ORIGINAL ARTICLE

ABSTRACT
Objective: To investigate the effect of point mutation in FV Leiden G1691A and FII G20210A gene on 
coagulation and recurrent spontaneous abortion (RSA) among Sudanese women. 
Study Design: This was retrospective case control study.
Place and Duration of Study: The study was carried out from Aug 2012 to Dec 2014 at Omdurman Maternal 
Hospital, Sudan.
Materials and Methods: The study included hundred pregnant females with a history of recurrent 
spontaneous abortion as (case group) and ninety five healthy reproductive Sudanese women as (control 
group). The data was collected with the help of structured questionnaire and direct interview to collect 
information. Identification of point mutation in factor V Leiden G1691A and factor II G20210A gene by 
polymerase chain reaction was performed; Coagulometer was used for the measurement of PT and APTT. Odds 
Ratio and the 95% confidence interval (95%CI) were calculated for the presence of mutation between cases and 
controls and analyzed by SPSS program, version 17.0. 
Results: The Heterozygous alleles G/A in factor V gene was 8.0% in all cases related with three, four and five 
times of recurrent abortion and 6% was found in control group. Heterozygous alleles of factor II G/A 
Prothrombin time (PT) and partial thromboplastin time (PTT) in women with Recusant Spontaneous Abortion 
(RSA) were not affected significantly (P=0. 93 and P=0.69).
Conclusion: Based upon the results it is concluded that the point mutation in factor V Leiden G1691A and factor 
II G20210A might play a role in recurrent spontaneous abortion loss among Sudanese women. However these 
point mutations do not affect the coagulation profile. 

Key Words:  Factor V Leiden G1691A, Factor II G20210A, RSA, Sudanese Pregnant Women.

week of gestation .The modern definition, however, 
is the spontaneous loss of 2 or more consecutive 

1
pregnancies before 20 weeks of gestation.  
Recurrent pregnancy loss is an experience which can 
be very painful for the couple. Most of the 
miscarriages occur in the first trimester and affect 

2
about 15% of all recognized pregnancies.  RPL has 
many possible causes that can be categorized as 
genetic abnormalities, hormonal and metabolic 
d i s o rd e rs ,  u te r i n e  a n a to m i c  a b n o r m a l i t i e s , 
i n f e c t i o u s  c a u s e s ,  i m m u n e  d i s o r d e r s  a n d 

3
thrombophilic disorders.  Hereditary thrombophilias 
are a group of genetic disorders of blood coagulation 
resulting in a hypercoagulable state, which in turn 
can result in abnormal placentation. Early in 

4
pregnancy this may manifest as spontaneous loss.  
Factor V Leiden (F V L) and prothrombin gene 
(G20210A) mutations are the most common types of 
hereditary thrombophilias. Most carriers of this 
mutation do not develop any clinical signs and 
remain undiagnosed because these conditions result 

Point Mutation in Factor V Leiden G1691A and Factor II G20210A
and Effect on Coagulation Profile and Frequency of Recurrent
Spontaneous Abortions among Sudanese Women

1 2 3
Asaad Mohammed Ahmed Abd Allah Babker , Fath Elrahman Mahdi Hassan Gameel , Salaheldein Gumaa Elzaki ,

4 5 6
Amanda G Elgoraish , Lienda Bashier Eltayeb , Hisham Ali Waggiallah

JIIMC 2016 Vol. 11, No.3  

Correspondence:
Dr. Hisham Ali Waggiallah
Department of Clinical Laboratory 
Al-Ghad International Colleges for Health Sciences
Al Riyadh, Saudia Arabia

1
Department of Clinical Laboratory

Al-Ghad International Colleges for Health Sciences
Al-Madinah Al-Munawarah, Saudia Arabia
2
Department of Hematology and Immunohaematology

College of Medical Laboratory Science
Sudan University of Science and Technology
Khartoum, Sudan
3,4

Department of Epidemiology
Tropical Medicine Research Institute
National Centre for Research, Khartoum, Sudan
5
Department of Medical Parasitology

Faculty of Medical Laboratory Sciences
Omdurman Islamic University, Khartoum, Sudan
6
Department of Clinical Laboratory 

Al-Ghad International Colleges for Health Sciences
Al Riyadh, Saudia Arabia

Funding Source: NIL ; Conflict of Interest: NIL
Received: Mar 17, 2016; Revised: Apr 21, 2016
Accepted: Aug 29, 2016

Point Mutation in Factor V Leiden G1691A and Factor II G20210A

Introduction
Recurrent pregnancy loss (RPL) is defined as three or 

th
more consecutive pregnancy losses before the 24  

108



in a small absolute risk of clinically significant 
5

thrombosis.  Factor V Leiden is a single point 
mutation involving a guanine to adenine transition at 
position 1691 in exon 10 of the factor V gene, which 

6
leads to the synthesis of a variant factor V molecule.  
The prothrombin G20210A mutation involves 
guanine to adenine substitution at nucleotide 20210 

7
of the prothrombin gene.  FV Leiden and factor II 
G20210A mutations are associated with increased 
pro d u ctio n o f th ro mbin  an d  risk o f ven o u s 

8
thrombosis.  Also Factor V Leiden mutation is found 
to be the most common inherited thrombotic risk 
factor associated with RPL its frequency in whites 
varies from 3% to 8% and 1 in 1000 are homozygous. 
It is rare in African Americans, Asians and Native 

9
Americans.  The incidence of genetic prothrombotic 
mutations in women with unexplained pregnancy 
loss was examined in various studies: some of these 

10,11
studies supported the association.  While others 

1 2 , 1 3
r e p o r t e d  n o  a s s o c i a t i o n .  T h e  p r e s e n t 
retrospective case control study was conducted to 
evaluate the FV Leiden G1691A and FII G20210A 
mutations and their affect on some coagulation 
profiles (PT and PTT) among women with a history of 
three or more consecutive pregnancy losses and 
healthy controls. This is the first study that 
investigated FV Leiden G1691A and FII G20210A 
alleles and genotype distributions in the Sudanese 
females with habitual RPL.

Materials and Methods
This was retrospective case control study. The 
genomic DNA samples of one hundred and ninety 
five Sudanese women who recruited and followed at 
Omdurman Maternal Hospital were screened from 
Aug 2012 to Dec 2014. One hundred cases having a 
history of RPL were compared with ninety five 
healthy reproductive Sudanese women as control 
group with a history of two or more successful live 
birth. Cases and controls were tested for the FV 
Leiden G1691A and FII G20210A. Genomic DNA was 
extracted from 3–5 ml of EDTA anti-coagulated 

14
blood by salting.  DNA was extracted from the blood 
samples using Master pure DNA purification kit for 
blood GF-1 Blood DNA Extraction Kit, 50 PREPS (cat. 
No. GF-BD-050, Vivantis Technologies Sdn. Bhd., 
Malaysia). FV Leiden G1691A and FII. a 345-bp 
genomic DNA fragment encompassing a part of the 
prothrombin gene that contains the mutation was 

amplified by PCR using specific primers Forward 
(5'TCT AGA AAC AGT TGC CTG GC-3') and Reverse 
primer (5'ATA GCA CTG GGA GCA TTG AAG C-3). 
And  267-basepair (bp) segment of the factor V gene 
was amplified used specific forward primer (5'TCA 
GGC AGG AAC AAC ACC AT-3') and reverse primer 
5'GGT TAC TTC AAG GAC AAA ATA CCT GTA AAG 
C T 3. T h e rea ct io n  p ro gra m wa s  a s  fo llows : 
Denaturation at 94°C for 30 seconds, annealing at 
51°C for 30 seconds, extension at 72°C for 30 seconds 

15
for 35 cycles and 72 °C for 5 minute.  A master mix 
was prepared by adding Nuclease free water,10x 
b u f f e r, d N T P, t o w  p r i m e r s , M g c l 2 ,Ta q  D N A 
polymerase and DNA, the mixture was loaded into 
thermocycler according to the specific Temperature 
profile. The working solution of 1X TBE is prepared 
from the stock solution (1 L) which contains the 
following: 89 mM Tris base (108 gm), 89 mM boric 
acid (55 gm) 40 ml of 0.5M EDTA, adjust pH to 
8.0.1.5% agarose was prepared from 1x TBE, and 5µl 
PCR products was loaded by mixing PCR products 
with 1µl loading dye, run on the gel for 30 mins and 
visualized on UV transllimantor. Factor V Digested 
with 10 µl of DNA restriction enzyme MnI1 at 37°Cfor 
18 h, subjected to 2% low melting point agarose and 
Prothrombin  product (10 μL) was digested with 20 U 
of Hind III, at 37°C for 16 h, and loaded into 2% low 
melting point agarose gel, eletropherosed at 90 volts 
for 60 mins .
Data were statistically described in terms of mean ± 
standard deviation (± SD), median and range, or 
frequencies (number of cases) and percentages 
where appropriate. Odds Ratio (OR) and the 95% 
confidence interval (95%CI) were calculated for the 
presence of mutation between cases and controls 
and analyzed by SPSS prograrmme (version: 17.0). 
Data were analyzed using the Chi-square test to 
compareson the prevalence of MTHFR mutation 
between patients and controls (The test considered 
significant when P.value <0.05).
E t h i c a l  c o n s e n t  w a s  o b t a i n e d  f ro m  e t h i c a l 
committee at Hospital of Omdurman Maternity 
Hospital (Sudan).

Results
The participants included 195 women subjects. Out 
of them, 100 had a history of 3 or more events of 
recurrent fetal loss (abortion, miscarriage or still 
birth). Their mean age± SD was 25 ± 4. Ninety five 

JIIMC 2016 Vol. 11, No.3  Point Mutation in Factor V Leiden G1691A and Factor II G20210A

109



women were healthy the mean age of was 30 ± 4. The 
prothrombin time PT (p=0.93) and PTT (p=0.69) 
were normal among all women with R P L and 
controls. Factor V Leiden mutation distribution 
showed higher prevalence among study participant 
with R P L as compared to control group. The 
mutation was detected in 8 out of 100 (8.0%) and 6 
out of 94 controls (6.4%). P- Value =0.66, Odds 
Ratio=1.28, 95% CI (0.42 to 3.84) The prevalence of 
heterozygous FVL mutation in recurrent miscarrige 
women was found to be 8 % but in control  it found to 
be 6.4%. Mutant allele (A) was seen only in 4 % of the 
cases. Frequency of mutant allele (A) was 3.2 % and G 
allele occurred with a frequency of 96.8 % among 
controls. These results are statistically insignificant 
between the cases and controls group.
Prevalence of the Prothrombin gene was 3% among 
cases with P- Value =0.091.but no mutant gene was 
detected among control group. According to the 
genotyping in cases showed (Heterozygotes, 3.0%; 
Homozygotes, 97.0%), Alleles G (98.5%) and Alleles A 
(1.5%) while in controls group show normal 
homozygous G/G (100%) and Alleles G (Alleles G). No 
significant association between cases carriage any of 
this mutation and risk with recurrent pregnancy 
miscarriage (Table II). The cases group was divided 
into subgroups based on time of recurrent abortion 
from second to eight times of repeated miscarriage.  
Our data indicates that factor V gene mutation was 
most frequent in women with recurrent miscarriage. 
Prothrombin mutation was found only among 
women with three time recurrent miscarriages with 
100% and MTHFR present in three, four and five 
times of recurrent miscarriage women with equal 
percentage 33.3% for each (Table III).

Digestion of factor v gene with MnI1 enzyme  on 2% 
agarose gel disolved in 1X TBE buffer, stanied with 
ethidium bromide , Lane 1 molecular weight marker 
50 bp, lane2 undigested PCR products  lane  3 and 5 
were hetrozygous mutant  (AG), Lane 4,6,7 and 8 ,9 
and 10 were Wild typ (AA), The  267 bp DNA 
products digested with MnI1. 

Table I: Frequency of factor V (Leiden) muta�on among
cases of recurrent  pregnancy loss compared to controls

Table II: Frequency of Prothrombin muta�on among
cases of recurrent pregnancy loss compared to controls

Table III: Frequency of factor V (Leiden) and Prothrombin
related to �mes of recurrent pregnancy loss

10        9       8        7      6       5       4         3          2         1
Fig 1:  PCR amplifica�on of FVL gene muta�on

Fig 2: PCR amplifica�on of Prothrombin gene muta�on

JIIMC 2016 Vol. 11, No.3  Point Mutation in Factor V Leiden G1691A and Factor II G20210A

110



Digestion of prothrombin  gene with Hind III on 2% 
agarose gel disolved in 1X TBE buffer, stanied with 
ethidium bromide , Lane 1 molecular weight marker 
100 bp, lane 2 (322 bp) , mutant(AA), control ,lane  3 
and 5 were hetrozygous mutant  (GA), Lane 4,6 and 7 
were Wild type (GG), lane 8 undigested(345 bp).

Discussion
One hundred Sudanese women suffering from RPL 
as compared to ninety five healthy women. Because 
inherited thrombophilia has been implicated as a 

16
possible cause of RPL.  Gene defects frequently 
associated with RPL were prothrombin A20210G 

17
and factor V Leiden reported in many studies.  Due 
to their important roles in the coagulation pathway, 
this study was conducted to investigate the 
association between genetic polymorphisms of 
Factor V and Factor II G20210A among women 
experiencing RPL. The frequency of polymorphic A 
allele was more prevalent in RPL patients (8%) than 
in controls (6.4%) and the G allele was less prevalent 
in RPL patients (98%) than in controls (100%).The 
prothrombin G20210A mutation our result revealed 
that the mutation not common among recurrent 
spontaneous aborted Sudanese women they were 
found Heterozygous G/A alleles with frequency 3% 
and did not found any mutated gene among control 
group. The frequency of polymorphic A allele was 
prevalent in RPL patients (1.5%) and the G allele was 
less prevalent in RPL patients (98.5%) than in 
controls (100%). our finding was consistence with  

18 19 20
Altintas  et al, 2007  , Freire et al , Sottilotta et al    

21
and  Dalmaz  et al  but it was inconsistent with Mello 

22 23 24
et al , Behjati et al  , and Bagheri et al.  Prothrombin 
time (PT) and partial thromboplastin time (PTT) in 
women with RPL in this study were not affected 
significantly (P=0. 93 and P=0.69) respectively this is 
similar to the normal results reported by Ghulam, 
et.al., (2014) among Sixty three pakistanian women 
with history of three spontaneous abortions in their 

25
first three months of pregnancy.  Also our finding in 

26
PT and PTT were consistence with Salamat et al  and 

27
Shahida et  al.  The normal result of PT and PTT in 
women with V Leiden G1691A, factor II G20210A 
because the patient with these mutations makes 
fibrin at same rate as a person with normal factor V. 
It's just that later on, when the body tries to turn 
factor V off, the factor V Leiden patient will keep on 
making fibrin. In future sample should be increased 

and study may extent to other provinces in Sudan to 
cover up more races and tribes and make the study 
more accurate and precised.

Conclusion
In our study we found that the Polymorphism in V 
Leiden G1691A and FII G20210A mutation do not 
increase risk for RPL in tested population and there 
are no any affect of these mutations in the 
prothrombin time (PT) and partial thromboplastin 
time (PTT).

Acknowledgement
We are grateful to the patients and healthy 
individuals for participating in our study. 

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