Dwyer T, Ponsonby AL (1995) SIDS epidemiology and incidence. Pediatr Ann 24:354–356
Statistisches Bundesamt Deutschland, Statistischer Informationsservice, Gustav-Stresemann-Ring 11, 65189 Wiesbaden. Gestorbene Säuglinge nach Alter und ausgewählten Todesursachen (ICD10: R95)
Fitzgerald K (2001) The “Reduce the risks” campaign, SIDS International, the Global Strategy Task Force and the European Society for Study and Prevention of Infant Death. In: Byard RW, Krous HF (eds) Sudden infant death syndrome. Problems, progress and possibilities. University Press, Oxford, pp 310–318
James TN (1968) Sudden death in babies: new observations in the heart. Am J Cardiol 22:457–506
Bajanowski T, Ortmann C, Teige K, Wedekind H, Zack F, Röse I, Brinkmann B (2003) Pathological changes of the heart in sudden infant death. Int J Leg Med 117:193–203
Schwartz PJ, Priori SG, Dumaine R, Napolitano C, Antzelevitch C, Stramba-Badiale M, Richard TA, Berti MR, Bloise R (2000) A molecular link between the sudden infant death syndrome and the long-QT syndrome. N Engl J Med 343:262–267
Schwartz PJ, Priori SG, Bloise R, Napolitano C, Ronchetti E, Piccinini A, Goj C, Breithardt G, Schulze-Bahr E, Wedekind H, Naftoli J (2001) Molecular diagnosis in a child with sudden infant death syndrome. Lancet 358:1342–1343
Schwartz PJ (1976) Cardiac sympathetic innervation and the sudden infant death syndrome. Am J Med 60:167–172
Maron BJ, Clark CE, Goldstein RE, Epstein SE (1976) Potential role of Q-T interval prolongation in sudden infant death syndrome. Circulation 54:423–430
Kukolich MK, Telsey A, Ott J, Motulsky AG (1977) Sudden infant death syndrome: normal Q-T interval in ECGs of relatives. Pediatrics 60:51–54
Southall DP (1983) Identification of infants destined to die unexpectedly during infancy: evaluation of predictive importance of prolonged apnoea and disorders of cardiac rhythm or conduction. Br Med J 286:1092–1096
Southall DP, Arrowsmith WA, Stebbens V, Alexander JR (1986) QT interval measurements before sudden infant death syndrome. Arch Dis Child 61:327–333
Schwartz PJ, Stramba-Badiale M, Segantini A, Austoni P, Bosi G, Giorgetti R, Grancini F, Marni ED, Perticone F, Rosti D, Salice P (1998) Prolongation of the QT interval and the sudden infant death syndrome. N Engl J Med 338:1709–1714
Schwartz PJ, Montemerlo M, Facchini M, Salice P, Rosti D, Poggio G, Giorgetti R (1982) The QT interval throughout the first 6 months of life: a prospective study. Circulation 66:496–501
Ackerman MJ, Siu BL, Sturner WQ, Tester DJ, Valdivia CR, Makielski JC, Towbin JA (2001) Postmortem molecular analysis of SCN5A defects in sudden infant death syndrome. JAMA 286:2264–2269
Ackerman MJ, Tester DJ, Bell CM, Towbin JA, January CT, Makielski JC, Sturner WQ (2002) Cardiac channel mutations in SIDS: a population-based molecular study in 93 SIDS victims. Circulation 106(suppl II):II–167
Christiansen M, Tonder N, Larsen LA, Andersen PS, Simonsen H, Oyen N, Kanters JK, Jacobsen JR, Fosdal I, Wettrell G, Kjeldsen K (2005) Mutations in the HERG K+-ion channel: a novel link between long QT syndrome and sudden infant death syndrome. Am J Cardiol 95:433–434
Brooks DR, Krous HF, Burton JL, McKinley J, McKinley W (1994) Results of a pilot test of the global strategy workshop's international standardized autopsy protocol (SAP) in Georgia. In: Sudden infant death syndrome (SIDS), 3rd SIDS International Conference, Stavanger, Norway 31.07.-04.08.1994 Program and abstracts, p 155
Bajanowski T, Fürst P, Wilmers K, Beike J, Köhler H, Brinkmann B (2002) Dioxin in infants—an environmental hazard? Int J Leg Med 116:27–32
Beckwith J (1970) Discussion of terminology and definition of the sudden infant death syndrome. University of Washington Press, Seattle
Willinger M, James LS, Catz C (1991) Defining the sudden infant death syndrome (SIDS): deliberations of an expert panel convened by the National Institute of Child Health and Human Development. Pediatr Pathol 11:677–684
Taylor EM, Emery JL (1990) Categories of preventable unexpected infant deaths. Arch Dis Child 65:535–539
Loddenkötter B, Becker K, Hohoff C, Brinkmann B, Bajanowski T (2005) Real-time quantitative PCR assay for the detection of Helicobacter pylori: no association with sudden infant death syndrome. Int J Leg Med 119:202–206
Walsh PS, Metzger DA, Higuchi R (1991) Chelex-100 as a medium for simple extraction of DNA for PCR-based typing from forensic material. BioTechniques 10:506–513
Higuchi R (1989) Simple and rapid preparation of samples for PCR. In: Ehrlich HA (ed) PCR-technology: principles and applications for DNA amplification, Chapter 4. Stockton Press, New York, pp 31–38
Chou Q, Russell M, Birch DE, Raymond J, Bloch W (1992) Prevention of pre-PCR mis-priming and primer dimerization improves low-copy-number amplifications. Nucleic Acids Res 20:1717–1723
Don RH, Cox PT, Wainwright BJ, Baker K, Mattick JS (1991) “Touchdown” PCR to circumvent spurious priming during gene amplification. Nucleic Acids Res 19:4008
Wang Q, Zhizhong L, Jiaxiang S, Keating MT (1996) Genomic organization of the human SCN5A gene encoding the cardiac sodium channel. Genomics 34:9–16
Splawski I, Shen J, Timothy KW, Vincent GM, Lehmann MH, Keating MT (1998) Genomic structure of three long QT syndrome genes: KCNQ1, HERG, and KCNE1. Genomics 51:86–97
Abbott GW, Sesti F, Splawski I, Buck ME, Lehmann MH, Timothy KW, Keating MT, Goldstein SAN (1999) MiRP1 forms IKr potassium channels with HERG and is associated with cardiac arrhythmia. Cell 3:175–187
Findeisen M, Vennemann M, Brinkmann B, Ortmann C, Röse I, Köpcke W, Jorch G, Bajanowski T, and the GeSID Group (2004) German study on sudden infant death (GeSID): design, epidemiological and pathological profile. Int J Leg Med 118:163–169
Moss AJ, Schwartz PJ (1982) Delayed repolarization (QT or QTU prolongation) and malignant ventricular arrhythmias. Mod Concepts Cardiovasc Dis 51:85–90
Paulussen AD, Gilissen RA, Armstrong M, Doevendans PA, Verhasselt P, Smeets HJ, Schulze-Bahr E, Haverkamp W, Breithardt G, Cohen N, Aerssens J (2004) Genetic variations of KCNQ1, KCNH2, SCN5A, KCNE1, and KCNE2 in drug-induced long QT syndrome patients. J Mol Med 82:182–188
Kääb S, Schulze-Bahr E (2005) Susceptibility genes and modifiers for cardiac arrhythmias. Cardiovasc Res (in press)
Chevalier P, Rodriguez C, Bontemps L, Miquel M, Kirkorian G, Rousson R, Potet F, Schott JJ, Baro I, Touboul P (2001) Non-invasive testing of acquired long QT syndrome: evidence for multiple arrhythmogenic substrates. Cardiovasc Res 50:386–398
Sesti F, Abbott GW, Wei J, Murray KT, Saksena S, Schwartz PJ, Priori SG, Roden DM, George AL Jr, Goldstein SA (2000) A common polymorphism associated with antibiotic-induced cardiac arrhythmia. Proc Natl Acad Sci U S A 97:10613–10618
Yang P, Kanki H, Drolet B, Yang T, Wei J, Viswanathan PC, Hohnloser SH, Shimizu W, Schwartz PJ, Stanton M, Murray KT, Norris K, George AL Jr, Roden DM (2002) Allelic variants in long-QT disease genes in patients with drug-associated torsades de pointes. Circulation 105:1943–1948
Eskdale J, Keijsers V, Huizinga T, Gallagher G (1999) Microsatellite alleles and single nucleotide polymorphisms (SNP) combine to form four major haplotype families at the human interleukin-10 (IL-10) locus. Genes Immun 1:151–155
Narita N, Narita M, Takashima S, Nakayama M, Nagai T, Okado N (2001) Serotonin transporter gene variation is a risk factor for sudden infant death syndrome in the Japanese population. Pediatrics 107:690–692
Priori SG, Napolitano C, Giordano U, Collisani G, Memmi M (2000) Brugada syndrome and sudden cardiac death in children. Lancet 355:808–809
Romano C, Gemme G, Pongiglione R (1963) Aritmie cardiace rare delleta pedriatica: accessi per fibrillazione ventricolare parossistica. Clin Pediatr 45:656–683
Ward OC (1964) A new familial cardiac syndrome in children. J Ir Med Assoc 54:103–109
Wedekind H, Smits JP, Schulze-Bahr E, Arnold R, Veldkamp MW, Bajanowski T, Borggrefe M, Brinkmann B, Warnecke I, Funke H, Bhuiyan ZA, Wilde AA, Breithardt G, Haverkamp W (2001) De novo mutation in the SCN5A gene associated with early onset of sudden infant death. Circulation 104:1158–1164
Schulze-Bahr E, Fenge H, Etzrodt D, Haverkamp W, Mönnig G, Wedekind H, Breithardt G, Kehl HG (2004) Long QT syndrome and life threatening arrhythmia in a newborn: molecular diagnosis and treatment response. Heart 90:13–16
Iwasa H, Kurabayashi M, Nagai R, Nakamura Y, Tanaka T (2001) Multiple single-nucleotide polymorphisms (SNPs) in the Japanese population in six candidate genes for long QT syndrome. J Hum Genet 46:158–162
Tesson F, Donger C, Denjoy I, Berthet M, Bennaceur M, Petit C, Coumel P, Schwarts K, Guicheney P (1996) Exclusion of KCNE1 (IsK) as a candidate gene for Jervell and Lange–Nielsen syndrome. J Mol Cell Cardiol 28:2051–2055
Larsen LA, Christiansen M, Vuust J, Andersen PS (1999) High-throughput single-strand conformation polymorphism analysis by automated capillary electrophoresis: robust multiplex analysis and pattern-based identification of allelic variants. Human Mutat 13:318–327
Akimoto K, Furutani M, Imamura S, Furutani Y, Kasanuki H, Takao A, Momma K, Matsuoka R (1998) Novel missense mutation (G601S) of HERG in a Japanese long QT syndrome family. Human Mutat Suppl 1:S184–S186
Lee MP, Hu RJ, Johnson LA, Feinberg AP (1997) Human KVLQT1 gene shows tissue-specific imprinting and encompasses Beckwith–Wiedemann syndrome chromosomal rearrangements. Nat Genet 15:181–185
Lai LP, Deng CL, Moss AJ, Kass RS, Liang C (1994) Polymorphism of the gene encoding a human minimal potassium ion channel (minK). Gene 151:339–340
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