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The investigation of intrauterine death

Published online by Cambridge University Press:  10 October 2008

Simon Knowles
Simon Knowles*
Affiliation:
King Edward Memorial Hospital for Women, Subiaco, Western Australia
*
Simon Knowles, Director of Laboratory Services, King Edward Memorial Hospital for Women, Subiaco, Western Australia6008.
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Extract

The detection of an intrauterine fetal death or the delivery of a stillborn infant often initiates a futile and haphazard series of investigations set against a background of parental anxiety and clinical discomfort. The changes of successful diagnosis of the cause of intrauterine or intrapartum death are better served by the adoption of a prompt and co-ordinated approach to laboratory and other investigations. The purpose of this review is to examine the ways in which the laboratory can aid in the management of fetal death. Some of the more common causes of fetal death will be outlined, with particular emphasis on the lupus anticoagulant, fetomaternal macrotransfusion and specific infections such as Listeria and parvovirus, as these are all attracting current interest and debate. The problem of the macerated stillbirth is given some prominence in order to put to rest the notion that examination of the fetus in the presence of autolysis is worthless. None of the details are comprehensive but key references to reviews have been included in order to help the perinatologist on the spot.

Type
Articles
Information
Fetal and Maternal Medicine Review , Volume 3 , Issue 1 , January 1991 , pp. 29 - 46
Copyright
Copyright © Cambridge University Press 1991

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References

1 Nicol, M. Loss of a baby. Understanding maternal grief. Sydney: Bantam, 1989.Google Scholar
2 Bryant, CM. Fathers grieve too. J Perinatol 1989; 9: 437–41.Google Scholar
3 Morrison, I, Olsen, J. Perinatal mortality and antepartum risk scoring. Obstet Gynecol 1979; 53: 362–66.Google Scholar
4 Butler, NR, Bonham, DG. Perinatal mortality: the first report of the British Perinatal Mortality Survey. Edinburgh: E & S Livingstone, 1963.Google Scholar
5 Freeman, RK, Dorchester, W, Anderson, G, Garite, TJ. The significance of a previous stillbirth. Am J Obstet Gynecol 1985; 151: 713.CrossRefGoogle ScholarPubMed
6 Wegman, ME. Annual summary of vital statistics – 1987. Pediatrics 1988; 82: 817–27.Google Scholar
7 Lawson, GW. Perinatal mortality rates; Holland versus the Hunter Valley. Aust N Z J Obstet Gynaecol 1990; 30: 211–13.Google Scholar
8 Parsons, L, Dudley, L, Alberman, E. Socio-economic and ethnic factors in stillbirth and neonatal mortality in the NE Thames Regional Health Authority (NETRHA) 1983. Br J Obstet Gynaecol 1990; 97: 237–44.Google Scholar
9 Field, DJ, Smith, H, Mason, AD, Milner, AD. Is perinatal mortality still a good indicator of perinatal care? Paediatr Perinatal Epidemiol 1988; 2: 213–19.Google Scholar
10 Robinson, MJ. The autopsy 1983: can it be revided? Hum Pathol 1983; 14: 566–68.CrossRefGoogle Scholar
11 Proceedings of the College of American Pathologists foundation conference on the autopsy. Arch Pathol Lab Med 1984; 108: 437512.Google Scholar
12 Munan, L, Kelly, A, Cote, R. Do the right children have necropsies? Analysis of selected determinants. Arch Dis Child 1975; 50: 620–25.CrossRefGoogle ScholarPubMed
13 Goldman, L, Sayson, R, Robbins, S, Cohn, LH, Bettmann, M, Weisberg, M. The value of the autopsy in three medical eras. N Engl J Med 1983; 17: 10001005.Google Scholar
14 Porter, HJ, Keeling, JW. Value of the perinatal necropsy examination. J Clin Pathol 1987; 40: 180–84.Google Scholar
15 Mueller, RF, Sybert, VP, Johnson, J, Brown, ZA, Chen, W–J. Evaluation of a protocol for postmortem examination of stillbirths. N Engl J Med 1983; 309: 586–90.Google Scholar
16 Kubler-Ross, E. On death and dying. New York: Macmillan, 1969.Google Scholar
17 Barson, AJ. The perinatal postmortem. In: Barson, AJ ed, Fetal and neonatal pathology: perspectives for the general pathologist. Eastbourne: Praeger, 1982: 149–65.Google Scholar
18 Meir, PR, Manchester, DK, Shikes, RH, Clewell, WH, Stewart, M. Perinatal autopsy: its clinical value. Obstet Gynecol 1986; 67: 349–51.Google Scholar
19 Alberman, E. Prospects for better perinatal health. Lancet 1980; i: 189–92.CrossRefGoogle Scholar
20 Wigglesworth, JS. Investigation of perinatal death. Clin Obstet Gynecol 1987; 40: 180–84.Google Scholar
21 Golding, J. The frequency of perinatal postmortems in Britain in 1980. In: Barson, AJ ed, Fetal and neonatal pathology: perspectives for the general pathologist. Eastbourne: Praeger, 1982: 167–70.Google Scholar
22 Macpherson, TA, Valdes-Dapena, M, Kanbour, A. Perinatal mortality and morbidity: the role of the anatomical pathologist. Semin Perinatol 1986; 10: 179–86.Google Scholar
23 Valdes-Dapena, M. The postautopsy conference with parents. Arch Pathol Lab Med 1984; 108: 497–98.Google Scholar
24 Winter, RM. The malformed fetus and stillbirth: whose patient? Br J Obstet Gynaecol 1983; 90: 645–49.Google Scholar
25 Rushton, DI. The placenta as a reflection of maternal disease. In: Perrin, EVDK ed, Pathology of the placenta. Edinburgh: Churchill Livingstone, 1984: 5788.Google Scholar
26 Benirschke, K, Driscoll, SG. The pathology of the human placenta. New York: Springer Verlag, 1967.Google Scholar
27 Fox, H. Pathology of the placenta. Major problems in pathology, vol 7. Philadelphia: WB Saunders, 1978.Google Scholar
28 Perrin, EVDK. Pathology of the placenta. New York: Churchill Livingstone, 1984.Google Scholar
29 Steele, PE, Jacobs, DS. Listeria monocytogenes. Microabscesses of placenta. Obstet Gynecol 1979; 53: 124–27.Google Scholar
30 Benirschke, K, Mendoza, GR, Bazeley, PL. Placental and fetal manifestations of cytomegalovirus infection. Virchows Arch [B] 1974; 16: 121–39.Google Scholar
31 Garcia, AGP, Fonseca, EF, Marques, RLdeS, Lobato, YY. Placental morphology in cytomegalovirus infection. Placenta 1989; 10: 118.Google Scholar
32 Russell, P, Altshuler, G. Placental abnormalities of congenital syphilis. A neglected aid to diagnosis. Am J Dis Child 1974; 128: 160–63.CrossRefGoogle ScholarPubMed
33 Knowles, S, Frost, T. Umbilical cord sclerosis as an indicator of congenital syphilis. J Clin Pathol 1989; 42: 1157–59.Google Scholar
34 Russell, P. Inflammatory lesions of the human placenta II: villitis of unknown etiology in perspective. Am J Diag Gynecol Obstet 1979; 1: 339–56.Google Scholar
35 Russell, P, Atkinson, K, Krishnan, L. Recurrent reproductive failure due to severe placental villitis of unknown etiology. J Reprod Med 1980; 24: 9398.Google Scholar
36 Purola, E. The length and insertion of the umbilical cord. Ann Chir Gynaecol 1968; 57: 621–22.Google ScholarPubMed
37 Heifetz, SA. Thrombosis of the umbilical cord: analysis of 52 cases and literature review. Paediatr Pathol 1988; 8: 3754.Google Scholar
38 Foote, GA, Wilson, AJ, Stewart, JH. Perinatal postmortem radiography – experience with 2500 cases. Br J Radiol 1978; 51: 351–56.CrossRefGoogle ScholarPubMed
39 Cremin, BJ, Draper, R. The value of radiography in perintal deaths. Pediatr Radiol 1981; 11: 143–46.Google Scholar
40 Winter, RM, Sandin, BM, Mitchell, RA, Price, AB. The radiology of stillbriths and perinatal deaths. Br J Obstet Gynaecol 1984; 91: 762–63.Google Scholar
41 Furness, ME, Parker, S, Weckert, RC, Knowles, S. Ultrasound in the perinatal necropsy. J Clin Genet 1989; 26: 368–72.Google ScholarPubMed
42 Knowles, S, Parker, S, Weckert, RC, Furness, ME. Gelatin embedding and diagnostic ultrasound in the examination of the fetal and neonatal brain. Prenatal Diagn 1988; 8: 6375.Google Scholar
43 Berry, CL. The examination of embryonic and fetal material in diagnostic histopathology laboratories. J Clin Pathol 1980; 33: 317–26.Google Scholar
44 Rushton, DI. Examination of products of conception from previable human pregnancies. J Clin Pathol 1981; 34: 819–35.Google Scholar
45 Baldwin, VJ, Kalousek, DK, Dimmick, JE, Applegarth, DA, Hardwick, DF. Diagnostic pathologic investigation of the malformed conceptus. Perspec Pediatr Pathol 1986; 7: 65108.Google Scholar
46 Kalousek, DK, Fitch, N, Paradice, ART. Pathology of the human embryo and previable fetus: an atlas. Berlin: Springer Verlag, 1990.Google Scholar
47 Keeling, JW. The perinatal necropsy. In: Keeling, JW ed, Fetal and neonatal pathology. Berlin: Springer Verlag, 1987; 144.Google Scholar
48 Pryse-Davies, J. The perinatal autopsy. In: Anthony, PP, MacSween, RNM eds, Recent advances in histopathology 11. Edinburgh: Churchill Livingstone, 1981: 6582.Google Scholar
49 Wigglesworth, JS. Performance of the perinatal autopsy. In: Wigglesworth, JS ed, Perinatal pathology. Philadelphia: WB Saunders, 1984: 2747.Google Scholar
50 Knowles, S. Examination of products of conception terminated after prenatal diagnosis. J Clin Pathol 1986; 39: 1049–65.Google Scholar
51 Anderson, RH, Ho, SY. The pathology of congenital heart disease. In: Barson, AJ ed, Fetal and neonatal pathology: perspectives for the general pathologist. New York: Praeger, 1982: 213–38.Google Scholar
52 Winter, RM, Knowles, S, Bieber, FR, Baraitser, M. The malformed fetus and stillbirth: a diagnostic approach. Chichester: John Wiley & Sons, 1988.Google Scholar
53 Wigglesworth, JS. Investigation of perinatal death. Arch Dis Child 1987; 62: 1207–1208.CrossRefGoogle ScholarPubMed
54 Valdes-Dapena, M, Huff, D. Perinatal autopsy manual. Washington: Armed Forces Institute of Pathology, 1983.Google Scholar
55 Harper, PS. Congenital myotonic dystrophy in Britain. I: Clinical aspects. Arch Dis Child 1975; 50: 505–13.Google Scholar
56 Alberman, ED, Creasy, MR. Frequency of chromosomal abnormalities in miscarriages and perinatal deaths. J Med Genet 1977; 14: 313–15.Google Scholar
57 Sutherland, GR, Carter, RF. Cytogenetic studies: an essential part of the paediatric necropsy. J Clin Pathol 1983; 36: 140–42.Google Scholar
58 Smith, A, Bannatyne, P, Ellwood, D, den Dulk, G. Cytogenetic studies in perinatal death. Aus N Z J Obstet Gynaecol 1990; 30: 206–10.Google Scholar
59 Kalousek, DK, Pantzar, T. So-called primitive neuroectodermal tumor in aborted previable fetuses. Pediatr Pathol 1988; 8: 503–11.Google Scholar
60 Keeling, JW. Macerated stillbirth. In: Keeling, JW ed, Fetal and neonatal pathology. Berlin: Springer Verlag, 1987: 167–77.Google Scholar
61 Myers, SA, Ferguson, R. A population study of the relationship between fetal death and altered fetal growth. Obstet Gynecol 1989; 74: 325–31.Google ScholarPubMed
62 Wigglesworth, JS. Monitoring perinatal mortality: a pathophysiological approach. Lancet 1980; ii: 684–68.CrossRefGoogle Scholar
63 Keeling, JW, MacGillivray, I, Golding, J, Wigglesworth, J, Berry, J, Dunn, PM. Classification of perinatal death. Arch Dis Child 1989; 64: 1345–51.CrossRefGoogle ScholarPubMed
64 Whitfield, CR, Smith, NC, Cockburn, F et al. Perinatally related wastage – a proposed classification of primary obstetrical factors. Br J Obstet Gynaecol 1986; 93: 694703.Google Scholar
65 Constantine, G, Menon, V. Coagulation studies in cases of intrauterine death: overkill?. Br Med J 1987; 294: 678.Google Scholar
66 Nilsson, IM, Astedt, B, Hedner, U, Berezin, D. Intrauterine death and circulating anticoagulant (‘antithromboplastin’). Acta Med Scand 1975; 197: 153–59.Google Scholar
67 Cowchock, S, Smith, JB, Gocial, B. Antibodies to phospholipids and nuclear antigens in patients with repeated abortions. Am J Obstet Gynecol 1986; 155: 10021010.Google Scholar
68 Branch, D, Scott, J, Kochenour, N, Hershgold, E. Obstetric complications associated with the lupus anticoagulant. N Engl J Med 1985; 313: 1322–26.Google Scholar
69 Greenspoon, JS, Buchanan, D. Fetal distress associated with the anticardiolipin antibody and a history of intrauterine fetal demise. J Reprod Med 1989; 4: 311–14.Google Scholar
70 Prentice, RL, Gatenby, PA, Loblay, RH, Shearman, RP, Kronenberg, H, Basten, A. Lupus anticoagulant and pregnancy. Lancet 1984; ii: 464.CrossRefGoogle Scholar
71 Scott, JS, Maddison, PJ, Taylor, PV, Esscher, E, Scott, O, Skinner, PR. Connective-tissue disease, antibodies to ribonucleoprotein and congenital heart block. N Engl J Med 1983; 309: 209–12.Google Scholar
72 Vetter, VL, Rashkind, WJ. Congenital complete heart block and connective tissue disease. N Engl J Med 1983; 309: 236–37.Google Scholar
73 Abramowski, CR, Vegas, ME, Swineheart, G, Gyves, MT. Decidual vasculopathy of the placenta in lupus erythematosus. N Engl J Med 1980; 303: 668–72.Google Scholar
74 Esscher, E, Scott, JS. Congenital heart block and maternal systemic lupus erythematosus. Br Med J 1979; 1: 1235–38.Google Scholar
75 Taylor, PV, Scott, JS, Gerlis, LM, Esscher, E, Scott, O. Maternal antibodies against fetal cardiac antigens in congenital complete heart block. N Engl J Med 1986; 315: 667–72.Google Scholar
76 Li, TC, Bromham, DR, Balmer, BM. Fetomaternal macrotransfusion in the Yorkshire region. 1: prevalence and obstetric factors. Br J Obstet Gynaecol 1988; 95: 1144–51.Google Scholar
77 Fay, RA. Feto-maternal haemorrhage as a cause of fetal morbidity and mortality. Br J Obstet Gynaecol 1983; 90: 443–46.Google Scholar
78 Laube, DW, Schauberger, CW. Fetomaternal bleeding as a cause for ‘unexplained’ fetal death. Obstet Gynecol 1982; 60: 649–51.Google Scholar
79 Li, TC, Bromham, DR. Fetomaternal macrotransfusion in the Yorkshire region. 2: Perinatal outcome. Br J Obstet Gynaecol 1988; 95: 1152–58.Google Scholar
80 Shepard, MK, Weatherall, DJ, Conley, CL. Semi-quantitative estimation of distribution of fetal haemoglobin in red cell populations. Bull Johns Hopkins Hosp 1962; 110: 293–96.Google Scholar
81 Knab, DR. Abruptio placentae. An assessment of the time and method of delivery. Obstet Gynecol 1978; 52: 625–29.Google Scholar
82 Sibai, BM, Spinnato, JA, Watson, DL, Hill, GA, Anderson, GD. Pregnancy outcome in 303 cases with severe pre-eclampsia. Obstet Gynecol 1984; 64: 319–25.Google Scholar
83 Boyd, PA, Lindenbaum, RH, Redman, C. Pre-eclampsia and trisomy 13: a possible association. Lancet 1987; ii: 425–27.Google Scholar
84 Bower, C, Stanley, FJ, Walters, BNJ. Pre-eclampsia and trisomy 13. Lancet 1987; ii: 1032.CrossRefGoogle Scholar
85 Giles, WB, Trudinger, BJ, Baird, PJ. Fetal umbilical artery flow velocity waveforms and placental resistance: pathological correlation. Br J Obstet Gynaecol 1985; 92: 3138.Google Scholar
86 Connell, FA, Vadheim, C, Emanuel, I. Diabetes in pregnancy: a population-based study of incidence, referral for care and perinatal mortality. Am J Obstet Gynecol 1985; 151: 598603.Google Scholar
87 Remington, JS, Klein, JO. Infectious diseases of the fetus and newborn infant, 3rd edition. Philadelphia: WB Saunders, 1990.Google Scholar
88 Khong, TY, Frappell, JM, Steel, HM, Stewart, CM, Burke, M. Perinatal listeriosis (early onset): a report of 6 cases. Br J Obstet Gynaecol 1986; 93: 1083–87.CrossRefGoogle Scholar
89 Kluge, RM. Listeriosis– problems and therapeutic options. J Antimicrob Chemother 1990; 25: 8789.Google Scholar
90 Spencer, JAD. Perinatal listeriosis. Br Med J 1987; 295: 349.Google Scholar
91 Bortolussi, R, Seeliger, HPR. Listeriosis. In: Remington, JS, Klein, JO eds, Infectious diseases of the fetus and newborn infant. Philadelphia: WB Saunders, 1990: 812–33.Google Scholar
92 Russell, P, Altshuler, G. The placental abnormalities of congenital syphilis. Am J Dis Child 1974; 128: 160–63.CrossRefGoogle ScholarPubMed
93 Kaplan, C. The placenta in viral infections. Clin Obstet Gynecol 1990; 33: 232–41.CrossRefGoogle ScholarPubMed
94 Katz, SL, Wilfert, CM. Human immunodeficiency virus infections of newborns. N Engl J Med 1989; 320: 1687–89.Google Scholar
95 Jauniaux, E, Nessmann, C, Imbert, C, Meuris, S, Puissant, F, Hustin, J. Morphological aspects of the placenta in HIV pregnancies. Placenta 1988; 9: 633–42.Google Scholar
96 Selwyn, PA, Schoenbaum, E, Davenny, K et al. Prospective study of human immunodeficiency virus infection and pregnancy outcomes in intravenous drug users. JAMA 1989; 261: 1289–94.Google Scholar
97 Thurn, J. Human parvovirus B19: historical and clinical review. Rev Infect Dis 1988; 10: 10051011.Google Scholar
98 Anderson, LJ. Role of parvovirus B19 in human disease. Pediatr Infect Dis 1987; 6: 711–18.Google Scholar
99 Anand, A, Gray, ES, Brown, T, Clewley, JP, Cohen, BJ. Human parvovirus infection in pregnancy and hydrops fetalis. N Engl J Med 1987; 316: 183–86.Google Scholar
100 Kinney, JS, Anderson, LJ, Farrar, J et al. Risk of adverse outcomes of pregnancy after human parvovirus B19 infection. J Infect Dis 1988; 157: 663–67.Google Scholar
101 Bernstein, IM, Capeless, EL. Elevated maternal serum alfa-fetoprotein and hydrops fetalis in association with fetal parvovirus B19 infection. Obstet Gynecol 1989; 74: 456–57.Google Scholar
102 Carrington, D, Gilmore, DH, Whittle, MJ et al. Maternal serum alfa-fetoprotein – a marker of fetal aplastic crisis during intrauterine human parvovirus infection. Lancet 1987; i: 433–35.Google Scholar
103 Porter, HJ, Quantrill, AM, Fleming, KA. B19 parvovirus infection of myocardial cells. Lancet 1988; i: 535–36.Google Scholar
104 Shmoys, S, Kaplan, C. Parvovirus and pregnancy. Clin Obstet Gynecol 1990; 33: 268–75.Google Scholar
105 Dascal, A, Libman, MD, Mendelson, J, Cukor, G. Laboratory tests for the diagnosis of viral disease in pregnancy. Clin Obstet Gynecol 1990; 33: 218–31.Google Scholar
106 Rosenthal, N, Abramowski, CR. The causes of morbidity and mortality among infants born at term. Arch Pathol Lab Med 1988; 112: 178–81.Google Scholar
107 Young, ID, Rickett, AB, Clarke, M. Genetic analysis of malformations causing perinatal mortality. J Clin Genet 1986; 23: 5863.Google Scholar
108 Poland, BJ, Lowry, RB. The use of spontaneous abortuses and stillbirths in genetic counselling. Am J Obstet Gynecol 1974; 118: 322–36.Google Scholar
109 Garza, A, Cordero, JF, Mulinare, J. Epidemiology of the early amnion rupture spectrum of defects. Am J Dis Child 1988; 142: 541–44.Google Scholar
110 Hall, JG. An approach to congenital contractures (arthrogryposis). Pediatr Annals 1981; 10: 1526.Google Scholar
111 Mahony, BS, Filley, RA, Callen, PW, Chinn, DH, Golbus, MS. Severe non-immune hydrops fetalis: sonographic evaluation. Radiology 1984; 151: 757–61.Google Scholar
112 Chervenak, FA, Isaacson, G, Blakemore, KJ et al. Fetal cystic hygroma: cause and natural history. N Engl J Med 1983; 309: 822–25.Google Scholar
113 Chodirker, BN, Harman, CR, Greenberg, CR. Spontaneous resolution of a cystic hygroma in a fetus with Turner’s syndrome. Prenat Diagn 1988; 8: 291–96.Google Scholar
114 Baccichetti, C, Lenzini, E, Suma, V, Benini, F, Marini, A. Spontaneous resolution of a cystic hygroma in a 46, XX normal female. Prenat Diagn 1990; 10: 399403.Google Scholar
115 Keeling, JW, Gough, DJ. Iliff The pathology of non-rhesus hydrops. Diagn Histopathol 1983; 6: 89111.Google Scholar
116 Castillo, RA, Devoe, LD, Hadi, HA, Martin, S, Geist, D. Nonimmune hydrops fetalis: clinical experience and factors related to poor outcome. Am J Obstet Gynecol 1986; 155: 812–16.Google Scholar
117 Villaespesa, AR, Mier, MPS, Ferrer, PL, Baleriola, IA, Gonzalez, JIR. Non-immunologic hydrops fetails: an etiopathogenetic approach through the postmortem study of 59 patients. Am J Med Genet 1990; 35: 274–79.CrossRefGoogle Scholar
118 Fleigner, JRH. When do perinatal deaths in multiple pregnancies occur? Aust N Z J Obstet Gynaecol 1990; 29: 371–74.Google Scholar
119 Rausen, AR, Seki, M, Strauss, L. Twin transfusion syndrome. A review of 19 cases studied at one institution. J Pediatr 1965; 66: 613–28.Google Scholar
120 Fisk, NM, Borrell, A, Hubinot, C, Tannirandorn, Y, Nicolini, U, Rodek, CH. Fetofetal transfusion syndrome: do the neonatal criteria apply in utero? Arch Dis Child 1990; 65: 657–61.Google Scholar
121 Szymonowicz, W, Preston, H, Yu, VYH. The surviving monozygotic twin. Arch Dis Child 1986; 61: 454–58.Google Scholar
122 Lewis, E, Bryan, EM. Management of perinatal loss of a twin. Br Med J 1988; 297: 1321–23.Google Scholar
123 Anonymous. Unexplained stillbirth [Editorial]. Lancet 1987; i: 2223.Google Scholar