1 Further
histomorphometric analyses and gene expression studies d
2 Histomorphometric analyses at secondary spongiosa of the
3 In this report,
histomorphometric analyses confirmed increased alveolar
4 evaluated with microcomputed tomographic and
histomorphometric analyses for blood vessel and bone for
5 Histomorphometric analyses included measurements of epit
6 racerebroventricular (ICV) infusion and bone
histomorphometric analyses of bone parameters.
7 Histomorphometric analyses of ileum, jejunum and Peyer's
8 Histomorphometric analyses of the implant-soft tissue in
9 hese D2J mice, micro-computed tomography and
histomorphometric analyses revealed increased cortical t
10 Histomorphometric analyses revealed similar percentages
11 Histologic and
histomorphometric analyses revealed statistically that t
12 Static and dynamic bone
histomorphometric analyses revealed that Prkaa1(-/-) mic
13 Histomorphometric analyses showed significant increases
14 ltiple time points, molecular, cellular, and
histomorphometric analyses were performed to quantitativ
15 The jaws were resected and
histomorphometric analyses were performed.
16 use of histologic, immunohistochemical, and
histomorphometric analyses.
17 as evaluated by microcomputed tomography and
histomorphometric analyses.
18 as assessed by micro-computed tomography and
histomorphometric analyses.
19 l bone junction as determined by MicroCT and
histomorphometric analyses.
20 vity correlated with bone volume measured on
histomorphometric analysis (P < 0.005).
21 t difference between the two groups based on
histomorphometric analysis (P <0.05).
22 ently, the iliac arteries were harvested for
histomorphometric analysis and measurements of NO.
23 Digital
histomorphometric analysis assessed cellular fill within
24 Histomorphometric analysis at 2 weeks showed inhibition
25 Histomorphometric analysis confirmed low bone volume par
26 Histomorphometric analysis confirmed that trabecular bon
27 Histomorphometric analysis demonstrated a mean percentag
28 Histomorphometric analysis demonstrated increased osteob
29 Histomorphometric analysis demonstrated that osteoclasts
30 Histomorphometric analysis included the percentage of ne
31 e-to-implant interface in the Osx group, and
histomorphometric analysis indicated an elevated level o
32 Histomorphometric analysis of adipose tissue specimens r
33 Histomorphometric analysis of bone at 6 wk revealed sign
34 By tetracycline-labeled
histomorphometric analysis of bone biopsies taken at the
35 Histomorphometric analysis of bone revealed decreased os
36 Bone
histomorphometric analysis of mouse tibiae showed that S
37 Quantitative measures were derived from a
histomorphometric analysis of new bone and residual graf
38 eased bone mineral density, as determined by
histomorphometric analysis of tetracycline-labeled cance
39 one formation and turnover, as determined by
histomorphometric analysis of tetracycline-labeled verte
40 implants were harvested at 3 and 6 weeks for
histomorphometric analysis of the newly formed mineraliz
41 In this study, we used gene expression and
histomorphometric analysis of the steady-state and napht
42 Histomorphometric analysis of the tibiae indicated that
43 xperiment, the animals were sacrificed and a
histomorphometric analysis of their retinas were perform
44 Histomorphometric analysis of tibias from mu-calpain(-/-
45 d control groups) analyses and on day 21 for
histomorphometric analysis only (n = 6 for MSC and contr
46 iced 5 mos post-treatment, with micro-CT and
histomorphometric analysis performed.
47 ed, and bone core biopsies were obtained for
histomorphometric analysis prior to dental implant place
48 Histomorphometric analysis revealed 41.81% versus 47.36%
49 Histomorphometric analysis revealed an average vital bon
50 Histomorphometric analysis revealed no significant diffe
51 Histomorphometric analysis revealed that mean %VB was 22
52 Importantly, microcomputed tomography and
histomorphometric analysis revealed that STAT5 condition
53 The
histomorphometric analysis showed a reduced trabecular n
54 At 30 days,
histomorphometric analysis showed neointimal thickness o
55 Histomorphometric analysis showed that ETC-216 treatment
56 The
histomorphometric analysis showed that the biopsy specim
57 ocks of the mandibulae were taken for masked
histomorphometric analysis to assess parameters of perio
58 Histomorphometric analysis was performed at day 14 after
59 Histomorphometric analysis was performed in patients wit
60 Histomorphometric analysis was performed to determine pe
61 Histomorphometric analysis was performed to determine pe
62 Histomorphometric analysis was performed to determine pe
63 Histomorphometric analysis was performed to determine pe
64 mice on biodegradable polymer matrices, and
histomorphometric analysis was performed to determine th
65 Histomorphometric analysis was performed to determine th
66 for tartrate-resistant acid phosphatase, and
histomorphometric analysis was performed to quantify the
67 re removed and stripped of soft tissues, and
histomorphometric analysis was performed to study alveol
68 Histomorphometric analysis was undertaken to assess the
69 ialoprotein (BSP) and osteocalcin (OCN), and
histomorphometric analysis were further done on 3-week s
70 Healing responses were measured by
histomorphometric analysis, apoptosis assay, and immunoh
71 responses were measured by morphometric and
histomorphometric analysis, apoptosis assay, and immunoh
72 Histomorphometric analysis, however, revealed that the r
73 In
histomorphometric analysis, the newly formed bone area w
74 Histomorphometric analysis, which included alveolar bone
75 on schedule, and specimens were subjected to
histomorphometric analysis.
76 volume and osteophyte area were measured by
histomorphometric analysis.
77 ongiosa and increased osteoclast surfaces on
histomorphometric analysis.
78 t acid phosphatase (TRAP) were quantified by
histomorphometric analysis.
79 ective tissue (CT)/other were determined via
histomorphometric analysis.
80 he biopsies were subjected to histologic and
histomorphometric analysis.
81 uted tomography (micro-CT) and processed for
histomorphometric analysis.
82 ounding tissue were removed and prepared for
histomorphometric analysis.
83 e healed socket before implant placement for
histomorphometric analysis.
84 and trephine core biopsies were obtained for
histomorphometric analysis.
85 submandibular lymph nodes were obtained for
histomorphometric analysis.
86 cell proliferation in vitro and reduces both
histomorphometric and angiographic restenosis in the por
87 Histomorphometric and gene expression analyses suggested
88 Histomorphometric and histopathologic analyses were perf
89 stologic sections were obtained and used for
histomorphometric and immunohistochemical analyses for t
90 orvastatin application on periodontium using
histomorphometric and immunohistochemical analysis durin
91 Histomorphometric and microtomographic analyses demonstr
92 Histomorphometric and microtomographic analyses were per
93 Histomorphometric and MR infarct size (expressed as perc
94 ully delineated within every section of each
histomorphometric and SD-OCT reconstruction.
95 tinuous and relatively planar within all 3-D
histomorphometric and SD-OCT reconstructions.
96 Median plane error was similar within
histomorphometric and SD-OCT volumes (8 microm, range 4-
97 sting of the bone-implant interface includes
histomorphometrics and biomechanical testing such as tor
98 ks later, clinical, radiographic, stability,
histomorphometric,
and microcomputed tomography (micro-C
99 pose of this study was to evaluate clinical,
histomorphometric,
and radiographic healing 4 months aft
100 Explanted arterial segments underwent either
histomorphometric assessment of effect or tracking of (1
101 tails methods for performing the transplant,
histomorphometric assessment of the graft vasculature an
102 minal OCT RNFL measurements and quantitative
histomorphometric assessments in the same eyes.
103 in the right tibiae underwent histologic and
histomorphometric assessments of the bone-to-implant con
104 Samples from the control group showed a mean
histomorphometric bone density of 34.25% +/- 10.02, whil
105 nnamoyl) anthranilic acid, on histologic and
histomorphometric changes after angioplasty or stent imp
106 However, its effect on
histomorphometric changes in coronary arteries after ang
107 Bone
histomorphometric changes were similar in PBC and PSC, s
108 enerated bone show the same radiological and
histomorphometric characteristics as in normal bone when
109 ave actually demonstrated the histologic and
histomorphometric characteristics of this anatomical reg
110 Microcomputed tomography analysis and
histomorphometric data revealed a dramatic reduction of
111 thin regions of interest was correlated with
histomorphometric data.
112 Median
histomorphometric ellipse dimensions were 1453 mum (majo
113 rmation (P = 0.018) than CMP alone, based on
histomorphometric evaluation (percentage bone area: test
114 Histomorphometric evaluation of the grafted defects reve
115 umbers and osteoblast activity based on bone
histomorphometric evaluation.
116 ved samples were subjected to histologic and
histomorphometric evaluation.
117 mposition, and histological and quantitative
histomorphometric evaluations.
118 The aim of this
histomorphometric experiment is to compare the efficacy
119 ate the progression of pulp necrosis and the
histomorphometric features of periapical lesions in scid
120 The
histomorphometric findings correlated with an increase i
121 ing were assessed using immunohistochemical,
histomorphometric,
flow cytometric, and molecular analys
122 Computer-based
histomorphometric image analysis of the percentage surfa
123 In this work, we present a computational
histomorphometric image classifier using nuclear orienta
124 m surgery, there were few differences in the
histomorphometric indices of bone formation in the humer
125 A computerized
histomorphometric linear measuring system was utilized t
126 joints, correlated with improvements in bone
histomorphometric markers, as determined by microfocal c
127 /-11.0 mm3) volumes correlated strongly with
histomorphometric measurements (26.7+/-8.5 mm3, r=0.965,
128 Histologic assessment and
histomorphometric measurements demonstrated that 1-TDC i
129 In vivo IVUS and ex vivo
histomorphometric measurements included stent, lumen and
130 The difference between the IVUS and the
histomorphometric measurements of IVUS volume was 4.1+/-
131 OCT measurements corresponded with
histomorphometric measurements of the same tissues.
132 crease in osteoclast number were observed in
histomorphometric measurements of tibiae isolated from O
133 s the peri-implant wound healing, as well as
histomorphometric measurements to determine bone-to-impl
134 Histomorphometric measurements were made by image analys
135 lar inflammatory infiltrate and quantitative
histomorphometric measurements.
136 nt bone and the periosteum was determined by
histomorphometric methods.
137 cified planar sections were assessed by bone
histomorphometric methods.
138 Histomorphometric,
molecular, and echocardiographic end
139 ction (n = 6 for MSC and control groups) and
histomorphometric (
n = 6 for MSC and control groups) ana
140 ments but no correlations were found between
histomorphometric parameters and biochemical markers of
141 Histomorphometric parameters characterizing cancellous b
142 main secondary outcome was a change in bone
histomorphometric parameters determined by analysis of b
143 (PRP) added to xenogenic bone grafts on bone
histomorphometric parameters in a dog model.
144 ated the bone mineral density as well as the
histomorphometric parameters of bone formation and bone
145 Histomorphometric parameters were evaluated in sections
146 nt area (percent stenosis) was calculated by
histomorphometric quantification in 20 stented sites.
147 f osteoclasts, detected by TRAP staining and
histomorphometric quantification.
148 generated as part of postmortem optic nerve
histomorphometric reconstructions for each eye.
149 Careful review of the
histomorphometric reconstructions identified that in mos
150 d within 40 radial, sagittal sections of 3-D
histomorphometric reconstructions of 44 normal eyes of 3
151 Histomorphometric results demonstrated an increased amou
152 Contrary to the clinical, radiographic, and
histomorphometric results, resonance frequency analysis
153 Consistent with the bone
histomorphometric results, we also determined that OF45
154 stage indicated that the computer extracted
histomorphometric score was an independent prognostic fa
155 To introduce a three-dimensional (3-D)
histomorphometric strategy for characterizing the connec
156 Histomorphometric studies done before and after ovariect
157 Histomorphometric studies of bones from bcl-XL/Tag mice
158 This confirms previous biomorphometric and
histomorphometric studies on patients with glaucoma.
159 Dynamic
histomorphometric studies show that this phenotype is ca
160 Thus, the aim of this
histomorphometric study is to evaluate the healing of pe
161 Thus, the aim of this
histomorphometric study is to evaluate the healing of pe
162 he primary objective of this study is to use
histomorphometric techniques to evaluate the concept tha
163 nd the number of blood vessels determined by
histomorphometric techniques.
164 nd combinatorial strains were analyzed using
histomorphometric techniques.