CORRELATION BETWEEN ULTRASOUND PARAMETERS AND RECURRENT PREGNANCY LOSS IN FIRST TRIMESTER

Document Type : Original Article

Authors

Obstetrics and Gynecology Department, Faculty of Medicine, Al-Azhar University

Abstract

Background: First trimester recurrent pregnancy loss is three or more consecutive miscarriage which can be due to genetic, anatomical, endocrinological, immunological, microbiological and environmental factors.
Objective: To evaluate the correlation between each of the ultrasound parameters that  assessed in the first trimester(the gestational sac size, yolk sac size, crown rump length  and fetal cardiac activity ) to early pregnancy loss.
Patients and Methods: This was a prospective study of 100 (1 hundred) pregnant women in their first trimester that were carried out in the outpatient clinic and Emergency Department – Obstetrics and Gynecology Department – Al-Sayed Galal Hospital and Basyoun  Hospital during the period from 1st April 2020 till 1st October 2020.They classified into two equal groups:
Group I: Pregnant women with history of first trimester recurrent pregnancy loss as cases.
Group II: Pregnant women with history of normal obstetric history as controls. Transvaginal ultrasound scan was used to assess mean gestational sac diameter, yolk sac, crown-rump length and fetal heart rate.
Results: The gestational sac diameter grew 6.65 mm per week in ongoing pregnancy group, and it was smaller in the pregnancy loss group. However, the difference was not significant until 8 weeks of pregnancy when the median diameter of the gestational sac was 15 mm in pregnancy losses, and 31 mm in ongoing pregnancy (p < 0.001). The yolk sac grew 0.38 mm per week in ongoing pregnancy group with p wave <0.001 at 10th week.
     In pregnancy loss group, the yolk sac was either smaller or larger than in ongoing pregnancy group. The crown-rump length grew 7.54 mm per week, and was significantly larger in the ongoing pregnancy than in the pregnancy loss group from 6th -10th week with p value <0.001. The embryonic heart rate less than 100 b/m was associated with higher risk of pregnancy loss.
Conclusion: The diagnosis of miscarriage was made in the presence of fetal pole 10 mm with no fetal heart activity, or the gestational sac diameter was 25 mm but no fetal pole could be demonstrated. In cases of an empty gestational sac 25 mm in diameter, a repeated scan was carried out 1-2 weeks later.

Keywords

Main Subjects


CORRELATION BETWEEN ULTRASOUND PARAMETERS AND RECURRENT PREGNANCY LOSS IN FIRST TRIMESTER

By

Amr Gamal Ahmed Afandy Abotaha, Ibrahim Abd El-Hamid Abou-Sekein and El-Sayed Mohamed Taha

Obstetrics and Gynecology Department, Faculty of Medicine, Al-Azhar University

E-mail: amrabotaha9@gmail.com

ABSTRACT

Background: First trimester recurrent pregnancy loss is three or more consecutive miscarriage which can be due to genetic, anatomical, endocrinological, immunological, microbiological and environmental factors.

Objective: To evaluate the correlation between each of the ultrasound parameters that  assessed in the first trimester(the gestational sac size, yolk sac size, crown rump length  and fetal cardiac activity ) to early pregnancy loss.

Patients and Methods: This was a prospective study of 100 (1 hundred) pregnant women in their first trimester that were carried out in the outpatient clinic and Emergency Department – Obstetrics and Gynecology Department – Al-Sayed Galal Hospital and Basyoun  Hospital during the period from 1st April 2020 till 1st October 2020.They classified into two equal groups:

Group I: Pregnant women with history of first trimester recurrent pregnancy loss as cases.

Group II: Pregnant women with history of normal obstetric history as controls. Transvaginal ultrasound scan was used to assess mean gestational sac diameter, yolk sac, crown-rump length and fetal heart rate.

Results: The gestational sac diameter grew 6.65 mm per week in ongoing pregnancy group, and it was smaller in the pregnancy loss group. However, the difference was not significant until 8 weeks of pregnancy when the median diameter of the gestational sac was 15 mm in pregnancy losses, and 31 mm in ongoing pregnancy (p < 0.001). The yolk sac grew 0.38 mm per week in ongoing pregnancy group with p wave <0.001 at 10th week.

     In pregnancy loss group, the yolk sac was either smaller or larger than in ongoing pregnancy group. The crown-rump length grew 7.54 mm per week, and was significantly larger in the ongoing pregnancy than in the pregnancy loss group from 6th -10th week with p value <0.001. The embryonic heart rate less than 100 b/m was associated with higher risk of pregnancy loss.

Conclusion: The diagnosis of miscarriage was made in the presence of fetal pole 10 mm with no fetal heart activity, or the gestational sac diameter was 25 mm but no fetal pole could be demonstrated. In cases of an empty gestational sac 25 mm in diameter, a repeated scan was carried out 1-2 weeks later.

Key word: Ultrasound, Gestational sac diameter, Yolk sac, Crown-rump length, fetal heart rate, Recurrent pregnancy loss.

 

 

INTRODUCTION

     Early pregnancy loss is also known as pregnancy loss, fetal demise, miscarriage, or spontaneous abortion. It is defined as a nonviable, intrauterine pregnancy with either an empty gestational sac or a gestational sac containing an embryo or fetus without fetal heart activity prior to 12th weeks and 6 days of gestation (ACOG, 2018).

     The gestational sac is the first pregnancy structure that can be detected by ultrasound. It is usually visualized from 31 days or 4 weeks and 3 days of gestation using the transvaginal method, when it measures 2-3 mm in diameter. It can be identified about a week later when using the abdominal route (Tan et al., 2014).

     Yolk sac is the first recognizable structure inside the gestational sac and should be obtained as regular round extra-amniotic structure when gestational sac reaches 8-10 mm. Normal biometric values of yolk sac diameter during the first trimester are   3-6 mm. Crown rump length is used to estimate growth of the embryo and define the exact gestational age (Jennifer et al., 2013).

     Once the embryonic pole is detected, measured of crown rump length of the embryo considered the most accurate ultrasonographic way to date the pregnancy (Napolitano et al., 2014).

     Cardiac activity can be identified when the embryo reaches 5 mm in length, equivalent to 6th weeks and 3 days gestation and a mean sac diameter of 15-20 mm. All embryo of CRL>7mm in length should demonstrate visible cardiac activity (Yi et al., 2016).

     This work aimed to evaluate the correlation between each of the ultrasound parameters that assessed in the first trimester (the gestational sac size, yolk sac size, crown rump length and fetal cardiac activity) to early pregnancy loss.

 

PATIENTS AND METHODS

     This was a prospective study of 100 (1 hundred) pregnant women in their first trimester that were carried out in the outpatient clinic and Emergency Department – Obstetrics and Gynecology Department, Al-Sayed Galal Hospital and Basyoun Hospital during the period from 1st April 2020 till 1st October 2020.They classified into two equal groups:

Group I: Pregnant women with history of first trimester recurrent pregnancy loss as cases

Group II: Pregnant women with history of normal obstetric history as controls.

Inclusion criteria:

•     Positive pregnancy test.

•     Single intrauterine pregnancy.

•     Maternal age ranges between 20 and 35 years.

•     In the first trimester of pregnancy with no symptoms of threatened miscarriage when first scan.

•     History of first trimester recurrent miscarriage.

Exclusion criteria:

•     Multiple pregnancies.

•     Maternal age less than 20 or over 35 years

•     Symptoms of threatened miscarriage when first scan

For the scan, we used ultrasound machine: Logic P5 with 7.5 MHZ Transvaginal probe and 3.5 MHZ Transabdominal probe.

     Transabdominal scanning was done with distended bladder. Then, patient was asked to void urine and transvaginal sonography was done.

Transvaginal ultrasound scans for assessing:

a.   Mean gestational sac diameter (MGSD) was determined by measuring the mean of 3 diameters (longitudinal, antero-posterior and transverse) which were measured from inside of the sac excluding the decidual reaction from the measurement. It was normally eccentric in location embedded in endometrium, and had a smooth; round or oval shape.

b.   Yolk sac (YS) was measured by placing the calipers on the inner limits of the longer diameter. It usually appeared at the periphery of the gestational sac and should not be floating within the sac. Size of the sac, shape, Echogenicity of the rim and center of sac, its number and degenerative changes such as calcification were evaluated. YS having diameter between 3-7 mm, rounded shapes, absence of degenerative changes, presence of echogenic rim and hypoechoic center were considered normal. Any deviation from above parameters was considered abnormal.

c.   Crown-rump length (CRL) was measured as the length of the embryo from the top of its head to bottom of torso excluding the yolk sac and extremities Measured in the sagittal plane of the embryo and recorded as an average of three measurements.

d.   Fetal heart rate by M-mode was calculated as beat per minute using software of ultrasound machine after measuring by electronic calibers of distance between 2 heart waves on frozen M-mode image.

Statistical method

     Statistical analyses of data carried out using SPSS version 20 data were summarized as mean ± standard deviation or median and range.

     Both independent and paired t-test or Mann-Whitney U test was used for comparison of means. The P-value was considered significant when p ≤ 0.05.


 

 

 

 

 

 

 

 

RESULTS

 

 

     The study involved 100 pregnant women examined using 2D ultrasonography starting early in the first trimester. A follow up scan every 2 weeks until the pregnancy reached the end of first trimester unless the patient miscarried before that.

     The mean age of the studied group was 26.4 years ranged between 20 and 35 Of the cases group 28 (56%) ongoing pregnancy and entered the 2nd trimester successfully while 22 (44%) resulted in miscarriage (Table 1).


 

Table(1):   The final outcome of the cases group

Cases group

N

%

Ongoing

28

56.00

Loss

22

44.00

Total

50

100.00

 

 

     Of the controls group, 46 (92%) were ongoing pregnancy and entered the 2nd trimester successfully, while 4 (8%) resulted in miscarriage (Table 2).

 

 

Table(2):   The final outcome of the controls group

Controls group

N

%

Ongoing

46

92.00

Loss

4

8.00

Total

50

100.00

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

     The gestational sac diameter grew 6.65 mm per week in ongoing pregnancy group, and it was smaller in the pregnancy loss group. However, the difference was not significant until 8 weeks of pregnancy when the median diameter of the gestational sac was 15 mm in pregnancy losses and 31 mm in ongoing pregnancy (p < 0.001).

     From 6-10 week gestation a smaller gestational sac was associated with an increased risk of pregnancy loss (Table 3).

 

 

Table (3):  Comparison of gestational sac diameter in the ongoing pregnancy and pregnancy loss groups

Groups

Gestational Sac diameter

Ongoing

(N=50)

Loss

(N=50)

P-value

5 Weeks

Range

7

-

13

6

-

11

<0.001

Mean ±SD

10.12

±

1.536

8.692

±

1.70

6 Weeks

Range

13

-

19

7

-

13

<0.001

Mean ±SD

15.46

±

1.968

9.889

±

1.83

7 Weeks

Range

21

-

27

11

-

21

<0.001

Mean ±SD

23.29

±

1.687

15.39

±

2.69

8 Weeks

Range

26

-

33

12

-

20

<0.001

Mean ±SD

28.73

±

2.102

16.11

±

2.47

9 Weeks

Range

34

-

42

19

-

27

<0.001

Mean ±SD

37.12

±

2.118

20.92

±

2.36

10 Weeks

Range

39

-

48

19

-

22

<0.001

Mean ±SD

42.70

±

3.335

20.17

±

1.47

 


     The yolk sac grew 0.38 mm per week in ongoing pregnancy group with p wave <0.001 at 10 week. In pregnancy loss group, the yolk sac was either smaller or larger than in ongoing pregnancy group (Table 4).

 

 

Table (4 ): Comparison of yolk sac diameter in the ongoing pregnancy and pregnancy loss groups.

Groups

Yolk sac Diameter

Ongoing

(N=50)

Loss

(N=50)

P-value

5 Weeks

Range

2

-

2.8

1.6

-

2.6

<0.001

Mean ±SD

2.288

±

0.190

2.046

±

0.399

6 Weeks

Range

2.3

-

2.9

1.6

-

3.7

<0.001

Mean ±SD

2.564

±

0.201

2.844

±

0.725

7 Weeks

Range

2.7

-

3.3

3

-

4.9

<0.001

Mean ±SD

3.044

±

0.186

3.638

±

0.727

8 Weeks

Range

2.7

-

3.7

2.9

-

5.2

<0.001

Mean ±SD

3.250

±

0.294

4.022

±

0.879

9 Weeks

Range

3

-

4.1

2.1

-

4.3

<0.002

Mean ±SD

3.813

±

0.263

3.485

±

0.653

10 Weeks

Range

3.6

-

4.5

1.8

-

3.2

<0.001

Mean ±SD

4.150

±

0.303

2.856

±

0.475

 

 

 

 

     The crown-rump length grew 7.54 mm per week, and was significantly larger in the ongoing pregnancy than in the pregnancy loss group from 6-10 week with p value <0.001 (Table 5).

 

 

Table (5):  Comparison of crown-rump length diameter in the ongoing pregnancy and pregnancy loss groups

Groups

Crown-rump

length diameter

Ongoing

(N=50)

Loss

(N=50)

P-value

5 Weeks

Range

1.9

-

4.3

1.5

-

3.1

0.004#

Mean ±SD

2.529

±

0.761

2.131

±

0.509

6 Weeks

Range

4.3

-

6.4

2.5

-

4.4

<0.001

Mean ±SD

4.964

±

0.610

3.356

±

0.760

7 Weeks

Range

10.8

-

13.4

4.5

-

6.1

<0.001

Mean ±SD

11.775

±

0.772

5.038

±

0.472

8 Weeks

Range

17.8

-

19.7

4.2

-

5.9

<0.001

Mean ±SD

18.563

±

0.585

5.178

±

0.710

9 Weeks

Range

24.7

-

28.3

6.2

-

16.9

<0.001#

Mean ±SD

25.924

±

0.983

10.942

±

3.780

10 Weeks

Range

35.3

-

37.3

5.8

-

13.1

<0.001#

Mean ±SD

36.110

±

0.547

7.333

±

2.224

# Mann-Whitney U test was used.

 

 

     The embryonic heart rate can be visualized as early as 5th-6th  week of gestation and the mean heart rate progressively increases from 6th week ( 120 – 140 bpm) to 9th week ( 145 – 170 bpm), then the heart rate gradually decreased to 150 bpm at 12th  week of gestation. Bradycardia at initial scan was not an absolute indicator for an unhealthy pregnancy as there was significant bradycardia in some patient at initial scan which turned out to have a normal pregnancy and demonstrated increased heart rate at subsequent scans. It has been observed that the embryonic heart rate less than 100 bpm is associated with higher risk of pregnancy loss (Table 6).

 

 

Table (6):  Comparison of fetal heart rates in the ongoing pregnancy and pregnancy loss groups

Groups

Fetal heart Rates

Ongoing

(n=50)

Loss

(n=50)

P-value

5 Weeks

Range

90

-

120

95

-

115

<0.003

Mean ±SD

105.412

±

9.931

110.615

±

6.225

6 Weeks

Range

110

-

120

98

-

126

0.086

Mean ±SD

115.909

±

3.300

113.111

±

10.937

7 Weeks

Range

130

-

150

100

-

150

<0.001

Mean ±SD

137.294

±

4.753

111.769

±

18.948

8 Weeks

Range

150

-

171

84

-

162

0.001#

Mean ±SD

164.727

±

6.084

126.778

±

32.155

9 Weeks

Range

160

-

170

80

-

178

<0.001#

Mean ±SD

167.118

±

2.619

111.077

±

37.279

10 Weeks

Range

160

-

174

84

-

178

0.002#

Mean ±SD

167.727

±

4.735

123.143

±

40.806

# Mann-Whitney U test was used.

 

DISCUSSION

     In this study, we aimed to predict the risk of spontaneous miscarriage in patients with first trimesteric recurrent pregnancy loss by using the first trimesteric ultrasonographic markers. The case that subsequently resulted in pregnancy loss had a smaller gestational sac for gestation than in those who continued to have normal pregnancy. The study of Mukri et al. (2013), where women with history of recurrent pregnancy loss, revealed that gestational sac was smaller in pregnancies that subsequently ended in miscarriage than in those that remained viable. The study of Datta et al. (2017), reported that gestational sac below the 5th percentile would predict early pregnancy loss.

     The finding of this study demonstrated that the large yolk sac was a good indication that the probability of pregnancy loss with be significantly high. In the study of Tan et al. (2014), they had shown that pregnant women between 6- 9 weeks of gestation has revealed that enlarged yolk sac visualization before the 7th weeks of gestation is strongly associated with a significantly increased risk for spontaneous miscarriage. In the study of Ashoush et al. (2015), they had shown that a large yolk sac at any gestational age was associated with early pregnancy loss.

     The current study showed that the crown-rump length was statistically significantly different between both groups, whereas the cases that subsequently resulted in pregnancy loss had a smaller mean crown-rump length for gestation than in those who continued to have a normal pregnancy. Altay et al. (2010) found that the risk of fetal loss was higher when crown-rump length was below the 50th percentile for gestational age. Papioannou et al. (2011) reported that about 85% of miscarriage the embryonic crown-rump length at the time of early scan was 12 mm (below the 5th percentile for gestational age). This reflects the inverse relationship between the rate of miscarriage and gestational age because the majority of embryonic death, either resulting from lethal abnormalities or placental failure occurs before the 8th week of pregnancy. Bottomley et al. (2012) demonstrated the association between the smaller than expected embryonic crown-rump length and the increase probability of subsequent miscarriage.

     In the current study, the embryonic heart rate can be visualized as early as 5th-6th week of gestation, and the mean heart rate progressively increases from 6th week (120 – 140 bpm) to 9th week ( 145 – 170 bpm) then, the heart rate gradually decreased to 150 b/m at 12th  week of gestation. The embryonic heart rate less than 100 b/m was associated with higher risk of pregnancy loss. Pillai et al. (2018) reported that HR ≤ 110 beats per minute (BPM) was the most reliable model to predict a subsequent pregnancy loss, with a sensitivity of 68.4%, a specificity of 97.8%, a positive likelihood ratio of 31.7 (95% confidence interval 12.8–78.8), and a negative likelihood ratio of 0.32 (95% confidence interval 0.16–0.65). In pregnancies with vaginal bleeding, in addition to an HR ≤ 110 BPM, prediction of an early loss was higher. Shenker et al. (2010) reported that embryonic heart rates before the 7th week of pregnancy showed an increase in rates between 7th and 9th gestational weeks. The rates gradually declined thereafter until the 15th week.

CONCLUSION

     The ultrasound is intended to be primarily used to diagnosis of early pregnancy loss.

     The diagnosis of miscarriage was made if in the presence of fetal pole 10 mm there was no fetal heart activity, or if the gestational sac diameter was 25 mm but no fetal pole could be demonstrated.

REFERENCES

  1. American College of Obstetricians and Gynecologists (2018): Early pregnancy loss. Practice Bulletin No.150. Obstet& Gynecol., 125; 1258-1267.
  2. Altay M, Yaz H and Haberal A. (2010): The assessment of the gestational sac diameter, crown rump length, progesterone and fetal heart rate measurements at the 10th gestational week to predict the spontaneous abortion. J Obstet Gynecol Res., 35(2):287-292.
  3. Ashoush S, Abuelghar W, Tamara T and Aljobboury D. (2015): Relation between types of yolk sac abnormalities and early embryonic morphology in first trimester missed miscarriage. Journal of Obstetrics and Gynecology Research, 42(1):21-28.
  4. Bottomley C, Daemen A and Mukri F. (2012): Functional linear discriminant analysis: A new longitudinal approach to the assessment of embryonic growth. Hum Reprod., 24:278-283.
  5. Datta M, Raut A and Potdar N. (2017): Efficacy of first trimester ultrasound parameters for prediction of early spontaneous abortion. Int J Gynecol Obstet., 138:325-330.
  6. Jennifer B, Erin P and Danny JS (2013): Re-examining Sonographic cut_off values for diagnosis early pregnancy loss. Obstetrics and Gynecology, 121(3):632 -643.
  7. Mukri F, Bourne T, Bottomely C, Schoeb C, Kirk E and Papageorghiou AT (2013): Evidence of early first trimester growth restrictions in pregnancy that subsequently ends in miscarriage, BJOG 42:373-396.
  8. Napolitano R, Dhami J, Ohuma EO, Ioannou C, Conde A, kennedy SH, Villar J and Papageorghiou AT (2014): Pregnancy dating by fetal crown rump length :a systemic review of Charts, BJOG,115:1273-1278.
  9. Papaioannou GI, Argyro S, Nerea M, Jackie A. Ross, and Kypros H (2011): Ultrasonographic prediction of early miscarriage: a prospective randomized study. J Obstet Gynaecol India, 66:347–352.
  10. Pillai R, Konje JC, Richardson M, Tincello DG and Potdar N. (2018): Prediction of miscarriage in women with viable intrauterine pregnancy A systematic review and diagnostic accuracy meta-analysis. Eur J Obstet Gynecol Reprod Biol., 220, 122–131.
  11. Shenker L, Astle C, Reed K and Anderson C (2010): Embryonic heart rates before the 7th wk of pregnancy. J Reprod Med., 31:333-335.
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العلاقة بين الموجات فوق الصوتية وفقد الحمل المتكرر فى الثلث الأول

عمرو جمال احمد افندى أبوطه،إبراهيم عبدالحميد أبو سكين، السيد محمد طه

قسم النساء والتوليد، كلية الطب، جامعة الازهر

E-mail: amrabotaha9@gmail.com

خلفية البحث: فقدان الحمل المبكر أو فقدان الحمل أو وفاة الجنين أو الإجهاض أو الإجهاض التلقائي - يعرف بأنه "حمل داخل الرحم غير قابل للحياة مع كيس حمل فارغ أو كيس حمل يحتوي على جنين أو جنين بدون نشاط قلب الجنين قبل 12أسبوع و 6 أيام من الحمل.

الهدف من البحث: تقييم العلاقة بين كل من المحددات بالموجات فوق الصوتية التي سيتم تقييمها في الأشهر الثلاثة الأولى (حجم كيس الحمل، حجم كيس المح، طول التاجى المقعدى ونشاط القلب الجنيني) لفقدان الحمل المبكر.

المريضات وطرق البحث: هذه دراسة مستقبلية لـ مائة (100) امرأة من الحوامل في الأشهر الثلاث الأولى من الحمل أجريت في العيادة الخارجية وقسم الطوارئ، قسم أمراض النساء والولادة، مستشفى السيد جلال الجامعى ومستشفى بسيون المركزى  خلال الفترة من الأول من أبريل 2020 حتى الأول من أكتوبر 2020

وقد تم عمل فحص بالموجات فوق الصوتية عبر المهبل واشتمل على:

     قطر كيس الحمل، قطر كيس المح، طول التاجى المقعدى، ومعدل ضربات قلب الجنين.

نتائج البحث: من بين 50 امرأة حامل في مجموعة الدراسة لديهن تاريخ من فقدان الحمل المتكرر في الثلث الأول من الحمل، 28 (56%) نتج عنه حمل مستمر ودخلن الثلث الثاني بنجاح بينما أدت 22 (44%) إلى إجهاض ومن بين 50 امرأة حامل في مجموعة الدراسة مع تاريخ الولادة الطبيعي 46 (92%) نتج عنها حمل مستمر ودخلن الثلث الثاني بنجاح بينما أدت 4(8%) إلى إجهاض.

كيس الحمل: ينمو قطر كيس الحمل 6.65 ملم في الأسبوع في مجموعة الحمل المستمرة وكان أصغر في مجموعة فقدان الحمل.ومع ذلك لم يكن الاختلاف كبيرا حتى 8 اسابيع عندما كان متوسط كيس الحمل 15 ملم فى فقد الحمل و 31 ملم فى الحمل المستمر.من 6 الى 8 اسابيع من الحمل ارتبط كيس الحمل الاصغر بزيادة خطر فقدان الحمل.

كيس المح: ينمو كيس الصفار 0.38 ملم في الأسبوع في مجموعة الحمل المستمرة وكان اصغر او اكبر من ذلك فى مجموعة فقدان الحمل.

طول التاجى المقعدى: ينمو طول التاجى المقعدى 7.54 ملم في الأسبوع وكان أكبر بشكل ملحوظ في الحمل المستمر عنه في مجموعة فقدان الحمل من 6-10 أسابيع.

معدل ضربات القلب الجنيني: يمكن تصورمعدل ضربات القلب الجنيني في وقت مبكرمن الأسبوع الخامس إلى السادس من الحمل ويزداد متوسط معدل ضربات القلب تدريجيا من 6 أسابيع (120-140 نبضة في الدقيقة) إلى 9 أسابيع (145-170 نبضة في الدقيقة) ثم ينخفض معدل ضربات القلب تدريجيا إلى 150 نبضة في الدقيقة في الأسبوع 12 من الحمل.لم يكن بطء ضربات القلب فى الفحص الاولى مؤشرا مطلقا على وجود حمل غير صحى حيث كان هناك بطء قلب كبير لدى بعض المرضى فى الفحص الاولى والذى تبين انهن تتمتع بحمل طبيعى وأظهر زيادة فى معدل ضربات القلب فى عمليات المسح اللاحقة. وقد لوحظ أن معدل ضربات القلب الجنيني الأقل من 100 نبضة في الدقيقة يرتبط بارتفاع مخاطر فقدان الحمل.

الاستنتاج: الموجات فوق الصوتية يمكن إستخدامها بشكل أساسي لتشخيص فقدان الحمل المبكر. ويتم تشخيص الإجهاض إذا لم يكن هناك نشاط لقلب الجنين في وجود عمود الجنين 10 مم أو إذا كان قطر كيس الحمل 25 مم ولكن لا يمكن إثبات وجود عمود جنيني.

الكلمات الدالة: الموجات فوق الصوتية، فقدان الحمل المتكرر، كيس الحمل، كيس المخ، طول التاجى المقعدى، معدل ضربات القلب الجنيني.

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