Stress Level, Skin Moisture and Physiological Parameters in the First Bath of Newborns

Not Applicable

Completed

• Conditions: Infant Behavior

• Registration Number: NCT07109908
• Lead Sponsor: Istanbul University - Cerrahpasa

Brief Summary

Objectıve: The aim of this study was to determine the effect of wipe (WG), shower (SG) and tub bath (TG) on stress level, skin moisture and physiological parameters used during the first bath in newborns hospitalized in the Neonatal Intensive Care Unit (NICU).

Hypotheses of the Research

Hypothesis 01,2,3: There is no difference between wiping baths, wrapping baths and shower baths in terms of their effects on thermoregulation, stress level, skin moisture and physiological parameters of newborns.

Hypothesis 11: Newborns who are given a wrap-up bath have a lower stress level than if they are swept and showered.

Hypothesis 12: Newborns who are given a wrap-up bath have better skin moisture levels than newborns who are wiped and showered.

Hypothesis 13: Physiological parameters (body temperature, heart peak, respiratory rate, oxygen saturation) of newborns who are given a wrap bath are less affected than wiping and showering.

Detailed Description

Bathing in newborns is an important midwifery/nursing practice that not only cleans the baby's skin, but also relaxes the baby (Tambunan and Mediani, 2019; da Fonseca Filho et al., 2017), supports immune system development (Burdall et al., 2019), and contributes to the preservation of skin integrity (Lima et al., 2020). If the appropriate method is not chosen in bathing in newborns and the bath is not performed under appropriate conditions, it may adversely affect the adaptation of the newborn to the extrauterine environment, physiological parameters and stress level. Therefore; the bath should be applied in a warm environment, in a safe and peaceful way, and with the appropriate method (Lima et al., 2020). In addition to performing bathing in the appropriate way, midwives/nurses should take appropriate precautions by observing the physiological parameters and stress responses of infants (Huang et al., 2022; Tambunan et al., 2022).

In newborns, wrap-around bath, wipe bath and shower bath methods are frequently used. Wiping bath is the process of wiping the baby's skin. The wrap-around bathtub bath method is to clean the baby by wrapping it with a soft towel or blanket and placing it in a bathtub filled with water at the appropriate temperature, preserving the flexion and midline position. A bath in the form of a shower is the process of bathing the newborn under running water (Ceylan and Bolışık, 2022; Karakul and Dogan, 2020).

Study Timeline

• Study Start: 2024-01-01
• Primary Completion: 2024-01-30
• Study Completion: 2024-11-30
• Study First Submitted: 2025-06-30
• Status Verified: 2025-07
• Study First Submitted QC: 2025-08-06
• Last Update Submitted: 2025-08-06
• Study First Posted: 2025-08-07
• Last Update Posted: 2025-08-07

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 72

Inclusion Criteria

• Birth weight of 2500 g or more
• Body temperature within the normal range (36-37.3°C)
• Respiratory rate between 30-60 breaths per minute
• Oxygen saturation above 85%
• Absence of neurological problems (e.g., hypotonia, hypertonia)
• Absence of congenital defects
• No dermatological problems
• Parental consent and voluntary participation in the research

Exclusion Criteria

• Presence of respiratory failure or distress
• Requirement for ventilator support
• Continuous need for high-concentration oxygen via methods such as hood or CPAP
• History of convulsions
• Clinical evidence of infection

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Primary Outcome Measures

Name	Time	Method
Physiological Variables Follow-up Form	Just before bathing, just after bathing, and 30 minutes after bathing	Developed by researchers based on the literature (Taşdemir, 2017; Tibik and Şener, 2024) this form, physiological variables of the newborn; heart rate (min), respiratory rate (min), oxygen saturation value (%SpO2%), body temperature (°C) and neonatal skin condition score were used to record the evaluation results. The physiological parameters of the newborn were evaluated three times in each group: just before, immediately after bathing and 30 minutes after bathing.
Skin Moisture Tracking Form	6th hour, 12th hour and 24th hour just before and after bath	Developed by researchers based on the literature (Çeçen, 2023; Taşdemir and Efe, 2025). Skin moisture monitoring was measured with a skin moisture meter and recorded in the form. Skin moisture measurement was made by the same nurse from the determined areas (forehead, abdomen, forearm and upper leg) just before the bath and at the 6th, 12th hour and 24th hour after the bath. The Skin Moisture Meter is used to measure the amount of moisture at any point of the body only by contact with the skin, with its precise measurement feature. The humidity measurement of the device is in the range of 0% - 99.9%. The moisture meter weighs 40° and works effectively at ambient temperatures between 5° and 40° C (Konar et al., 2020).
Neonatal Stress Scale	10 min before bathing, during bathing, just after bathing, 15 and 30 min after bathing	The neonatal stress scale was developed by Ceylan and Bolışık (2017) to assess the stress level in premature babies. The scale includes 8 subgroups including facial expression, body color, respiration, activity level, consolation, muscle tone, extremities and posture and consists of a total of 24 items in 3-point Likert type. In scoring, each subgroup is evaluated between 0-2 points. The score obtained from the scale is a minimum of 0 points and a maximum of 16 points. An increase in the score indicates that the baby's stress level has increased. Cronbach's Alpha values of the scale ranged from 0.65 to 0.81 for Observer 1 and 0.69 to 0.78 for Observer 2 (Ceylan and Bolışık 2017). The stress level of the newborns was evaluated 5 times through the Neonatal Stress Scale, 10 minutes before bathing, during the bath, immediately after the bath, 15 minutes after the bath, and 30 minutes after the bath.

Trial Locations

Locations (1)

Demet Güney; 🇹🇷 Kastamonu, Turkey