mibe000093
10.3205/mibe000093
urn:nbn:de:0183-mibe0000936
Original Article
Prevalence of polydactyly, syndactyly, amniotic band syndrome, cleft lip, cleft palate and talipes equinovarus in Bayelsa State, Nigeria
Prävalenz von Polydaktylie, Syndaktylie, amniotischen Strängen, Lippenspalten, Gaumenspalten und Klumpfüßen in Bayelsa State, Nigeria
Oyinbo
Oyinbo
Charles A.
CA
Department of Human Anatomy, Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, Bayelsa State, NigeriaDepartment of Human Anatomy, Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, Bayelsa State, Nigeria
aidemise@yahoo.com
author
Dare
Dare
Nervey W.
NW
Department of Human Anatomy, Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, Bayelsa State, Nigeria
author
Amain
Amain
Ebidimie D.
ED
Department of Human Anatomy, Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University, Wilberforce Island, Bayelsa State, Nigeria
author
German Medical Science GMS Publishing House
Düsseldorf
610
structural anomalies
musculoskeletal anomalies
prevalence
epidemiology
Nigeria
20090909
engl
1860-9171
5
2
GMS Medizinische Informatik, Biometrie und Epidemiologie
GMS Med Inform Biom Epidemiol
14
Studies on incidence of birth anomalies are abundant world wide, but literatures on general population prevalence of anomalies are scanty, despite the fact that structural anomaly is the 5th leading cause of years of potential life lost prior to age 65 and a major contributor to disabilities. The purpose of this study is to estimate the general population prevalence of polydactyly, syndactyly, amniotic band syndrome, cleft lip, cleft palate, and talipes equinovarus in Bayelsa State, Nigeria. Two thousand (2000) subjects domicile in Bayelsa State were randomly selected for this study. Subjects were physically screened for musculoskeletal anomalies. Individuals with genetic syndromes were excluded. Study did not discriminate between types or sub- types of any anomaly. Results show that the overall population prevalence of musculoskeletal anomalies is 13%; with a high proportion (67%) of minor anomalies. The general population prevalence of these anomalies is comparable with known birth prevalence world wide. Thus suggestive that a general population prevalence estimate of an anomaly could be a useful estimate of congenital anomaly in developing countries were record keeping are largely poor.
Introduction
Structural anomalies are the 5th leading cause of years of potential life lost prior to age 65 and a major contributor to disabilities . Major structural malformations occur in 2 to 3% of live born infants and an additional 2 to 3% are recognizable in children by age 5 years, giving a total of 4–6% . Each year among 135 million new births world wide, more than 4 million each year or 11,376 daily of children born with structural anomaly . Birth defects are the leading cause of infant mortality, they account for about 21% of infant deaths and may be classified as lethal, severe or mild . Lethal and severe defects together constitute major congenital abnormalities. Blacks have a higher overall rate of congenital abnormalities (CAs), than Caucasians, but the later have a higher rate of major and multiple malformations . At present congenital abnormality is the major cause of infant mortality and disabilities among children in the industrialized countries , and has been shown not to exhibit racial or ethnic predilection , . About two-thirds of birth defects have no known cause, some malformations are thought to be polygenic; others appear to be multi-factorial, resulting from abnormal genes interacting with harmful environmental factors . Environmental factors account for about 15% of CAs and in combination with genetic factors account for 25% of CAs . Environmental degradation from oil spillage and the irreversible eco<![CDATA[log</PlainText></TextGroup>ical loses arising from activities associated with oil exploration has been a major cause of agitation by the inhabitants of Niger Delta region of Nigeria <TextLink reference="7"></TextLink>. Customarily, incidence of birth anomaly is estimated by noting the number of times it occurred per thousand births (live and still). Emphasis has been on the new born and not on the pattern of distribution in the general population. In contrast to birth incidence, the general population prevalence for most anomalies is largely unknown. It is not unnecessary to ignore a routine method of estimate of structural anomaly that emphasizes birth incidence for a general population base estimate that proffers answers to important epidemiological and demographic questions: in a specified period, how many individuals in a certain general population are affected with a particular structural anomaly and how has this change over time? Undoubtedly, knowledge of prevalence and population distribution of any malady is the first step in scientific planning of preventive and eradication strategies. Knowledge thus generated would form an invaluable epidemiological data. This study was hence conducted to determine the general population prevalence of amniotic band syndrome (ABS), cleft lip, cleft palate, polydactyly, syndactyly and talipes equinovarus (TEV) in Bayelsa State, Nigeria, since there is no documented study showing that it has been done. </Pgraph>
</TextBlock>
<TextBlock linked="yes" name="Materials and methods">
<MainHeadline>Materials and methods</MainHeadline>
<Pgraph>This study was conducted with two thousand (2000) subjects that were randomly selected within Bayelsa State, Nigeria. Consent was obtained from individuals, though often times a weight gauge was used as a bait to lure would be subjects that may ordinarily not have willingly volunteered due to apathy and suspicion. Subjects were physically screened for musculoskeletal anomalies. Data of individuals who were not born in Bayelsa State or have not domiciled in it for at least one year were excluded. Also excluded were data of individuals with genetic syndromes. This study did not discriminate between types or sub-types of any particular birth defect. Sex predilection was assessed by Fisher's exact test (GraphPad InStat V2). Significance level for all comparisons was set at <Mark2>p</Mark2><0.05. The study design was approved by Research and Ethics Committee of Faculty of Basic Medical Sciences, College of Health Sciences, Niger Delta University in accordance with the Helsinki declaration of 1975, as revised in 1983 on human experimentation convention and human right. </Pgraph>
</TextBlock>
<TextBlock linked="yes" name="Results">
<MainHeadline>Results</MainHeadline>
<Pgraph>A total of 2000 subjects comprising of 960 (48%) females and 1040 (52%) males were included in this study conducted in 2007. It was observed that two hundred and sixty two (13%) subjects had one form or the other of musculoskeletal anomaly. Anomalies were seen in a total of 150 (57%) males and 112 (43%) females respectively. Minor anomalies (polydactyly, syndactyly, and talipes equinovarus) accounted for 67% of the total anomalies, while major anomalies were seen in 33% of subjects. Polydactyly was the most common and cleft lip/palate the least occurring musculoskeletal anomalies. The general population prevalence, respective gender prevalence in total population, proportions of male or female with anomalies in total male or female population and the relative prevalence of respective a<TextGroup><PlainText>nomalie</PlainText></TextGroup>s is as shown (Table 1 <ImgLink imgNo="1" imgType="table"/>). We observed that the prevalence of these anomalies were more in males than in females, except for ABS. Cleft lip, cleft lip/palate and talipes equinovarus were predominantly more common in males compared to females in ratios of 2:1, 4:1 and 4:1 (4.3:1) respectively. Sex predilection was only statistically significant, p<0.05 (p=0.015) in TEV. </Pgraph>
</TextBlock>
<TextBlock linked="yes" name="Discussion">
<MainHeadline>Discussion</MainHeadline>
<Pgraph>The practice of estimating the incidence of a structural anomaly by the number of times it occurred per thousand births (live and still) has dominated studies to the extent that the general population prevalence of anomalies is largely unknown. We criticised this unintended bias on two grounds. First, it is known that structural anomalies are the 5th leading cause of years of potential life lost prior to age 65 <TextLink reference="1"></TextLink>, and that this age cluster (0 to 65 years) accounts for more than 85% of world’s population [8], [9]. Furthermore, life expectancy in most developing countries is less than 65 years <TextLink reference="8"></TextLink>, <TextLink reference="9"></TextLink>. Hence the effects of structural birth anomalies are not limited to the 1<Superscript>st</Superscript> few years of life but constitute a recurring decimal for many affected individuals throughout life. Besides, it is now accepted that anomalies like polydactyly, and some types of syndactyly, and talipes or pes calcaneovalgus be excluded from the list of congenital anomalies <TextLink reference="10"></TextLink>. Therefore in addition to population estimates employing birth incidence in determining the episode of a particular anomaly, it is critical to have a general population based picture of any given a<TextGroup><PlainText>nomal</PlainText></TextGroup>y because of the reasons already stated. Undeniably, this would generate important epidemiologic and other essential public health data that would add to our understanding of the patterns of health and disease, and help proffer sound logistic planning for preventive and eradication strategies. Though not yet a popular notion, our study is legitimate. It revealed that the overall population prevalence of selected musculoskeletal anomalies is 13%. The prevalence of individual anomalies is as depicted (Table 1 <ImgLink imgNo="1" imgType="table"/> and Figure 1 <ImgLink imgNo="1" imgType="figure"/>). We observed a higher prevalence amongst males for most anomalies, probably not unconnected with females being more conscious of anomalies or blemishes in their body and a tendency of concealing the same. Despite this numerical inequality, gender predilection was not statistically significant in the anomalies studied except in TEV, <Mark2>p</Mark2><0.05 (P=0.015, significant). Although it have been reported that males are at greater risk for birth defects than females <TextLink reference="11"></TextLink>. In this present study TEV was four times more prevalent in male compared to female. Male preponderance was also the case in several other studies <TextLink reference="12"></TextLink>, <TextLink reference="13"></TextLink>, <TextLink reference="14"></TextLink>. Our study also shows that minor musculoskeletal anomaly accounts for 67% of the 13% population prevalence (Figure 2 <ImgLink imgNo="2" imgType="figure"/>). This finding agrees with earlier study that reported higher incidence of minor anomalies in Blacks in contrast to Caucasian with higher incidence of major anomalies <TextLink reference="15"></TextLink>, <TextLink reference="16"></TextLink>. The contemporary reasoning that excluded some structural anomalies from the list of congenital anomalies on the grounds that they have insignificant medical, functional or cosmetic consequences – are medically inconsequential <TextLink reference="10"></TextLink>, <TextLink reference="17"></TextLink>, further buttresses our argument for the need of a general population based prevalence assessment. Our study also recorded a high prevalence of amniotic band syndrome. This may not be unconnected with the alcoholic habits in this environment. Previous work has linked high alcohol consumption to appearance of ABS among others <TextLink reference="18"></TextLink>. It has also been postulated that ethnicity, maternal age, order of pregnancy, birth sex, febrile maternal illness or drug use in the first trimester, geographic altitude <TextLink reference="19"></TextLink>, <TextLink reference="20"></TextLink> are important predisposing factors in the episode of ABS. These factors permeate regions with social disorder, juvenile delinquency, conflicts, militant and pirate activ<TextGroup><PlainText>ities</PlainText></TextGroup>, as seen in the Niger Delta region of Nigeria <TextLink reference="7"></TextLink>. In our study gender predilection of ABS was not significant (p>0.05), agreeing with the study of Badura-Stronka et al. <TextLink reference="21"></TextLink>, but contradictory with that of Orioli et al. <TextLink reference="19"></TextLink>. The roles of gene-environmental interactions in birth anomaly has been stressed <TextLink reference="6"></TextLink>, <TextLink reference="22"></TextLink> but the precise mechanism is yet unknown <TextLink reference="2"></TextLink>. A high population prevalence of structural anomaly can be reduced by decreasing the incidence of congenital anomalies through supplements administered during 1<Superscript>st</Superscript> trimester of pregnancy <TextLink reference="23"></TextLink>, <TextLink reference="24"></TextLink>. Currently, antenatal diagnoses of foetal defects are possible through ultrasound scanning, chromosomal and gene analyses. Unfortunately, chromosomal and gene analysis is not routine antenatal practice in developing countries of Africa. In developed countries and Europe the large majority of prospective parents elect for termination of the pregnancy once informed that the foetus is severely affected by a defect <TextLink reference="2"></TextLink>. Termination is a last resort rather than an optimal triumph. The only one good solution is primary prevention, which is healthier than the termination of pregnancy. Therefore the prevention of CAs is an extremely important public health issue, since evidently we can secure the health in healthy born people <TextLink reference="2"></TextLink>. Quite recently the question as to how to protect against birth defect was answered. It was recommended that daily use of multivitamin including folic acid (dose varies depending on country: in UK it is 4 mg and for US and most of Europe it is between 0.4–0.8 mg), with a healthy diet and lifestyle is essential for women who want to do their best to have a baby without congenital anomaly <TextLink reference="2"></TextLink>, <TextLink reference="25"></TextLink>. As medical science continue to thrive toward zero incidence of birth anomaly, it is pertinent to note that recent advances in identifying previously undetected sub-microscopic chromosomal anomalies have proven to be successful and that the hope of localizing specific genes and the identification of genes within critical chromosomal regions might pave the way for a better understanding of the genetic basis of congenital abnormalities. Conclusively, we recommend that for a de<TextGroup><PlainText>velop</PlainText></TextGroup>ing country like Nigeria, emphases should be placed on primary prevention. It is glad to note that the use of folic acid and vitamins is routine with antenatal practice in Nigeria. We want to however stress that pregnant women be correctly informed of the importance of these supplements to their developing child. The impression generally is that they build up blood and vitality in pregnancy. This is undisputed, but a common erroneous believes is – <Mark2>if you eat well, you do not really need these drugs</Mark2>. Though, the problem of drug compliance still remains a challenge. Folic acid and vitamins do more – they ensure a healthy congenital anomaly free baby in the absence of any complication. The general population prevalence of musculoskeletal anomaly in Bayelsa State, Nigeria is comparable in magnitude with known birth incidence world wide. Suggestive though premature, of it being a useful estimate index of congenital anomalies incidence in developing countries where record-keeping is largely poor. Not to mention the problems of underestimation of birth incidence of congenital anomalies due to prenatal loss of foetuses such as blighted ova, miscarriages and ectopic pregnancies. </Pgraph>
</TextBlock>
<TextBlock linked="yes" name="Notes">
<MainHeadline>Notes</MainHeadline>
<SubHeadline>Conflicts of interest</SubHeadline>
<Pgraph>None declared.</Pgraph>
</TextBlock>
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<RefLink>http://dx.doi.org/10.1002/ajmg.c.30004</RefLink>
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<RefAuthor>Wald NJ</RefAuthor>
<RefTitle>Folic acid and the prevention of neural-tube defects</RefTitle>
<RefYear>2004</RefYear>
<RefJournal>N Engl J Med</RefJournal>
<RefPage>101-3</RefPage>
<RefTotal>Wald NJ. Folic acid and the prevention of neural-tube defects. N Engl J Med. 2004;350(2):101-3. DOI: 10.1056/NEJMp038186</RefTotal>
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<Mark1>Table 1: Prevalence of some musculoskeletal anomalies in Bayelsa State Nigeria</Mark1>
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<Mark1>Figure 1: Prevalence of some musculoskeletal anomalies in Bayelsa State Nigeria. N=2000</Mark1>
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<Mark1>Figure 2: The relative prevalence of minor and major musculoskeletal anomalies in Bayelsa State Nigeria</Mark1>
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