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Prenatal development of the musculoskeletal system in the human

from Part III - Prenatal development and the newborn

Published online by Cambridge University Press:  26 October 2017

Brian Hopkins
Affiliation:
Lancaster University
Elena Geangu
Affiliation:
Lancaster University
Sally Linkenauger
Affiliation:
Lancaster University
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Publisher: Cambridge University Press
Print publication year: 2017

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References

Further reading

Buckingham, M. (2006). Myogenic progenitor cells and skeletal myogenesis in vertebrates. Current Opinion in Genetics & Development, 16, 525532.CrossRefGoogle ScholarPubMed
Nitzan, E., & Kalcheim, C. (2013). Neural crest and somitic mesoderm as paradigms to investigate cell fate decisions during development. Development, Growth & Differentiation, 55, 6078.CrossRefGoogle ScholarPubMed
Paxton, J.Z., Baar, K., & Grover, L.M. (2012). Current progress in enthesis repair: Strategies for interfacial tissue engineering. Orthopedic and Muscular System, S1, 003.Google Scholar
Tuan, R.S. (1998). Cellular and molecular regulation of embryonic skeletal development and morphogenesis. Cells and Materials, 8, 318.Google Scholar

References

Blechschmidt, E. (1978). Anatomie und ontogenese des menschen. Heidelberg: Quelle & Meyer.Google Scholar
Buckingham, M., & Rigby, P.W. (2014). Gene regulatory networks and transcriptional mechanisms that control myogenesis. Developmental Cell, 28, 225238.CrossRefGoogle ScholarPubMed
Charvet, B., Ruggiero, F., & Le Guellec, D. (2012). The development of the myotendinous junction: A review. Muscles Ligaments and Tendons Journal, 2, 5363.Google ScholarPubMed
Decker, R.S., Koyama, E., & Pacifici, M. (2014). Genesis and morphogenesis of limb synovial joints and articular cartilage. Matrix Biology, 39, 510.CrossRefGoogle ScholarPubMed
Gibson, G. (1998). Active role of chondrocyte apoptosis in endochondral ossification. Microscopy Research and Technique, 43, 191204.Google Scholar
Gibson, G., Lin, D.L., Wang, X., & Zhang, L. (2001). The release and activation of transforming growth factor beta2 associated with apoptosis of chick hypertrophic chondrocytes. Journal of Bone and Mineral Research, 16, 23302338.CrossRefGoogle ScholarPubMed
Kalcheim, C., & Ben-Yair, R. (2005). Cell rearrangements during development of the somite and its derivatives. Current Opinions in Genetics and Development, 15, 371380.CrossRefGoogle ScholarPubMed
Nowlan, N.C., Murphy, P.M, & Prendergast, P.J. (2007). Mechanobiology of embryonic limb development. Annals of the New York Academy of Sciences, 1001, 389411.CrossRefGoogle Scholar
Nowlan, N.C., Prendergast, P.J., & Murphy, P. (2008) Identification of mechanosensitive genes during embryonic bone formation. PloS Computational Biology, 4, e1000250.CrossRefGoogle ScholarPubMed
Pacifici, M., Koyama, E., & Iwamoto, M. (2005). Mechanisms of synovial joint and articular cartilage formation: Recent advances, but many lingering mysteries. Birth Defects Res C Embryo Today, 75, 237–48.CrossRefGoogle ScholarPubMed
Romero, N.B., Mezmezian, M., & Fidzianska, A. (2013). Main steps of skeletal muscle development in the human: Morphological analysis and ultrastructural characteristics of developing human muscle. In Dulac, O., Lassonde, M., & Sarnat, H.B. (Eds.), Handbook of clinical neurology: Pediatric neurology, Part III (1st ed., pp. 12991310). London, UK: Elsevier.Google Scholar
Standring, S. (Ed.). Gray’s anatomy: The anatomical basis of clinical practice (40th ed.) London, UK: Churchill Livingstone/Elsevier.Google Scholar
Thomopoulos, S., Genin, G.M., & Galatz, L.M. (2010). The development and morphogenesis of the tendon-to-bone insertion: What development can teach us about healing. Journal of Musculoskeletal and Neuronal Interactions, 10, 3545.Google ScholarPubMed
Zelzer, E., Blitz, E., Killian, M.L., & Thomopoulos, S. (2014). Tendon-to-bone attachment: From development to maturity. Birth Defects Research Part C: Embryo Today, 102, 101112.CrossRefGoogle ScholarPubMed

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