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This prospective randomized study aims to evaluate the effects of three auditory conditions-lullaby music, white noise, and silent headphone use-on sedation depth, anesthetic drug requirements, and recovery outcomes in children undergoing MRI. A total of 150 pediatric patients aged 6 months to 12 years will be assigned to one of three groups: lullaby, white noise, or silent headphone (isolation) control. All participants will receive routine sedoanalgesia according to institutional protocol. Vital signs, sedation depth, movement requiring sequence repetition, additional anesthetic dosing, and intra-procedural complications will be recorded. Post-procedure recovery will be assessed using the Ramsey Sedation Scale and the Modified Aldrete Score until discharge criteria are met. The study will compare whether auditory stimulation influences sedation stability, reduces anesthetic consumption, and improves recovery time during pediatric MRI.
This prospective randomized study is designed to investigate the effects of three auditory conditions-lullaby music, white noise, and silent headphone use-on sedation depth, anesthetic drug requirements, motion-related sequence repetition, and recovery outcomes during pediatric magnetic resonance imaging (MRI). Children aged 6 months to 12 years who require MRI under sedation will be enrolled. Participants will be randomly assigned to one of three groups: (1) silent headphone control, (2) white noise, or (3) lullaby music. Auditory stimulation in the white noise and lullaby groups will begin immediately after sedoanalgesia and will continue uninterrupted throughout the MRI examination. The control group will wear headphones without any auditory input.
Standard sedoanalgesia will be administered according to institutional pediatric anesthesia practice. During the MRI procedure, heart rate, oxygen saturation, and respiratory rate will be monitored continuously, with values recorded at 5-minute intervals. Any movement that compromises image quality will be documented, including the need for additional anesthetic dosing and repetition of imaging sequences. Procedure-related complications will also be recorded.
Following completion of the MRI, all participants will be transferred to the recovery area, where sedation and recovery assessments will be performed using the Ramsey Sedation Scale and the Modified Aldrete Score until discharge criteria are met. Demographic variables, diagnosis, MRI region, contrast use, total sedation time, MRI duration, auditory stimulation duration, anesthetic doses administered before and during MRI, and total time to discharge will be recorded for outcome comparison.
The study aims to determine whether specific auditory stimuli can enhance sedation stability, minimize anesthetic drug requirements, reduce movement-related interruptions, and shorten recovery time in pediatric patients undergoing MRI. The findings may help identify non-pharmacologic strategies to optimize pediatric sedation, improve imaging quality, and enhance patient safety in clinical practice.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Silent Headphone Group | Other | Participants wear MRI-compatible headphones without any auditory input. No music or noise is delivered throughout the MRI procedure. Standard sedoanalgesia is administered according to institutional protocol. |
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| White Noise Group | Other | Participants receive continuous white noise through MRI-compatible headphones starting immediately after sedoanalgesia and continuing throughout the MRI examination. All other clinical care follows standard pediatric sedation practice. |
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| Lullaby Music Group | Other | Participants receive continuous lullaby music through MRI-compatible headphones beginning after sedoanalgesia and continuing for the duration of the MRI procedure. Sedation and monitoring follow standard institutional protocols. |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Silent Headphone | Behavioral | Use of MRI-compatible headphones without auditory input during the MRI procedure. |
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| Measure | Description | Time Frame |
|---|---|---|
| Total Anesthetic Drug Consumption | Total amount of sedative/anesthetic medication administered during the MRI procedure, recorded in milligrams. Includes initial and additional doses required due to movement or inadequate sedation. | Periprocedural (during MRI examination) |
| Measure | Description | Time Frame |
|---|---|---|
| Sedation Depth | Depth of sedation will be assessed using the Ramsey Sedation Scale immediately following completion of the MRI examination. Higher scores indicate deeper sedation. | Immediately at the end of the MRI procedure |
| Motion Requiring Sequence Repetition |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Fatma Acil, M.D. | Saglik Bilimleri Universitesi Gazi Yasargil Training and Research Hospital | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Saglik Bilimleri Universitesi Gazi Yasargil Training and Research Hospital | Diyarbakır | Turkey | 21070 | Turkey (Türkiye) |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 36628804 | Background | Gergin OO, Pehlivan SS, Erkan I, Bayram A, Aksu R, Gorkem SB, Bicer C, Yildiz K. The effect of playing music and mother's voice to children on sedation level and requirement during pediatric magnetic resonance imaging. Explore (NY). 2023 Jul-Aug;19(4):600-606. doi: 10.1016/j.explore.2023.01.001. Epub 2023 Jan 7. |
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Three-arm, parallel-group, randomized controlled design evaluating the effects of lullaby music, white noise, and silent headphone use on sedation depth, anesthetic requirements, and recovery outcomes during pediatric MRI
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Participants, care providers, investigators, and outcome assessors are blinded to group allocation. Only the radiology technician operating the MRI scanner and initiating the auditory condition (lullaby, white noise, or silent headphones) is aware of the assignment; the technician is not involved in sedation management or outcome assessment."
| White Noise | Behavioral | Continuous delivery of white noise through MRI-compatible headphones throughout the MRI procedure |
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| Lullaby Music | Behavioral | Continuous delivery of lullaby music through MRI-compatible headphones for the duration of the MRI examination |
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Number of MRI sequences repeated due to patient movement that compromises image quality. The total count of repeated sequences will be compared among the three auditory intervention groups. |
| Periprocedural (during MRI examination) |
| Recovery Time | Time interval from the end of the MRI examination until the patient reaches a Modified Aldrete Score ≥ 9 in the recovery area. This measure reflects post-sedation recovery efficiency | assessed up to 120 minutes post-procedure |
| Heart Rate During MRI | Heart rate will be continuously monitored and recorded at 5-minute intervals throughout the MRI procedure. Heart rate values will be analyzed to assess sedation stability and compared among the three auditory conditions. | Periprocedural (during MRI scan) |
| Postoperative Nausea | Presence or absence of postoperative nausea assessed during the first 24 hours after surgery. The occurrence will be recorded as a binary outcome (yes/no). | Assessed Periprocedural and up to 120 minutes post-procedure |
| Postoperative Vomiting | Occurrence of postoperative vomiting during the first 24 hours after surgery. The occurrence will be recorded as a binary outcome (yes/no). | Assessed Periprocedural and up to 120 minutes post-procedure |
| Incidence of Oxygen Desaturation | Oxygen desaturation will be defined as a peripheral oxygen saturation (SpO₂) value below 90% lasting for at least 10 seconds during the procedure. The occurrence of oxygen desaturation will be recorded as a binary variable (yes/no) and compared among the three study groups. | Assessed Periprocedural and up to 120 minutes post-procedure |
| Incidence of Airway Obstruction | Airway obstruction will be defined as the presence of clinical signs requiring airway intervention, including jaw thrust, chin lift, insertion of an airway adjunct, or bag-mask ventilation. Events will be recorded as present or absent and compared among the three study groups. | Assessed Periprocedural and up to 120 minutes post-procedure |
| Incidence of Unexpected Agitation | Unexpected agitation will be defined as agitation requiring additional sedative or anesthetic intervention or interruption of the procedure, corresponding to a Richmond Agitation-Sedation Scale (RASS) score of +2 or higher. The occurrence will be recorded as a binary outcome (yes/no) and compared among the three study groups. | Assessed Periprocedural and up to 120 minutes post-procedure |
| Oxygen Saturation During MRI | Peripheral oxygen saturation (SpO₂) will be continuously monitored and recorded at 5-minute intervals during the MRI procedure. SpO₂ values will be analyzed to evaluate sedation stability and compared among the three auditory conditions. | Periprocedural (during MRI scan) |