Investigating the Interplay of Thermal, Lighting, and Acoustics in Intensive Care for Enhanced Patient Well-being and Clinical Outcomes.

IF 1.7 4区医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Herd-Health Environments Research & Design Journal Pub Date : 2025-04-01 Epub Date: 2025-02-16 DOI:10.1177/19375867251317235

Emil E Jonescu, Edward Litton, Benjamin Farrell

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引用次数: 0

Abstract

This research explores the interplay among noise levels, thermal conditions, and lighting intensity in an intensive care unit (ICU), focusing on preserving circadian rhythm and promoting nighttime sleep to advance patient-centric care. This investigation assesses lighting levels (Lux), natural versus artificial light ratios, ICU room temperature, and correlations with acoustic data during a field research period and examines the collective impact of patient exposure to sleep linked to delirium and health outcomes, addressing critical gaps in understanding. Findings reveal that noise levels between 60 and 90 dB(A) during patient occupancy exceed sleep disruption thresholds, with daytime averages of 53.6 dB(A) and nighttime averages of 48.5 dB(A) surpassing recommended criteria. Temperature fluctuations, often outside the optimal sleep range, and suboptimal diurnal variations impact patient comfort and clinician challenges. Lux levels mostly fall short of the optimum range, affecting circadian rhythms. Temporal distinctions of these environmental factors directly impact clinicians and patients, with correlated spikes in noise, lighting, and temperature during admission periods requiring heightened attention for optimal care. These cumulative impacts necessitate clinicians to navigate challenges and ensure consistent and effective care. Patients experience sleep disruptions, highlighting the need for a holistic healthcare design addressing interconnected environmental dynamics. The findings underscore the importance of comprehensive approaches to healthcare design, optimizing the ICU environment for patient-centric care and supporting healthcare professionals' well-being. Recommendations include targeted interventions to improve sleep, reduce delirium incidence, and enhance recovery, advancing ICU design for better patient outcomes; and facilitating effective communication among healthcare practitioners.

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研究热、光、声在重症监护中的相互作用，以提高患者的健康和临床结果。

本研究探讨了重症监护病房（ICU）中噪音水平、热条件和照明强度之间的相互作用，重点是保持昼夜节律和促进夜间睡眠，以推进以患者为中心的护理。本研究评估了照明水平（勒克斯）、自然光与人造光的比例、ICU室温以及在实地研究期间与声学数据的相关性，并检查了患者暴露于睡眠与谵妄和健康结果相关的集体影响，解决了理解上的关键空白。研究结果显示，患者入住期间60 - 90 dB(A)的噪音水平超过了睡眠干扰阈值，日间平均53.6 dB(A)和夜间平均48.5 dB(A)超过了推荐标准。温度波动，通常在最佳睡眠范围之外，以及次优的昼夜变化影响患者的舒适度和临床医生的挑战。Lux水平大多低于最佳范围，影响昼夜节律。这些环境因素的时间差异直接影响临床医生和患者，在入院期间，噪音、照明和温度的相关峰值需要高度关注以获得最佳护理。这些累积的影响要求临床医生应对挑战，确保持续有效的护理。患者会经历睡眠中断，这突出了解决相互关联的环境动态的整体医疗保健设计的必要性。研究结果强调了医疗保健设计综合方法的重要性，优化ICU环境以患者为中心的护理和支持医疗保健专业人员的福祉。建议包括有针对性的干预措施，以改善睡眠，减少谵妄发生率，促进康复，推进ICU设计，以获得更好的患者预后；促进医疗保健从业人员之间的有效沟通。

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来源期刊

Herd-Health Environments Research & Design Journal PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

4.10

自引率

22.70%

发文量