Mark Peucker

Infantile colic: Acoustic cry characteristics, maternal perception of cry, and temperament

Abstract Mothers (N = 160) participating in a longitudinal study were interviewed to determine if their infants had colic. Infants with colic had to meet the criteria for excessive crying (crying for more than 3 hours a day, 3 days a week, for 3 weeks) plus show the following during episodes of colic: paroxysmal onset of cry, distinctive, high-pitched pain cry, infant is inconsolable and hypertonic. Sixteen 1- to 4-month-old infants who met the criteria for colic were compared with matched controls (N = 16) on the acoustic analysis of the infants cry, on parents perception of cry using eight standard rating scales, and on the Infant Characteristics Questionnaire measure of temperament. The cries of colic infants had a higher and more variable pitch and showed more turbulence. Parents rated the cries of these infants as more urgent, grating, piercing, and felt more sad and aroused by the cries. On the Infant Characteristics Questionnaire, colic infants scored higher on the fussy-difficult temperament dimension. Infants with colic show distinctive acoustic cry characteristics that are perceived by parents; parents rate these infants as having a more difficult temperament. Colicky infants appear to be a subset of infants with excessive crying and can be identified using clinical criteria.

Abnormal brain-stem function (brain-stem auditory evoked response) correlates with acoustic cry features in term infants with hyperbilirubinemia.

We hypothesized that changes in brain-stem auditory evoked responses related to bilirubin would be associated with changes in cry because of the anatomic proximity in the brain stem of cranial nerves 8 (auditory) and 9 to 12 (vagal complex, which controls cry). Brain-stem auditory evoked responses and computerized cry analysis were used to study the concurrent effects of moderate hyperbilirubinemia on auditory function and cry. Fifty term infants were divided equally into two groups on the basis of serum bilirubin concentrations: low (less than 8 mg/dl; 136) mumol/L and moderate (10 to 20 mg/dl, 170 to 342 mumol/L). Forty-three infants had successful tracings of brain-stem auditory evoked responses recorded with a Cadwell model 5200A evoked response unit during two successive trials, and a cry recording of each infant was analyzed by computer. The moderate serum bilirubin group had an increase in percent cry phonation (p less than 0.02) and an increase in the variability of the first formant (p less than 0.04) in comparison with the low serum bilirubin group. Serum bilirubin values correlated positively with brain-stem conduction time (r = 0.36, p less than 0.01), percent phonation (r = 0.42, p less than 0.004), and variability of the first formant (r = 0.39, p less than 0.02). Percent phonation, the voiced component produced by increased neural control, correlated with the interpeak of waves latencies I to III (r = 0.32, p less than 0.03) and brain-stem conduction time (wave I to V) (r = 0.35, p less than 0.01). We conclude that hyperbilirubinemia affects adjoining areas of the brain stem that control hearing and cry production.

Cardiopulmonary monitoring at home: The CHIME monitor

A new physiologic monitor for use in the home has been developed and used for the Collaborative Home Infant Monitor Evaluation (CHIME). This monitor measures infant breathing by respiratory inductance plethysmography and transthoracic impedance; infant electrocardiogram, heart rate and R-R interval; haemoglobin O2 saturation of arterial blood at the periphery and sleep position. Monitor signals from a representative sample of 24 subjects from the CHIME database were of sufficient quality to be clinically interpreted 91.7% of the time for the respiratory inductance plethysmograph, 100% for the ECG, 99.7% for the heart rate and 87% for the 16 subjects of the 24 who used the pulse oximeter. The monitor detected breaths with a sensitivity of 96% and a specificity of 65% compared to human scorers. It detected all clinically significant bradycardias but identified an additional 737 events where a human scorer did not detect bradycardia. The monitor was considered to be superior to conventional monitors and, therefore, suitable for the successful conduct of the CHIME study.

Survival in commercially insured multiple sclerosis patients and comparator subjects in the U.S.

OBJECTIVE Compare survival in patients with multiple sclerosis (MS) from a U.S. commercial health insurance database with a matched cohort of non-MS subjects. METHODS 30,402 MS patients and 89,818 non-MS subjects (comparators) in the OptumInsight Research (OIR) database from 1996 to 2009 were included. An MS diagnosis required at least 3 consecutive months of database reporting, with two or more ICD-9 codes of 340 at least 30 days apart, or the combination of 1 ICD-9-340 code and at least 1 MS disease-modifying treatment (DMT) code. Comparators required the absence of ICD-9-340 and DMT codes throughout database reporting. Up to three comparators were matched to each patient for: age in the year of the first relevant code (index year - at least 3 months of reporting in that year were required); sex; region of residence in the index year. Deaths were ascertained from the National Death Index and the Social Security Administration Death Master File. Subjects not identified as deceased were assumed to be alive through the end of 2009. RESULTS Annual mortality rates were 899/100,000 among MS patients and 446/100,000 among comparators. Standardized mortality ratios compared to the U.S. population were 1.70 and 0.80, respectively. Kaplan-Meier analysis yielded a median survival from birth that was 6 years lower among MS patients than among comparators. CONCLUSIONS The results show, for the first time in a U.S. population, a survival disadvantage for contemporary MS patients compared to non-MS subjects from the same healthcare system. The 6-year decrement in lifespan parallels a recent report from British Columbia.

Infant polysomnography: reliability and validity of infant arousal assessment.

Summary Infant arousal scoring based on the Atlas Task Force definition of transient EEG arousal was evaluated to determine (1) whether transient arousals can be identified and assessed reliably in infants and (2) whether arousal and no-arousal epochs scored previously by trained raters can be validated reliably by independent sleep experts. Phase I for inter- and intrarater reliability scoring was based on two datasets of sleep epochs selected randomly from nocturnal polysomnograms of healthy full-term, preterm, idiopathic apparent life-threatening event cases, and siblings of Sudden Infant Death Syndrome infants of 35 to 64 weeks postconceptional age. After training, test set 1 reliability was assessed and discrepancies identified. After retraining, test set 2 was scored by the same raters to determine interrater reliability. Later, three raters from the trained group rescored test set 2 to assess inter- and intrarater reliabilities. Interrater and intrarater reliability &kgr;’s, with 95% confidence intervals, ranged from substantial to almost perfect levels of agreement. Interrater reliabilities for spontaneous arousals were initially moderate and then substantial. During the validation phase, 315 previously scored epochs were presented to four sleep experts to rate as containing arousal or no-arousal events. Interrater expert agreements were diverse and considered as noninterpretable. Concordance in sleep experts’ agreements, based on identification of the previously sampled arousal and no-arousal epochs, was used as a secondary evaluative technique. Results showed agreement by two or more experts on 86% of the Collaborative Home Infant Monitoring Evaluation Study arousal scored events. Conversely, only 1% of the Collaborative Home Infant Monitoring Evaluation Study-scored no-arousal epochs were rated as an arousal. In summary, this study presents an empirically tested model with procedures and criteria for attaining improved reliability in transient EEG arousal assessments in infants using the modified Atlas Task Force standards. With training based on specific criteria, substantial inter- and intrarater agreement in identifying infant arousals was demonstrated. Corroborative validation results were too disparate for meaningful interpretation. Alternate evaluation based on concordance agreements supports reliance on infant EEG criteria for assessment. Results mandate additional confirmatory validation studies with specific training on infant EEG arousal assessment criteria.

Motor behavioral cues of term and preterm infants at 3 months

Motor behaviors are interpreted as “cues” to levels of engagement or arousal in newborn infants. However, construct validity of these behaviors as cues among infants with differing medical histories has not been adequately addressed beyond the neonatal period. This study compared patterns of occurence in motor behaviors frequently interpreted as cues in full-term infants (n = 30) and three diagnostic groups of preterm infants (n = 62) at 3 months corrected age. A computerized real-time coding system was used for video analysis during standard infant-mother and temperament assessment protocols. Composites representing frequencies and durations of engagement, disengagement, facial expression, and midline behaviors were compared between groups using ANOVA with contrasts. Engagement and disengagement behaviors were represented equally among the groups. Behaviors associated with midline activity highlighted differences between infants with and without neurological involvement, whereas smiling differentiated healthy preterm infants or term infants from those with a history of illness or neurological involvement.

Ontogeny of arousal.

Ontogeny of arousal data constitute a vital supplement to the sparse literature on spontaneous neuronal activity. These data demonstrate that measurable infant spontaneous arousals (SAs) with an inherent oscillatory entrainment occur six times more in active sleep than in quiet sleep of the same duration and are identifiable as a human neurobiologic function. These SAs are not significantly associated with race or ethnicity, gender, total hours spent sleeping, percent time spent in active or quiet sleep, preterm status, history of a life-threatening event, having had a sibling who died of sudden infant death syndrome (SIDS), or having had a mother who smoked during this pregnancy. As measurable neurophysiologic events, SAs establish parameters for research at molecular and molar levels focusing on several critical areas: (1) the neuronal control of SA related to neurotransmitters, (2) as a significant antecedent factor in clinical cardiorespiratory events occurring in infants at high epidemiologic risk for SIDS; (3) as a regulatory biologic factor underlying temperament and executive cognitive functioning, and (4) morbidity and mortality effects possibly related to therapeutic interventions that alter SA levels.

An electronic simulator for testing infant apnoea monitors that uses actual physiologic data.

An electronic simulator of physiologic signals used in infant monitoring has been designed, constructed and applied in the Collaborative Home Infant Monitor Evaluation (CHIME). A unique feature of the simulator is that it contains actual physiologic waveforms recorded from infants rather than artificial, idealized signals. The simulator stores breathing waveforms that can be used to test transthoracic-impedance- and inductance-plethysmography-based monitors, and heart rate channels are tested by playing a neonatal QRS complex at preset fixed rates or a variable rate as determined from infant recordings. The transfer characteristics of the simulator are constant over frequencies ranging from 0.5 to 8 Hz for the respiration channels. Data stored in memory are divided into 60 second epochs that can be presented to the monitor being tested in a programmable sequence. A group of 66 CHIME monitors was tested using a simulator programmed with 17 apnoea and bradycardia waveforms. The agreement between monitors as to the duration of detected apnoea decreases as the amount of artefact in the signal increases. Discrepancies between monitors in detecting apnoea duration were found to be similar to inconsistencies between CHIME investigators manually scoring similar waveforms.

PRETERM INFANTS HAVE PROLONGED APNEAS WITH OBSTRUCTION AND ASSOCIATED OXYGEN DESATURATION AT HOME. 1012

PRETERM INFANTS HAVE PROLONGED APNEAS WITH OBSTRUCTION AND ASSOCIATED OXYGEN DESATURATION AT HOME. 1012

SUCCESSFUL USE OF A HOME RESPIRATORY INDUCTANCE PLETHYSMOGRAPHY (RIP) MONITOR IN INFANTS AT-RISK OF SUDDEN INFANT DEATH SYNDROME (SIDS). † 829

SUCCESSFUL USE OF A HOME RESPIRATORY INDUCTANCE PLETHYSMOGRAPHY (RIP) MONITOR IN INFANTS AT-RISK OF SUDDEN INFANT DEATH SYNDROME (SIDS). † 829