considered to be important in patients who receive ventilation, including: use of sedative and analgesic drugs
| Daily up to 14 days from inclusion |
| Standard care strategies | Strategies considered to be important in patients who receive ventilation, including: use of sedation and delirium scores | Daily up to 14 days from inclusion |
| Standard care strategies | Strategies considered to be important in patients who receive ventilation, including: use of neuromuscular blocking agents | Daily up to 14 days from inclusion |
| Standard care strategies | Strategies considered to be important in patients who receive ventilation, including: use of antibiotic prophylaxis | Daily up to 14 days from inclusion |
| PROVE NETWORK Website | View source |