Document Detail

Sirenomelia in a Cameroonian woman: a case report and review of the literature.
Jump to Full Text
MedLine Citation:
PMID:  24627759     Owner:  NLM     Status:  PubMed-not-MEDLINE    
Abstract/OtherAbstract:
Sirenomelia is a rare congenital malformative disorder characterized by fusion of the lower limbs giving a characteristic mermaid-like appearance to the affected foetus. We report a case of sirenomelia occurring in a 19 year old Cameroonian woman following premature rupture of membranes and associated cord prolapse. This is the first documented case in this country. We highlight some of the cultural myths associated with this disorder and discuss our findings relative to the present literature and related controversies on its etiopathogenesis.
Authors:
Frederick Li Morfaw; Philip N Nana
Related Documents :
3418769 - Management of chylothorax after blunt chest trauma.
23222809 - Dedifferentiated epithelial-myoepithelial carcinoma: analysis of a rare entity based on...
24765379 - Diagnostic pitfalls in tibial adamantinoma: two cases with a clinicopathological review.
9643279 - Atrial fibrillation: a delayed presentation of traumatic tricuspid valve incompetence.
23160549 - Hamate hook nonunion treated with a hook plate: case report and surgical technique.
24340429 - Coronoid hyperplasia in a pediatric patient: case report and review of the literature.
7640929 - Are moving junctions in craniospinal irradiation for medulloblastoma really necessary?
17343079 - Leptomeningeal carcinomatosis associated with oesophageal adenocarcinoma: two case repo...
8539559 - Hepatitis b in parts of former ussr.
Publication Detail:
Type:  Journal Article     Date:  2012-07-26
Journal Detail:
Title:  F1000Research     Volume:  1     ISSN:  2046-1402     ISO Abbreviation:  F1000Res     Publication Date:  2012  
Date Detail:
Created Date:  2014-03-17     Completed Date:  2014-03-17     Revised Date:  2014-03-19    
Medline Journal Info:
Nlm Unique ID:  101594320     Medline TA:  F1000Res     Country:  England    
Other Details:
Languages:  eng     Pagination:  6     Citation Subset:  -    
Export Citation:
APA/MLA Format     Download EndNote     Download BibTex
MeSH Terms
Descriptor/Qualifier:

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine

Full Text
Journal Information
Journal ID (nlm-ta): F1000Res
Journal ID (iso-abbrev): F1000Res
Journal ID (pmc): F1000Research
ISSN: 2046-1402
Publisher: F1000Research, London, UK
Article Information
Download PDF
Copyright: © 2012 Morfaw FL et al.
open-access:
open-access:
Accepted Day: 22 Month: 8 Year: 2012
Electronic publication date: Day: 6 Month: 9 Year: 2012
collection publication date: Year: 2012
Volume: 1E-location ID: 6
PubMed Id: 24627759
ID: 3917649
DOI: 10.12688/f1000research.1-6.v2

Sirenomelia in a Cameroonian woman: a case report and review of the literature
Frederick LI Morfawa1
Philip N Nana1
1Department of Obstetrics and Gynaecology, Faculty of Medicines and Biomedical Sciences, University of Yaoundé, Yaoundé, Cameroon
aikomi_fred@yahoo.com
Contributed by footnote: F.M received the patient and discussed the case history and management with P.N. F.M wrote the first draft of the article. F.M and P.N read and revised several versions of the manuscript. Both authors read and approved the final manuscript.
[conflict] Competing interests: The authors do not declare any competing interests.

Introduction

Sirenomelia is an extremely rare congenital malformative disorder, which is often fatal 1. Its incidence is estimated at about 1 in 100,000 pregnancies 2, and cases have been reported from all ethnic groups worldwide 3. This anomaly predominantly affects males (sex ratio 2.7:1) 4, and is frequent among one of two monozygotic twins 5. The most prominent yet inconstant feature of this malformative disorder is the complete or partial fusion of the lower limbs into a single lower limb 3. The resultant infant bears a resemblance to the mermaid of ancient Greek mythology 6. The disorder has equally been referred to as symmelia, sympodia monopodia, sympus, but most commonly as the ‘mermaid syndrome’ since the fusion of the lower limbs gives a characteristic mermaid-like appearance 7.

In the African context, such mermaid-like babies are referred to as ‘mammy-water babies’, and bear an evil connotation associated with witchcraft and sorcery.

The underlying visceral anomalies are usually such that the syndrome is incompatible with life 3, yet there are a number of reported cases of surviving infants with this condition in the English literature 812.

We report here the first documented case of sirenomelia in Cameroon, and discuss our findings in relation to the present literature and related controversies of its etiopathogenesis.


Case report

Miss N.N, 19 years old G2P0010, a single student at 38 weeks gestation according to her last menstrual period was referred to the Yaoundé Central Maternity for the management of cord prolapse at term. Her history revealed premature rupture of membranes 04 days prior to her consultation, with continuous per vaginal flow of clear liquor. She declares that foetal movements had been present prior to membrane rupture. She eventually developed uterine contractions 4 days later with an associated cord prolapse visible at the introitus. This pushed her to consult at a health centre from where she was referred to our hospital.

In her past medical history, she was not diabetic nor did she bear any known chronic pathologies. There was no family history of diabetes nor malformations. Her first pregnancy two years earlier ended up in a clandestine voluntary termination of pregnancy by endo-uterine aspiration in the first trimester without any recorded complications. This pregnancy resulted from a non-consanguineous union with a 23 year old student. This pregnancy was very poorly followed up in a local health centre with two antenatal consultations. The few tests that were carried out did not reveal any anomalies, but no ultrasound was done. The evolution of the pregnancy so far had been uneventful without any history of teratogenic drug intake or traditional concoctions.

On admission the patient was hemodynamically stable, afebrile, with a symphysis-fundal height of 26 cm, absent foetal heart tones, a foetus in cephalic presentation, and a non-pulsating third degree cord prolapse. The working diagnosis of a prolonged rupture of membranes complicated by third degree cord prolapse and intrauterine foetal death was made. The patient was induced using oxytocin infusions, and was placed on prophylactic parenteral antibiotics. Labour evolved normally and within 5 hours she expelled a dead first degree macerated foetus with the following morphological abnormalities: (see Figure 1Figure 6).

  • Distended abdomen
  • umbilical cord with a single artery
  • Undetermined sex (absent external genitalia with only a 2×3 cm tag marking the position of the genitalia).
  • Imperforate anus
  • absence of a urinary meatus
  • fused lower segment of the body below the pelvis into a single lower limb, with two feet fused posteriorly giving a single flipper-like foot with eleven toes spread out in a fan-like pattern (Mermaid-like or ‘mammy-water’). The foot was oriented anteriorly relative to the trunk, and external palpation gave the impression of probably two femurs and two tibias.

There was complete placental delivery and uterine revision was done removing membranous debris.

The birth weight of 2.3Kg at 38 weeks gestation reflected intrauterine growth restriction.

Traditional and cultural beliefs precluded autopsy, and the corpse was handed over to the family for burial. The patient was maintained on parenteral antibiotics for 48 hours then oral relay was done on day 2 post-partum. She received adequate post-partum counselling and was discharged on that day.


Discussion

Sirenomelia or mermaid syndrome is an abnormal development of the caudal region of the body involving varying degrees of fusion of the lower limbs with or without bony defects 13. It is usually associated with other visceral defects such as hypoplastic lungs, cardiac agenesis, absent genitalia, digestive defects, absent kidney and bladder, vertebral and central nervous system defects 14, 15. Death usually results from obstructive renal failure due to renal agenesis or dysgenesis, with survival depending on adequate kidney functioning and renal outflow 16.

In our patient however we could not ascertain the nature of the full foetal anomalies given that an autopsy was never performed, and no pre-birth imaging was available. Furthermore, the 3 rd degree cord prolapse was an obvious cause of fetal death. The history was suggestive of foetal movements in the few days prior to membrane rupture, hence this foetus could have been born alive.


Etiology and risk factors

The etiology of this multisystemic human malformation is unknown 3 and no teratogens have been found in humans 17. Recent evidence from mice models suggests it can have a genetic basis, yet much still needs to be done to define the role of candidate genetic factors in humans 3. Certain risk factors however exist.

Maternal diabetes has been described as an important risk factor for caudal malformations in general 3. However, with only about 0.5–3.7% of sirenomelia cases occurring in diabetic mothers 13, 18, 19, the association between maternal diabetes and sirenomelia has been described as weak 20. Our patient was not known to be diabetic.

The syndrome is also reported to be associated with twins, with about 15% to 20% of cases being derived from products of twin pregnancies 5, 13, most of them monozygotic 5. Reports actually indicate a 100–150 times higher incidence in monozygotic twins relative to dizygotic twins or singletons 20. In our patient, this was not a twin gestation, and there was no family history of twinning.

Also, exposure to heavy metals has been shown to be associated sirenomelia in humans 22, 23.

It is worth noting that although Lynch et al.24 recognised an autosomal form of caudal dysgenesis, no chromosomal abnormalities are found in sirenomelia and it does not recur in families 14. This was a reassuring feature for our patient and should serve as a counseling feature for mothers bearing babies with this distressing anomaly.


Ethiopathogenesis

The etiopathogenesis of this syndrome has been subject to a lot of debate over time. Numerous theories have been proposed to explain its origin.

Stevenson et al.21 proposed the vascular steal theory. This theory suggests that there is shunting of blood via an abnormal abdominal artery arising from high up in the aorta towards the placenta. This leaves the caudal part of the embryo poorly perfused. Consequently there is hypoplasia of the vasculature distal to the artery leading to nutritional deficiency of the caudal half of the body 23. Hence there may be complete/incomplete agenesis of the caudal structures (kidneys, sacrum, and lower portions of the digestive tract) except the gonads which are intra-abdominal. There could also be vertebral dysgenesis, lower limb atrophy and inconstant lower limb fusion 14. The single umbilical artery in our patient favours this theory. However, Jaiyessimi et al.20 reported a case of sirenomelia without this vitelline artery steal, indicating that factors other than vitelline artery steal could be responsible for sirenomelia in humans.

The defective blastogenesis theory regards sirenomelia as part of the caudal regression syndrome (CRS) 3, more recently referred to as caudal dysgenesis 25, 26. This is a rare congenital defect characterized by a broad spectrum of lumbosacral dysgenesis. According to the this theory, during the ultimate stages of gastrulation occurring by the third week of intra-uterine life, there is a defect in blastogenesis leading to a wide range of phenotypic manifestations on the caudal extremity 25, 27. Even though the syndrome was initially described by Duhamel 28 to include genitourinary and vertebral anomalies, phenotypic expression depends on the intensity, duration and initiation time of the underlying event 3. Some authors consider sirenomelia to be the most extreme form of this relentless condition 3.

However for authors such as Pinette et al.16, the distinction between caudal regression syndrome and sirenomelia remains speculative.

A further theory described in the literature regards sirenomelia as part of the VACTERL syndrome. VACTERL syndrome involves vertebral, anal, cardiovascular, tracheal esophageal, renal and limb dysgenesis. There is a major overlap in the phenotypic manifestations of sirenomelia and VACTERL 20. In most cases, the distinction between sirenomelia sequence and VACTERL lies within the severity of the component defects, and the single lower limb in sirenomelia can be regarded as an indicator of other severe malformations, especially in the gastrointestinal and genito-urinary systems 20. In our patient the lack of an autopsy did not permit any assertions to be made as to the relationship with VACTERL.

Other theories exist, but given their controversies in the literature, they are not considered here. Yet the overlap in these syndromes/theories waters the debate in the scientific world as to the uniqueness or diversities of these syndromes.


Classification

Stocker and Heifetz 13 classified the sirenomelia sequence into 7 types as shown be in Table 1.

We did not have any radiographs and could therefore not classify our patient into any of these categories with certainty even though external palpation was in favour of a type I.


Diagnosis

The past medical history of the patient could identify patients at risk. Antenatal diagnosis is possible on ultrasound and x-ray. Ultrasound is however the predominant diagnostic tool. Moreover, there is no open defect which could cause abnormal increases in alpha foeto-protein levels 29.

Ultrasound features permitting confirmation of the diagnosis include lack of tibia/fibula, a single femur, convergent femoral bones, bilateral renal agenesis, polycystic kidneys/renal agenesis, obstructive uropathy and intra-uterine growth retardation 30. The use of ultrasound in diagnosis is however not without difficulty. In sirenomelic foetuses, bilateral renal agenesis causes severe oligohydramnios thus limiting ultrasound evaluation of the limbs in the second and third trimesters 31, 32. However, in earlier gestational ages, the amniotic fluid volume may be sufficient to detect abnormal lower limbs. In such cases, we may notice in addition to abnormal lower limbs, bilateral renal dysgenesis, absent bladder, undetermined external genitalia, anorectal agenesis and lumbosacral agenesis 4. Other abnormalities may touch the cardiovascular system and abdominal walls.

Antenatal confirmation of the diagnosis justifies a therapeutic termination of the pregnancy.

At delivery, clinical evaluation is usually sufficient to confirm the diagnosis. In our case, the diagnosis was obvious given the fused lower limbs, single umbilical artery, and imperforate anus. However radiographic images are important if we are to be able to classify the condition according to the Stocker and Heifer classification ( Table 1) 13. An autopsy permits determination of the extent of the associated anomalies, but is usually of limited use in the African context where cultural norms and beliefs largely precludes its practice.


Management and prognosis

Sirenomelia carries with it a very poor prognosis. Survival is largely dependent on the extent of visceral anomalies, especially obstructive renal failure due to renal agenesis/dysgenesis 16. In the case of antenatal diagnosis, a voluntary termination of pregnancy is advisable in order to avoid the physical and psychological stress to parents and the family. This decision however depends on the gestational age of the pregnancy, the severity of the malformations and of course the desires of the parents 17.

Recent reports indicate that about 50% of these infants are born alive after 8–9 months gestation 17. However most of them die within 5 days of life 13. The management of sirenomelia is difficult and expensive, and the outcome is unpredictable 17. The main therapeutic modality involves surgical and medical compensation aimed mainly at maintaining adequate renal function. Surgery to correct the anomaly and separate the fused limbs is usually not a priority as there is no guarantee of its success, and it carries with it an increased risk of compromising the life of an already delicate infant.

There have been reports of surviving sirenomelic foetuses 812. Pertinent amongst these is the case of the surviving infant with sirenomelia associated with absent bladder reported by Stanton et al.12. This infant underwent 5 surgeries before the age of 4 years and continues to be bedridden and dependent. In the case described by Pinette et al.16, the infant received a renal transplant using a cadaveric donor kidney. By publication time, this I infant was 5 years old with normal renal and cognitive development for her age. However, separation of the lower limbs was indefinitely delayed due to concerns regarding disruption of blood supply to abdominal organs and the transplanted kidney.

These reflect the constraints, both financial and physical to conservatively manage sirenomelia and reiterate the importance of antenatal diagnosis and voluntary termination of pregnancy especially in our resource limited settings like ours.


Conclusion

Sirenomelia remains a rare but peculiar syndrome. Controversies on its etiopathogenesis persist. Its antenatal diagnosis is possible albeit difficult by ultrasound. The associated visceral anomalies are usually incompatible with life. However surviving sirenomelic foetuses have been described with costly conservative management and mediocre results. In the African context, these mermaid-like foetuses are described as ‘mammy-water babies’. This carries with it the connotation of sorcery and witchcraft with which no family wishes to be identified. Therefore antenatal diagnosis and termination of pregnancy is advisable. Knowledge of this rare syndrome is important to dissipate cultural myths whenever it occurs, and free the family from stigmatization.


Consent

Written informed consent for publication of their clinical details and/or clinical images was obtained from the patient/parent/guardian/relative of the patient.


References
1. Taori KB,Mitra K,Ghonga NP,et al. : Sirenomelia sequence (mermaid): report of three cases.Indian J Radiol Imaging.Year: 2002;12:399–401Reference Source
2. Martinez-Frias ML,Garcia A,Bermejo E,et al. : Cyclopia and sirenomelia in a liveborn infant.J Med Genet.Year: 1998;35(3):263–410.1136/jmg.35.3.263-a9541120
3. Garrido-Allepuz C,Haro E,Gonzalez-Lamuno D,et al. : A clinical and experimental overview of sirenomelia: insight into the mechanisms of congenital limb malformations.Dis Model Mech.Year: 2011;4(3):289–9910.1242/dmm.00773221504909
4. Valenzano M,Paoletti R,Rossi A,et al. : Sirenomelia. Pathological features, antenatal ultrasonographic clues, and a review of current embryogenic theories.Hum Reprod Update.Year: 1999;5(1):82–610.1093/humupd/5.1.8210333372
5. Di LM,Brandt ML,Veilleux A,et al. : Sirenomelia in an identical twin: a case report.J Pediatr Surg.Year: 1991;26(11):1334–610.1016/0022-3468(91)90614-Y1812270
6. Messineo A,Innocenti M,Gelli R,et al. : Multidisciplinary surgical approach to a surviving infant with sirenomelia.Pediatrics.Year: 2006;118(1):e220–e22310.1542/peds.2005-300116801393
7. Kulkarni ML,Sureshkumar C,Sindhur PS,et al. : Sirenomelia with spina bifida.Indian Pediatr.Year: 1994;31(1):51–57883321
8. Savader SJ,Savader BL,Clark RA,et al. : Sirenomelia without Potter syndrome: MR characteristics.J Comput Assist Tomogr.Year: 1989;13(4):689–9110.1097/00004728-198907000-000272745791
9. Murphy JJ,Fraser GC,Blair GK,et al. : Sirenomelia: case of the surviving mermaid.J Pediatr Surg.Year: 1992;27(10):1265–810.1016/0022-3468(92)90270-H1403499
10. Clarke LA,Stringer DA,Fraser GC,et al. : Long term survival of an infant with sirenomelia.Am J Med Genet.Year: 1993;45(3):292–610.1002/ajmg.13204503038434614
11. McCoy MC,Chescheir NC,Kuller JA,et al. : A fetus with sirenomelia, omphalocele, and meningomyelocele, but normal kidneys.Teratology.Year: 1994;50(2):168–7110.1002/tera.14205002127801305
12. Stanton MP,Penington EC,Hutson JM,et al. : A surviving infant with sirenomelia (Mermaid syndrome) associated with absent bladder.J Pediatr Surg.Year: 2003;38(8):1266–810.1016/S0022-3468(03)00286-012891511
13. Stocker JT,Heifetz SA. : Sirenomelia. A morphological study of 33 cases and review of the literature.Perspect Pediatr Pathol.Year: 1987;10:7–503588246
14. Tang TT,Oechler HW,Hinke DH,et al. : Limb body-wall complex in association with sirenomelia sequence.Am J Med Genet.Year: 1991;41(1):21–510.1002/ajmg.13204101071719813
15. Rodriguez JI,Palacios J,Razquin S,et al. : Sirenomelia and anencephaly.Am J Med Genet.Year: 1991;39(1):25–710.1002/ajmg.13203901071867259
16. Pinette MG,Hand M,Hunt RC,et al. : Surviving sirenomelia.J Ultrasound Med.Year: 2005;24(11):1555–916239660
17. Fadhlaoui A,Khrouf M,Gaigi S,et al. : The sirenomelia sequence: a case history.Clin Med Insights Case Rep.Year: 2010;3:41–910.4137/CCRep.S534721769253
18. Duncan PA,Shapiro LR,Klein RM,et al. : Sacrococcygeal dysgenesis association.Am J Med Genet.Year: 1991;41(2):153–6110.1002/ajmg.13204102031785625
19. Lynch SA,Wright C. : Sirenomelia, limb reduction defects, cardiovascular malformation, renal agenesis in an infant born to a diabetic mother.Clin Dysmorphol.Year: 1997;6(1):75–809018422
20. Jaiyesimi F,Gomathinayagam T,Dixit A,et al. : Sirenomelia without vitelline artery steal.Ann Saudi Med.Year: 1998;18(6):542–417344743
21. Stevenson RE,Jones KL,Phelan MC,et al. : Vascular steal: the pathogenic mechanism producing sirenomelia and associated defects of the viscera and soft tissues.Pediatrics.Year: 1986;78(3):451–73748679
22. Castilla EE,Mastroiacovo P,Lopez-Camelo JS,et al. : Sirenomelia and cyclopia cluster in Cali, Colombia.Am J Med Genet A.Year: 2008;146A(20):2626–3610.1002/ajmg.a.3250618798307
23. Orioli IM,Mastroiacovo P,Lopez-Camelo JS,et al. : Clusters of sirenomelia in South America.Birth Defects Res A Clin Mol Teratol.Year: 2009;85(2):112–810.1002/bdra.2049218712806
24. Lynch SA,Bond PM,Copp AJ,et al. : A gene for autosomal dominant sacral agenesis maps to the holoprosencephaly region at 7q36.Nat Genet.Year: 1995;11(1):93–510.1038/ng0995-937550324
25. Opitz JM,Zanni G,Reynolds JF Jr,et al. : Defects of blastogenesis.Am J Med Genet.Year: 2002;115(4):269–8610.1002/ajmg.1098312503120
26. Thottungal AD,Charles AK,Dickinson JE,et al. : Caudal dysgenesis and sirenomelia-single centre experience suggests common pathogenic basis.Am J Med Genet A.Year: 2010;152A(10):2578–8710.1002/ajmg.a.3359920734338
27. Duesterhoeft SM,Ernst LM,Siebert JR,et al. : Five cases of caudal regression with an aberrant abdominal umbilical artery: Further support for a caudal regression-sirenomelia spectrum.Am J Med Genet A.Year: 2007;143A(24):3175–8410.1002/ajmg.a.3202817963219
28. Duhamel B. : From the Mermaid to Anal Imperforation: The Syndrome of Caudal Regression.Arch Dis Child.Year: 1961;36(186):152–510.1136/adc.36.186.15221032381
29. Davari F,Googol N,Kaveh M,et al. : Sirenomelia (mermaid syndrome) in an infant of a diabetic mother.Acta Medica Iranica.Year: 2003;41(1):69–72Reference Source
30. Sirtori M,Ghidini A,Romero R,et al. : Prenatal diagnosis of sirenomelia.J Ultrasound Med.Year: 1989;8(2):83–82651695
31. Chenoweth CK,Kellogg SJ,Abu-Yousef MM,et al. : Antenatal sonographic diagnosis of sirenomelia.J Clin Ultrasound.Year: 1991;19(3):167–7110.1002/jcu.18701903081849924
32. van Zalen-Sprock MM,van Vugt JM,van der Harten JJ,et al. : Early second-trimester diagnosis of sirenomelia.Prenat Diagn.Year: 1995;15(2):171–710.1002/pd.19701502117784370

Figures

[Figure ID: f1]
Figure 1.   Complete morphological view showing distended abdomen, fused lower limbs and maceration around the neck.

[Figure ID: f2]
Figure 2.   Complete morphological view of sirenomelic foetus.

[Figure ID: f3]
Figure 3.   Posterior view showing fused lower limbs, imperforate anus.

[Figure ID: f4]
Figure 4.   Imperforate anus.

[Figure ID: f5]
Figure 5.   Photograph of the groin area showing the undetermined external genitalia, and absent urinary meatus.

[Figure ID: f6]
Figure 6.   Photograph showing the fused feet with 11 toes.

Tables
[TableWrap ID: T1] Table 1.   Classification of the Sirenomelic sequence adapted from Stocker and Heifetz 13.
Type Characteristic
I All thigh and leg bones are present
II Single fibula
III Absent fibula
IV Partially fused femurs, fused fibulae
V Partially fused femurs
VI Single femur, single tibia
VII Single femur, absent tibia


Article Categories:
  • Case Report
Article Categories:
  • Articles
    • Pregnancy, Labor, Delivery & Postpartum Care


Previous Document:  Low budget analysis of Direct-To-Consumer genomic testing familial data.
Next Document:  Murine Tim-1 is excluded from the immunological synapse.