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Category: Volume 05 Issue 12 December 2017
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Title: Chart for Sudanese Fetal Age Assessment using Sonographic Fetal Limb Bones Measurements

Authors: Dalia B. A., Mona Ahmed, Ahmed Abukonna

 DOI:  https://dx.doi.org/10.18535/jmscr/v5i12.126

Abstract

A study conducted on140pregnant women referred routinely for routine scan of 14 – 40 weeks’ gestation at ultrasound department of Oma-algora specialize hospital (Aljazeera-Sudan) during the period from June 2016 to February 2017. Sonographic examination was obtained for all participants (140 pregnant ladies) in supine position using ultrasound machine (LOGIQ 100 PRO) with 3.5 MHz convex transducer. Women were selected on the basis of certain last menstrual period, history of regular cycle and at least one ultrasound scan before 16 weeks to confirm gestational age. All long bones (radius, ulna, humerus, tibia, fibula and femur) were measured in a plane such that the bone was as close as possible to a right angle to the ultrasound beam. The values were expressed as means ± 2 standard deviations for each week of gestation. The growth of the fetal limb bones was linear from 14 through 38 weeks' gestation, but the various bones appeared to grow at different rates. The result of the study revealed that growth  pattern  of  long  bone  length,  early  fetal  development  is characterized  by  accelerated  growth  of the  upper and lower  limbs from 14 to 30 weeks followed by a decrease in weekly increment rate. Furthermore the growth of the upper limbs accelerated compared with the lower limbs. All of the limb bone lengths correlate with gestational age and may serve as indicators of skeletal dysplasia.

Keywords: Radius, Ulna,Fibula, Tibia, Gestational age.

References

  1. CHITTY, L. S. & ALTMAN, D. G. 2002. Charts of fetal size: limb bones. BJOG, 109, 919-29.
  2. EXACOUSTOS, C., ROSATI, P., RIZZO, G. & ARDUINI, D. 1991. Ultrasound measurements of fetal limb bones. Ultrasound in obstetrics & gynecology, 1, 325-330.
  3. GABRIELLI, S., FALCO, P., PILU, G., PEROLO, A., MILANO, V. & BOVICELLI, L. 1999. Can transvaginal fetal biometry be considered a useful tool for early detection of skeletal dysplasias in high‐risk patients? Ultrasound in obstetrics & gynecology, 13, 107-111.
  4. LEE, W., BALASUBRAMANIAM, M., DETER, R. L., HASSAN, S. S., GOTSCH, F., KUSANOVIC, J. P., GONCALVES, L. F. & ROMERO, R. 2009. Fetal growth parameters and birth weight: their relationship to neonatal body composition. Ultrasound Obstet Gynecol, 33, 441-6.
  5. MILLS, M. S. 1992. Transvaginal sonography for fetal measurement in early pregnancy. BJOG: An International Journal of Obstetrics & Gynaecology, 99, 626-627.
  6. PALADINI, D., RUSTICO, M., VIORA, E., GIANI, U., BRUZZESE, D., CAMPOGRANDE, M. & MARTINELLI, P. 2005. Fetal size charts for the Italian population. Normative curves of head, abdomen and long bones. Prenat Diagn, 25, 456-64.
  7. RODRÍGUEZ, J. I., PALACIOS, J. & RODRÍGUEZ, S. 1992. Transverse bone growth and cortical bone mass in the human prenatal period. Neonatology, 62, 23-31.
  8. TINELLI, A., BOCHICCHIO, M. A., VAIRA, L. & MALVASI, A. 2014. Ultrasonographic Fetal Growth Charts: An Informatic Approach by Quantitative Analysis of the Impact of Ethnicity on Diagnoses Based on a Preliminary Report on Salentinian Population. BioMed Research International, 2014, 10.
  9. ZORZOLI, A., KUSTERMANN, A., CARAVELLI, E., CORSO, F., FOGLIANI, R., AIMI, G. & NICOLINI, U. 1994. Measurements of fetal limb bones in early pregnancy. Ultrasound in obstetrics & gynecology, 4, 29-33.

Corresponding Author

Ahmed Abukonna

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