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Evaluation of the Effect of Perioperative Recruitment Maneuver Practice on Lung Ultrasound Score and Mechanical Power in Pediatric Patients; A Prospective Randomized Study

NCT ID: NCT07294560

Last Updated: 2025-12-19

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

NOT_YET_RECRUITING

Clinical Phase

NA

Total Enrollment

78 participants

Study Classification

INTERVENTIONAL

Study Start Date

2025-12-15

Study Completion Date

2026-07-15

Brief Summary

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Pulmonary atelectasis is common during general anesthesia and increases the risk of hypoxemia, especially in pediatric patients. PEEP and recruitment maneuvers (RM) are effective in preventing atelectasis. Lung ultrasound is practical for diagnosis. Mechanical power refers to the amount of energy delivered to the lung by the ventilator; excessive mechanical power can cause lung injury. Limiting mechanical power may reduce postoperative complications. This study aimed to determine the effectiveness of recruitment maneuvers in preventing atelectasis using lung ultrasound during the intraoperative period, to examine the relationship between lung ultrasound scores and mechanical power, and to demonstrate the effect of recruitment maneuvers on postoperative pulmonary complications. This study is based on the hypothesis that "The recruitment maneuver reduces perioperative atelectasis and the development of related complications, and lung ultrasound can be used to detect this. The lung ultrasound score also decreases in patients with reduced mechanical force." It will be prospectively applied to pediatric patients aged 1-14 years who will undergo surgery in the operating rooms of Cerrahpaşa Medical Faculty.

Patients included in the study will be prospectively randomized into 3 groups. The randomization performed using the sealed opaque envelope method.All patients will be ventilated in VG-Pressure guaranteed mode. Tidal volume will be calculated as 6-8 ml/kg of ideal body weight.

GROUP 1: Fixed PEEP: 5 cmH2O, GROUP 2: PEEP: 5 cmH2O, 5 cycles, recruitment maneuver with plateau P\<35 cm H2O and vital capacity x2. GROUP 3: PEEP: 5 cmH2O, 5 cycles of recruitment maneuvers will be performed in the right and left lateral decubitus position before extubation with P\<35 cmH2O and vital capacity x2.

Lung ultrasound will be performed before induction (1), 5 minutes after intubation (2), before extubation (3), and finally 5 minutes after extubation(4). Each hemithorax will be divided into 6 regions, and lung scores will be recorded. At 5 minutes after intubation and every hour there after, PeakP, PlateauP, DeltaP, Compliance, Driving Pressures, and Mechanical Work calculations will be recorded before and after the maneuver in the group undergoing the recruitment maneuver.

Detailed Description

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Pulmonary atelectasis refers to incomplete expansion of the alveoli and terminal bronchioles. Atelectasis impairs oxygenation of the blood and reduces lung compliance. Pulmonary atelectasis is common in patients undergoing general anesthesia. The pediatric patientgroup is more sensitive to hypoxemia due to lower functional residual capacity and increased metabolic requirements compared to adults. Therefore, preventing and detecting atelectasis is important. Recruitment maneuvers open collapsed alveoli, increase gas exchange, and improve oxygenation. Lung ultrasound is a fast, simple, non-invasive, and radiation-free technique for diagnosing anesthesia-induced atelectasis. Mechanical work is a recently defined ventilation parameter. This concept represents the energy transferred by the ventilator to the respiratory system per unit time. Part of this energy may directly affect lung tissue, causing ventilator-induced lung injury. Mechanical work is calculated based on a combination of parameters such as tidal volume, respiratory rate, driver pressure, and peak pressure. Mechanical work is a comprehensive measure that reflects the static and dynamic components of these variables together. In intensive care patients, both driving pressure and mechanical power have been shown to be associated with morbidity and mortality. However, in the pediatric patient group, the effect of mechanical power during the intraoperative period on postoperative pulmonary complications has not been sufficiently investigated. Limiting intraoperative mechanical power may reduce the risk of postoperative complications.This study aimed to determine the effectiveness of the recruitment maneuver in preventing atelectasis using lung ultrasound during the intraoperative period, to examine the relationship between the lung ultrasound score and mechanical power, and to demonstrate the effect of the recruitment maneuver on postoperative pulmonary complications.

During the study period, patients aged 1-14 years who underwent surgery in the operating rooms of Cerrahpaşa Medical Faculty, with an ASA score of 1-3, and a surgical duration of at least 2 hours will be included in the study. Patients with an ASA score of 4 or defined lung disease (patients using medication due to asthma and having made 2 emergency visits within 1 year), prematurity (\< 36 weeks gestation/bronchopulmonary dysplasia), cystic fibrosis, diagnosed syndromic disease, congenital cardiac disease, abnormal chest X-ray, chest wall deformity, or history of previous chest surgery will be excluded from the study. All patients will be ventilated in VG-Pressure guaranteed mode, Tidal volume will be calculated as ideal body weight x 6-8 ml/kg GROUP 1: Fixed PEEP: 5 cm H2O, GROUP 2: PEEP: 5 cm H2O, 5 cycles, recruitment maneuver will be performed with pre-extubation plateau P \< 35 cm H2O and vital capacity x 2

. GROUP 3: PEEP: 5 cm H2O, 5 cycles of recruitment maneuvers will be performed in the right-left lateral decubitus position before extubation with plateauP \< 35 cm H2O and vital capacity x 2.

This study will be performed pre-induction (1), 5 minutes after intubation (2), pre-extubation (3), and finally 5 minutes after extubation (4). In the lung ultrasonographic examinations performed, each hemithorax will be divided into 6 regions, and pleural shift, A-line, Air Bronchogram, B score, and Consolidation score will be evaluated at each of the two Plaps points in terms of B score and consolidation score.

Lung scores will be calculated and recorded. Starting from the pre-induction period, at 5 minutes post-intubation and every hour thereafter, KAH, OAB, SpO2, FiO2, ETCO2, Peak P, Plateau P, Delta P, Compliance, driving pressures, mechanical power calculations, and values will be recorded.

Additionally, in groups where the recruitment maneuver is performed, pre- and post-maneuver values will be recorded. Additionally, in groups undergoing recruitment maneuvers, pre- and post-maneuver values will be recorded.

Mechanical power; MPvcv = RR x TV x (PIP - \[(Pplat - PEEP) x 0.5\]) x 0.098 Dynamic power : (TV x RR x \[(Pplato + tPEEP) x 0.5) x 0.098 Driving force: (TV x RR x \[ (Pplato - tPEEP) x 0.5\] x 0.098 Mechanical Energy (0.098 (TV kg) (PIP -\[(Pplato - PEEP) x 0.5\] All patients will be premedicated with midazolam (0.05 -1 mg/kg) if vascular access is available, then taken to the operating room. After patients are taken to the operating room, standard monitoring will be performed (SPO2, ECG, and non-invasive blood pressure measurement). Following preoxygenation with 100% O2, induction will be performed with thiopental 5 mg/kg, propofol 2 mg/kg, fentanyl 2 mcg/kg, rocuronium 0.6 mg/kg. After tracheal intubation, the mechanical ventilator will be set to pressure-controlled mode with tidal volume: 8 ml/kg, PEEP: 5 cmH2O, FIO2: 40%, respiratory rate ETCO2: 35-45. Anesthesia maintenance will be provided with sevoflurane/oxygen. 2 mg/kg sugammadex will be used when waking patients. The Aldrete scoring system will be used for service transfer in the recovery unit.

Patients will be monitored for desaturation, fever, and oxygen needs during the 24-hour postoperative period, and findings will be recorded.

Conditions

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Postoperative Pulmonary Complications Postoperative Pulmonary Atelectasis Pediatric Surgery

Keywords

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recruitment maneuver pediatric recruitment maneuver PEEP mechanical power mechanical work compliance atelectasis

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

OTHER

Blinding Strategy

DOUBLE

Participants Outcome Assessors

Study Groups

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GROUP 1

Fixed PEEP: 5 cm H2O

Group Type NO_INTERVENTION

No interventions assigned to this group

GROUP 2

PEEP: 5 cm H2O, 5 cycles, recruitment maneuver will be performed with pre-extubation plateau P \< 35 cm H2O and vital capacity x 2

Group Type ACTIVE_COMPARATOR

recruitment maneuver

Intervention Type OTHER

PEEP: 5 cmH2O, 5 cycles, recruitment maneuver with plateau P\<35 cm H2O and vital capacity x2.

GROUP 3

PEEP: 5 cm H2O, 5 cycles of recruitment maneuvers will be performed in the right-left lateral decubitus position before extubation with plateauP \< 35 cm H2O and vital capacity x 2.

Group Type ACTIVE_COMPARATOR

right and left lateral decubitus position recruitment maneuvers

Intervention Type OTHER

PEEP: 5 cmH2O, 5 cycles of recruitment maneuvers will be performed in the right and left lateral decubitus position before extubation with P\<35 cmH2O and vital capacity x2.

Interventions

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recruitment maneuver

PEEP: 5 cmH2O, 5 cycles, recruitment maneuver with plateau P\<35 cm H2O and vital capacity x2.

Intervention Type OTHER

right and left lateral decubitus position recruitment maneuvers

PEEP: 5 cmH2O, 5 cycles of recruitment maneuvers will be performed in the right and left lateral decubitus position before extubation with P\<35 cmH2O and vital capacity x2.

Intervention Type OTHER

Eligibility Criteria

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Exclusion Criteria

* prematurity (\< 36 weeks gestational age / bronchopulmonary dysplasia), cystic fibrosis, diagnosed syndromic disease, congenital cardiac disease, abnormal chest X-ray, chest wall deformity, or history of previous chest surgery will not be included in the study.
Minimum Eligible Age

1 Year

Maximum Eligible Age

14 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No

Sponsors

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Istanbul University - Cerrahpasa

OTHER

Sponsor Role lead

Responsible Party

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Elif Keskin

Elif Keskin, Medical Doctor, Istanbul University - Cerrahpasa

Responsibility Role PRINCIPAL_INVESTIGATOR

Locations

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Istanbul University-Cerrahpasa, Cerrahpasa Medicine of Faculty

Istanbul, Bakırköy, Turkey (Türkiye)

Site Status

Countries

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Turkey (Türkiye)

Central Contacts

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Elif Keskin, Medical Doctor

Role: CONTACT

Phone: 02124143000

Email: [email protected]

Facility Contacts

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Elif Keskin, Medical doctor

Role: primary

Other Identifiers

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1408545

Identifier Type: -

Identifier Source: org_study_id