1 l integrity was compromised as determined by
microscopic examination.
2 r or granulofilamentous material on electron
microscopic examination.
3 died with high-resolution light and electron
microscopic examination.
4 tissue samples were obtained at autopsy for
microscopic examination.
5 ples overnight on agar plates, followed by a
microscopic examination.
6 specimens (29%) showed bile leak at gross or
microscopic examination.
7 infected erythrocytes cannot be detected by
microscopic examination.
8 cleolar structure by both light and electron
microscopic examination.
9 f neurones could not be predicted from light
microscopic examination.
10 idney was harvested and fixed for subsequent
microscopic examination.
11 ty to detect parasites in blood with that of
microscopic examination.
12 stems by a capsid protein assay and electron
microscopic examination.
13 mata and large calibre dendrites on electron
microscopic examination.
14 to their brains being prepared for electron
microscopic examination.
15 of lower parasitemia than can be detected by
microscopic examination.
16 of human BrM (age range, 27-78) for electron
microscopic examination.
17 by an aminopyrine uptake assay and confocal
microscopic examination.
18 ater stages of life (3-30 dpf) and fixed for
microscopic examination.
19 e quality of the centerpieces as assessed by
microscopic examination.
20 nt discharge was collected and submitted for
microscopic examination.
21 on negative results obtained from extensive
microscopic examinations.
22 clitaxel-dependent cell growth, and electron
microscopic examinations.
23 its could be preserved for scanning electron
microscopic examination after the 4-hr study.
24 DNs over 48 hr, and growth was determined by
microscopic examination and [3H]hypoxanthine incorporati
25 As well as being suitable for traditional
microscopic examination and automated slide scanning app
26 Electron
microscopic examination and biochemical analyses of HDL
27 urified vdeltaD10 virions appeared normal by
microscopic examination and biochemical analysis but pro
28 viduals of all ages provided blood films for
microscopic examination and blood spots on filter paper.
29 The diagnosis was made by
microscopic examination and culture of a brain biopsy.
30 The diagnosis was made by
microscopic examination and culture of the excised valve
31 The diagnosis of C. immitis was made by
microscopic examination and culture of the organism from
32 excised for light and transmission electron
microscopic examination and histochemical and cell kinet
33 Based upon electron
microscopic examination and immunocytochemical analyses
34 ing structures were processed for both light
microscopic examination and immunohistochemical staining
35 prompt acquisition of appropriate tissue for
microscopic examination and microbiologic culture.
36 fter ischemia, eyes were perfusion fixed for
microscopic examination and quantification of layer thic
37 Confocal
microscopic examination and quantitation of expression o
38 hafts) were selected for correlated electron
microscopic examination and serially sectioned; all four
39 analyzed via transfer function measurements,
microscopic examination and standard MTT viability assay
40 ude a greater sensitivity compared to direct
microscopic examination and the ease of testing large nu
41 Scanning electron
microscopic examination and Von Willebrand factor staini
42 Molecular genetic tools,
microscopic examination and whole-cell bacterial biosens
43 sicles by a fluorescence quenching assay, by
microscopic examination,
and by association with deterge
44 ties, such as packaging and shipping, direct
microscopic examination,
and culture modalities solely i
45 by histologic and immunohistologic analysis,
microscopic examination,
and microfocal computed tomogra
46 ities related to specimen processing, direct
microscopic examination,
and rapid nonmolecular testing,
47 osecretory granules were evident by electron
microscopic examination,
and the clear cells additionall
48 th the microtubules, as observed by confocal
microscopic examination,
and the colocalization was abol
49 alopecia underwent scalp dermoscopy, direct
microscopic examinations,
and mycological cultures of sk
50 Brain infarcts were identified on gross and
microscopic examinations,
and severity of cerebral vesse
51 idespread, microvesicular steatosis on light-
microscopic examination,
but only electron-microscopic e
52 Electron
microscopic examination confirmed that most of the 150Q
53 Electron
microscopic examination confirmed the presence of photor
54 Electron
microscopic examination confirmed these observations and
55 (c) attenuated denucleation during confocal
microscopic examination, (
d) disrupted normal fiber cell
56 In addition, confocal and scanning electron
microscopic examination demonstrated that chitosan penet
57 Confocal
microscopic examination demonstrated that nearly all NK1
58 Electron
microscopic examination demonstrated that the large clus
59 Electron
microscopic examination demonstrated the presence of enl
60 Electron
microscopic examination directly demonstrated that SOM a
61 Fluorescence
microscopic examination disclosed increased local accumu
62 Light
microscopic examination disclosed survival of the transp
63 le parasites were intermittently detected by
microscopic examination during that period.
64 ation and structure during scanning electron
microscopic examination, (
e) distorted posterior suture
65 Electron
microscopic examination (
EM) of these fractions revealed
66 importance of submitting excised tissues for
microscopic examination even when the lesion appears tot
67 Scanning electron
microscopic examination fibroblasts cultured directly on
68 ain reaction (PCR)-based diagnostics, direct
microscopic examination,
fluorescence in situ hybridizat
69 thod is superior to the traditional electron
microscopic examination for assessing the frequency of d
70 4 of 552 (55%) were also evaluated by direct
microscopic examination for the characteristic motile or
71 amples was significantly more sensitive than
microscopic examination for the detection of Onchocerca
72 Congo red staining and electron
microscopic examination in negative staining of aged sam
73 In addition, electron
microscopic examination in optimally fixed cells reveale
74 Microscopic examination incorrectly suggested the presen
75 clear cells were added to the lower chamber,
microscopic examination indicated a migration of the mon
76 Moreover, electron
microscopic examination indicated that actin binding at
77 Intravital
microscopic examination indicated that large regions of
78 Microscopic examination indicated that the restored coni
79 Our
microscopic examination indicates that normal VCD fibril
80 without evidence of trichomonosis on direct
microscopic examination is a valid diagnostic procedure.
81 A new method for preparing cells for
microscopic examination is presented in which cell mixtu
82 Furthermore, electron
microscopic examination of 5bromo-4-chloro-3-indolyl-bet
83 Electron
microscopic examination of a sample of these varicositie
84 Microscopic examination of acid-fast-stained sputum smea
85 Light
microscopic examination of adult tissue revealed numerou
86 surfactant protein A, B, and C, and electron
microscopic examination of alveolar cells, there was no
87 Light
microscopic examination of an enucleated globe as well a
88 orted pedigree with PACD, light and electron
microscopic examination of an excised corneal button, ge
89 Microscopic examination of atherosclerotic plaques revea
90 Microscopic examination of blood revealed infection with
91 nt gold standard for detection of Babesia is
microscopic examination of blood smears, accurate identi
92 Electron
microscopic examination of bNOS-labeled cells showed syn
93 thogenesis of the dementia is not known, but
microscopic examination of brain tissue from those affli
94 Light
microscopic examination of brain, kidney, and spleen sho
95 rescence-activated cell sorting analysis and
microscopic examination of bud formation indicate that t
96 Confocal
microscopic examination of C. jejuni-infected cells reve
97 Microscopic examination of capsule synthesis by the muta
98 Microscopic examination of cells grown at low arabinose
99 Electron
microscopic examination of cells infected in the absence
100 Electron
microscopic examination of cells infected with vH3Delta
101 hological features were observed by electron
microscopic examination of chlamydia-infected cells expo
102 Based on light
microscopic examination of Congo red-stained sections of
103 Electron
microscopic examination of control versus DAB-treated tr
104 On
microscopic examination of cross sections of 50 separate
105 eath thickness was determined by an electron
microscopic examination of cross sections of the vertica
106 Microscopic examination of cultures growing on S(0) demo
107 ibrinogen, and proliferation was assessed by
microscopic examination of cultures, incorporation of [3
108 Microscopic examination of cutaneous biopsy and pulmonar
109 rogression, parasite numbers, and macro- and
microscopic examination of cutaneous lesions.
110 Electron
microscopic examination of delta vps9 cells revealed the
111 Electron
microscopic examination of dendritic and cell body membr
112 We tested this hypothesis by electron
microscopic examination of DRN sections dually labeled f
113 Immunofluorescence confocal
microscopic examination of epithelial cells detected con
114 Fast confocal reflectance
microscopic examination of excisions (of any thickness)
115 Finally, electron-
microscopic examination of extracts from the Stx2d1-prod
116 Microscopic examination of feces is a standard laborator
117 Microscopic examination of fixed seawater and sea ice sa
118 is generally made by detecting parasites by
microscopic examination of fresh blood.
119 he demonstration of live organisms by direct
microscopic examination of fresh feces or by fecal cultu
120 Microscopic examination of fresh tumor specimens exhibit
121 Results of confocal
microscopic examination of germinating conidia of the ge
122 We compared a nested PCR assay and
microscopic examination of Giemsa-stained blood films fo
123 (75.7%) than each conventional method, i.e.,
microscopic examination of Giemsa-stained lesion scrapin
124 Transmission electron
microscopic examination of glutaraldehyde-fixed medium-s
125 The
microscopic examination of Gram-stained sputum specimens
126 Thus,
microscopic examination of Gram-stained, concentrated CS
127 Microscopic examination of H&E stained sections showed a
128 Microscopic examination of hematoxylin and eosin-stained
129 cles removed at necropsy were studied by (i)
microscopic examination of hematoxylin-eosin-stained sec
130 Electron
microscopic examination of hippocampal synapses revealed
131 localized to basophilic granules by electron
microscopic examination of immunogold staining.
132 In addition, scanning electron
microscopic examination of in vitro-infected intestinal
133 i pneumonia (PCP) can be diagnosed by direct
microscopic examination of induced sputum or by bronchoa
134 An electron
microscopic examination of infected cells indicated that
135 Electron
microscopic examination of infected cells revealed that
136 A detailed
microscopic examination of infected embryos revealed tha
137 Electron
microscopic examination of inhibited primary mesenchyme
138 Electron
microscopic examination of intact virions revealed that
139 Intravital
microscopic examination of iris microvasculature was per
140 Electron
microscopic examination of isolated tau filaments demons
141 eculum by scanning and transmission electron
microscopic examination of its ultrastructure, visible a
142 Electron
microscopic examination of leaf samples revealed a rapid
143 The survival data, in addition to
microscopic examination of lung and trachea sections, sh
144 Microscopic examination of LV sections from DOX-treated
145 ozoon-like species was diagnosed by electron
microscopic examination of material obtained from the sk
146 Electron
microscopic examination of MC boutons revealed that all
147 membrane biotinylation studies and confocal
microscopic examination of mCherry-tagged MCT1 indicate
148 Microscopic examination of MDCK-D1 cells expressing carb
149 Electron
microscopic examination of MUCTag6 intestinal villi reve
150 Microscopic examination of murine bladders at the comple
151 Conventional transmission electron
microscopic examination of murine embryonic fibroblasts
152 ated with Masson's trichrome stain for light
microscopic examination of muscle fibers (red) and surro
153 Microscopic examination of mutant embryos reveals the pr
154 Semiquantitative electron
microscopic examination of p75NTR-labeled sections showe
155 Microscopic examination of peritoneal exudates from infe
156 Colony counts and direct
microscopic examination of phagocytized E. coli supporte
157 g many aspects of human atherosclerosis, but
microscopic examination of plaques is possible only post
158 inversions, identical at the level of light
microscopic examination of polytene chromosomes, may not
159 Confocal
microscopic examination of porcine CAT-1-GFP-expressing
160 just prior to virion release, since electron
microscopic examination of PPPA mutant-infected cells sh
161 Electron
microscopic examination of primary tissues revealed intr
162 Electron
microscopic examination of purified gp26 indicates that
163 Electron
microscopic examination of rat brain sections containing
164 Microscopic examination of respiratory specimens for aci
165 Electron
microscopic examination of retinas at postnatal day 17 r
166 measured by drop plate counting and direct,
microscopic examination of roots.
167 Electron
microscopic examination of sections labeled for DOR reve
168 in vivo optical imaging and were refined by
microscopic examination of selected target tissues.
169 One of these growth media and
microscopic examination of shaken broth cultures can be
170 Electron-
microscopic examination of Shigella expressing CS4 confi
171 lite cell was first identified when electron
microscopic examination of skeletal muscle demonstrated
172 se of conventional tests (colony morphology,
microscopic examination of slide cultures, and, for susp
173 Microscopic examination of sloughing cells indicates the
174 Electron
microscopic examination of SMI-32-stained tissue reveale
175 Microscopic examination of sperm morphology showed an in
176 Microscopic examination of sperm revealed large round he
177 Microscopic examination of spheroids after BAL treatment
178 Microscopic examination of spinal cords from affected do
179 ning plants from a mutagenized population by
microscopic examination of stem sections.
180 Microscopic examination of stool from one renal transpla
181 te recent advances in diagnostic technology,
microscopic examination of stool specimens remains centr
182 distribution; immunofluorescent and electron
microscopic examination of subcellular localization; cha
183 Microscopic examination of the acute-phase blood smear t
184 Electron
microscopic examination of the adult dentate gyrus revea
185 Electron
microscopic examination of the anterior basolateral nucl
186 by the presence of the parasite after direct
microscopic examination of the blood or other biological
187 Microscopic examination of the brain and spinal cord of
188 Transmission electron
microscopic examination of the broken nanotube fragments
189 Electron
microscopic examination of the cerebellar molecular laye
190 Scanning electron
microscopic examination of the circuits revealed that in
191 investigation provides a light and electron
microscopic examination of the development of serotonin-
192 In addition, electron
microscopic examination of the highly active transcripti
193 Electron
microscopic examination of the HRG-induced UB revealed t
194 In the present study, light
microscopic examination of the immunohistochemical local
195 Microscopic examination of the inhibited FtsZ polymers r
196 Microscopic examination of the MALDI sample deposit was
197 Light
microscopic examination of the mouse hippocampal formati
198 thin sections - with subsequent staining and
microscopic examination of the multiple sections-provide
199 s, providing a potentially valuable tool for
microscopic examination of the normal and diseased livin
200 Light
microscopic examination of the PIMI and Linplant animals
201 Scanning and transmission electron-
microscopic examination of the rat liver sinusoid was pe
202 Light
microscopic examination of the retinas showed that compa
203 The
microscopic examination of the samples confirmed the ini
204 Electron
microscopic examination of the sciatic nerve revealed a
205 Microscopic examination of the sponge matrix revealed we
206 Diagnosis is made by a
microscopic examination of the stool and the use of appr
207 Microscopic examination of the subcellular localization
208 Immunoelectron
microscopic examination of the subcellular localization
209 Additionally,
microscopic examination of the surfaces of infected appl
210 Microscopic examination of the thickened gingiva reveale
211 Immunofluorescence and electron
microscopic examination of the transfected PE cells show
212 Microscopic examination of the valve revealed endocardit
213 Microscopic examination of the water plumbing lines reve
214 Electron
microscopic examination of these active complexes indica
215 Transmission electron
microscopic examination of these cells revealed that the
216 Electron
microscopic examination of these mutants revealed the de
217 Microscopic examination of these terminal structures rev
218 Although
microscopic examination of thick and thin blood films re
219 sing the cremaster muscle that allows direct
microscopic examination of thrombus formation and adhesi
220 Fluorescent
microscopic examination of transiently expressed YFP-tag
221 Microscopic examination of tumors coexposed to the Robo4
222 ely to have gram-negative diplococci seen on
microscopic examination of urethral discharge (P < or =
223 a combination of biochemical investigations,
microscopic examination of urine under polarised light,
224 Traditional detection methods rely on
microscopic examination of vaginal specimens (wet mount)
225 We demonstrate, using intravital
microscopic examination of venules inflamed with tumor n
226 Diagnostic laboratory testing included
microscopic examination of Wright-stained peripheral blo
227 Gross and
microscopic examinations of corneas and eyelids were per
228 Gross pathologic and light
microscopic examinations of each organ, as well as the p
229 Compared with the results for duplicate
microscopic examinations of Giemsa-stained blood smears
230 Histopathological approaches, which rely on
microscopic examinations of malignant tissue, are not co
231 urther verified experimentally by time-lapse
microscopic examinations of the snf1Delta strain.
232 phil-target cell aggregates were observed by
microscopic examination only under low hydrodynamic shea
233 were either processed for light and electron
microscopic examination or extracted for proteinase and
234 ods and may be an appropriate substitute for
microscopic examination or immunoassays.
235 ion of Mycobacterium tuberculosis culture or
microscopic examination;
or any adverse event defined cl
236 Electron
microscopic examination revealed a number of immature fe
237 Microscopic examination revealed a progressive loss of s
238 Confocal
microscopic examination revealed a reduction of cerebral
239 Microscopic examination revealed binding of B. turicatae
240 Electron
microscopic examination revealed differences in the syna
241 Confocal
microscopic examination revealed elevated superoxide lev
242 Light
microscopic examination revealed free blood islands (BI)
243 subjects, a women who died at age 85 years;
microscopic examination revealed intranuclear neuronal a
244 Microscopic examination revealed masses of hepatocytes i
245 Electron
microscopic examination revealed perfect double-stranded
246 Electron
microscopic examination revealed severe structural chang
247 subsequent development through gastrulation,
microscopic examination revealed that 19 of 114 injected
248 Light and electron
microscopic examination revealed that 48-65% of cell bod
249 Microscopic examination revealed that a large percentage
250 Fluorescent
microscopic examination revealed that acellular calcific
251 Electron
microscopic examination revealed that both kinds of cort
252 Light
microscopic examination revealed that DOX-induced myocar
253 Microscopic examination revealed that the persistent par
254 Electron
microscopic examination revealed that VacA treatment dis
255 UTP nick end labeling staining and electron
microscopic examination revealed the degeneration in hyp
256 Electron
microscopic examination revealed the existence of autoph
257 Microscopic examinations revealed an inhomogeneous distr
258 Microscopic examinations revealed that the ompA mutant f
259 cids/peptides was severely compromised, with
microscopic examination revealing conidial-base germ tub
260 Transmission and scanning electron
microscopic examination reveals the nanofiber networks o
261 Incisional biopsies were performed, and
microscopic examination showed a cellular proliferation
262 Microscopic examination showed a clear change of morphol
263 Polarizing light
microscopic examination showed alternating light and dar
264 Electron
microscopic examination showed chromatin condensation an
265 Microscopic examination showed complete sloughing of the
266 Direct
microscopic examination showed fungal infection and resu
267 Microscopic examination showed myocyte degeneration and
268 Light
microscopic examination showed only loss of RGCs and the
269 t-microscopic examination, but only electron-
microscopic examination showed severe microvesicular ste
270 IHC and electron
microscopic examination showed that endothelial cells, m
271 o be involved in agglutination, and electron
microscopic examination showed that esg and the other Cd
272 Optical
microscopic examination showed that matrix crystals were
273 des (FlaB2, FlaB3, FlaD, and FlaE); electron
microscopic examination showed that most of these cells
274 Electron
microscopic examination showed that the mutant was devel
275 Microscopic examination showed that the testes were comp
276 Microscopic examination showed unusual glial fibrillary
277 Electron
microscopic examination shows focal areas of podocyte fo
278 Microscopic examination suggests that FcgammaRIIB defici
279 and, as determined by transmission electron
microscopic examination,
that the bacteria exist within
280 At
microscopic examination,
these cavities were perivascula
281 Sap was seen by
microscopic examination to flow primarily from the fasci
282 Confocal
microscopic examination using anti-JMJ antibodies indica
283 d sealed throughout the 73-day study period (
microscopic examination was carried out directly 48 thro
284 A light
microscopic examination was performed to study the histo
285 Intravital
microscopic examination was used to assess leukocyte/end
286 Using confocal
microscopic examination,
we found that LR was localized
287 wenty-nine placental vascular variables from
microscopic examinations were grouped into 5 constructs:
288 , immunohistochemical, and scanning electron
microscopic examinations were performed.
289 ria generated from plate counting and direct
microscopic examinations were used to evaluate these RAW
290 d was positive and no parasites were seen by
microscopic examination,
whereas the reverse was true in
291 Based on electron
microscopic examination,
which showed that rod-rod and c
292 Upon excision, the tissue was submitted for
microscopic examination,
with the expectation that the l