Morphometric study of the primary ossification center of the fibular shaft in the human fetus

Baumgart, Mariusz; Wiśniewski, Marcin; Grzonkowska, Magdalena; Badura, Mateusz; Szpinda, Michał; Pawlak-Osińska, Katarzyna

doi:10.1007/s00276-018-2147-5

Cited by 5 publications

(3 citation statements)

References 23 publications

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“…Ultrasonography and radiological methods, such as x-rays and computed tomography, are used in order to better assess bone ossification and tooth formation [10][11][12]. Earlier relevant studies in the Polish population were based on anthropometric measurements of bone shafts and primary ossification centers in the skull [13][14][15][16][17].…”

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confidence: 99%

Skeletal and dental age estimation via postmortem computed tomography in Polish subadults group

2023

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This article is a retrospective analysis of postmortem computed tomography scans of ossification stages of the anterior and posterior intra-occipital sutures, the anterior arch of the atlas, and the neurocentral junction of the axis. We also analyzed the development of secondary ossification centers in the proximal humeral, femoral, and tibial epiphyses, and the distal femoral and tibial epiphyses. Additionally, the development of primary ossification centers in the wrist and metacarpals, and maxillary and mandibular deciduous tooth maturation. A total of 58 cadavers (35 males, 23 females), whose age ranged from 3rd month of pregnancy to 14 years, were analyzed. The results of this study show that analysis of synchondrosis closure, primary, and secondary ossification center development and deciduous tooth changes are a good tool for age estimation in subadults group (fetuses, newborns, infants, and children). The results of the study in a Polish population are consistent with those reported by other authors.

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Section: Introductionmentioning

confidence: 99%

Skeletal and dental age estimation via postmortem computed tomography in Polish subadults group

2023

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“…It has been demonstrated that the development of the lower limb consists mainly of its growth [13][14][15].…”

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confidence: 99%

The morphometrical and topographical evaluation of the superior gluteal nerve in the prenatal period

et al. 2022

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Introduction Advances in medical science are helping to break down the barriers to surgery. In the near future, neonatal or in utero operations will become the standard for the treatment of defects in the human motor system. In order to carry out such procedures properly, detailed knowledge of fetal anatomy is necessary. It must be presented in an attractive way not only for anatomists but also for potential clinicians who will use this knowledge in contact with young patients. This work responds to this demand and presents the anatomy of the superior gluteal nerve in human fetuses in an innovative way. The aim of this work is to determine the topography and morphometry of the superior gluteal nerve in the prenatal period. We chose the superior gluteal nerve as the object of our study because of its clinical significance—for the practice of planning and carrying out hip surgery and when performing intramuscular injections. Material and methods The study was carried out on 40 human fetuses (20 females and 20 males) aged from 15 to 29 weeks (total body length v-pl from 130 to 345 mm). Following methods were used: anthropological, preparatory, image acquisition with a digital camera, computer measurement system Scion for Windows 4.0.3.2 Alpha and Image J (accuracy up to 0.01 mm without damaging the unique fetal material) and statistical methods. Results The superior gluteal nerve innervates three physiologically significant muscles of the lower limb’s girdle: gluteus medius muscle, gluteus minimus muscle and tensor fasciae latae muscle. In this study the width of the main trunk of the nerve supplying each of these three muscles was measured and the position of the nerve after leaving the suprapiriform foramen was observed. A unique typology of the distribution of branches of the examined nerve has been created. The bushy and tree forms were distinguished. There was no correlation between the occurrence of tree and bushy forms with the body side (p > 0.05), but it was shown that the frequency of the occurrence of the bushy form in male fetuses is significantly higher than in female fetuses (p < 0.01). Proportional and symmetrical nerve growth dynamics were confirmed and no statistically significant sexual dimorphism was demonstrated (p > 0.05). Conclusions The anatomy of the superior gluteal nerve during prenatal period has been determined. We have identified two morphological forms of it. We have observed no differences between right and left superior gluteal nerve and no sexual dimorphism. The demonstrated high variability of terminal branches of the examined nerve indicates the risk of neurological complications in the case of too deep intramuscular injections and limits the range of potential surgical interventions in the gluteal region. The above research may be of practical importance, for example for hip surgery.

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“…The actual process of "intracartilaginous ossification" is triggered shortly thereafter, around GD14-GD15 in mouse, when the hypertrophic chondrocytes in the center of the cartilage anlage become invaded by blood vessels along with osteoclasts and osteoprogenitors from the surrounding perichondrium [14]. As a result, the cartilage anlage is progressively eroded and replaced by trabecular bone and bone marrow, a region initially termed the POC [21]. The ends of the long bones (with the exception of the metatarsals and phalanges) start to show epiphysis shaping (Figure 3).…”

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Age-related histological changes in rat tibia

Chen

Tan

et al. 2021

Folia Morphol

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Morphometric study of the primary ossification center of the fibular shaft in the human fetus

Cited by 5 publications

References 23 publications

Skeletal and dental age estimation via postmortem computed tomography in Polish subadults group

Skeletal and dental age estimation via postmortem computed tomography in Polish subadults group

The morphometrical and topographical evaluation of the superior gluteal nerve in the prenatal period

Age-related histological changes in rat tibia

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