sids ruben
TRANSCRIPT
THAT IS THE JOB
SAVING LIVES
MINISTRY OF HEALTH OF UKRAINELUGANSK STATE MEDICAL
UNIVERSITYDEPARTMENT OF PEDIATRICSREPORT PRESENTED BY RUBEN
GOMBALANDI .SUPERVISED BY Dr. OKSANA
BABINOVA. ON
OBJECTIVE• INTRODUCTION• DEFINITION• EPIDEMIOLOGY • DEMOGRAPHIC• PATHOPHYSIOLOGY• AUTONOMIC CONTROL AND AROUSAL• AUTOPSY FINDING• NEUROANATOMICAL FINDINGS• RISKS FACTORS• GENE ENVIROMENT INTERACTION• DIAGNOSIS• PREVENTION• MANAGEMENT AND SUPPORT • FUTURE DIRECTIONS• REFERENCE
INTRODUCTION
Sudden infant death syndrome continues to be the most common cause of post neonatal death, account for 25% of all death between 1month of age and 1 year of Age.SIDS is a complex, multifactorial disorder of which the cause is not fully understood.Some environmental risk factors are modifiable
Reducing exposure to modifiable risk factors has lowered the incidence of SIDS
New research indicates genetic risk factors Actual risk of SIDS may depend on interaction of
environmental and genetic risk factors
DEFINITIONSudden death of an infant under 1 year old that is unexpected by history and unexplained after a thorough post mortem examination
INVESTIGATION
Investigation includes:Complete autopsyInvestigation of the scene of deathReview of medical history
EPIDEMIOLOGYSIDS rate in United States
1990 – 1.3 per 1000 live births2002 – 0.6 per 1000 live births~ 3000 SIDS deaths/yr
Changes in classification of sudden unexpected deaths in infants from SIDS to categories of asphyxia and “unknown” has occurred in recent years
May be falsely reducing SIDS rates while overall death rate from unexpected infant deaths remains the same
DEMOGRAPHY
less frequently in 1st month of lifePeaks 2-4 month of age90% in first 6 months of lifeBoys 30-50% more likely to be affected than girls Racial and ethnic disparities
2-3x risk for African American, Native American or Alaska Native (irrespective of socioeconomic status)
African Americans twice as likely to place infants prone to for sleep & twice as likely to bedshare
High rates of smoke exposure and bedsharing among Native Americans and Alaskan Natives
Asian, South Pacific, Hispanic infants lowest incidenceWinter seasonal predominance has declined or disappeared
PATHOPHYSIOLOGY
Multifactorial in origin
Triple Risk HypothesisVulnerable infantCritical developmental period in homeostatic controlExogenous stressors
Final pathway believed to involve immature cardiorespiratory and autonomic control along with failure of arousal responsiveness from sleep
AUTONOMIC CONTROL AROUSALSIDS infants higher baseline heart rates, lower heart rate variability, prolonged QT indexes, lower parasympathetic tone and/or high sympathovagal balanceAbnormalities of arousal
Kato and colleagues report infants who died of SIDS had fewer spontaneous arousals from sleep and immature sleep patterns
Prone sleeping Increases total time infants spend asleep particularly time spent in quiet
sleep, a state of reduced arousability Also decreased spontaneous arousability, induced arousability and fewer
full cortical arousals Associated with altered autonomic control manifest by raised heart rates,
decreased heart rate variability and increased sympathetic toneInfants exposed to smoking in utero have decreased spontaneous and stimulus-induced arousal from sleep
A GOOD NUMBER SIDS VICTIM
Child AUTONOMIC NERVOUS SYS
AUTOPSY FINDINGSNo pathognomonic findingsCommon findings:
Petechial hemorrhages of thymus gland, visceral pleura in 68-95%
Pulmonary congestion (89%) and edema (63%) indicative of terminal left ventricular failure
Oronasal secretions that are typically frothy, mucoid and pink or bloody
2/3 structural evidence of pre-existing, chronic low-grade asphyxia
Study identified increased VEGF in CSF of SIDS infants, 308 versus 85 pg/dL in controls
Hypoxia frequently precedes death in SIDSOne study of 20 SIDS infants found 50% had levels of IL-6 in CSF
equivalent to those found in infants who died of infectious diseases
Staphylococcus aureus may have role in infection as 56% of healthy infants and 86% of SIDS infants had these bacteria in the respiratory tract
NEUROANATOMICAL FINDINGS
Structural and neurotransmitter alterations in brainstem consistent with autonomic dysregulation
Increase in dendritic spines (marker of delayed neuronal maturation) and delayed maturation of synapes in medullary respiratory centers
Decreased tyrosine hydroxylase immunoreactivity in catecholaminergic neurons
Increased number and density of 5-HT neurons with decreased serotonin 1A and 2A receptor
Serotonin affects various autonomic functions including cardiorespiratory and circadian rhythms
MORE FINDINGS60% SIDS cases hypoplasia of arcuate nucleus
Vital area of autonomic control and integrationReceptor abnormalities relevant to autonomic control
Decreases in binding to kainate, muscarinic cholinergic and 5-HT receptors
Lavezzi showed alterations of the cerebellum62% of SIDS compared to 10% controls showed neuronal
immaturity, altered apoptotic programs, negative expression somatostatin and EN2 gene, intense c-fos expression and astrogliosis in cortex and dentate nucleus
Water reported increased neuronal apoptosis in hippocampus and brainstem
Neuronal loss in regions sensitive to hypoxia and regions associated with sensation in the face
RISKS FACTORS
RISKS FACTORS DIVIDED INTO:
SOCIAL FACTORSIncreased risk with:
Lower socioeconomic statusYounger maternal ageLower maternal educationSingle marital status
MOTHER RELATED FACTORSMothers of SIDS infants:
Less prenatal careCare initiated later in pregnancyLow birth weightPreterm birthIUGRShorter intervals between pregnancies (< 18 mo) More often 2nd or higher order birth child
SUBSTANCE USE AS A PREDISPOSING FACTOR
INFANT SLEEP PRACTICE AND ENVIROMENTProne sleeping consistently shown to increase risk of SIDS
Highest risk when usually placed in another sleeping position but were placed on stomach for last sleep, “unaccustomed prone”, more likely to occur outside the home such as day care centers
Also risk of choking highest in prone positionPlacing infant on side still places risk twice as likely to die of SIDS compared to sleeping supine
Exceptions may be made with certain medical conditionsSoft sleeping surfaces 2 to 3 fold increase risk of SIDS
Prone sleeping + soft bedding 20 fold increaseOverheating with increased room temperature, high body temperature, sweating or excessive clothing increase incidence
No increase with high external environment temperatureNo protective effect from bed sharing
Advocates of this practice typically promoters of breast feeding1/3 reduction with sleeping in parent’s bedroom in separate crib
INFANT FEEDING PRACTICE AND EXPOSUREAssociation between breast-feeding and SIDS inconclusive
Recent study showed breast-feeding associated with decreased risk of postneonatal deaths overall but not decreased risk of SIDS
Decreased risk with pacifier use Not known whether direct effect or associated infant or parental
behaviors Pacifier use and dislodgement may enhance arousability No association between pacifier use and breast-feeding duration Small increased in otitis media, respiratory tract and GI tract illnesses Must use consistently, one study showed increased risk of SIDS if
pacifier was not used before last sleep AAP recommends pacifier use once breast-feeding has been
established
GENE ENVIROMENT INTERACTION
GENETICS RISK FACTORS
Sodium (SCN5A) and Potassium channel polymorphisms associated with long QT syndrome
5-10% of SIDS cases associated with defective cardiac ion channel with increased potential for lethal arrhythmia
Polymorphisms in serotonin transporter (5-HTT) gene Increased in transporter activity, reducing 5-HT concentrations at nerve
endingsAutonomic nervous system development genes (PHOX2A, RET, ECE1, TLX3, EN1)Polymorphisms in promoter of anti-inflammatory cytokine IL-10 decreased antibody production and increased inflammatory cytokinesSIDS infants w/mild respiratory infections before death were more likely than SIDS infants without infection and controls to have deficient complement C4 gene (C4A, C4B)
DIAGNOSIS
By definition, SIDS is a diagnosis of exclusionProtocols for standardized autopsies and death scene investigations have been publishedHowever, wide variability in protocols in both content and frequency with which they are implemented across jurisdictions, within countries and across different countries Cause of death can be difficult to diagnose from autopsy alone
Examination of circumstances present immediately before death including detailed description of sleep environment have been increasingly emphasized in recent years
Surveys of medical examiners and coroners have reflected how much more complicated, confusing and time consuming SIDS case have become
Most also noted they used to label many more infant death cases as SIDS than they do now
This may be an effect of confusing risk factors for SIDSReaching consensus internationally on a classification scheme is essential to accurately monitor trends and direct future research
RISK REDUCTIONCampaign to reduce risk of SIDS began in 1994 in the United States
Largely focused on reducing prone sleeping and promoting supine positioning
Some campaigns also included messages to reduce smoking during pregnancy
No significant changes in these behaviors and reduced SIDS rates mostly attributed to avoidance of prone sleeping
Breast-feeding advocates have opposed discouraging bed sharing as they worry these measures will reduce breast-feeding frequency and duration and prevent families from enjoying the experience and benefits of bed sharing
FUTURE DIRECTIONS
Despite decrease in prevalence of SIDS, more work is neededElucidation of risk and protective factors with appropriately targeted and implemented interventions leading to increased adoption by familiesUnlikely disorder is completely eliminated or reduced to lowest possible rates until specific causative mechanisms are more fully understood
Need studies with larger sample sizes and infants from highest risk groups
Investigations of still births and sudden unexplained deaths in children over 1 year of age might provide additional insights
Surveillance of trends in rates of SIDS comparisons across jurisdictions and internationally according to a universal, standardized classification protocol Will require multidisciplinary and collaborative effort to understand more
REFERENCE Hunt CE, Hauck FR. Sudden infant death syndrome. Cmaj. Jun 20 2006;174(13):1861-1869.Moon RY, Horne RS, Hauck FR. Sudden infant death syndrome. Lancet. Nov 3 2007;370(9598):1578-1587.Weese-Mayer DE, Ackerman MJ, Marazita ML, Berry-Kravis EM. Sudden Infant Death Syndrome: review of implicated genetic factors. Am J Med Genet A. Apr 15 2007;143A(8):771-788.Gurbutt D, Gurbutt R. Risk reduction and sudden infant death syndrome. Community Pract. Jan 2007;80(1):24-27.Fleming P, Blair PS. Sudden Infant Death Syndrome and parental smoking. Early Hum Dev. Nov 2007;83(11):721-725.Damato EG. Safe sleep: can pacifiers reduce SIDS risk? Nurs Womens Health. Feb 2007;11(1):72-76.