Smallpox during pregnancy and maternal outcomes.A historical study evaluated maternal outcomes in pregnancy complicated by smallpox smallpox, acute, highly contagious disease causing a high fever and successive stages of severe skin eruptions. The disease dates from the time of ancient Egypt or before. . The overall case fatality In epidemiology, case fatality (CF) refers the rate of death among people who already have a condition. It is usually defined with a period of time, such as a 28-day CF or a 24-hour CF. It is usually measured as a decimal or as a percent. was estimated to be 34.3% (95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. [CI] 31.4-37.1), and the proportion of miscarriage miscarriage: see abortion. miscarriage or spontaneous abortion Spontaneous expulsion of an embryo or fetus from the uterus before it can live outside the mother. or premature birth premature birth Birth less than 37 weeks after conception. Infants born as early as 23–24 weeks may survive but many face lifelong disabilities (e.g., cerebral palsy, blindness, deafness). was estimated to be 39.9% (95% CI 36.5-43.2). Vaccination before pregnancy reduced the risk for death. ********** Pregnant women are at special risk for complications of smallpox vaccination (1); therefore, vaccination is not recommended for pregnant women in the absence of a reemergence of smallpox (2). Smallpox in pregnancy is believed to be more severe than in nonpregnant women or adult men (3), but this consensus is based on a limited number of studies conducted during the mid-20th century (4-6). This article examines the outcomes of pregnancy complicated by smallpox in historical records from the 19th and 20th centuries. The Study Since most large outbreaks were documented before the mid-20th century, I collected and reviewed the literature dating back to the 19th century. Technical details of the literature review are provided in online Appendix 1 (available at http://www.cdc.gov/ncidod/EID/voll2no07/05-1531_app1.htm). All selected publications were retrospective studies retrospective study, a study in which a search is made for a relationship between one phenomenon or condition and another that occurred in the past (e.g. based on epidemiologic observations of outbreaks that reported case fatalities, miscarriages, or premature births. Because vaccination or advances in obstetrics obstetrics (ŏbstĕ`trĭks), branch of medicine concerned with the treatment of women during pregnancy, labor, childbirth (see birth), and the time after childbirth. over time could bias these outcomes, these factors were abstracted from each publication and considered separately, when possible. Outcomes were then stratified stratified /strat·i·fied/ (strat´i-fid) formed or arranged in layers. strat·i·fied adj. Arranged in the form of layers or strata. by gestation period Gestation period In mammals, the interval between fertilization and birth. It covers the total period of development of the offspring, which consists of a preimplantation phase (from fertilization to implantation in the mother's womb), an embryonic phase at onset of smallpox (by trimester trimester /tri·mes·ter/ (-mes´ter) a period of three months. tri·mes·ter n. A period of three months. Trimester The first third or 13 weeks of pregnancy. ), clinical classification of smallpox, and vaccination history. Case fatalities were compared between pregnant and non-pregnant patients. Except in Rao's work in Madras Madras. 1 State and former province, India: see Tamil Nadu. 2 City, India: see Chennai. (4), miscarriage and premature birth were not separated, so they are described together. Nineteen outbreaks were identified from historical records (4,7-20), and of these, 16 allowed estimates to be made of case fatality, and 15 allowed estimates of the proportion of miscarriage or premature birth. Of 1,074 pregnant patients, 368 died; and of 830 pregnant patients, 331 miscarried or gave birth prematurely (Figure). Since these articles are from many years ago, the proportion of cases that were undetected or unreported cannot be determined nor can the length of time since vaccination in persons who were vaccinated. Descriptions of excluded literature are given in online Appendix 1; individual case records were provided in 3 outbreaks and are included in online Appendix 2 (available at http://www.cdc.gov/ncidod/EID/ vol12no07/05-1531_app2.htm). [FIGURE OMITTED] Figure, panel A, shows the distribution of estimated case fatalities for each outbreak with the corresponding 95% confidence intervals (CIs). Case fatalities varied widely among outbreaks. The earliest outbreak in 1830 (before compulsory vaccination) yielded the highest estimate (81.5%), while the 1913 outbreak in Australia had the lowest (4.3%). The overall crude case fatality was estimated to be 34.3% (95% CI 31.4-37.1). Case fatality, stratified by gestational age ges·ta·tion·al age n. See estimated gestational age. Gestational age The estimated age of a fetus expressed in weeks, calculated from the first day of the last normal menstrual period. at onset of smallpox, is presented in Table 1; only 4 studies enabled stratification by gestational age. Case fatality was highest during the third trimester Noun 1. third trimester - time period extending from the 28th week of gestation until delivery trimester - a period of three months; especially one of the three three-month periods into which human pregnancy is divided , except in Queirel's study, which included few cases (18). Case fatality, stratified by the clinical classification of smallpox, is shown in online Appendix 2. All patients with hemorrhagic Hemorrhagic A condition resulting in massive, difficult-to-control bleeding. Mentioned in: Hantavirus Infections hemorrhagic pertaining to or characterized by hemorrhage. cases died, but all patients without a rash (variola variola /va·ri·o·la/ (vah-ri´o-lah) smallpox.vari´olarvari´olous va·ri·o·la n. See smallpox. va·ri sine eruptione, VSE See DOS/VSE. VSE - Virtual Storage Extended ) survived. Case fatalities among pregnant and nonpregnant patients are compared in Appendix 2. Case fatality was not significantly higher in pregnant patients in the Rotterdam outbreak (p = 0.33), where many VSE cases apparently occurred. The risks for a fatal outcome fatal outcome, n a consequence that results in death. The course of a disease that results in the death of the patient. among pregnant patients in Berlin and Madras were 2.5x and 4.2x higher than among nonpregnant patients (p<0.01 for each). I also compared vaccinated and unvaccinated pregnant patients, showing that the risk for death was significantly higher among unvaccinated women in these 3 outbreaks (7/7 vs. 7/39, p<0.01; 2/2 vs. 10/78, p = 0.02; and 9/12 vs. 17/82, p<0.01, respectively). Crude proportions of miscarriage and premature birth, with 95% CI, are given in the Figure, panel B. The overall crude proportion of miscarriage or premature birth is estimated to be 39.9% (95% CI 36.5-43.2). Five outbreaks allowed stratification by gestational age at onset of smallpox (Table 2). The overall proportion of premature birth was highest during the last trimester of pregnancy, but no clear pattern was seen with regard to the frequency of miscarriage or premature birth. The proportion of miscarriage and premature birth, stratified by severity of smallpox, is shown in online Appendix 2. All hemorrhagic cases resulted in either miscarriage or premature birth before the mother's death. Even mild cases, those classified as discrete or VSE, tended to result in miscarriage or premature birth. Only the 1878 outbreak in Philadelphia (10) allowed a comparison between vaccinated and unvaccinated pregnant patients. Twenty-two of 39 vaccinated and 5 of 7 unvaccinated patients miscarried or delivered prematurely (p = 0.68). These outcomes could only be compared by history of miscarriage in the 1913 outbreak in Australia (19). Two of 3 patients with no history and 6 of 20 with a history of miscarriage had a miscarriage or premature birth, but this difference was not significant (p = 0.27, odds ratio 4.7, 95% CI 0.4-61.8). Comparison by previous experience of normal delivery (primipara primipara /pri·mip·a·ra/ (pri-mip´ah-rah) pl. primip´arae para I; a woman who has had one pregnancy that resulted in one or more viable young. See para. primip´arous pri·mip·a·ra n. or multipara multipara /mul·tip·a·ra/ (mul-tip´ah-rah) a woman who has had two or more pregnancies resulting in viable fetuses, whether or not the offspring were alive at birth. ) could only be performed with the data from Rotterdam from 1893 and 1894 (15). Ten of 21 primipara patients and 18 of 53 multipara patients had a miscarriage or premature birth (p = 0.30), which suggests that delivery history did not greatly affect the outcome of pregnancy complicated by smallpox. Conclusions Since outbreaks have been limited since the mid-20th century by the successful smallpox eradication program, historical records are a useful tool to document common patterns of maternal outcomes in pregnancy complicated by smallpox. Such analysis may be limited by unknown numbers of missed or unreported cases or imperfect vaccination histories. My estimates of the overall crude case fatality and proportion of miscarriage or premature birth were high. This study and Rao's (4) improve our understanding of smallpox in pregnancy, highlighting 3 points. First, case fatality is highest during the last trimester of gestation, but miscarriage and premature birth do not vary by trimester. Physiologic changes in the third trimester could partly explain the higher case fatality (21). Second, even mild cases were at high risk of causing miscarriage or premature birth. Third, miscarriage and premature birth were not significantly associated with vaccination history or previous miscarriage or delivery. That is, vaccination may not prevent miscarriage and premature birth. Although prior vaccination offers less protection to pregnant women than others (22), this study shows that vaccination might offer at least partial protection. Case fatality in the event of a bioterrorist attack could be lowered with vaccination before pregnancy and should be considered if the risk for such an attack is high. Acknowledgments I thank the anonymous reviewers for greatly improving the manuscript; Hiroshi Sameshima for his comments from an obstetric ob·stet·ric or ob·stet·ri·cal adj. Of or relating to the profession of obstetrics or the care of women during and after pregnancy. obstetrical, obstetric pertaining to or emanating from obstetrics. point of view; and Klaus Dietz, Birgit Kaiser, Martin Eichner, and Chris Leary Chris Leary is an American television and radio personality. He is known for his work on the TechTV television programs Fresh Gear and TechLive. He left the network in 2004 after the programs were canceled as a result of the merger between TechTV and Comcast-owned for their discussion and support in data collection. This work was partly supported by Banyu Life Science Foundation International. References (1.) Henderson DA, Inglesby TV, Bartlett JG, Ascher MS, Eitzen E, Jahrling PB, et al. Smallpox as a biological weapon: medical and public health management. Working Group on Civilian Biodefense. JAMA JAMA abbr. Journal of the American Medical Association . 1999;281:2127-37. (2.) Suarez VR, Hankins GD. Smallpox and pregnancy: from eradicated disease to bioterrorist threat. Obstet Gynecol. 2002;100:87-93. (3.) Fenner F, Henderson DA, Arita I, Jezek Z, Ladnyi ID. Smallpox and its eradication. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. : World Health Organization; 1988 [cited 2006 May 4]. Available from http://whqlibdoc.who.int/smallpox/9241561106.pdf (4.) Rao AR, Prahlad I, Swaminathan M, Lakshmi A. Pregnancy and smallpox. J Indian Med Assoc. 1963;40:353-63. (5.) Rao AR. Haemorrhagic Adj. 1. haemorrhagic - of or relating to a hemorrhage hemorrhagic smallpox: a study of 240 cases. J Indian Med Assoc. 1964;43:224-9. (6.) Dixon CW. Smallpox in Tripolitania, 1946: an epidemiological and clinical study of 500 cases, including trials of penicillin penicillin, any of a group of chemically similar substances obtained from molds of the genus Penicillium that were the first antibiotic agents to be used successfully in the treatment of bacterial infections in humans. treatment. J Hyg (Lond). 1948;46:351-77. (7.) Voigt L. Uber den Einfluss der Pockenkrankheit auf Menstruation menstruation, periodic flow of blood and cells from the lining of the uterus in humans and most other primates, occurring about every 28 days in women. Menstruation commences at puberty (usually between age 10 and 17). , Schwangerschaft, Geburt und Fotus. Sammlung Klinischer Vortraege/Gynaekologie. 1894-1897;112:249-72 (8.) Scheby-Buch. Bericht uber das Material des Hamburger Pockenhauses vom August 1871 bis Februar 1872. Arch Derm Syphi. 1872-1873;4:506-32. (9.) Meyer L. Uber Pocken beim weiblichen Geschlecht. Beitrage zur Geburtshulfe und Gynakologie/hrsg. von d. Gesellschaft fur Geburtshulfe in Berlin (Berlin: Crede). 1873;2:186-98. (10.) Welch WM. Smallpox in the pregnant woman and in the foetus. Philadelphia Medical Times. 1877-1878;8:390-8. (11.) Jobard. Influence de la variole var·i·ole n. A small pocklike mark, as on an insect. sur la grossesse [thesis]. Paris: Universite de Paris; 1880. (12.) Barthelemy. Recherches sur l'influence de lavariole sur la grossesse [thesis]. Paris: Universite de Paris; 1880. (13.) Sangregorio G. Vaiuolo e gravidanza. Cenni statistici (1). Guardia Ostetrica di Milano. I Morgagni. 1887;29:793-6. (14.) Richardiere. La variole pendant la grossesse. Arch de Tocol et de Gynecol. 1893;20:611-5. (15.) van der Willigen AM. Pokken in de Zwangerschap, 80 gevallen van variolae gravidarum. Ned Tijdschr Geneeskd. 1895;11:485-99. (16.) Charpentier JB. Variole et vaccine dans la grossesse [thesis]. Paris: Universite de Paris; 1900. (17.) Viany C. Vaccine et variole au cours de la grossesse [thesis]. Lyon Med. 1900;93:397-401. (18.) Queirel. Variole et grossesse. Annales de Gyneeologie et d'Obstetrique. 1907;4:137-47. (19.) Robertson DG. Small-pox epidemic in New South Wales New South Wales, state (1991 pop. 5,164,549), 309,443 sq mi (801,457 sq km), SE Australia. It is bounded on the E by the Pacific Ocean. Sydney is the capital. The other principal urban centers are Newcastle, Wagga Wagga, Lismore, Wollongong, and Broken Hill. , 1913. Melbourne, Australia: Minister for Trade and Customs; 1914. (20.) Couremenos M. Influence de la variole sur la grossesse et le produit de la conception [thesis]. Paris: Universite de Paris; 1901. (21.) Crapo RO. Normal cardiopulmonary cardiopulmonary /car·dio·pul·mo·nary/ (kahr?de-o-pool´mah-nar-e) pertaining to the heart and lungs. car·di·o·pul·mo·nar·y adj. Of, relating to, or involving both the heart and the lungs. physiology during pregnancy. Clin Obstet Gynecol. 1996;39:3-16. (22.) Hassett DE. Smallpox infections during pregnancy, lessons on pathogenesis from nonpregnant animal models of infection. J Reprod Immunol. 2003;60:13-24. Hiroshi Nishiura * ([dagger]) * University of Tubingen, Tubingen, Germany; and ([dagger]) Hiroshima University Hiroshima University (広島大学 Hiroshima Daigaku , Hiroshima, Japan Address for correspondence: Hiroshi Nishiura, Department of Medical Biometry biometry /bi·om·e·try/ (bi-om´e-tre) the application of statistical methods to biological phenomena. bi·om·e·try n. The statistical analysis of biological data. Also called biometrics. , University of Tubingen, Westbahnhofstrasse 55, Tubingen, D 72070, Germany; email: nishiura.hiroshi@uni-tuebingen.de Dr Nishiura is a researcher at the Department of Medical Biometry, University of Tubingen, Germany. His primary research interest is mathematical and statistical epidemiology of infectious diseases infectious diseases: see communicable diseases. .
Table 1. Case fatality among pregnant women with smallpox by
gestational age, according to data from 19th- and early 20th-century
outbreaks *
Gestational age [less than or
equal to] 3 mo
Reference D/C CF (95% CI)
Meyer (9), 1868-1872 3/33 9.0 (0.0-18.9)
Welch (10), 1878 4/12 33.3 (6.7-60.0)
Queirel (18), 1906 2/4 50.0 (1.0-99.0)
Rao (5), 1959-1962 7/21 33.3 (13.2-53.5)
Total 16/70 22.9 (2.3-43.4)
Gestational age 4-6 mo
Reference D/C CF (95% CI)
Meyer (9), 1868-1872 11/33 33.3 (17.2-49.4)
Welch (10), 1878 4/22 18.2 (2.1-34.3)
Queirel (18), 1906 7/10 14.5 (41.6-98.4)
Rao (5), 1959-1962 16/65 24.6 (14.1-35.1)
Total 38/130 29.2 (14.8-43.7)
Gestational age 7-9 mo
Reference D/C CF (95% CI)
Meyer (9), 1868-1872 8/10 80.0 (55.2-100.0)
Welch (10), 1878 6/12 50.0 (21.7-78.3)
Queirel (18), 1906 1/5 17.9 (0.0-55.1)
Rao (5), 1959-1962 34/94 36.2 (26.5-45.9)
Total 49/121 40 5 (26 8-54 2)
D/C, smallpox deaths/cases; CF, case fatality, CI, confidence interval.
Table 2. Miscarriage or premature birth among pregnant women with
smallpox by gestational age, according to data from 19th- and early
20th-century outbreaks *
Gestational age
[less than or equal to] 3 mo
Reference L/C PL (95% CI)
Meyer (9), 1868-1872 7/33 21.2 (7.3-35.1)
Welch (10), 1878 8/12 66.7 (40.1-93.2)
Queirel (18), 1906 3/4 75.0 (32.8-100.0)
Robertson (19), 1913 1/2 50.0 (0.0-100.0)
Rao (5), 1959-1962 10/21 47.6 (26.4-68.9)
Total 29/72 40.3 (29.0-51.5)
Gestational age 4-6 mo
Reference L/C PL (95% CI)
Meyer (9), 1868-1872 16/33 48.5 (31.5-65.4)
Welch (10), 1878 9/22 40.9 (20.5-61.3)
Queirel (18), 1906 8/10 80.0 (55.3-100.0)
Robertson (19), 1913 6/9 66.7 (36.0-97.3)
Rao (5), 1959-1962 16/65 24.6 (14.2-35.0)
Total 55/139 39.6 (31.5-47.7)
Gestational age 7-9 mo
Reference L/C PL (95% CI)
Meyer (9), 1868-1872 8/10 80.0 (55.3-100.0)
Welch (10), 1878 10/12 83.3 (62.4-100.0)
Queirel (18), 1906 0/5 0 (NC)
Robertson (19), 1913 1/12 8.3 (0.0-23.9)
Rao (5), 1959-1962 41/94 43.6 (33.6-53.6)
Total 60/133 45.1 (36.7-53.5)
* L/C, miscarriage or premature birth/cases, PL, proportion of
miscarriage and premature birth; CI, confidence interval; NC,
not calculable.
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