Longitudinal postnatal growth of the first metatarsal bone
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References
2009.
2. Roche AF. The sites of elongation of human metacarpals and metatarsals. Acta Anat 1965;61:193-202.
3. Pyle I, Sontag LW. Variability in onset of ossification in epiphyses and short bones of the extremities. Am J Roentgenol
1943;49:795-8.
4. Holden D, Siff S, Butler J, Cain T. Shortening of the first metatarsal as a complication of metatarsal osteotomies. J Bone Joint
Surg Am 1984;66(4):582-7.
5. Gardner E, Gray DJ, O’Rahilly R. The prenatal development of the skeleton and joints of the human foot. J Bone Joint Surg
Am 1959;41:847-76.
6. Anderson M, Blais MM, Green WT. Lengths of the growing foot. J Bone Joint Surg Am 1956;38:998-1000.
7. Anderson M, Green WT. Lengths of the femur and the tibia; norms derived from orthoroentgenograms of children from 5 years
of age until epiphysial closure. Am J Dis Child 1948;75:279-90.
8. Anderson M, Blais M, Green WT. Growth of the normal foot during childhood and adolescence; length of the foot and
interrelations of foot, stature, and lower extremity as seen in serialrecords of children between 1–18 years of age. Am J Phys
Anthropol 1956;14:287-308.
9. Lamm BM, Paley D, Kurland DB, Matz AL, Herzenberg JE. Multiplier method for predicting adult foot length. J Pediatr
Orthop 2006;26(4):444-8.
10. McGraw MA, Mehlman CT, Lindsell CJ, Kirby CL. Postnatal growth of the clavicle: birth to eighteen years of age. J Pediatr
Orthop 2009;29(8):937-43.
11. Parikh SN, Weesner M, Welge J. Postnatal growth of the calcaneus does not simulate growth of the foot. J Pediatr Orthop
2012;32(1):93-9.
12. de Vasconcellos HA, Prates JC, Moraes LG, Rodriques HC. Growth of the human metatarsal bones in the fetal period (13-24
weeks postconception): a quantitative study. Surg Radiol Ana. 1992;14(4):315-8.
13. Simons GWA. Standardized method for the radiographic evaluation of clubfeet. Clin Orthop Relat Res 1978;135:107-18.