Day-Night Activity in Hospitalized Children after Major Surgery: An Analysis of 2271 Hospital Days

Nurses' perceptions of the layout and environment of the paediatric intensive care unit in terms of sleep promotion

BACKGROUND

Noise and light are frequently cited as major factors contributing to sleep disturbance. The paediatric intensive care unit (PICU) layout may increase environmental stimuli and limit nurses' control over the environmental disturbances that patients encounter.

AIM

This study aims to describe nurses' perceptions regarding the layout of the PICU and its potential impact on environmental disturbances and patients' sleep. Additionally, it seeks to investigate the extent to which unit layout impacts environmental disturbances across Scandinavian countries.

STUDY DESIGN

A comparative cross-sectional study was conducted using an online questionnaire in three PICUs in three large university hospitals in Norway, Sweden and Denmark.

RESULTS

Out of the 79 study participants, 63% did not agree that their PICU layout was conducive to their patients sleeping well. While 52% reported having control over the light at nighttime, 55% felt that they were unable to control noise levels during the night. Monitors and alarms were rated as the highest contributing factors limiting control over noise. Compared to the Danish nurses, the Norwegian nurses were five times less likely to agree that the unit layout supported a normal sleep-wake cycle.

CONCLUSION

The Scandinavian nurses perceived the PICU layouts as inadequate for promoting control over the environment and patients' sleep. The Norwegian PICU layout, with larger multibed units, was perceived as inferior in promoting sleep and controlling noise and light compared with the Swedish and Danish PICUs.

RELEVANCE TO CLINICAL PRACTICE

This study provides valuable insights to nurses regarding the specific factors influencing noise and light in the PICU, enabling nurses to take appropriate measures to improve sleep by gaining control over the patient's environment. Additionally, the results of this study can inform future renovations or modifications of multibed units, with the aim of preventing the layout from restricting nurses' control over the noise and light levels experienced by patients.

The Nurse-Implemented Chronotherapeutic Bundle in Critically Ill Children, RESTORE Resilience (R 2 ): Pilot Testing in a Two-Phase Cohort Study, 2017-2021

OBJECTIVES

Pilot test the nurse-led chronotherapeutic bundle in critically ill children, RESTORE Resilience (R 2 ).

DESIGN

A two-phase cohort study was carried out from 2017 to 2021.

SETTING

Two similarly sized and organized PICUs in the United States.

PATIENTS

Children 6 months to 17 years old who were mechanically ventilated for acute respiratory failure.

INTERVENTIONS

R 2 seven-item chronotherapeutic bundle, including: 1) replication of child's pre-hospital daily routine (i.e., sleep/wake, feeding, activity patterns); 2) cycled day-night light/sound modulation; 3) minimal effective sedation; 4) night fasting with bolus enteral daytime feedings; 5) early progressive mobility; 6) nursing care continuity; and 7) parent diaries.

MEASUREMENTS AND MAIN RESULTS

Children underwent environmental (light, sound) and patient (actigraphy, activity log, salivary melatonin, electroencephalogram) monitoring. Parents completed the Child's Daily Routine and Sleep Survey (CDRSS) and Family-Centered Care Scale. The primary outcome was post-extubation daytime activity consolidation (Daytime Activity Ratio Estimate [DARE]). Twenty baseline-phase (2017-2019) and 36 intervention-phase (2019-2021) participants were enrolled. During the intervention phase, nurses used the CDRSS to construct children's PICU schedules. Overall compliance with nurse-implemented R 2 elements 1-5 increased from 18% (interquartile range, 13-30%) at baseline to 63% (53-68%) during the intervention phase ( p < 0.001). Intervention participants were exposed to their pre-hospitalization daily routine ( p = 0.002), cycled day-night light/sound modulation ( p < 0.001), and early progressive mobility on more PICU days ( p = 0.02). Sedation target identification, enteral feeding schedules, and nursing care continuity did not differ between phases. Parent diaries were seldom used. DARE improved during the intervention phase and was higher pre-extubation (median 62% vs. 53%; p = 0.04) but not post-extubation (62% vs. 57%; p = 0.56).

CONCLUSIONS

In the PICU, implementation of an individualized nurse-implemented chronotherapeutic bundle is feasible. Children who received the R 2 bundle had increased pre-extubation daytime activity consolidation compared to children receiving usual care. Given variation in protocol adherence, further R 2 testing should include interprofessional collaboration, pragmatic trial design, and implementation science strategies.

Impact of an Intervention Aimed at Improving Sleep Quality in Hospitalized Children

BACKGROUND

Hospitalized children need adequate sleep to favor early recovery.

METHODS

To study the sleep pattern of children admitted to a pediatric inpatient unit, a cross-sectional study was carried out at a reference hospital in northern Spain. The main study variables were medical specialty of admission, sleep-inducing treatment, hours of sleep at home and during admission, number of nocturnal awakenings, and reasons for awakening. Differences in the hours of sleep and nighttime awakenings between the initial period and at six months were calculated using the Student's t-test.

RESULTS

We included 100 baseline patients and 100 post-intervention patients. Up to 4% of the baseline sample and 3% of the six-month sample had been prescribed a sleep-promoting drug. Regarding awakenings, 79% of the children in the baseline sample suffered awakenings, with a mean of 1.98 awakenings (range 1-13). At six months, the percentage of children who experienced awakenings decreased by 17%, with a mean of 1.34 (range 1-5). In the baseline sample, 48% were caused by nursing care, decreasing to 34% after the intervention.

CONCLUSIONS

An educational intervention with the implementation of targeted evidence-based practices is a useful measure for improving the sleep pattern by decreasing the number of awakenings.

Screen time and sleep duration in pediatric critical care: Secondary analysis of a pilot observational study

PURPOSE

Quantify and describe screen time (screen type, child engagement, adult co-viewing) in eight critically ill children and determine its association with sleep duration before (parent report) and during (actigraphy) a 24-h period in the PICU.

DESIGN AND METHODS

Exploratory secondary analysis of 24-h video and actigraphy recordings in eight children 1-4 years old in the PICU. Videos were coded for screen time using Noldus Observer XT® software. Screen time was compared to American Academy of Pediatrics recommendations (0 h/day <2 years, ≤1 h/day 2-5 years). Parents completed the Brief Infant Sleep Questionnaire-Revised-Short Form (BISQ-R-SF) to understand children's pre-hospital sleep. Actigraphy was used to measure PICU sleep duration. Associations between screen time and sleep were determined with bivariate analyses.

RESULTS

Average age was 23.1 months (SD = 9.7). Daily screen time was 10.7 h (SD = 7), ranging from 2.4 to 21.4 h. Children (15.1% of sampling intervals) and adults (16.3%) spent little time actively engaged with screen media. BISQ-R-SF scores ranged from 48.9 to 97.7. Children had an average of 7.9 (SD = 1.2) night shift (19:00-6:59) sleep hours. Screen time was associated with worse pre-hospital sleep quality and duration with large effect sizes (rs= -0.7 to -1) and fewer nighttime sleep hours with a medium effect size (rs= -0.5).

CONCLUSIONS

All children exceeded screen time recommendations. Screen time was associated with worse pre-hospital sleep quality and duration, and decreased PICU sleep duration. Large-scale studies are needed to explore PICU screen time and sleep disruption.

PRACTICE IMPLICATIONS

Clinicians should model developmentally appropriate screen media use in PICU.

Sources of Sound Exposure in Pediatric Critical Care

BACKGROUND

Sound levels in the pediatric intensive care unit (PICU) are often above recommended levels, but few researchers have identified the sound sources contributing to high levels.

OBJECTIVES

To identify sources of PICU sound exposure.

METHODS

This was a secondary analysis of continuous bedside video and dosimeter data (n = 220.7 hours). A reliable coding scheme developed to identify sound sources in the adult ICU was modified for pediatrics. Proportions of sound sources were compared between times of high (≥45 dB) and low (<45 dB) sound, during day (7 AM to 6:59 PM) and night (7 PM to 6:59 AM) shifts, and during sound peaks (≥70 dB).

RESULTS

Overall, family vocalizations (38% of observation time, n = 83.9 hours), clinician vocalizations (32%, n = 70.6 hours), and child nonverbal vocalizations (29.4%, n = 64.9 hours) were the main human sound sources. Media sounds (57.7%, n = 127.3 hours), general activity (40.7%, n = 89.8 hours), and medical equipment (31.3%, n = 69.1 hours) were the main environmental sound sources. Media sounds occurred in more than half of video hours. Child nonverbal (71.6%, n = 10.2 hours) and family vocalizations (63.2%, n = 9 hours) were highly prevalent during sound peaks. General activity (32.1%, n = 33.2 hours), clinician vocalizations (22.5%, n = 23.3 hours), and medical equipment sounds (20.6, n = 21.3 hours) were prevalent during night shifts.

CONCLUSIONS

Clinicians should partner with families to limit nighttime PICU noise pollution. Large-scale studies using this reliable coding scheme are needed to understand the PICU sound environment.

A nursing perspective on inpatient sleep and circadian disruptions for pediatric stem cell transplant patients

BACKGROUND

Children treated with stem cell transplant (SCT) are routinely hospitalized for long periods where they are exposed to significant sleep and circadian disruptions. As nurses play a primary role in symptom management during SCT, we sought to understand their perspective on patient sleep and circadian disruptions, perceived barriers to a good sleep and circadian environment, and suggestions for improvement.

PROCEDURE

Four focus groups were conducted with pediatric SCT nurses (N = 25 participants). A semistructured focus group guide was administered, with the discussions recorded and transcribed. A multistage thematic analysis combining prefigured and emergent dimensions was conducted. Our analysis focused on drawing comparisons within and across focus groups to understand the unique work experiences that participants had related to the patient's sleep and circadian environment.

RESULTS

Three key themes emerged. First, nurses expressed a high awareness of how disruptive the hospital environment is for patients. Second, nurses described their extensive efforts to try to minimize the impact of these disruptions. Finally, they provided clear recommendations for how to improve upon these concerns, along with barriers that they perceive could impede implementation.

CONCLUSIONS

Front-line caregivers on a pediatric SCT unit describe key contributors to sleep/circadian disturbances for patients. Within the constraints of the considerable medical needs of this patient population and the physical room/hospital environment, nurses strive to minimize these disruptions to the best of their ability. It is crucial that hospitals assess and remediate these disturbances for these children that have important implications for overall health.

Pediatric Intensive Care Unit related Sleep and Circadian Dysregulation: a focused review

The pediatric intensive care unit (PICU) is bright, loud, and disruptive to children. Strategies to improve the sleep of adults in the ICU have improved delirium and mortality rates. Children need more sleep than adults for active growth, healing, and development when well; this is likely true when they are critically ill. This review was performed to describe what we know in this area to date with the intent to identify future directions for research in this field. Since the 1990s, 16 articles on 14 observational trials have been published investigating the sleep on a total of 312 critically ill children and the melatonin levels of an additional 144. Sleep measurements occurred in 9 studies through bedside observation (n = 2), actigraphy (n = 2), electroencephalogram (n = 1) and polysomnography (n = 4), of which polysomnography is the most reliable. Children in the PICU sleep more during the day, have fragmented sleep and disturbed sleep architecture. Melatonin levels may be elevated and peak later in critically ill children. Early data suggest there are at-risk subgroups for sleep and circadian disruption in the PICU including those with sepsis, burns, traumatic brain injury and after cardiothoracic surgery. The available literature describing the sleep of critically ill children is limited to small single-center observational studies with varying measurements of sleep and inconsistent findings. Future studies should use validated measurements and standardized definitions to begin to harmonize this area of medicine to build toward pragmatic interventional trials that may shift the paradigm of care in the pediatric intensive care unit.

Rest-activity patterns associated with delirium in patients with intracerebral hemorrhage

BACKGROUND

Delirium is an acute cognitive disturbance frequently characterized by abnormal psychomotor activity and sleep-wake cycle disruption. However, the degree to which delirium affects activity patterns in the acute period after stroke is unclear. We aimed to examine these patterns in a cohort of patients with intracerebral hemorrhage (ICH).

METHODS

We enrolled 40 patients with intracerebral hemorrhage (ICH) who had daily DSM-5-based delirium assessments. Continuous activity measurements were captured using bilateral wrist actigraphs throughout each patient's admission. Activity data were collected in 1-min intervals, with "rest" defined as periods with zero activity. We compared differences in activity based on delirium status across multiple time intervals using multivariable models adjusted for age, ICH severity, and mechanical ventilation.

RESULTS

There were 279 days of actigraphy monitoring, of which 199 (71%) were rated as days with delirium. In multivariable analyses, delirium was associated with 98.4 (95% CI 10.4-186.4) fewer daily minutes of rest, including 5.3% (95% CI -0.1-10.1%) fewer minutes during daytime periods (06:00-21:59) and 10.2% (95% CI 1.9-18.4%) fewer minutes during nocturnal periods (22:00-5:59), with higher levels of activity across multiple individual hourly intervals (18:00-21:00, 23:00-03:00, and 04:00-08:00). These differences were even more pronounced in hyperactive or mixed delirium, although even hypoactive delirium was associated with more activity during multiple time periods.

CONCLUSIONS

Post-stroke delirium is associated with less rest and higher overall levels of activity, especially during nocturnal periods.

Protecting Sleep Hygiene in the PICU: A Quality Improvement Project

OBJECTIVES

To increase the number of nights without sleep interruptions for routine tasks in recovering PICU patients.

DESIGN

Prospective quality improvement project.

SETTING

Single-center, free-standing, tertiary children's hospital.

PATIENTS

Patients admitted to the PICU for greater than 72 hours and eligible for early mobilization.

INTERVENTIONS

A multidisciplinary sleep hygiene team was created to improve sleep hygiene in critically ill patients eligible for early mobilization. This team rewrote local nursing policies to avoid routine tasks between 11 pm and 5 am . The team provided periodic control chart updates to staff detailing progress made protecting sleep. Discussions of sleep hygiene were added to the daily goal sheet and a sleep hygiene order set was created. Finally, the PICU quality dashboard was modified to show whether a sleep hygiene order set was initiated in eligible patients.

MEASUREMENTS AND MAIN RESULTS

Routine tasks were defined as daily chest radiographs, baths, routine tracheostomy care, central line dressing changes, twice daily medications, weights, and Foley care. After a year of data collection, avoidance of routine pupillary examinations was added to the sleep protection criteria. Baseline data was collected for 2 months prior to the creation of the sleep hygiene team. Screening of eligible patients occurred 1 week each month. The data were analyzed utilizing control charts. Baseline data demonstrated 32% of PICU patients without sleep interruptions. The centerline increased to 58% after the initial interventions but dropped to 33% after inclusion of pupillary checks. Following the introduction of the daily goal sheet, sleep hygiene order set, and tracking on the quality board, 49% of patients went without interruptions.

CONCLUSIONS

The initiation of a sleep hygiene team along with retiming routine tasks, daily discussions on rounds with the daily goal sheet, introduction of a sleep hygiene order set, and transparent tracking improved the percentage of patients with protected sleep.

Sleep disruption and delirium in critically ill children: Study protocol feasibility

Delirium is a serious complication of pediatric critical illness. Sleep disruption is frequently observed in children with delirium, and circadian rhythm dysregulation is one proposed cause of delirium. Children admitted to the pediatric intensive care unit (PICU) experience multiple environmental exposures with the potential to disrupt sleep. Although researchers have measured PICU light and sound exposure, sleep, and delirium, these variables have not yet been fully explored in a single study. Furthermore, caregiving patterns have not often been included as a component of the PICU environment. Measuring the light and sound exposure, caregiving patterns, and sleep of critically ill children requires continuous PICU bedside data collection. This presents multiple methodological challenges. In this paper, we describe the protocol for an observational pilot study of the PICU environment, sleep, and delirium experienced by a sample of 10 critically ill children 1-4 years of age. We also evaluate and discuss the feasibility (i.e., acceptability, implementation, practicality) of the study protocol. Light and sound exposure were measured with bedside sensors. Caregiving was quantified through video recording. Sleep was measured via actigraphy and confirmed by video recording. Delirium screening with the Cornell Assessment of Pediatric Delirium was conducted twice daily, either in person or via video review. This study provides a refined measurement framework to inform future, large-scale studies and the development of nurse-driven sleep promotion interventions.

Examining the Use of a Rest-Activity Ratio in a Pediatric Rehabilitation Setting

OBJECTIVE

To examine the relationship between an estimate of sleep/wake regulation derived from actigraphy would be sensitive to neurocognitive dysfunction associated with acquired brain injury (ABI) in a pediatric rehabilitation sample.

DESIGN

cross-sectional design SETTING: Inpatient pediatric rehabilitation facility PARTICIPANTS: A sample of 31 males (72.1%) and 12 females (27.9%) admitted to a pediatric rehabilitation hospital wore an actigraph (wrist accelerometer) for one week. Ages ranged from 8 to 17 years (M=13.1, SD=2.7).

INTERVENTIONS

not applicable MAIN OUTCOME MEASURE(S): Raw actigraphy activity counts in 1-minute epochs were used to derive a rest-activity ratio over each 24-hour period and a 5-day average value was calculated covering Monday through Friday. Brain injury status was derived through medical record review and three groups were formed: traumatic brain injury (n=14), non-traumatic brain injury (n=16), and a non-ABI control group (n=13). Functional status was measured using WeeFIM Cognitive and Motor scores extracted from the medical records.

RESULTS

Unadjusted models showed a significant main group effect for brain injury status (p=0.012). Compared with controls, the rest-activity ratio was significantly lower in both the traumatic brain injury (p = 0.005), and non-traumatic brain injury (p = 0.023) groups. However, the main group effect was no longer significant in an adjusted model controlling for WeeFIM Cognitive and WeeFIM Motor scores at admission. In the context of the adjusted model, there was a significant relationship between the rest-activity ratio and WeeFIM Cognitive scores at admission.

CONCLUSIONS

Individuals with lower functional status at admission, especially in the cognitive domain, had lower rest-activity ratios, suggesting poorer sleep/wake regulation. Similar to findings in adults with acquired brain injury, this ratio may have utility in tracking sleep/wake regulation in the pediatric rehabilitation setting. Future studies should investigate sensitivity to change over the course of recovery and responsiveness to clinical interventions to improve sleep.

Characterizing Sleep Disruption and Delirium in Children After Cardiac Surgery: A Feasibility Study

OBJECTIVES

Patients in the pediatric cardiac ICU are frequently exposed to pharmacologic and environmental factors that predispose them to sleep disturbances and may increase the risk of delirium. In this pilot study, we sought to demonstrate the feasibility of actigraphy monitoring in pediatric cardiac ICU patients to investigate the association between sleep characteristics and delirium development.

DESIGN

Prospective observational pilot study.

SETTING

Pediatric cardiac ICU in an academic children's hospital in the United States.

PATIENTS

Children admitted to the pediatric cardiac ICU after cardiac surgery.

INTERVENTIONS

None.

MEASUREMENTS AND MAIN RESULTS

Nineteen enrolled patients wore actigraphy watches that provided data for a total of 63 pediatric cardiac ICU days. The median pediatric cardiac ICU length of stay was 2 days (interquartile range, 1-3 d). The median sleep episode among all patients was 37 minutes in duration (interquartile range, 18-46 min), and the longest sleep episode was a median of 117 minutes (interquartile range, 69-144 min). Sixty-one percent of patients (95% CI, 36-83%) screened positive for delirium at least once during admission, and the median number of delirious days among those who were positive was 2 days (interquartile range, 1-3 d). The median percent sleep time was 43% for delirious patients and 49% for those with no delirium, with similar median sleep and longest sleep episodes. The median ratio of daytime activity/24-hr activity was 54% (interquartile range, 49-59%) in both groups.

CONCLUSIONS

Actigraphy monitoring in conjunction with delirium screening is feasible in infants and children admitted to the pediatric cardiac ICU after cardiac surgery. Our data suggest that most children in the pediatric cardiac ICU experience severe sleep disruption and delirium is common. These pilot data provide important insights for the design of a large-scale observational study to investigate potential causal relationships between sleep disruption and delirium in the pediatric cardiac ICU.

Actigraphy in mechanically ventilated pediatric ICU patients: comparison to PSG and evaluation of behavioral circadian rhythmicity

Sleep disruption is common in pediatric intensive care unit (PICU) patients, but measuring sleep in this population is challenging. We aimed to evaluate the utility of actigraphy for estimating circadian rhythmicity in mechanically ventilated PICU patients and its accuracy for measuring sleep by comparing it to polysomnogram (PSG). We conducted a single-center prospective observational study of children 6 months - 17 years of age receiving mechanical ventilation and standard, protocolized sedation for acute respiratory failure, excluding children with acute or historical neurologic injury. We enrolled 16 children and monitored them with up to 14 days of actigraphy and 24 hours of simultaneous limited (10 channel) PSG. Daily actigraphy-based activity profiles demonstrated that patients had a high level of nighttime activity (30-41% of total activity), suggesting disrupted circadian activity cycles. Among n = 12 patients with sufficient actigraphy and PSG data overlap, actigraphy-based sleep estimation showed poor agreement with PSG-identified sleep states, with good sensitivity (94%) but poor specificity (28%), low accuracy (70%,) and low agreement (Cohen's kappa = 0.2, 95% CI = 0.08-0.31). Using univariate linear regression, we identified that Cornell Assessment of Pediatric Delirium scores were associated with accuracy of actigraphy but that other clinical factors including sedative medication doses, activity levels, and restraint use were not. In this population, actigraphy did not reliably discern between sleep and wake states. However, in select patients, actigraphy was able to distinguish diurnal variation in activity patterns, and therefore may be useful for evaluating patients' response to circadian-oriented interventions.

Study protocol for a two-center test of a nurse-implemented chronotherapeutic restoring bundle in critically ill children: RESTORE Resilience (R2)

Often, pediatric intensive care environments are not conducive to healing the sick. Critically ill children experience disruptions in their circadian rhythms, which can contribute to delayed recovery and poor outcomes. We aim to test the hypothesis that children managed via RESTORE Resilience (R2), a nurse-implemented chronotherapeutic bundle, will experience restorative circadian rhythms compared to children receiving usual care. In this two-phased, prospective cohort study, two separate pediatric intensive care units in the United Sates will enroll a total of 20 baseline subjects followed by 40 intervention subjects, 6 months to less than 18 years of age, requiring invasive mechanical ventilation. During the intervention phase, we will implement the R2 bundle, which includes: (1) a focused effort to replicate the child's pre-hospitalization daily routine, (2) cycled day-night lighting and sound modulation, (3) minimal yet effective sedation (RESTORE), (4) nighttime fasting with bolus enteral daytime feedings, (5) early progressive mobility (PICU Up!), (6) continuity in nursing care, and (7) parent diaries. Our primary outcome is circadian activity ratio post-extubation. We hypothesize that children receiving R2 will experience restored circadian rhythms as evidenced by decreased nighttime activity while in the PICU. Our exploratory outcomes include salivary melatonin levels; electroencephalogram (EEG) slow-wave activity; R2 feasibility, adherence, and system barriers; levels of patient comfort; exposure to sedative medications; time to physiological stability; and parent perception of being well cared for. This paper describes the design, rationale, and implementation of R2.

CLINICALTRIALSGOV IDENTIFIER

NCT04695392.

Sleep in Hospitalized Children With Cancer: A Cross-Sectional Study

OBJECTIVES

Many children with cancer have repeated and prolonged hospitalizations, and in-hospital sleep disruption may negatively affect outcomes. Our objective for this study was to characterize sleep quality and quantity in hospitalized children with cancer by using parental surveys and actigraphy, to evaluate the association between subjective and objective sleep measures, and to describe hospital-associated risk factors related to poor sleep.

METHODS

Cross-sectional study of children aged 0 to 18 years old admitted to a pediatric oncology ward. Parents completed a baseline sleep questionnaire describing their child's sleep at home before hospitalization, followed by daily questionnaires describing their child's sleep for up to 3 nights while in the hospital. A subgroup of children aged 5 to 18 years wore actigraphs during the same time period. Demographic and clinical data were extracted from the electronic medical record. The primary outcome was inadequate sleep, defined by the total sleep duration adjusted for age.

RESULTS

Among 56 participants over 135 hospital nights, 66% (n = 37) reported inadequate sleep. Actigraphy was completed on 39 nights (29%), with a median total sleep time of 477 (interquartile range 407-557) minutes. There was a strong correlation between subjective questionnaire measures and actigraphic measures (r = 0.76). No patient-specific demographic factors were related to inadequate sleep. A multivariable model indicated the following hospital-related factors were associated with inadequate sleep: noise (adjusted odds ratio [aOR] 3.0; confidence interval [CI] 1.2-7.7), alarms (aOR 3.1; CI 1.2-8.3), child's worries (aOR 2.8; CI 1.1-7.2), and receipt of benzodiazepines (aOR 2.9; CI 1.2-7.5).

CONCLUSIONS

A majority of children experienced inadequate sleep during hospitalization. Subjective report of sleep duration correlated well with objective measures of sleep by actigraphy. Several potentially modifiable factors were independently associated with poor sleep. Further interventional studies are required to test approaches to optimize sleep in hospitalized children with cancer.

Assessment and Monitoring of Sleep in the Intensive Care Unit

Sleep affects physiologic and psychological recovery throughout critical illness. Patients often describe poor sleep as a major source of distress while hospitalized in an intensive care unit. The intensive care unit environment poses unique challenges for sleep assessment and monitoring. The purpose of this literature review is to discuss methods of assessment and monitoring of sleep within the intensive care unit setting. The advantages and disadvantages of physiologic monitoring of sleep (eg, polysomnography, bispectral index, and actigraphy) are compared with those of subjective measures of sleep quality (eg, validated patient-oriented sleep questionnaires, and informal nursing assessments).

Sleep in the Hospitalized Child: A Contemporary Review

Acute illness and hospitalization introduce several risk factors for sleep disruption in children that can negatively affect recovery and healing and potentially compromise long-term cognition and executive function. The hospital setting is not optimized for pediatric sleep promotion, and many of the pharmacologic interventions intended to promote sleep in the hospital actually may have deleterious effects on sleep quality and quantity. To date, evidence to support pharmacologic sleep promotion in the pediatric inpatient setting is sparse. Therefore, nonpharmacologic interventions to optimize sleep-wake patterns are of highest yield in a vulnerable population of patients undergoing active neurocognitive development. In this review, we briefly examine what is known about healthy sleep in children and describe risk factors for sleep disturbances, available sleep measurement tools, and potential interventions for sleep promotion in the pediatric inpatient setting.

Pediatric delirium: epidemiology and outcomes

PURPOSE OF REVIEW

Delirium is a frequent complication of serious medical illness in children. The purpose of this review is to highlight recent data on the epidemiology and outcomes related to pediatric delirium, and discuss prevention strategies.

RECENT FINDINGS

Delirium rates in the pediatric ICU are greater than 25%. Delirium in children is associated with prolonged mechanical ventilation and hospital length of stay, increased costs, and excess mortality. Pediatric delirium may affect postdischarge cognition and quality of life. Recent initiatives targeting universal screening, early mobilization, and minimization of benzodiazepine-based sedation have shown reduction in delirium prevalence.

SUMMARY

Widespread screening is needed in critically ill children to detect and mitigate delirium. The identification of modifiable risk factors has provided an opportunity for delirium prevention. Large-scale longitudinal studies are needed to investigate the long-term sequelae of delirium in children.

Quantifying the Predictive Performance of Objectively Measured Physical Activity on Mortality in the UK Biobank

BACKGROUND

Objective measures of physical activity (PA) derived from wrist-worn accelerometers are compared with traditional risk factors in terms of mortality prediction performance in the UK Biobank.

METHOD

A subset of participants in the UK Biobank study wore a tri-axial wrist-worn accelerometer in a free-living environment for up to 7 days. A total of 82 304 individuals over the age of 50 (439 707 person-years of follow-up, 1959 deaths) had both accelerometry data that met specified quality criteria and complete data on a set of traditional mortality risk factors. Predictive performance was assessed using cross-validated Concordance (C) for Cox regression models. Forward selection was used to obtain a set of best predictors of mortality.

RESULTS

In univariate Cox regression, age was the best predictor of all-cause mortality (C = 0.681) followed by 12 PA predictors, led by minutes of moderate-to-vigorous PA (C = 0.661) and total acceleration (C = 0.661). Overall, 16 of the top 20 predictors were objective PA measures (C = 0.578-0.661). Using a threshold of 0.001 improvement in Concordance, the Concordance for the best model that did not include PA measures was 0.735 (9 covariates) compared with 0.748 (12 covariates) for the best model with PA variables (p-value < .001).

CONCLUSIONS

Objective measures of PA derived from accelerometry outperform traditional predictors of all-cause mortality in the UK Biobank except age and substantially improve the prediction performance of mortality models based on traditional risk factors. Results confirm and complement previous findings in the National Health and Nutrition Examination Survey (NHANES).

A pilot study of high frequency accelerometry-based sedation and agitation monitoring in critically ill patients

OBJECTIVE

The degree of sedation or agitation in critically ill patients is typically assessed with the Richmond Agitation and Sedation Scale (RASS). However, this approach is intermittent and subject to unrecognised variation between assessments. High frequency accelerometry may assist in achieving a quantitative and continuous assessment of sedation while heralding imminent agitation.

DESIGN

We undertook a prospective, observational pilot study.

SETTING

An adult tertiary intensive care unit in Melbourne, Australia.

PARTICIPANTS

20 patients with an admission diagnosis of trauma.

MAIN OUTCOME MEASURES

Accelerometers were applied to patients' wrists and used to continuously record patient movement. Video data of patient behaviour were simultaneously collected, and observers blinded to accelerometry data were adjudicated the RASS score every 30 seconds. Exploratory analyses were undertaken.

RESULTS

Patients were enrolled for a median duration of 9.7 hours (interquartile range [IQR], 0-22.8) and a total of 160 hours. These patients had a median RASS score of 0 (IQR, -4 to 0). A 2-minute moving window of amplitude variance was seen to reflect contemporaneous fluctuations in motor activity and was proportional to the RASS score. Furthermore, the moving window of amplitude variance was observed to spike immediately before ≥ 2 point increases in the RASS score.

CONCLUSIONS

We describe a novel approach to the analysis of wrist accelerometry data in critically ill patients. This technique not only appears to provide novel and continuous information about the depth of sedation or degree of agitation, it is also notable in its aptitude to anticipate impending transitions to higher RASS values.

Transient neonatal sleep fragmentation results in long-term neuroinflammation and cognitive impairment in a rabbit model

Sleep fragmentation is an increase in sleep-wake transitions without an overall decrease in total sleep time. Sleep fragmentation is well documented during acute and chronic hospitalization and can result in delirium and memory problems in children. Sleep fragmentation is also often noted in neurodevelopmental disorders. However, it is unclear how sleep fragmentation independent of disease affects brain development and function. We hypothesized that acute sleep fragmentation during the neonatal period in otherwise healthy animals would result in neuroinflammation and would be associated with abnormalities in cognitive development. The orbital shaker method was used to fragment sleep for 72 h in postnatal day 3 New Zealand white rabbit kits (fragmentation group). To control for maternal separation, the sham group was separated from the dam and maintained in the same conditions without undergoing sleep fragmentation. A naïve control group remained with the dam. Kits underwent behavioral testing with novel object recognition and spontaneous alternation T-maze tests at 2-3 weeks post-fragmentation and were sacrificed 3-50 days after fragmentation. Sleep fragmentation resulted in acute and chronic changes in microglial morphology in the hippocampus and cortex, and regional differences in mRNA expression of pro- and anti-inflammatory cytokines at 3, 7 and 50 days post-fragmentation. Impaired novel object recognition and a longer latency in T-maze task completion were noted in the fragmented kits. This was in spite of normalization of sleep architecture noted at 2 months of age in these kits. The results indicate that transient neonatal sleep fragmentation results in short-term and long-term immune alterations in the brain, along with diminished performance in cognitive tasks long-term.

Exploration of Disparities in Regions and Specialized Fields of Day Surgery System

The main objective of this paper was to find similarities among eight Slovak regions from the viewpoint of five specialized day surgery fields and among specialized day surgery fields from the viewpoint of Slovak regions on the basis of day surgery operated and hospitalized patient counts. Day surgery data of paediatric patients and of adult patients from the National Health Information Centre during the years 2009-2017 were used. Correspondence analysis in two dimensions of the Slovak regions and of specialized day surgery fields was applied in order to achieve the paper's objective. The Košice Region differs most from the overall national average in both groups of paediatric day surgery. This is caused by its largest proportions in the fields of Gynaecology (29.7%) and Urology (48.0%) (operated patients), and in the fields of Gynaecology (60.5%) and Surgery (21.6%) (hospitalized patients). The most different specialized day surgery fields from overall average are: Urology (operated paediatric patients), Gynaecology (hospitalized paediatric patients), Otorhinolaryngology (operated adult patients) and Ophthalmology (hospitalized adult patients). Urogenital system day surgery procedures (Gynaecology, Urology) are separated from other three fields (i.e., Surgery, Ophthalmology, Otorhinolaryngology) either in the first or in the second dimension of the singular value matrix decomposition.

Family Support System as an Effort to Optimize Coping Mechanism of Preschool Children During Hospitalization

Introduction: The condition of the child during hospitalisation can experience stress due to environmental changes. Child coping mechanism is very supportive of the adaptation process. The purpose of this study was to analyze the effect of family support system on coping mechanisms during hospitalisation. Methods: It was quasi-experimental with pre-test post-test with control group design. The study population was preschool children who were treated in the Hospital of Bangkalan, East Java Province, Indonesia. Total sample was 60 respondents in treatment and control group and obtained consecutive sampling. The variables were family support system and coping mechanism. Data collection used Children’s Coping Behavior questionnaire and tested by paired t-test. Results: The treatment group showed the coping mechanism was mostly maladaptive (mean=34.07) and after the intervention most of them had adaptive coping (mean=46.87). Whereas in the control group before the intervention, the coping mechanism was mostly maladaptive (mean=36.22) and after the intervention most of the coping groups had maladaptive coping (mean=36.74). Conclusion: Family support systems play an important role in improving the adaptive coping of preschool children during hospitalisation. Nurses should maximise family support as a strategy in interacting with children to enhance coping mechanisms to reduce the stress of hospitalisation.

Quantification of Similarity Relationships According to Parameters of Day Surgery System

Performing day surgery should minimise a number of hospitalisation cases, but its use is determined by many factors. It takes advantage of the latest advances in surgical care, enabling better use of highly costly specialised operating room equipment. This analysis of the day surgery system of the Slovak Republic stands on an examination of the five specialised fields-surgery, gynaecology, ophthalmology, otorhinolaryngology, and urology. The explored period covers the years 2009 to 2017. The whole analysis is divided into the two sections-the youth category and for the adult category. For each case, a hospitalisation ratio is computed. A map visualisation supports the analysis outcome. A quantification of the similarity relationships between the regions is done according to a Euclidean distance approach and it is illustrated through the heat map. The centremost region is the Žilina Region with distance at a level of 1.9821, meaning that it performs as the most similar region to a development of a hospitalisation ratio in the whole Slovak Republic regarding all the examined aspects. The findings introduce an important platform for a creation of regional and national health plans in the area of healthcare provision for the population of the country.