Document Type : Case Report
Authors
1 BSc in Midwifery, Milad hospital, Ahvaz jundishapur university of medical sciences , ahvaz, Iran
2 Assistant professor, Department of pediatrics, school of medicine, Tehran University of Medical Sciences, Tehran, Iran
3 Assistant professor, Department of Midwifery, Faculty of Nursing and Midwifery, Islamic Azad University, Ahvaz Branch, Ahvaz, Iran
Abstract
Keywords
Introduction
Congenital limb reduction defects occur when a part or the entire upper or lower limbs cannot form normally during pregnancy (1). Based on the evidence, the overall prevalence of limb reduction defects ranges from 2.5 to 7.06 per 10,000 births (2, 3). This anomaly sometimes involves only one or more limbs, which is called isolated. Sometimes, it co-occurs with one or more non-limb defects and represents a specific syndrome. However, some cases present with multiple congenital defects that are not classified in any of the known syndromes (4). In general, upper extremity defects are more common than lower extremity ones.
The upper and lower extremities are involved simultaneously in about 15% of cases. In these cases, unilateral defects are more common than bilateral defects (2). In the majority of cases, limb reduction defects are associated with other abnormalities, which include other limb defects, heart defects, and nervous and gastrointestinal disorders, respectively (5). In spite of being a rare condition, limb reduction defect is very obvious and potentially devastating to the patient and parents as it can have a significantly negative impact on patient's daily functioning and quality of life (2).
According to the guidelines, the health assessment of fetal limbs should be performed at the end of the first trimester and early second trimester of pregnancy via anomaly ultrasound scan. To confirm abnormalities diagnosed by conventional ultrasound, three-dimensional ultrasound is helpful and provides a better understanding for parents (3). Early and accurate prenatal identification of limb reduction defects is very helpful in pregnancy management and treatment planning. Herein, we report a case of congenital unilateral limb reduction complicated by multiple other anomalies not detected in prenatal ultrasound.
Case report
A 25-year-old nulliparous woman referred to our hospital to decide on the termination of pregnancy. She had fully received prenatal care during her pregnancy at the maternal health unit of a health center, and the results of all of her routine pregnancy tests were normal. In the first-trimester screening test, the risks of Down syndrome and trisomy 13/18 were lower than the screening cut-off. Anomaly ultrasound scan at 17 weeks and 5 days showed no health problem in the lower and upper limbs or other organs of the fetus. However, it indicated the possibility of hypoplasia of midface, thereby underscoring the need for a follow-up. The result of three-dimensional ultrasound of the fetal face that was performed 6 days later at another center was normal.
Her latest ultrasound showed a normal female fetus at the breech presentation with 39 weeks of gestation based on a biparietal diameter of 96 mm and a femur length of 77 mm. The client had no family relationship with her spouse and had not taken any medication other than ferrous sulfate, folic acid tablets, and multivitamins. At the age of 39 weeks and 2 days of gestation, the client underwent a cesarean section, which resulted in the birth of a female neonate with the first and fifth minute APGAR scores of 5/10 and 9/10, respectively. The left upper and lower limbs of the infant were smaller in appearance than the right ones, and this defect was evident in the humerus, radius, ulna, femur, tibia, fibula bones.
Deformity was present in the wrist and the second and third fingers of the left hand; in addition, she had left clubfoot. The palm lines on the left side of the neonate were also abnormal. However, motility was normal in the upper and lower extremities. Disseminated ichthyosis was seen in various parts of the body skin, which was more severe in some areas, such as the left foot. There were some mild erythematous areas on the skin that were greater on the left side of the neonate's chest. Low-set and posteriorly rotated ears, saddle nose, and large mandibular bone were also observed in the neonate (Figure 1).
The biometric measurements of the case included a body weight of 3,000 g, head circumference of 35 cm, and height of 52 cm. Physical examination was clearly indicative of hepatomegaly as a result of which the lower edge of the liver was touched up to about 5 cm below the last rib. After stabilization, radiographs were taken of the neonate, which according to clinical findings, showed the shortening of all long bones of the left lower and upper extremities. Ultrasound exam showed hepatomegaly; however, other internal organs were normal.
She had no problems with urination or defecation. Echocardiography and karyotype test were requested by the physician; however, the infant's parents did not consent to perform them. The results of the neonate's blood tests were as follows: blood groop of A positive, white blood cell count of 13,200 ML, hemoglobin level of 17.2 g/dL , platelet count of 285000 /ML, blood urea nitrogen of 9 mg/dL, serum glutamic oxaloacetic transaminase of 172 IU/L, serum glutamic pyruvic transaminase of 46 IU/L, alkaline phosphatase of 302 U/L, total bilirubin of 7.6 mg/dL, direct bilirubin of 0.4 mg/dL, calcium of 10.1 mg/dL, sodium of 136 mEq/L, and potassium of 6.0 mEq/L. In addition, the test results for C-reactive protein, direct coombs, and blood culture were negative. The neonate was admitted to the neonatal intensive care unit for 4 days due to respiratory distress and discharged on the 5th day with a good general condition.
Discussion
The limb buds appear at the end of the 4th week as small bumps. The upper limb buds emerge about 2 days before the lower limbs. In the 8th week, all parts of the upper and lower limbs are completely formed. Any factors that affect the development and differentiation of the limbs at this time will cause a range of limb abnormalities. Some of these factors include genetic disorders, chromosomal abnormalities, environmental exposure, and prenatal diagnosis procedure (6). Numerous cases of limb malformations have been reported so far. In a recent study, Makvandi et al. reported a rare case of bilateral femur deficiency that was neglected in prenatal ultrasound (7). Pauleta et al. reported a case of the absence of right fibula and right tibia shortening in a 22-week-old fetus (8). In another case report in India, the absence of the left upper limb and shortness of ipsilateral femur were reported in a female infant (9).
The reported case had multiple clinical manifestations that did not fully belong to any of the known syndromes. The literature review suggests that the combination of ichthyosis and unilateral limb shortening is found in some syndromes, such as CHILD syndrome standing for congenital hemidysplasia with ichthyosiform erythroderma and limb defects. This syndrome is a very rare X-linked autosomal dominant disease characterized by unilateral limb shortening and presence of ichthyosiform erythroderma on the same side (10). In a rare case, hepatomegaly was also reported as a defect associated with this syndrome (11). There are also some cases reporting heart defects with the disease (12).
The first time that fetal limb anomalies are detectable is the first trimester of pregnancy, and the optimal time in the first trimester is after 12 weeks of gestation. The fetus should be examined in all three coronal, longitudinal, and axial planes; in addition, both left and right limbs should be examined because only one limb may be affected. Ultrasound examinations are usually abdominal and transvaginal when necessary. Evidence suggests that a combination of both methods leads to the best results (13, 14). The optimal time to detect limb reduction defects is in the second trimester of pregnancy via anomaly ultrasound scan because the uterus is completely out of the pelvis, and the fetus has grown well enough and maybe in the optimal position to be examined at this time. At the end of the second trimester and in the third trimester, due to the increase in size, it becomes more difficult to morphologically examine the fetus (3).
It is recommended that sonologists assign sufficient time to perform fetal ultrasound examination. Andrikopoulou et al. showed that an increase of less than five min in the time taken for anomaly ultrasound scan would increase the detection rate of limb malformations more than double (15). The main benefit of the early prenatal diagnosis of limb defects is to provide parents with an opportunity to receive prenatal counseling (16). In this regard, parents are given the opportunity to discuss their child's abnormalities with various specialists. For treatable malformations, it may be necessary to collect a team of specialists for postnatal care. However, some families consider pregnancy termination for the untreatable malformations. Numerous studies have shown that the rate of pregnancy termination increases after the early diagnosis of major untreatable malformations (17, 18).
Conclusion
Unilateral limb reduction is a rare condition of congenital fetal anomalies that is detectable in ultrasound during pregnancy. The optimal time to diagnose this condition is the second trimester of pregnancy. Ultrasound examination of all parts of the four limbs of the fetus is recommended for all pregnant women. A slight increase in the amount of time spent on ultrasound improves the rate of diagnosis. An early prenatal diagnosis provides an opportunity for counseling and plays a role in deciding whether to terminate a pregnancy or continue it and seek treatment in treatable cases.
Acknowledgments
The authors of the article are grateful to the infant's family for allowing the information to be published.
Conflicts of Interest
The authors declare no conflicts of interest.