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1 tis diagnoses (both false positive and false negative results).
2 e-existing PVD at the time of surgery (false-negative results).
3 ikely to have confirmed IC than those with a negative result.
4 s negative it was 66.66-100% efficient for a negative result.
5 between a false-positive result and a false-negative result.
6 reduced the need for repeat testing after a negative result.
7 ion in spa, which produced a false S. aureus-negative result.
8 microbial resistance genes can lead to false-negative results.
9 -Plus and QFT-GIT, with 19% positive and 75% negative results.
10 microbiological culture techniques had shown negative results.
11 to organism ID, AST report, and preliminary negative results.
12 atalyze the reverse direction to avoid false negative results.
13 t could help exclude false-positive or false-negative results.
14 d HIV subtype were not associated with false-negative results.
15 pe claim on an independent set of data, with negative results.
16 More than 99% had clear negative results.
17 h positive CSF hCMV-PCR and 115 (84.6%) with negative results.
18 spatial attention tasks have mostly yielded negative results.
19 ing in increases in false-positive and false-negative results.
20 ult in weak antibody binding and cause false-negative results.
21 nts are often hampered by false positive and negative results.
22 cal implications of false-positive and false-negative results.
23 Only 6 RCTs (6.5%) reported negative results.
24 potentially causing false-positive and false-negative results.
25 s, BiFC can produce false positive and false negative results.
26 mised trials in drug resistant epilepsy with negative results.
27 25 of 25 true-negative samples (100%) showed negative results.
28 %; P < 0.01), with an equivalent increase in negative results.
29 ed from the transfer inoculum to avoid false-negative results.
30 AS pharyngitis and obviate backup testing on negative results.
31 positive results per volume in patients with negative results.
32 nfit newly diagnosed, patients risks falsely negative results.
33 ay, although all conventional tests provided negative results.
34 sting interval to 3 years if both tests have negative results.
35 Special stains for organisms demonstrated negative results.
36 ical potential but give high levels of false-negative results.
37 antities because of the high number of false-negative results.
38 RA binding experiments with this domain gave negative results.
39 ies but can lead to false-positive and false-negative results.
40 se-positive results without generating false-negative results.
41 e-positive results, and 44 (73%) had 0 false-negative results.
42 levels were independent predictors of false-negative results.
43 y, more toxic Hg species were evaluated with negative results.
44 challenge tests with the culprit drug yield negative results.
45 stains for an infectious cause demonstrated negative results.
46 ecurrent HCV RNA-positive tests after serial negative results.
47 produced 99.1% true-positive and 97.2% true-negative results.
48 atively increased risk of false-positive or -negative results.
49 Most patients in this series showed culture-negative results.
50 ase in the test line (T) intensity and false-negative results.
51 d not ensure complete ascertainment of false-negative results.
52 retransplant COVID-19 testing, all returning negative results.
53 mount of useful data by adding reliable true-negative results.
54 shold 8-OHdG value that would minimize false-negative results.
55 clinical trial of AV-101 in depression found negative results.
56 ith one of these compounds, leading to false negative results.
57 entify limitations and potential reasons for negative results.
58 of patients with true and false positive and negative results.
59 egative, zero false-positive, and zero-false negative results.
60 cal implications of false positive and false negative results.
64 tests in 106 unique patients with an initial negative result, 134 (92.4%) tests and 98 (92.5%) patien
67 69 subjects with PDFF values less than 5.0% (negative result), 22 were determined to have steatosis b
70 e literature is limited by underreporting of negative results, a lack of out-of-sample validation, an
71 current or persistent EMPD; causes for false-negative results according to their location, histopatho
72 d test results, including 13 with an initial negative result and 15 with an initial positive result.
74 <100/muL, which accounted for 75.7% of false-negative results and 33.3% of PCR-detectable infections,
75 samples during the Games 2016, from clearly negative results and adverse findings for testosterone (
77 eral subsequent screening colonoscopies have negative results and no new cases of CRC are found in fa
78 ons to examine the association between false-negative results and participant, clinical, and testing-
80 ate-onset Pompe disease often leads to false-negative results and subsequent delays in identification
81 ography may receive false-positive and false-negative results and subsequent imaging and biopsies.
82 at PFGE is prone to false-positive and false-negative results and suggests the need for a new gold st
83 dle by volume (7-gauge) resulted in no false-negative results and that combining imaging and image-gu
84 equired to rule out the possibility of false negative results and there is currently a shortage of RT
85 th Hybrid Capture 2 (HC2)-positive, cytology-negative results and who were age >/=30 years from Kaise
86 tached vitreous at the time of surgery (true-negative results), and 8 eyes had pre-existing PVD at th
87 .1%) had nonosteoporotic T-scores (DXA false-negative results), and most (97%) had L1 or mean T12 to
88 25%) had a positive result, 81 (65.3%) had a negative result, and 12 (9.7%) had an indeterminate resu
89 ites in bones or organs, Eleven patients had negative results, and 9 patients showed indeterminate le
93 trials are widely hailed, while trials with negative results are often interpreted as scientific fai
94 We find that unless a sufficient fraction of negative results are published, false claims frequently
96 timate of the 'true' TE by controlling false negative results associated with excessively high placeb
97 n, 2.27 ng/mL; range, 0.2-27.45 ng/mL) and a negative result at conventional imaging (bone scan and/o
98 f Radiology breast density category 4) and a negative result at mammography (Breast Imaging Recording
99 fects of re-treatment, the percentage of UBT-negative results at 1 year was 72.4% (95% CI, 69.9%-74.8
107 fied as containing borderline color results (negative result but with no package insert color visible
109 s for whom a dry nasal swab specimen yielded negative results by IDNOW had a paired nasopharyngeal sw
110 r lavage samples taken from patients who had negative results by routine respiratory virus testing to
115 sinolates and growth, this is likely a false negative result caused by the limited population size.
117 ducts that appear to transmit core antibody, negative results correlated with lower surface antibody
118 a nucleic acid detection method; however, a negative result does not exclude infection due to the lo
119 s in resting-state connectivity may be false-negative results driven by a neurovascular uncoupling me
121 , clinical trials for RP treatments may give negative results due to multiple disease mechanisms with
122 ential for preventing the reporting of false-negative results due to the high-dose "hook" effect.
123 there was a single false-positive and false-negative result each, for a sensitivity and specificity
126 fixation losses (FLs) of 33% or less, false-negative results (FNRs) of 20% or less, and false-positi
127 previously negative ThinPrep vials yielded a negative result following routine automated cytology pro
128 pertussis by the FilmArray RP and one false-negative result for both the Aries BA and the FilmArray
130 ve test result but second blood sample had a negative result for tTGA were older, had lower-than-aver
131 tuberculosis incidence than children with a negative result for tuberculosis infection, and this inc
133 history of asthma/allergic rhinitis: all had negative results for aeroallergen skin prick tests.
135 ls, squamous carcinomas and melanomas showed negative results for androgen receptors and adipophilin.
137 amous carcinomas and melanomas, which showed negative results for both, and from basal cell carcinoma
138 en (43.8%) with positive and 42 (20.3%) with negative results for HCMV DNAemia (P = .006; odds ratio,
139 d were classified as cases and 117 (59%) had negative results for HIV and were classified as controls
146 an overestimation of response (yielded false-negative results for residual disease) in 66.7% (14 of 2
147 its, approximately 2% who had previously had negative results for SARS-CoV-2 at the beginning of supe
148 ollected at the first time point, 15,398 had negative results for tTGA, and 153 had positive results
150 tcome was combined clinical resolution and a negative result from a polymerase chain reaction test fo
151 ommended in the short-term, for cases with a negative result from CE, the impact of CE on long-term r
154 ded adults after blunt traumatic injury with negative results from a well-interpreted, high-quality C
155 , we found that fewer than 1% of adults with negative results from an initial test for tTGA have a po
157 ng number of reports about false positive or negative results from conventional cytotoxicity assays o
158 Classical food allergies were excluded by negative results from immunoglobulin E serology analysis
160 of patients with suspected enteropathy, but negative results from serologic tests for celiac disease
161 r patients with suspected celiac disease but negative results from serologic tests, total IgA level s
165 The combination of clinical resolution and negative results from the test for CD were observed in 1
172 om onset (day 5), the probability of a false-negative result in an infected person decreases from 100
174 results in 26% (five of 19 patients), false-negative results in 11% (two of 19 patients) and by guid
176 sentinel lymph node would have led to false-negative results in 19 of 475 (4%) of all patients and 1
177 in testing for vancomycin sensitivity showed negative results in 3 patients and was not performed in
180 and sample type, Abbott ID Now COVID-19 had negative results in a third of the samples that tested p
182 proach for urine screening and might produce negative results in as few as 3 h, with no downstream wo
183 There was no difference in positive and negative results in comparisons of fresh and stored samp
184 erformance and factors contributing to false-negative results in longitudinal studies, we examined re
188 PET/CT provided false-positive and false-negative results in six and three patients (PPV, 81% [26
189 Is other than the culprit PPI that displayed negative results in skin tests (n = 61) and diagnostic O
193 5%), and 77.8% (95% CI, 73.6%-81.6%) had UBT-negative results in the triple, sequential, and concomit
197 ons, with 10 false-positive and only 2 false-negative, resulting in a lesion-based detection rate for
199 ems associated with false-positive and false-negative results, inconsistencies and low reactivity of
200 indicator of acute stress is prone to false negative results, increasing in some stressful situation
203 respectively, suggesting that a positive or negative result is unable, on its own, to confirm or exc
204 uman papillomavirus (HPV)-positive, cytology-negative results is critical to the introduction of HPV
207 w-up of reported pertussis patients with PCR-negative results leads to the detection of more true per
208 PET/CT result for tumor and those who had a negative result (log-rank, P < 0.0001), with a hazard ra
210 ed morbidity, fewer false-positive and false-negative results, lower-cost, and higher analytical freq
211 g of all producers of ESBLs and also falsely negative results may occur with isolates that coproduce
212 col in many randomized controlled trials and negative results may reflect the failure to implement th
214 onfirmed harm to child and parent related to negative results/no diagnosis, two (2%) reported stress
216 s a mathematical approach to limit the false negative results occuring with the use of other normaliz
220 If this test result is negative, a false-negative result of the mutation analysis should be consi
221 aving achieved viral suppression if they had negative results of at least 1 subsequent HCV RNA test.
224 can have a relapsing course providing false negative results of endoscopy and ultrasound if performe
228 HT signaling axis that help to interpret the negative results of the Baminercept trial and will guide
229 this issue of Blood, Petersdorf et al report negative results of the phase 3 study designed by the So
230 iuretics and the likelihood of a positive or negative result on Covid-19 testing as well as the likel
231 l fluid testing showed normal cell counts, a negative result on reverse-transcription polymerase chai
232 months, the proportion of subjects who had a negative result on testing with the target dose (20g dri
236 PSA], 2.5 ng/mL; range, 0.21-35.5 ng/mL) and negative results on conventional imaging after primary l
238 ad an undetectable HBV viral load, and 3 had negative results on HBsAg testing and had an undetectabl
240 ilities to tell women with dense breasts and negative results on screening mammography to discuss sup
241 atients, the treatment was continued despite negative results on standard (18)F-FDG PET and negative
242 vice versa, obtaining the second test after negative results on the first seems justified when detec
243 ention-to-treat population who initially had negative results on the skin-prick test, the prevalence
244 tment response to SRT was higher in men with negative results or disease confined to the PF than in m
245 of those who received sRT, 81% (81/100) with negative results or fossa-confined findings versus 45% (
247 xty patients fluctuated between positive and negative results over several weeks, suggesting that cau
249 eady for discharge and who had 2 consecutive negative results per nucleic acid amplification testing
251 with FilmArray GI panel within 4 weeks of a negative result rarely changed the initial result, and t
252 on, we consider the possible reasons for the negative results regarding the progression of DR in the
254 ely to produce both false-positive and false-negative results, resulting in an inaccurate and incompl
255 e a >95% level of confidence in positive and negative results, suggesting that when multiple samples
256 n in patients with GCA giant cell arteritis -negative results ( TAB temporal artery biopsy subcohort
257 mucoperiosteal flap gave significantly more negative results than that of the less-demanding flaples
258 including the clinical implications of false-negative results), the exclusion of transmission effects
260 r complete sequencing of the ABCA4 gene with negative results, the screening for disease-causing muta
263 Furthermore, we call for more sharing of negative results to inform the TMD peptide field, which
269 r those with AHPV-negative compared with HC2-negative results was 0.9 (95% CI, -0.2 to 2.1) per 1,000
272 al data, suggesting that the reasons for the negative result were less likely related to the biologic
273 sitive results and 26 people with concordant negative results were analyzed via the highly multiplexe
274 ith aztreonam and carbapenems; subjects with negative results were challenged with escalating doses o
276 true- and false-positive and true- and false-negative results were extracted to fit a cross-tabulatio
279 taminated sample evaluations showed no false negative results were generated from a variety of differ
280 the individual sample-positive/pooled sample-negative results were likely due to the M. tuberculosis
282 xhibited low temporal variability, (b) false-negative results were not obtained, (c) the indoor air c
289 rasitemia, and PfHRP-II tests can give false-negative results when P. falciparum strains do not expre
290 e, and thus lead to false positive and false negative results when the number of non-zero values is s
292 cently, there has been a growing interest in negative results, which has resulted in negation detecti
293 anel positive and myco/f lytic blood culture negative results, while 6 patients had T2Candida panel n
295 .8%), there were larger proportions of false-negative results with 1.0 ml (29.4%; P = 0.2) and 1.2 ml