Clinical Evaluation of Ventilador Innovation Product in Colombia in the SARS COVID 19 Pandemic, Unisabana Herons.

Covid19 Clinical Trial

— SabanaHerons  

Official title:

Clinical Evaluation of Ventilator Innovation Product in Colombia in the SARS Pandemic Covid 19, Unisabana Herons - A Cohort Study - Phase 1

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT04497623
• Other study ID #: 202006-25502
• Status: Completed
• Phase: N/A
• Start date: July 28, 2020
• Est. completion date: September 20, 2020

Study information

• Verified date: September 2020
• Source: Fundación Neumologica Colombiana
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The objective of this study is to evaluate the efficacy and safety of the Unisabana-Herons invasive mechanical ventilator designed to provide the basic ventilatory support necessary to preserve the life of patients with respiratory failure and indication of mechanical ventilation, especially for those who suffer from acute respiratory distress syndrome (ARDS) when conventional commercial invasive ventilators are not available in the context of the health emergency due to the COVID-19 epidemic.

The Unisabana-Herons ventilator allows to precisely configure the respiratory rate, tidal volume (or inspired air volume), inspiratory time, the inspiration: expiration ratio, the positive pressure at the end of expiration (PEEP), the inspired fraction of oxygen and inspiratory air flow, parameters that allow managing the respiratory failure associated with COVID-19. The ventilator also monitors peak inspiratory pressures (PIP), mean, PEEP, plateau, and graphs in real time the pressure-time, volume-time, flow-time curves, which allows detecting when one of these is at levels dangerous to induce ventilator trauma (barotrauma and volutrauma) and thus ensure effective and safe ventilation, so as to avoid ventilator-induced lung injury.

Description:

The Unisabana-Herons ventilator is an invasive mechanical ventilator that works on the same principles of invasive positive pressure mechanical ventilators that have existed for 80 years. Although the effectiveness of ventilatory assistance in saving human lives was known since biblical times, the first mechanical ventilators only appeared in 1800 and it was in 1900 when the first positive pressure ventilators were manufactured, which have a turning point in 1940 as a result of the polio epidemic, when invasive positive pressure mechanical ventilators were developed that could be used massively and have evolved to current models. These positive pressure fans completely replaced the first negative pressure models, have abundant support in the scientific literature, and are the most commonly used today.

Since the beginning of the COVID-19 epidemic in Colombia, the University of La Sabana, a multidisciplinary team in order to find solutions to deal with the disease, and its first project, consisted in the design and manufacture of an invasive mechanical ventilator (Ventilator Unisabana-Herons) able to supply the basic ventilatory needs of the patient with severe respiratory failure due to COVID-19 at the time when the installed capacity of classic commercial mechanical ventilators is exhausted. The Unisabana-Herons ventilator was built based on those recommended by INVIMA, the MHRA (UK Medicines and Devices Regulatory Agency) and the FDA, to provide efficient and safe volume controlled ventilation to patients with indications. of mechanical ventilation for respiratory failure according to the ventilatory modes already affected that have strong scientific evidence.

This study seeks to evaluate the effectiveness, usability and safety of the Unisabana-Herons ventilator for the management of patients with an indication for invasive mechanical ventilatory support, admitted to level III and IV university hospitals with Intensive Care services enabled through a cohort study of 5 patients with a 24-hour follow-up.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 5
• Est. completion date: September 20, 2020
• Est. primary completion date: August 13, 2020
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years to 70 Years

Eligibility

Inclusion Criteria:

• Patients older than 18 years and younger than 70 years with indication of volume-controlled mechanical ventilation for more than 24 hours.

• Patients with acute respiratory failure (PaO2 / FiO2 <300) requiring volume-controlled mechanical ventilation. These patients may or may not have COVID-19 (at the current time of the epidemic, it is assumed that every patient with an indication for mechanical ventilation is a possible case of COVID-19).

• Postoperative patients who require ventilatory support and are expected to need it for more than 24 hours.

• Patients with traumatic brain injury and indication of mechanical ventilatory support with an expected duration greater than 24 hours

• Patients with acute intoxication and respiratory depression and indication of mechanical ventilatory support with an expected duration greater than 24 hours

Exclusion Criteria:

• Pregnant women

• Patients with hypotension MAP <65 mmHg

• Patients with PaO2 / FiO2 <100

• Cerebral edema in cerebral protection and / or suspected endocranial hypertension

• SOFA >9

• For those patients who are already receiving mechanical ventilation, the presence of one or more of the following criteria: PEEP> 8 cmH2O, plateau pressure> 30 cm H2O or FiO2> 70%

• COVID-19 confirmed by RT-PCR.

Related Conditions & MeSH terms

• Covid19

Intervention

Device:
• Invasive mechanical ventilation using the Unisabana-Herons Ventilator during 24 hours
Recruited patients will receive volume-controlled mechanical ventilation (assist-control mode) using the Unisabana-Herons ventilator for 24 hours. Information on clinical, hemodynamic, and respiratory variables will be recorded from 30 minutes before the start of mechanical ventilation with the Unisabana-Herons ventilator. Recordings will be made in the first 4 hours every 15 minutes in the CFR, except for arterial blood gases which will be taken every 30 minutes. In the following 20 hours, arterial blood gas controls will be taken at hour 12 from the start of the ventilator and at hour 24. Other hemodynamic and respiratory variables will be recorded every hour from hour 4 of ventilator start until hour 24.

Locations

Country	Name	City	State
Colombia	Fundacion Neumologica Colombiana	Bogotá	Bogota
Colombia	Universidad de la Sabana	Chia	Cundinamarca
Colombia	Clinica Universidad de la Sabana	Chía	Cundinamarca

Sponsors (4)

Lead Sponsor	Collaborator
Fundación Neumologica Colombiana	Clínica Universidad de La Sabana, Fundación Cardioinfantil Instituto de Cardiología, Universidad de la Sabana

Country where clinical trial is conducted

Colombia, 

References & Publications (5)

ARDS Definition Task Force, Ranieri VM, Rubenfeld GD, Thompson BT, Ferguson ND, Caldwell E, Fan E, Camporota L, Slutsky AS. Acute respiratory distress syndrome: the Berlin Definition. JAMA. 2012 Jun 20;307(23):2526-33. doi: 10.1001/jama.2012.5669. — View Citation

Bellani G, Laffey JG, Pham T, Fan E, Brochard L, Esteban A, Gattinoni L, van Haren F, Larsson A, McAuley DF, Ranieri M, Rubenfeld G, Thompson BT, Wrigge H, Slutsky AS, Pesenti A; LUNG SAFE Investigators; ESICM Trials Group. Epidemiology, Patterns of Care, and Mortality for Patients With Acute Respiratory Distress Syndrome in Intensive Care Units in 50 Countries. JAMA. 2016 Feb 23;315(8):788-800. doi: 10.1001/jama.2016.0291. Erratum in: JAMA. 2016 Jul 19;316(3):350. JAMA. 2016 Jul 19;316(3):350. — View Citation

Briel M, Meade M, Mercat A, Brower RG, Talmor D, Walter SD, Slutsky AS, Pullenayegum E, Zhou Q, Cook D, Brochard L, Richard JC, Lamontagne F, Bhatnagar N, Stewart TE, Guyatt G. Higher vs lower positive end-expiratory pressure in patients with acute lung injury and acute respiratory distress syndrome: systematic review and meta-analysis. JAMA. 2010 Mar 3;303(9):865-73. doi: 10.1001/jama.2010.218. Review. — View Citation

Meade MO, Cook DJ, Guyatt GH, Slutsky AS, Arabi YM, Cooper DJ, Davies AR, Hand LE, Zhou Q, Thabane L, Austin P, Lapinsky S, Baxter A, Russell J, Skrobik Y, Ronco JJ, Stewart TE; Lung Open Ventilation Study Investigators. Ventilation strategy using low tidal volumes, recruitment maneuvers, and high positive end-expiratory pressure for acute lung injury and acute respiratory distress syndrome: a randomized controlled trial. JAMA. 2008 Feb 13;299(6):637-45. doi: 10.1001/jama.299.6.637. — View Citation

Petrucci N, Iacovelli W. Lung protective ventilation strategy for the acute respiratory distress syndrome. Cochrane Database Syst Rev. 2007 Jul 18;(3):CD003844. Review. Update in: Cochrane Database Syst Rev. 2013;2:CD003844. — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Improvement or maintenance of the oxygenation level measured by PaO2	Maintenance: less than 20% drop in PaO2 with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Primary	Improvement or maintenance of the oxygenation level measured by O2 Saturation	Maintenance: less than 20% drop in SatO2 levels with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Improvement or maintenance of adequate levels of carbon dioxide measured by PaCO2	Maintenance is defined as a change of less than 20% in the levels of this variable with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Improvement or maintenance of adequate levels of HCO3	Maintenance is defined as a change of less than 20% in the levels of this variable with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Improvement or maintenance of adequate levels of excess base.	Maintenance is defined as a change of less than 20% in the levels of this variable with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Improvement or maintenance of adequate levels of blood pH	Maintenance is defined as a change of less than 20% in the levels of this variable with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Improvement or maintenance of PaO2/FiO2	Stability is defined as a decrease of less than 20% in this variable with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Improvement or maintenance of SatO2/FiO2	Stability is defined as a decrease of less than 20% in this variable with respect to the baseline measurements made in the 30 minutes before connecting the Unisabana-Herons ventilator.	24 hours
Secondary	Uninterrupted and faultless operation in the period of use of the ventilator	Present or absent outcome	24 hours
Secondary	Inspiratory peak pressure> 35 cm H2O that does not have a clinical explanation other than the ventilator (such as a mucus plug)	Peak pressure >35 CM H20.	24 hours
Secondary	Plateau airway pressure> 30 cm H2O that does not have a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	VT> 8 cc / kg of ideal weight that does not have a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	Decrease or increase in respiratory rate, tidal volume, PEEP, peak inspiratory pressure, FiO2, not due to a clinician order (changes not ordered by the clinical team but due to the ventilator variability)	Present or absent outcome	24 hours
Secondary	Pneumothorax (not having an explanation other than ventilatory support, such as the insertion of a central catheter)	Present or absent outcome	24 hours
Secondary	Pneumomediastinum (not having an explanation other than ventilatory support, such as the insertion of a central catheter)	Present or absent outcome	24 hours
Secondary	Subcutaneous emphysema (not having an explanation other than ventilatory support, such as the insertion of a central catheter)	Present or absent outcome	24 hours
Secondary	Hemodynamic deterioration in the hour following the start of the Unisabana-Herons ventilator that requires a 100% increase in the dose of vasopressors and that does not have a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	Cardiac arrest without a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	Death without a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	Elevation of creatinine that does not have a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	Elevation of BUN that does not have a clinical explanation other than the ventilator	Present or absent outcome	24 hours
Secondary	Digestive bleeding without a clinical explanation other than ventilator	Present or absent outcome	24 hours
Secondary	Stress ulcers (upper gastrointestinal tract) without a clinical explanation other than ventilator	Present or absent outcome	24 hours
Secondary	Pneumonia associated with ventilator.	Present or absent outcome	24 hours
Secondary	Tracheobronchitis associated with ventilator.	Present or absent outcome	24 hours
Secondary	Critical care polyneuropathy that does not have a different explanation for the use of the ventilator and / or muscle relaxants necessary for mechanical ventilation	Present or absent outcome	24 hours
Secondary	Critical care myopathy that does not have a different explanation for the use of the ventilator and / or muscle relaxants necessary for mechanical ventilation	Present or absent outcome	24 hours