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Clinical Trial Details — Status: Not yet recruiting

Administrative data

NCT number NCT06298435
Other study ID # 17536
Secondary ID
Status Not yet recruiting
Phase
First received
Last updated
Start date March 1, 2024
Est. completion date April 1, 2025

Study information

Verified date February 2024
Source University Medical Center Groningen
Contact Clemens Barends, phd
Phone +31-503616161
Email c.r.m.barends@umcg.nl
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

• Background Intermittent Positive Pressure Ventilation is used during general anesthesia but can lead to serious complications. Respiratory parameter settings can be adjusted to minimize the detrimental effects of this unphysiological artificial respiration. Determining optimal ventilator settings is a multifactorial problem with many possible realisations. Knowledge of the relationship of patient outcomes with mathematically identifiable integer sets of ventilator setting parameters may help to understand which effects ventilator settings have on patient outcomes. An exploratory database study can provide a basis for further, prospective, interventional studies to find the optimal combination of ventilator settings. Main research question - To determine the relationship between the use of mathematically identifiable integer ventilator parameter sets and patient outcomes - Design (including population, confounders/outcomes) Retrospective database study of all cases of adult patients undergoing procedures in the UMCG under general anesthesia with IPPV between 01-01-2018 and 01-04-2023. Multivariate and mixed-model analyses, where appropriate, will be corrections for patient specific characteristics such as ASA PS, age, BMI, sex. - Expected results Using mathematically identifiable integer ventilatory parameter sets improves respiratory and/or hemodynamic patient outcomes.


Description:

• Introduction and rationale Intermittent Positive Pressure Ventilation (IPPV) is required for almost every patient under general anesthesia. It is recognized that IPPV is an unphysiological way of breathing and it can have serious complications when instituted incorrectly. 1 Known complications of IPPV include (but are not limited to) desaturation, atelectasis and baro-/volutrauma. Many studies have tried to determine the optimal settings for ventilatory parameters during IPPV. 2 Currently, however, it is unknown whether the use of specific ventilatory parameter sets is related to improved outcomes for patients undergoing procedures under general anesthesia. IPPV is commonly instituted using a set of parameters which determine respiratory characteristics among which are Peak Inspiratory Pressure (PIP), Positive End Expiratory Pressure (PEEP), Plateau Pressure (PlatP) and the Fraction of Inspired Oxygen(FiO2). 3 Adjustment of these parameters allows the clinician to optimize the mechanical characteristics of the artificial respiration of the patient. IPPV changes intrathoracic pressure in a cyclic way. Pressure increases during inspiration and decreases during expiration. The influence of increased intrathoracic pressure, caused by IPPV, on hemodynamic parameters is well known and is one of the factors used by anesthesiologists when instituting IPPV. IPPV-pressures may both increase or decrease hemodynamic parameters such as cardiac preload and left ventricular wall tension, thus influencing not only oxygenation and decarbonization, but also cardiac output, myocardial oxygen consumption and direct cerebral oxygenation. The relationship between respiration and circulation exhibits complex dynamics and understanding this may help to promote more natural and physiologic breathing patterns, leading to improved oxygenation and reduced respiratory distress. In addition to direct influence of positive ventilatory pressures on hemodynamic factors the cyclic nature of both IPPV and hemodynamic factors needs to be taken into account when investigating the relationship between IPPV and patient outcomes. When changes in respiratory pressures coincide with related physiological phenomena, each cycle may pose an additive influence on both parameters. Furthermore, coinciding physiological cycles may lead to "respiratory entrainment," where the ventilator-induced breaths becomes asynchronizous with the patient's intrinsic respiratory rhythm, leading to ineffective ventilation and increased risk of lung injury. Additionally, reducing respiratory entrainment may help to reduce the likelihood of mechanical fatigue and stress on the lung tissue, as it avoids repetitive or periodic stress on the respiratory system. Using mathematically identified integer sets as ventilatory parameter settings may reduce the coinciding of respiratory cycles with recurring physiological phenomena. Furthermore, the role of mathematical identification of optimal integer sets for use in ventilator parameters can help find optimal settings to reduce complications from Intermittent Positive Pressure Ventilation Research question To determine the relationship between the use of mathematically identifiable integer ventilator parameter sets and patient outcomes METHOD Description study design This is a retrospective database study. A database search of all cases of adult patients undergoing procedures in the UMCG under general anesthesia with IPPV between 01-01-2018 and 01-04-2023 will be conducted. Researchers will use anonymized data only from the existing patient data records. This study will investigate the relationship of mathematically identifiable integer sets of ventilator setting parameters during surgery performed under general anesthesia with IPPV. Data will be extracted from the Electronic Patient Database and all data will be handled anonymously. Parameter integer sets will be identified using probabilistic (or Monte Carlo) algorithms and sieve methods. Non-multifactorial and multifactorial sets will be compared and only non-negative integers will be considered for analysis Univariate, multivariate regression methods and mixed-model analyses, where appropriate, will be used to determine which integer sets in ventilatory parameter settings during surgery performed under general anesthesia and IPPV are related to patient outcomes such as SpO2 and FiO2/ SpO2-ratio


Recruitment information / eligibility

Status Not yet recruiting
Enrollment 20000
Est. completion date April 1, 2025
Est. primary completion date April 1, 2025
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility - Inclusion criteria: Adult patients having undergone surgery under general anesthesia with Intermittent Positive Pressure Ventilation in the UMCG between 01-01-2018 and 01-04-2023. - Exclusion criteria: age <18 years; no use ofIntermittent Positive Pressure Ventilation; not under general anesthesia

Study Design


Intervention

Procedure:
Intermittent Positive pressure ventilation
Intermittent positive pressure ventilation during general anesthesia for non-cardiac surgery

Locations

Country Name City State
Netherlands UMCG Groningen

Sponsors (1)

Lead Sponsor Collaborator
University Medical Center Groningen

Country where clinical trial is conducted

Netherlands, 

Outcome

Type Measure Description Time frame Safety issue
Primary SpO2/FiO2 ratio from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary SpO2 from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary etCO2 from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary Blood Pressure from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary Heart Rate from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary Positive end Expiratory Pressure from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary Plateau Pressure from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
Primary Respiration rate from start of intermittent positive pressure ventilation until end of intermittent positive pressure ventilation, assessed for a maximum of 24 hours after start of Intermittent Positive Pressure Ventilation
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