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1 ose tests; electrocardiography; and portable chest radiography).
2 not provide a microbiological diagnosis (eg, chest radiography).
3 umonia from other causes of abnormalities at chest radiography.
4 sis for evaluating clinical image quality in chest radiography.
5 mputed tomography of the chest compared with chest radiography.
6 diagnosed using clinical questionnaires and chest radiography.
7 center during 2007 underwent PA and lateral chest radiography.
8 f the lesions overlooked by human readers at chest radiography.
9 the diagnostic capabilities and influence of chest radiography.
10 , particularly the use of pulse oximetry and chest radiography.
11 onary nodules, one of which was calcified at chest radiography.
12 nd rate of false-positive results of routine chest radiography.
13 e (50%) of their 24 cancers were detected at chest radiography.
14 polymerase chain reaction to detect HIV, and chest radiography.
15 at baseline, compared with 68 (7% [5-9]) by chest radiography.
16 screen-film posteroanterior (PA) and lateral chest radiography.
17 raphy system as they are used clinically for chest radiography.
18 stic thoracentesis do not need postprocedure chest radiography.
19 raphy compared with conventional screen-film chest radiography.
20 al examination, basic laboratory testing, or chest radiography.
21 ients with positive or equivocal findings at chest radiography.
22 mortality by 20%, when compared with annual chest radiography.
23 odeficiency virus and 1703 had cavitation on chest radiography.
24 without any baseline chest images underwent chest radiography.
25 or clinical implementation of phase-contrast chest radiography.
26 ificity of low-dose computed tomography with chest radiography.
27 ings, analogous modalities are pelvic US and chest radiography.
28 L-2R and ACE levels determined and underwent chest radiography.
29 he catheter tip determined by postprocedural chest radiography.
30 and exclusion of pneumothorax compared with chest radiography.
31 identify four out of every five earlier than chest radiography.
32 pheid Inc.), tuberculin skin test (TST), and chest radiography.
33 ence of a single or multilobar infiltrate on chest radiography.
34 (1:1) to follow-up with either PET/CT or US/chest radiography.
35 d tomography (LDCT) versus those assigned to chest radiography.
36 course of antibiotics or oral steroids, and chest radiography.
37 lacement of yearly follow-up posteroanterior chest radiography.
38 compared with that diagnosed with routine US/chest radiography.
39 c, and with a right lower lobe infiltrate on chest radiography.
40 sonographic air bronchograms undetectable by chest radiography.
43 y group (26,715 to low-dose CT and 26,724 to chest radiography); 26,309 participants (98.5%) and 26,0
46 the 69,820 patients, 66,276 (95%) underwent chest radiography, 63,715 (91%) received supplemental ox
47 nd 39 of 40 relapses were identified with US/chest radiography (97.5%; P = .0001 for the equivalence
48 d with the 26,554 participants who underwent chest radiography, according to the quintile of 5-year r
49 964) with findings of pulmonary infection at chest radiography (all of whom were symptomatic) require
50 ents with findings of pulmonary infection at chest radiography (all of whom were symptomatic) require
53 alth and work questionnaire, spirometry, and chest radiography among 464 male California rice farmers
54 were included and randomized, 68 (49.6%) to chest radiography and 69 (50.4%) to low-dose computed to
55 formed by an expert sonographer, and finally chest radiography and a final evaluation performed by a
56 galy or signs of congestive heart failure on chest radiography and absence of known valve disease wer
57 presentation who underwent a combination of chest radiography and additional cardiovascular or pulmo
61 CLMs using ultrasound and MRI has increased, chest radiography and computed tomography still play imp
62 half of the examinations submitted were from chest radiography and CT (1618 of 3542 [46%]), followed
64 o identify patients with COVID-19 infection, chest radiography and CT play a vital role in the detect
72 ith the development of COVID-19 pneumonia on chest radiography and hypoxia requiring supplemental oxy
74 outline a 'basic' screening panel (including chest radiography and preliminary laboratory tests) and
75 ears for TB using diagnostic tests including chest radiography and repeated induced sputum sample tes
81 ervice Corps (IHSC) medical staffing utilize chest radiography and symptom screening as the primary s
82 er; had pneumonia that had been diagnosed by chest radiography and that was documented as being cause
85 ials and Methods Patients who underwent both chest radiography and thoracic CT within 72 hours betwee
87 ns (eg, blood cell counts, metabolic panels, chest radiography, and electrocardiography) performed wi
88 chocardiography, metabolic exercise testing, chest radiography, and hemodynamics before intervention
89 phy delivers a larger dose of radiation than chest radiography, and only 1499 (52.3%) knew that radia
91 ccult-cancer screening (basic blood testing, chest radiography, and screening for breast, cervical, a
92 he efficacy of low-dose computed tomography, chest radiography, and sputum cytologic evaluation for l
93 .8-3.8]) by CT and seven (0.7% [0.3-1.3]) by chest radiography, and stage I malignant disease in 23 (
94 participants underwent clinical evaluation, chest radiography, and testing with sputum Xpert MTB/RIF
95 lture colony count, bilateral cavitations on chest radiography, and the number of drugs the initial i
99 icting 6-y lung cancer incidence in the PLCO chest radiography arm, with sensitivities >79.8% and spe
101 cy with tomosynthesis than with conventional chest radiography, as given by the area under the receiv
102 ceiving M. vaccae had greater improvement on chest radiography at 6 months (91% vs. 77% for placebo r
103 ine or screening posteroanterior and lateral chest radiography at a university-affiliated primary car
104 ded consecutive adult patients who underwent chest radiography at one of four Danish hospitals in Jan
105 devices, and cardiac monitors who underwent chest radiography between January 2012 and January 2022.
106 s 40 years of age or older who had undergone chest radiography between January and December 2022 with
107 old patients who underwent DE PA and lateral chest radiography between March 1, 2021, and June 30, 20
108 raphs, patients with pneumonia who underwent chest radiography between October 1, 2019, and December
109 underwent several imaging studies-including chest radiography; bone scanning; contrast material-enha
110 nstances of NSCLC evident retrospectively at chest radiography but undetected by a radiologist at a t
111 trictive bronchiolitis had normal results on chest radiography, but about one quarter were found to h
112 ference standard for diagnosing pneumonia is chest radiography, but it is likely that many physicians
114 Systematic but unselective daily routine chest radiography can likely be eliminated without incre
117 ly detection of pneumothorax, most often via chest radiography, can help determine need for emergent
119 Its features have been described on plain chest radiography, chest computed tomography (CT), chest
121 icantly improved with selenium-based digital chest radiography compared with conventional screen-film
122 sented with higher mRALE scores at admission chest radiography compared with White or non-Hispanic pa
123 quires various imaging techniques, including chest radiography, computed tomographic scanning, and bo
127 management by using images from conventional chest radiography, conventional chest radiography plus D
129 l computed tomography (CT), as compared with chest radiography, could reduce mortality from lung canc
131 aluate for metastatic disease using low-cost chest radiography (CXR) and abdominal ultrasound (US) fo
132 for three specific scenarios: performance of chest radiography (CXR) as the first radiation-associate
135 ave only recently been employed to interpret chest radiography (CXR) to screen and triage people for
139 computed tomography (LDCT; n = 26,722) with chest radiography (CXR; n = 26,732) for lung cancer dete
142 ose To reduce data set size requirements for chest radiography deep learning models by using an advan
144 piratory tract, had evidence of pneumonia by chest radiography, diagnosis of pneumonia within 24 h of
145 vealed that the elimination of daily routine chest radiography did not affect either hospital or ICU
146 quired alveolar pneumonia (CAAP) and overall chest radiography examination rates in young children.
148 fever within 48 hours, respiratory symptoms, chest radiography findings consistent with pneumonia as
149 er with tomosynthesis than with conventional chest radiography for all nodules (1.49-fold, P < .001;
150 to analyze the clinical utility of screening chest radiography for asymptomatic or minimally symptoma
152 accuracy of bedside ultrasound compared with chest radiography for confirmation of central venous cat
153 sensitivity of the method was compared with chest radiography for detecting radiation-induced change
155 sion Tomosynthesis outperformed conventional chest radiography for lung nodule detection and determin
156 ikelihood ratios [LRs] for practitioners for chest radiography for pneumonia: positive LR, 4.8; evide
157 , dual-energy (DE) imaging, and conventional chest radiography for pulmonary nodule detection and man
158 the cost effectiveness of routine miniature chest radiography for screening for tuberculosis on admi
161 y hospital who had been imaged using bedside chest radiography from January 2009 to December 2020 wer
162 biotic medications (from 74.4% to 60.1%) and chest radiography (from 59.2% to 51.7%) decreased, where
163 ups: those with pericardial calcification on chest radiography (group I) and those without (group II)
165 CT examination and 4% with a false-positive chest radiography had a resulting invasive procedure.
169 owed that tuberculosis screening by (mobile) chest radiography improved screening coverage and tuberc
170 on of dark-field radiography to conventional chest radiography improves pneumothorax detection, subst
171 ults: culture/molecular + immunodiagnostic + chest radiography in 12 (27.9%) cases, immunodiagnostic
172 aphy in 12 (27.9%) cases, immunodiagnostic + chest radiography in 19 (44.2%) cases, culture/molecular
173 phy in 19 (44.2%) cases, culture/molecular + chest radiography in 2 (4.7%) cases, culture + immunodia
176 eness of low-dose CT screening compared with chest radiography in a nationally representative target
178 mined the effect of abandoning daily routine chest radiography in adults in intensive care units (ICU
179 inical assessment, tuberculin skin test, and chest radiography in all eligible children irrespective
180 gher for tomosynthesis than for conventional chest radiography in all nodule size categories (3.55-fo
181 ning has the potential to augment the use of chest radiography in clinical radiology, but challenges
182 aphic variables and to compare sonograhy and chest radiography in detecting early stages of NEC in su
184 tive and quantitative features of dark-field chest radiography in participants with pulmonary emphyse
185 n impact on radiomic diagnostic accuracy for chest radiography in patients with congestive heart fail
188 w-dose helical computed tomography (CT) with chest radiography in the screening of older current and
189 ma patients older than 14 years who received chest radiography in this prospective, observational, di
190 lure and had dyspnea, vascular congestion on chest radiography, increased plasma concentrations of na
193 However, the detection of pneumonia from chest radiography is a difficult task even for experienc
195 This result shows that systematic use of chest radiography is a useful tool for active TB screeni
197 Screening for tuberculosis with miniature chest radiography is cost effective even under a wide ra
199 leischner Society recommendations, screening chest radiography is not indicated in patients with coro
201 ver, the application of GPT-4V to real-world chest radiography is yet to be thoroughly examined.
203 ords: Dual Energy Chest Radiography, Lateral Chest Radiography, Lateral Chest X-ray Coronary Calcium,
204 tients with cough lasting 3 weeks or longer, chest radiography may be warranted in the absence of oth
206 not noted nor controlled for during portable chest radiography, may substantially alter the interpret
208 ned for TB with an algorithm using symptoms, chest radiography, molecular diagnostics, and tuberculin
209 ghest numbers of follow-up examinations were chest radiography (n=431), chest CT (n=410), abdominal C
210 Materials and Methods SupCon helped generate chest radiography networks from 821 544 chest radiograph
212 ratio of < or = 150 torr (< or = 20 kPa) and chest radiography on admission to the cardiovascular ICU
215 culture + immunodiagnostic in 1 (2.3%) case, chest radiography only in 8 (18.6%) cases, and immunodia
216 two study sites compared times for two-view chest radiography only, and those at the other two study
217 re diagnosis, of 6897 patients who had had a chest radiography, only 2296 (33%) also had spirometry.
218 e primary outcome was pneumonia diagnosed by chest radiography or by the presence of 3 respiratory in
220 Two randomized trials of screening with chest radiography or low-dose CT are currently under way
222 to other screening strategies initiated with chest radiography or symptoms, the trial of all particip
225 malnutrition) and parenchymal abnormality on chest radiography or who had cervical lymphadenopathy.
227 al staging approach including bone scanning, chest radiography, or dedicated CT and abdominopelvic so
228 lta infection, they were more likely to have chest radiography performed (difference, 9.7% [95% CI, 4
229 ildren with Omicron infection most often had chest radiography performed and received treatments; com
230 hs were selected using 2 strategies from all chest radiography performed at the hospitals, including
232 conventional chest radiography, conventional chest radiography plus DE imaging, tomosynthesis, and to
233 omography (CT) and imaging with conventional chest radiography (posteroanterior and lateral), DE imag
234 nts were examined with a clinical dark-field chest radiography prototype that simultaneously acquired
235 ronchoalveolar lavage (BAL) cell components, chest radiography, pulmonary function test results, and
237 h asthma, PECC was associated with decreased chest radiography rates among pediatric-resourced hospit
239 al computed tomography (CT) rather than with chest radiography reduced mortality from lung cancer.
241 ned with structured semiquantitative bedside chest radiography reports allowed nonradiologist physici
243 ng the presence or absence of 13 findings on chest radiography reports showed moderate to substantial
246 res (RR 0.82, 95% CI 0.68-0.99; I2 = 0%) and chest radiography (RR 0.81, 95% CI 0.68-0.96; I2 = 32%),
247 2-1.75; moderate certainty) and lower use of chest radiography (RR, 0.88; 95% CI, 0.79-0.98; moderate
252 examination, routine laboratory testing, and chest radiography seems to be appropriate for detecting
254 suspected influenza and lung infiltrates on chest radiography should receive early and aggressive tr
255 matic mediastinal masses depicted at routine chest radiography should undergo contrast-enhanced CT.
263 were screened for TB by symptom assessment, chest radiography, sputum testing by Xpert MTB/RIF fourt
264 isease using clinical criteria that included chest radiography staging, need for treatment, lung func
265 ure on screening by means of low-dose CT and chest radiography, suggesting that a reduction in mortal
266 r active pulmonary tuberculosis incorporated chest radiography, symptom resolution, and sputum microb
267 images acquired with the flat-panel digital chest radiography system as compared with those acquired
270 e World Health Organization (WHO) recommends chest radiography to facilitate tuberculosis (TB) screen
271 pose To evaluate the potential of dark-field chest radiography to improve the detection and assessmen
272 IF test, urinary lipoarabinomannan test, and chest radiography) to determine whether treatment for tu
273 erior mediastinal masses depicted at routine chest radiography underwent ultrasonography (US), unenha
274 examines the spectrum of imaging findings at chest radiography, US, CT, and MRI in 35 children admitt
276 pants with or without pneumothorax underwent chest radiography using a prototype system that acquires
277 as associated with alveolar consolidation at chest radiography, very severe pneumonia, oxygen saturat
281 absolute rate reduction with low-dose CT vs chest radiography was 71 deaths per 100 000 person-years
283 ening for active tuberculosis with miniature chest radiography was estimated to be $9,600 per case id
287 bclinical TB missed by symptom screening and chest radiography was rare in our mostly HIV-negative co
289 tentially resectable NSCLC lesions missed at chest radiography were characterized by predominantly pe
290 nary echinococcosis (n = 110) on preliminary chest radiography were examined with chest computed tomo
292 ronary artery aneurysms and calcification on chest radiography were unusual features in this group of
297 phs in patients who underwent cardiac CT and chest radiography within the same year, between 2013 and
299 56%-72%) specificity alone but combined with chest radiography yielded 92% sensitivity and 58% specif