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1 s in attenuation between vessel segments and lumbar vertebrae.
2 limb autopod and a decrease in the number of lumbar vertebrae.
3 the cross-sectional area and density of the lumbar vertebrae.
4 developing thoracic and a variable number of lumbar vertebrae.
5 r of thoracic vertebrae as well as number of lumbar vertebrae.
6 ort hind legs, aberrant limb features, split lumbar vertebrae, abnormal rib patterning, and pathologi
7 re calculated from manual delineation of the lumbar vertebrae and blood samples, assuming a fixed RM-
9 ivo BMD assessment of the trabecular bone of lumbar vertebrae and enables freely rotatable color-code
10 sediba likely possessed five non-rib-bearing lumbar vertebrae and five sacral elements, the same conf
12 region with the largest effect for number of lumbar vertebrae and thoracolumbar vertebrae were locate
13 ional areas of IAAT (at the fourth and fifth lumbar vertebrae) and subcutaneous abdominal adipose tis
14 Regions of interest were drawn over several lumbar vertebrae, and red marrow activity concentration
16 ntial to set the transition from thoracic to lumbar vertebrae because of their rib-repressing activit
17 r 10-mm slices between the second and fourth lumbar vertebrae by an inverse recovery method, and IAF
18 related much better with dose estimated from lumbar vertebrae imaging and patient-specific marrow mas
19 ere obtained at the first, second, and third lumbar vertebrae in 1222 healthy white male and female s
20 his vessel segment typically overlapped with lumbar vertebrae in anterior and posterior whole-body im
21 -subunit gene Gnai3 have fusions of ribs and lumbar vertebrae, indicating a requirement for Galpha(i)
22 the uncertainties in image quantification of lumbar vertebrae is correction for radioactivity in larg
26 row in the femoral and humeral heads and the lumbar vertebrae (L3 and L4) which were 0.66 +/- 0.3, 1.
27 axial image measured between the 4th and 5th lumbar vertebrae (L4-L5) is most frequently chosen to ap
28 tment reduced intervertebral disc defects of lumbar vertebrae, loss of synchondroses, and foramen-mag
29 s mean is 76% of the mean marrow volume of 3 lumbar vertebrae measured in some of these patients.
32 ae; the mean number of affected thoracic and lumbar vertebrae per patient were 5.4 and 1.8, respectiv
34 uential, quantitative images of the body and lumbar vertebrae, respectively, and that in blood using
35 ography (microCT) analyses of the femurs and lumbar vertebrae revealed delayed or incomplete endochon
38 higher turnover rate in the humerus than in lumbar vertebrae, suggesting enhanced bone formation and
39 63 (45%) of 588 thoracic and 86 (35%) of 245 lumbar vertebrae; the mean number of affected thoracic a
40 a derived curvature and reinforcement of the lumbar vertebrae to compensate for this bipedal obstetri
42 ts at the levels of the first through fourth lumbar vertebrae was graded by a previously validated ra
43 Although the total biomechanical strength of lumbar vertebrae was reduced by 35%, the strength of the
45 rta at the level of the first through fourth lumbar vertebrae were graded according to increasing sev
46 nsity and bone mineral content in femurs and lumbar vertebrae when compared with the wild-type (WT) l
47 mary outcome was bone-mineral density of the lumbar vertebrae, with bone-mineral density at other sit
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