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1 onin abnormalities thought to be involved in sudden infant death syndrome.
2 low heart rates and cardiac function such as sudden infant death syndrome.
3 e patients who are labeled as having died of sudden infant death syndrome.
4 as been associated with an increased risk of sudden infant death syndrome.
5 with histo-pathological findings reported in sudden infant death syndrome.
6 s, apneas of prematurity, Rett syndrome, and sudden infant death syndrome.
7 nd most recently long-QT syndrome (LQTS) and sudden infant death syndrome.
8 failure phenotype in mice, with relevance to Sudden Infant Death Syndrome.
9 defective AR capacity has been implicated in Sudden Infant Death Syndrome.
10 hood manifestations include fetal hydrops or sudden infant death syndrome.
11 SCN5A, have been identified in some cases of sudden infant death syndrome.
12 e for some cases of sudden unexplained death/sudden infant death syndrome.
13 syndrome, familial atrial fibrillation, and sudden infant death syndrome.
14 erlying pathophysiology and risk factors for sudden infant death syndrome.
15 eping is one of the biggest risk factors for sudden infant death syndrome.
16 r factors that may contribute to the risk of Sudden Infant Death Syndrome.
17 ediatric 5-HT brainstem disorders, including sudden infant death syndrome.
18 between KCNH2 gain of function mutations and sudden infant death syndrome.
19 moke is associated with an increased risk of sudden infant death syndrome.
20 , in disturbances culminating in events like Sudden Infant Death Syndrome.
21 tory symptoms in children and be a factor in sudden infant death syndrome.
22 effectiveness of these campaigns in reducing sudden infant death syndrome.
23 prolonged QT electrocardiogram interval and sudden infant death syndrome.
24 n the greatest influence on the reduction of sudden infant death syndrome.
25 rts to find other modifiable risk factors of sudden infant death syndrome.
26 explain the relationship between smoking and sudden infant death syndrome.
27 prolonged QT electrocardiogram interval and sudden infant death syndrome.
28 ation-based cohort of 221 anonymous cases of sudden infant death syndrome (84 females, 137 males; ave
29 p position continues to be a risk factor for sudden infant death syndrome, although immunizations may
30 targets for disorders such as sleep apnea or sudden infant death syndrome and for regulating uterine
32 characterized SCN5A variants associated with sudden infant death syndrome and provide further biophys
34 s recommend against it to reduce the risk of sudden infant death syndrome and suffocation deaths.
35 ematurity, apparent life-threatening events, sudden infant death syndrome, and central hypoventilatio
37 rom congenital abnormalities, accidents, and sudden infant death syndrome are predicted to continue i
39 en aged 12 months or younger; most (52%) had sudden infant death syndrome as the reported cause of de
40 negative sudden unexplained death, including sudden infant death syndrome, can be caused by cardiac c
41 ut the evaluation and prevention of possible Sudden Infant Death Syndrome cases were published this y
43 near drowning, respiratory arrest, and near sudden infant death syndrome cause significant mortality
46 quiries identified 18 families with two SIDS(sudden infant death syndrome) deaths and two families wi
47 ty present in a variety of disorders such as sudden infant death syndrome, depression, and anxiety.
48 omyopathy, and now encompasses more cases of sudden infant death syndrome, fulminant hepatic failure,
49 demy of Pediatrics in 1992, the incidence of Sudden infant death syndrome has decreased by almost 50%
50 esting in a large population-based cohort of sudden infant death syndrome has elucidated mutations in
53 factors thought to underlie the aetiology of sudden infant death syndrome, including: (1) a vulnerabl
54 4 sources were used to locate 230 parents of sudden infant death syndrome infants who died in Souther
56 ervations: While its exact cause is unknown, sudden infant death syndrome is believed to be multifact
58 inding strongly supports the hypothesis that sudden infant death syndrome is the result of dysregulat
59 Hazard ratios for total, respiratory, and sudden infant death syndrome mortality per-interquartile
61 death certificates/autopsy reports included sudden infant death syndrome (n = 544 [44%]), asphyxia (
62 g association between infant bed sharing and sudden infant death syndrome or unintentional sleep-rela
65 national "Back to Sleep" campaign to reduce sudden infant death syndrome provides an opportunity to
69 between apparent life-threatening events and sudden infant death syndrome remains to be explored furt
71 the birth of an infant that had succumbed to sudden infant death syndrome (SIDS) (and no other cause
73 Abnormalities in HMs have been implicated in sudden infant death syndrome (SIDS) and obstructive slee
74 ernal smoking is the highest risk factor for sudden infant death syndrome (SIDS) and prenatal nicotin
75 There is growth in our understanding of how sudden infant death syndrome (SIDS) and the symptom comp
79 s in prevalence during the past two decades, sudden infant death syndrome (SIDS) continues to be the
80 isk reduction campaigns have been conducted, sudden infant death syndrome (SIDS) has become increasin
81 ast 5 years suggest that the epidemiology of sudden infant death syndrome (SIDS) has changed since th
82 between infant sleeping position and risk of sudden infant death syndrome (SIDS) in an ethnically div
88 reported here support a recent proposal that sudden infant death syndrome (SIDS) results from a devel
91 inding in the medullae of infants dying from sudden infant death syndrome (SIDS) were identified, sug
92 tion is associated with an increased risk of sudden infant death syndrome (SIDS), but few studies hav
93 uently used in infants at increased risk for sudden infant death syndrome (SIDS), but the efficacy of
94 levant to understanding the aetiology of the sudden infant death syndrome (SIDS), in which there is m
96 erozygous state in two infants who died from sudden infant death syndrome (SIDS), one with documented
97 ancy predisposes an infant to a high risk of sudden infant death syndrome (SIDS), the authors conduct
108 normalities are present in many cases of the sudden infant death syndrome (SIDS).Mice with a targeted
109 and preventable-cause mortality in children (sudden infant death syndrome, unintentional injury, and
110 as a pathogenic cause for a small subset of sudden infant death syndrome via a secondary loss-of-fun
111 ciation between meteorologic temperature and sudden infant death syndrome was investigated in the 198
112 between Apgar score at 5 min and the risk of sudden infant death syndrome was noted at any gestationa
113 jor risk factor for late fetal death and the sudden infant death syndrome, we investigated cardioresp
114 dings provide insight into the mechanisms of sudden infant death syndrome, which has been associated
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