A hydatidiform mole coexisting with a normal live fetus in a twin pregnancy is an extremely rare phenomenon, with a 
worldwide incidence ranging from one in 22,000 to 
one in 100,000 pregnancies.1,2 This condition presents 
a significant management challenge for physicians 
due to its associated complications, including heavy 
vaginal bleeding, severe pre-eclampsia, intrauterine 
fetal death or growth restriction, miscarriage, preterm 
birth and hyperthyroidism, as well as ovarian cyst 
rupture or torsion in cases with theca lutein cysts.1 
Twin molar pregnancies may also have an increased 
risk of persistent trophoblastic disease compared to a 
single molar pregnancy.2

Case Report

A 32-year-old gravida 3, para 2 woman was admitted 
to the Emergency Department of the Sultan Qaboos 

University Hospital (SQUH), Muscat, Oman, in March 
2012 at 13 gestational weeks with lower abdominal 
pain and vaginal spotting. Upon examination, she 
was haemodynamically stable and not in distress. 
Abdominal palpation indicated mild tenderness and a 
uterine size corresponding to 16 gestational weeks. An 
ultrasound examination revealed a twin pregnancy, 
including one normal fetus with the placenta covering 
the cervical opening and one molar pregnancy 
[Figure 1A]. Both ovaries were enlarged with multiple 
theca lutein cysts; the right ovary measured 12.2 x 8.1 
x 6.9 cm while the left measured 13.3 x 7.3 x 10.6 cm 
[Figure 1B]. The patient’s serum β-human chorionic 
gonadotropin (hCG) level was 1,386,570 IU/L. Chest 
X-ray findings were normal as were the results of the 
thyroid function tests and coagulation profile.

The patient and her husband were counselled in 
detail regarding the risks associated with this type 
of pregnancy; opinions from international experts 

Departments of 1Obstetrics & Gynaecology, 3Radiology & Molecular Imaging and 4Pathology, Sultan Qaboos University Hospital, Muscat, Oman; 
2Department of Obstetrics & Gynaecology, Kasturba Medical College, Manipal, India
*Corresponding Author e-mail: drshahila@gmail.com 

احلمل التوأم باحلمل العنقودي الكامل مع جنني حي
حالة نادرة

�سهيلة ال�سيخ، نهال الريامية، ناميثا را�سيل ماثيو، را�سد ال�سكيتي، عا�سم قري�سي، مرمي ماثيو

abstract: A hydatidiform mole with a coexisting live fetus is a rare occurrence and the optimal management 
for this condition is not yet known. We report the case of a 32-year-old woman (gravida 3, para 2) who presented 
to the Sultan Qaboos University Hospital, Muscat, Oman, in March 2012 at 13 gestational weeks with abdominal 
pain and vaginal bleeding. An ultrasound examination revealed a hydatidiform mole pregnancy coexisting with a 
live fetus. After extensive counselling, the patient and her husband opted for a conservative management approach. 
Unfortunately, a hysterotomy had to be performed at 17 gestational weeks due to severe haemorrhage. The post-
operative period was uneventful and histopathology results confirmed one complete mole with a coexisting fetus 
and normal placenta. The patient’s serum β-human chorionic gonadotropin level remained normal for 18 months 
following her surgery.

Keywords: Hydatidiform Mole; Twin Pregnancy; Fetus; Hysterotomy; Placenta; Human Chorionic Gonadotropin; 
Case Report; Oman.

امللخ�ص: احلمل العنقودي الكامل مع جنني حي هو حالة نادرة احلدوث والعالج الأمثل لهذه احلالة غري معروف حتى الآن. نحن نبلغ عن 
حالة لإمراأه يف 32 من عمرها )يف حملها الثالث وولدتني �سابقتني( والتي جاءت اإىل م�ست�سفى جامعة ال�سلطان قابو�ض يف م�سقط، عمان، 
يف مار�ض 2012 يف الإ�سبوع 13 من احلمل بالآم يف البطن ونزيف مهبلي.الأ�سعة الفوق ال�سوتية اأو�سحت حمل عنقودي مع جنني حي. 
وبعد امل�سورة وا�سعة النطاق اختارت املري�سة وزوجها املحافظة والإ�ستمرار يف احلمل. لالأ�سف كان لبد من اإجراء عملية اإنزال للجنني يف 
الأ�سبوع 17 من احلمل عن طريق فتحة يف الرحم ب�سبب نزيف حاد. كانت فرتة ما بعد اجلراحة خالية من الأحداث واأكد الت�رسيح املخربي 

حمل تواأم بحمل عنقودي واحد وجنني اآخر مع م�سيمة طبيعية. ظل م�ستوى هرمون احلمل طبيعي لفرتة 18 �سهر بعد العملية.
مفتاح الكلمات: حمل عنقودي؛ حمل تواأم؛ جنني؛ فتح الرحم؛ م�سيمة؛ هرمون احلمل؛ تقرير حالة؛ عمان.

Twin Pregnancy with a Complete Hydatidiform 
Mole and a Coexisting Live Fetus

Rare entity
*Shahila Sheik,1 Nihal Al-Riyami,1 Namitha R. Mathew,2 Rashid Al-Sukaiti,3 Asim Qureshi,4 Mariam Mathew1

online case report

Sultan Qaboos University Med J, November 2015, Vol. 15, Iss. 4, pp. e550–553, Epub. 23 Nov 15
Submitted 26 Feb 15
Revision Req. 14 May 15; Revision Recd. 30 May 15
Accepted 18 Jun 15 doi: 10.18295/squmj.2015.15.04.019



Shahila Sheik, Nihal Al-Riyami, Namitha R. Mathew, Rashid Al-Sukaiti, Asim Qureshi and Mariam Mathew

Online Case Report | e551

were elicited and the couple was informed that a 
review of the literature indicated a 25% chance of 
a live birth and a 40% chance of early fetal loss.3 

A multidisciplinary team including a consultant 
haematologist, an anaesthetist, an interventional 
radiologist and several obstetricians were involved 
in the decision-making process. After consideration, 
the couple opted to continue the pregnancy with 
close follow-up and the patient was discharged after 
three days.

Despite close follow-up, the patient was readmitted 
at 17 gestational weeks with vaginal bleeding and 
tachycardia. A significant drop in haemoglobin from 
10 g/dL to 7 g/dL was also noted, requiring a transfu-
sion of two units of packed red blood cells. At this 
time, the uterine size corresponded to 28 gestational 
weeks. The couple were advised that the maternal 
risks had now increased significantly and they agreed 
to have the pregnancy terminated. Bilateral uterine 
artery balloon catheters were placed prophylactically 
and inflated to control the intraoperative blood loss; 
this provision would also enable the postoperative 
embolisation of the uterine arteries if required.

A hysterotomy was performed under general 
anaesthesia via a lower segment transverse incision. 
Molar tissue weighing 1,040 g was evacuated, along 
with a fetus weighing 105 g and a normal placenta 
of 65 g [Figure 2]. The ovaries were enlarged with 
bilateral theca lutein cysts. The intraoperative blood 
loss was 800 mL. The uterine artery balloon catheters 
were removed six hours after the operation as there 
was no active bleeding and embolisation was not 
deemed necessary. The postoperative recovery period 
was uneventful.

Histopathology results confirmed a complete 
hydatidiform mole with a coexisting fetus and normal 
placenta [Figure 3]. Three months after the surgery, the 
patient’s serum β-hCG level had returned to normal 
without any cytotoxic therapy. The enlarged ovaries 
with multiple theca lutein cysts took six months to 
return to a normal size. There was no evidence of any 
persistent trophoblastic disease one year later and the 
serum  β-hCG level remained normal for 18 months 
following the surgery. At the time of writing, the 
patient was planning her next pregnancy.

Discussion 

Complete hydatidiform moles form part of the tumour 
spectrum of gestational trophoblastic disease. Molar 
pregnancies are subdivided into either complete or 
partial types based on genetic and histological features. 
A complete hydatidiform mole consists of oedematous 
villous tissue and trophoblastic hyperplasia with no 
fetal tissue.1,3 While a complete mole is diploid, its 
chromosomes are entirely of paternal origin, following 
the duplication of a single sperm fertilising an empty 
ovum.1 However, the majority of partial moles are 
triploid in origin and contain two sets of paternal 
and one set of maternal haploid genes. This occurs 
following the fertilisation of a normal ovum by two 
sperm cells. In a partial mole, a fetus or fetal red blood 

 
Figure 1A & B: Ultrasound scans of a patient with a complete hydatidiform mole and coexisting live fetus showing (A) 
the junction between the normal placenta and the molar tissue (white arrow) and the normal fetus in the gestational sac 
(red arrow) and (B) the enlarged left ovary with multiple theca lutein cysts (red arrow).

 
Figure 2: Photograph of the normal fetus and placenta 
and the molar tissue following a hysterotomy in a 
pregnant patient with a complete hydatidiform mole 
and a coexisting live fetus.



Twin Pregnancy with a Complete Hydatidiform Mole and a Coexisting Live Fetus 
Rare entity

e552 | SQU Medical Journal, November 2015, Volume 15, Issue 4

past decade, clinicians have supported the option 
of conservation, providing that the patient remains 
under strict hospital-based observation and follow-
up.8,9 With the current medical facilities available, 
most expected complications can be diagnosed early 
and managed appropriately. Although the risk of 
persistent trophoblastic disease cannot be excluded in 
cases of conservative management, this risk does not 
seem to increase with gestational age.10,11 Conservative 
management in a tertiary care environment is indicated 
if a multi-disciplinary team is present and able to 
quickly respond in the event of an emergency. Close 
surveillance of the patient is also recommended to 
detect early signs of maternal and fetal complications. 
Termination of the pregnancy should be considered 
only if the patient develops severe pre-eclampsia, 
thyrotoxicosis or significant vaginal bleeding, or if 
there is evidence of trophoblastic embolisation.12

Measures to minimise blood loss during surgery 
for complete hydatidiform twin molar pregnancies 
with live co-twins are not described in the literature, 
although torrential haemorrhage is an expected 
complication. As such, the authors of this report 
strongly recommend preoperative placement of 
bilateral uterine artery balloon catheters for patients 
at centres with interventional radiology facilities. This 
will assist in decreasing the intra- and postoperative 
blood loss and minimise the need for blood and blood 
product transfusions.

Conclusion

In twin pregnancies with one complete hydatidiform 
mole, the likelihood of delivering a healthy viable 
fetus is low. This type of pregnancy creates a 

cells are evident.2 The current patient is the first case 
of a complete hydatidiform mole coexisting with a live 
fetus at SQUH. A conservative approach was initially 
deemed possible due to the availability of resources 
and high standard of care. However, close monitoring 
of the patient and timely intervention were crucial. 

The incidence of gestational trophoblastic disease 
is higher among women of Asian, West African and 
South American origin, compared to those from 
Europe and North America.4 It is normally seen in the 
very young and elderly. A previous molar pregnancy 
increases the chance of a repeat molar pregnancy by 
1‒3%.4 However, with two previous molar pregnancies, 
the risk goes up to almost 15%.4 Aside from ethnicity, 
none of the risk factors mentioned above were relevant 
to the patient described in the current report.

Twin pregnancy with a complete hydatidiform 
mole and a coexisting live fetus is also known as sad 
fetus syndrome, because the coexisting fetus is usually 
chromosomally normal and potentially viable.5,6 In the 
present case, amniocentesis could not be performed 
for the purposes of fetal karyotyping as the molar tissue 
was covering the entire anterior wall of the uterus, 
pushing the live fetus into a posterior position. The 
pregnancy had to be terminated due to haemorrhage, 
which is a known and potentially fatal complication 
associated with this condition.

Sebire et al. assessed 77 twin pregnancies with 
complete hydatidiform moles and healthy co-twins 
to ascertain the risk of continuing the pregnancy as 
opposed to termination.7 They concluded that there 
was a 40% chance of a live birth with a very low chance 
of serious obstetric complications, including the 
development of persistent gestational trophoblastic 
disease, if the pregnancy was continued.7 In the 

 
Figure 3A & B: Haematoxylin and eosin stains of the molar tissue showing (A) normal trophoblasts (arrow) at x10 
magnification and (B) avascular oedematous villi (arrow) in a pregnant patient with a complete hydatidiform mole and 
a coexisting live fetus.



Shahila Sheik, Nihal Al-Riyami, Namitha R. Mathew, Rashid Al-Sukaiti, Asim Qureshi and Mariam Mathew

Online Case Report | e553

significant management dilemma for the treating 
physician, especially if the pregnancy was planned. 
Comprehensive counselling, close follow-up and time-
ly intervention are imperative during the conservative 
management of this rare clinical entity. 

a c k n o w l e d g e m e n t s

A poster presentation of this case was displayed at 
the 9th Singapore International Congress of Obstetrics 
& Gynecology in Singapore in August 2013. An 
abstract of the poster was published in the Singapore 
Journal of Obstetrics & Gynaecology in 2013 (Vol. 44, 
Iss. 2, P. 120).

References
1. Yarandi F, Eftekhar Z, Izadi-Mood N, Elahi-Panah Z, Shojaei H. 

Twin pregnancy with hydatidiform mole and coexisting fetus: 
Report of three cases and review of literature. J Family Reprod 
Health 2009; 3:31–4.

2. Steller MA, Genest DR, Bernstein MR, Lage JM, Goldstein DP, 
Berkowitz RS. Natural history of twin pregnancy with complete 
hydatidiform mole and coexisting fetus. Obstet Gynecol 1994; 
83:35–42. doi: 10.1016/0020-7292(94)90494-4.

3. Royal College of Obstetricians & Gynaecologists. Green-top 
Guideline no.3: Gestational trophoblastic disease. From: www.
rcog.org.uk/en/guidelines-research-services/guidelines/gtg38/  
Accessed: Feb 2015.

4. Lurain JR. Gestational trophoblastic disease I: Epidemiology, 
pathology, clinical presentation and diagnosis of gestational 
trophoblastic disease, and management of hydatidiform 
mole. Am J Obstet Gynecol 2010; 531–39. doi: 10.1016/j.
ajog.2010.06.073.

5. Malinowski W, Biskup I, Dec W. Sad fetus syndrome: Gestational 
trophoblastic disease concurrent with a living fetus or fetuses. 
Acta Genet Med Gemellol (Roma) 1995; 44:193–202.

6. Moini A, Ahmadi F, Eslami B, Zafarani F. Dizygotic twin 
pregnancy with a complete hydatidiform mole and a coexisting 
viable fetus. Iran J Radiol 2011; 8:249–52. doi: 10.5812/
iranjradiol.4488.

7. Sebire NJ, Foskett M, Paradinas FJ, Fisher RA, Francis RJ, 
Short D, et al. Outcome of twin pregnancies with complete 
hydatidiform mole and healthy co-twin. Lancet 2002; 
359:2165–6. doi: 10.1016/S0140-6736(02)09085-2.

8. Shazly SA, Ali MK, Abdel Badee AY, Alsokkary AB, 
Khodary MM, Mostafa NA. Twin pregnancy with complete 
hydatidiform mole and coexisting fetus following ovulation 
induction with a non-prescribed clomiphene citrate regimen: 
A case report. J Med Case Rep 2012; 6:95. doi: 10.1186/1752-
1947-6-95.

9. Piura B, Rabinovich A, Hershkovitz R, Maor E, Mazor M. Twin 
pregnancy with a complete hydatidiform mole and surviving 
co-existent fetus. Arch Gynecol Obstet 2008; 278:377–82. 
doi: 10.1007/s00404-008-0591-x.

10. Massardier J, Golfier F, Journet D, Frappart L, Zalaquett M, 
Schott AM, et al. Twin pregnancy with complete hydatidiform 
mole and coexistent fetus: Obstetrical and oncological 
outcomes in a series of 14 cases. Eur J Obstet Gynecol Reprod 
Biol 2009; 143:84–7. doi: 10.1016/j.ejogrb.2008.12.006.

11. Matsui H, Sekiya S, Hando T, Wake N, Tomoda Y. Hydatidiform 
mole coexistent with a twin live fetus: A national collaborative 
study in Japan. Hum Reprod 2000; 15:608–11. doi: 10.1093/
humrep/15.3.608.

12. Kushtagi P, Hegde T. Unusual twins: A case of intrauterine 
pregnancy with complete molar pregnancy. Internet J Gynecol 
Obstet 2009; 10:11.

http://dx.doi.org/10.1016/0020-7292%2894%2990494-4
http://dx.doi.org/10.1016/j.ajog.2010.06.073
http://dx.doi.org/10.1016/j.ajog.2010.06.073
http://dx.doi.org/10.5812/iranjradiol.4488
http://dx.doi.org/10.5812/iranjradiol.4488
http://dx.doi.org/10.1016/S0140-6736%2802%2909085-2
http://dx.doi.org/10.1186/1752-1947-6-95
http://dx.doi.org/10.1186/1752-1947-6-95
http://dx.doi.org/10.1007/s00404-008-0591-x
http://dx.doi.org/10.1016/j.ejogrb.2008.12.006
http://dx.doi.org/10.1093/humrep/15.3.608
http://dx.doi.org/10.1093/humrep/15.3.608