Paper Menu >>

Journal Menu >>

Surgical Science, 2011, 2, 385-387
doi:10.4236/ss.2011.27084 Published Online September 2011 (http://www.SciRP.org/journal/ss)
Copyright © 2011 SciRes. SS
Seasonal Frequency in Esophageal
Atresia/Tracheo-Esophageal Fistula: Is there an
Environmental Etiology?
Christopher Bode, Adesoji Ademuyiwa, Sylvester Ikhisemojie
Pediatric Surgery Unit, Department of Surgery, College of Medicine of the University o f Lagos/Lagos University
Teaching Hosp i t al , Lagos, Nigeria
E-mail: cobode@yahoo.com
Received May 13, 201 1; revised July 13, 2011; accepted August 9, 2011
Abstract
Background: Esophageal Atresia and Tracheo-Esophageal Fistula (EA/TEF) occurs sporadically and its eti-
ology is poorly understood. We observed six cases of EA/TEF within three weeks of October 2007 at the
Lagos University Teaching Hospital (LUTH), Nigeria. Aims: To analyze the monthly trends of presentation
of EA/TEF at the LUTH from 2002-7, test the hypothesis that the October figures were not due to chance
and correlate data with known local disease patterns. Setting: Lagos University Teaching Ho spital, Nigeria.
Patients, Materials, Method: A retrospective analysis of all EA/TEFs managed at the LUTH within stated
period. Results: 25 babies with EA/TEF presented over the period. 10 (40%) were seen in the month of Oc-
tober, 5 (20%) occurred in May while the rest were spread over the rest of the months. Chi-square analysis
confirmed that the EA/TEF cases occurred significantly more frequently in October (P < 0.001) and this ob-
servation was unlikely due to chance. Conclusions: There se ems to be a sea sonal variation in the occurrence
of EA/TEF in Lagos, with a significantly higher frequency in the month of October. 96% of mothers of ba-
bies with EA/TEF lived in low socioeconomic parts of Lagos. This study highlights the possibility of local
viral etiology of EA/TEF.
Keywords: Tracheo-Esophageal Fistula, Seasonal Etiology
1. Introduction
The etiology of oesophageal atresia with tracheo- eso-
phageal fistula (EA/TEF) has been a subject of intensive
investigations over the years but little if anything is
known about specific causative agents in humans [1 ]. No
definite seasonal variations or patterns have been dem-
onstrated for this condition [2]. Its occurrence is some-
times sporadic but these are confined to those with rare
familial genetic dispositions [3]. The unusual presenta-
tion of six new cases of EA/TEF to our Unit within three
weeks of October 2007 at the Lagos University Teaching
Hospital therefore prompted a search for possible envi-
ronmental factors that could have triggered the cluster.
We sought to analyze the trend and test the hypothesis
that the October 2007 figures were not due to chance and
correlate our data with known local disease patterns.
2. Materials/Methods
Records of all cases of esophageal atresia managed by
the Pediatric Surgical Unit at the LUTH between January
2002 and December 2007 were retrospectively compiled
and analyzed for date of presentation, age at presentation,
maternal age, tribe, maternal socio-economic locale, oc-
cupation, maternal last menstrual period, history of oc-
cupational exposure to chemical teratogens, and first-
trimester maternal illness.
Addresses of parents were categorized as affluent,
middle-class or low based on the demographic spread of
the Lagos metropolis. All the data were recorded onto a
protocol and analyzed using Microsoft Excel 2007. The
observed monthly frequency was subjected to Chi-square
analysis to assess whether the difference between the
observed and expected distributions could be attributed
386 C. BODE ET AL.
to chance and unless otherwise stated, P < 0.05 was con-
sidered statistically significant.
3. Results
25 babies with EA/TEF were seen within the study pe-
riod. There were 14 (56%) males and 11 (44%) females,
giving a male:female ratio of 1.2:1. Their ages ranged
from 10 hours to 25 days with a mean age of 8.8 ± 5.2
days at presentation. The babies were all full-term, with a
mean birth weight of 2.6 ± 0.4 kg (range 2.1 - 3.7 kg).
Seventeen (68 % ) of these babies were first borns.
Maternal age ranged from 20 - 31 years, with a mean
of 24.5 ± 3.3 years. All the 25 mothers were Nigerian.
There was no preponderance of any ethnic group or oc-
cupation among the mothers. None of the mothers gave
any history of exposure to heavy metals or known tera-
togens. None of the babies was prenatally diagnosed as
having EA/TEF. Twenty four mothers (96%) lived in
low socio-economic parts of Lagos.
3.1. Monthly Frequency of EA/TEF Occurence
Table 1 shows the monthly frequency of EA/TEF over
the five year period under re view. Th e month s of Januar y,
February, July and September recorded one case each
while 2 cases were recorded for each of March, June and
August. Five cases were seen in May while 10 were re-
corded in October. April, November and December re-
corded none.
The expected monthly distribution was 25/12 = 2.08
cases per month, assuming that all cases occurred with
equal frequency over a twelve month period. This was
subjected to the Ch i-square analysis, to examine whether
the difference between the observed and expected distri-
butions was attributable to chance. A low P-value of <
0.001 obtained did not support the null hypothesis that
there was no difference between the observed and ex-
pected distributions. Rather, it supported the alternative
hypothesis that the difference observed was unlikely to
Table 1. Observed monthly trends 2002-7.
be due to chance, and thus, the occurrence of a seasonal
variation in the occurrence of EA/TEF was real.
3.2. Maternal Last Menst rual Period
The two peak periods of May and October raised the
specter of possible seasonal environmental teratogenic
events early in the first trimester. We therefore sought
the last menstrual periods of the mothers and this showed
that the babies born in May were conceived in August
while the October ones were conceived in January.
4. Discussion
This is the first known report of a seasonal occurrence of
EA/TEF from Africa to the best of our knowledge. A
wide search of the local and international literature re-
vealed no similar occurrence. It is interesting to know
that the babies born in October and May were conceived
in January and August respectfully. August, January and
April are months when seasons change in Lagos. These
three periods constitute peak seasons of viral loads in
Lagos (during which there occurs widespread respiratory
and gastro-enteric infections) and we had earlier shown
these periods of seasonal changes to be associated with
the highest frequency of idiopathic intussusceptions in
the Lagos metropolis [4]. Our previous studies had re-
ported adenoviruses in 40% of idiopathic intussuscep-
tions [5]. Similarly, Olaleye et al. [6] showed that the
peak incidence of influenza infections occurred between
April and September and during the harmattan season in
November among children in Ibadan, a large Nigerian
city 130 km northeast of Lagos. These periods coincide
roughly with the occurrence of idiopathic intussuscep-
tions and therefore of the exposure to viruses that may
likely be causative agents for EA/TEF. This notion is
underscored by the earlier suggestion that viral terato-
genicity in EA/TEF constitutes part of atresias involving
the biliary, anorectal and esophageal tracts [7]. Addi-
tional support for our hypothesis comes from the studies
of Ozimek et al. [8] who observed a clustering and cyclic
variation in the occurrence of EA/TEF similar to that of
infectious hepatitis in North Carolina.
We thus hypothesize that a possible exposure of preg-
nant mothers to respiratory and gastrointestinal viral
agents in the first trimester during these periods inter-
fered in some yet unknown way with the esophageal
embryogenesis to cause the EA/TEF. The long interval
between teratogenicity and postnatal diagnosis would
seem to separate these events by several months and
possibly distract the attention of investigators from fo-
cusing on that phase of development. Future studies
should aim at identifying viral markers in babies born
Month Frequency
Jan 1
Feb 1
March 2
April 0
May 5
June 2
July 1
August 2
Sept 1
Oct 10
Nov 0
Dec 0
Total 25
Copyright © 2011 SciRes. SS
C. BODE ET AL.
Copyright © 2011 SciRes. SS
387
under similar conditions as well as in their mothers.
4.1. Limitations
This was a retrospective observational study occasioned
by the occurrence of a cluster of EA/TEF noticed in Oc-
tober 2007. The gestational gap between the intrauterine
teratogenic insult to the esophagus and the postnatal
presentation of EA/TEF limited the possible elucidation
of viral fingerprints in the babies and their mothers. Our
institution had difficulties with theatre facilities which
were under repairs in 2005 - 2006 and consequently,
experienced a reduction in the number of referrals to our
Unit during this period.
4.2. Conclusions
Our study suggests that there is a seasonal variation in
the occurrence of EA/TEF in Lagos with a significantly
higher frequency in the month of October. 96% of moth-
ers of babies with EA/TEF lived in low socioeconomic
parts of Lagos. Fu ture studies should be directed to id en-
tifying possible viral teratogens in this group of new-
borns.
5. References
[1] J. F. Felix, M. F. van Dooren, M. Klaasens, W. C. Hop, C.
P. Torfs, et al., “Environmental Factors in the Etiology of
Esophageal Atresia and Congenital Diaphragmatic Hernia:
Results of a Case-Controlled Study,” Birth Defects Re-
search. Part A, Clinical and Molecular Teratology, Vol.
82, No. 2, 2008, pp. 98-105. doi:10.1002/bdra.20423
[2] C. Fraser, P. A. Baird and A. D. Sadovnick, “A Com-
parison of Incidence Trends for Esophageal Atresia and
Tracheoesophageal Fistula, and Infectious Disease,”
Teratology, Vol. 36, No. 3, 1987, pp. 363-369.
[3] M. Van Staey, S. De Bies, M. T. Matton and J. De Roose,
“Familial Congenital Esophageal Atresia. Personal Case
Report and Review of the Literature,” Human Genetics,
Vol. 66, No. 2-3, 1984, pp. 260-266.
[4] C. O. Bode, “Presentation and Management Outcome of
Intussusceptions in Lagos: A Prospective Study,” African
Journal of Paediatric Surgery, Vol. 5, No. 1, 2008, pp.
24-28.
[5] C. O. Bode and S. A. Omilabu, “Viral Isolates of Intus-
susceptions in Nigerian Infants,” South African Journal
of Surgery, Vol. 40, No. 2, 2002, pp. 57-58.
[6] O. D. Olaleye, S. A. Omilabu, A. O. Olabode and A. H.
Fagbami, “Serological Evidence for Influenza Virus Ac-
tivity in Nigeria (1985-1987),” Virologie, Vol. 40, No. 1,
1989, pp. 11-17.
[7] A. Dessanti, G. Massarelli, M. T. Piga, A. Porcu and G.
Dettori, “Biliary, Anorectal and Esophageal Atresia: A
New Entity?” Tohoku Journal of Experimental Medicine,
Vol. 181, No. 1, 1997, pp. 49-55.
doi:10.1620/tjem.181.49
[8] C. D. Ozimeck, R. C. Grimson and A. S. Aylsworth, “AN
Epidemiologic Study of Tracheoesophageal Fistula and
Esophageal Atresia in North Carolina,” Teratology, Vol.
25, No. 1, 1982, pp. 53-59.