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1 e includes elements of the skull, axial, and appendicular skeleton.
2 vitamin in the development of the axial and appendicular skeleton.
3 volved in global patterning of the axial and appendicular skeleton.
4 s with respect to formation of the axial and appendicular skeleton.
5 despread patterning defects of the axial and appendicular skeleton.
6 erichondrium of the craniofacial, axial, and appendicular skeleton.
7 ed form of bone loss affecting the axial and appendicular skeleton.
8 t defects that are largely restricted to the appendicular skeleton.
9 , without contributing to development of the appendicular skeleton.
10 iple defects that include bony fusion of the appendicular skeleton.
11 An operatively treated fracture of the appendicular skeleton.
12 veral non-injured bones within the axial and appendicular skeleton.
13 h the function of the pectoral girdle of the appendicular skeleton.
14 ssociated with increased osteogenesis in the appendicular skeleton.
15 or the development and maintenance of the DS appendicular skeleton.
16 terior (AP) patterning in both the axial and appendicular skeleton and acts as a regulator of Hox gen
17 abuse include separate frontal views of the appendicular skeleton and frontal and lateral views of t
18 tations in Hoxa13 cause malformations of the appendicular skeleton and genitourinary tract, including
19 e all characterised by the shortening of the appendicular skeleton and loss or abnormal development o
20 ties during the development of the zebrafish appendicular skeleton and muscles, compare our observati
21 lements arise from the paraxial somites, the appendicular skeleton and sternum arise from the somatic
22 through the cutmarks left on the cranium and appendicular skeleton and to compare mortuary protocols
23 s, widespread metaphyseal involvement of the appendicular skeleton, and carpal ossification delay.
24 ns of first and second branchial arches, the appendicular skeleton, and the dermal papillae of the vi
27 whole body (excluding head), arms, legs and appendicular skeleton at baseline and every 16 weeks.
28 thin mesenchymal precursors of the axial and appendicular skeleton, before chondrogenesis occurs.
29 uced an Lrp5 mutation in cells that form the appendicular skeleton but not in cells that form the axi
33 ing an understanding of the way in which the appendicular skeleton has evolved to provide the scaffol
36 limb, where they serve as primordia for the appendicular skeleton, is preceded by the appearance of
37 a hypomorph allele in the development of the appendicular skeleton, kidneys, and female reproductive
38 We observed an increase in the axial and appendicular skeleton lengths, and improvements in dwarf
39 ween these factors during development of the appendicular skeleton, mice were produced with various c
40 into the interactions between the axial and appendicular skeleton, model the evolution and function
42 s condensations (PCCs) in both the axial and appendicular skeleton of mouse embryos and in committed
44 creased lean body mass versus placebo in the appendicular skeleton (p = 0.050) and arms (p < 0.001).
46 and mechanistic studies, we show that in the appendicular skeleton, Rspo3 haplo-insufficiency and Rsp
48 ion of mammalian stanniocalcin (STC1) in the appendicular skeleton suggests its involvement in the re
50 IFT is essential for normal formation of the appendicular skeleton through disruption of multiple sig
51 FGFR3(K650E) expression was directed to the appendicular skeleton, we show that the mutant receptor