ライフサイエンスコーパス: reference range

1 (<=120% of the baseline level or within the reference range).

2 (<=120% of the baseline value or within the reference range).

3 U per liter; free thyroxine level within the reference range).

4 ng in blood concentrations almost within the reference range.

5 d maintenance of serum TSH levels within the reference range.

6 o the upper half of the normal premenopausal reference range.

7 and rigorous methodology in establishing the reference range.

8 acebo, but levels remained within the normal reference range.

9 ls greater than twice the upper limit of the reference range.

10 ded patients with ANC values within the DANC reference range.

11 nd monocyte counts, albeit within the normal reference range.

12 imulating hormone concentrations outside the reference range.

13 ied doses for patients with ANCs in the DANC reference range.

14 ses for individuals with ANC within the DANC reference range.

15 erum testosterone concentrations in the male reference range.

16 modifications for ANC values within the DANC reference range.

17 ee thyroxine (fT(4)) concentration below the reference range.

18 considerably less than the local laboratory reference range.

19 for individuals with an ANC within the DANC reference range.

20 trations but fT(4) concentrations within the reference range.

21 9 mIU/L) with free thyroxine (T4) within the reference range.

22 IU/L with free thyroxine (fT4) levels within reference range.

23 Hematological parameters remained in the reference range.

24 throcyte counts decreased slightly below the reference range.

25 s, but the median value was still within the reference range.

26 in confirmed MPS samples are well below the reference range.

27 tor group for biomarkers that did not have a reference range.

28 e the upper limit of the age-appropriate GCK reference range.

29 s and the derivation of institution specific reference ranges.

30 leading to age-, gender-, and assay-specific reference ranges.

31 hat exceeded the upper limit of sex-specific reference ranges.

32 rovide an inadequate approximation of normal reference ranges.

33 However, lipid levels were within normal reference ranges.

34 ts having the measured parameters within the reference ranges.

35 , compared to having all biomarkers in their reference ranges.

36 ups of 5-and 6-year-old sheep, and published reference ranges.

37 ey III reference ranges and 9.0% using local reference ranges.

38 the lower limit of the HbA1c age-appropriate reference ranges.

39 score, 61.8 22.8; mean ascorbic acid level (reference range 0.40-2.10 mg/dL), 0.23 mg/dL (95% CI 0.0

40 g hormone (TSH) above the upper limit of the reference range (0.45-4.5 mIU/L) with normal serum FT4 c

41 n-type natriuretic peptide level (145 pg/mL; reference range, 0-100 pg/mL) were elevated.

42 ted erythrocyte sedimentation rate (60 mm/h; reference range, 0-20 mm/h), and increased aspartate tra

43 ted erythrocyte sedimentation rate (60 mm/h; reference range, 0-20 mm/h), and increased aspartate tra

44 tion rate (>140 mm/h with Westergren method; reference range, 0-27 mm/h), and brain-type natriuretic

45 partate transaminase (38 U/L [0.63 mukat/L]; reference range, 0-31 U/L [0-0.52 mukat/L]), alanine tra

46 partate transaminase (38 U/L [0.63 mukat/L]; reference range, 0-31 U/L [0-0.52 mukat/L]), alanine tra

47 alanine transaminase (70 U/L [1.17 mukat/L]; reference range, 0-31 U/L [0-0.52 mukat/L]), and high ly

48 alanine transaminase (70 U/L [1.17 mukat/L]; reference range, 0-31 U/L [0-0.52 mukat/L]), and high ly

49 transferase level of 61 IU/L (1.02 mukat/L) (reference range, 0-40 IU/L [0-0.67 mukat/L]) and a mildl

50 otransferase level of 61 IU/L (1.02 ukat/L) (reference range, 0-40 IU/L [0-0.67 ukat/L]), and a mildl

51 otransferase (126 U/L [2.10 mukat/L]; normal reference range, 0-40 U/L [0-0.67 mukat/L]) and aspartat

52 phocytic moderate pleocytosis (100 x10(6)/L; reference range, 0-5 x10(6)/L) (59% lymphocytes) and nor

53 ed total nucleated cell count (136 x10(6)/L; reference range, 0-5 x10(6)/L), with predominant lymphoc

54 transferase level of 52 IU/L (0.88 mukat/L) (reference range, 0-50 IU/L [0-0.83 mukat/L]).

55 ltransferase level of 52 IU/L (0.88 ukat/L) (reference range, 0-50 IU/L [0-0.83 ukat/L]).

56 reased C-reactive protein level (0.62 mg/dL; reference range, 0.0-0.5 mg/dL), elevated erythrocyte se

57 reased C-reactive protein level (0.62 mg/dL; reference range, 0.0-0.5 mg/dL), elevated erythrocyte se

58 C-reactive protein level (49.7 mg/L; reference range, 0.0-8.0 mg/L), erythrocyte sedimentatio

59 mmol/L) and normal total protein (0.27 g/L; reference range, 0.16-0.49 g/L) levels.

60 reatinine level was 1.45 mg/dL (128 umol/L) (reference range, 0.7-1.3 mg/dL [62-115 umol/L]).

61 tial thromboplastin time ratio, 0.88 second; reference range, 0.79-1.27 seconds).

62 e amounts of major plasma proteins) of 0.92 (reference range, 0.8-2.0), a urine protein level of 15 m

63 Lactate level was elevated, at 7.8 mmol/L (reference range, 1-2 mmol/L).

64 (mean, 0.92 micromol/L; United Kingdom adult reference range, 1.07 to 1.88 micromol/L).

65 lipoprotein cholesterol level, 3.84 mmol/L; reference range, 1.60-3.40 mmol/L).

66 /L]), and high lymphocyte (4.55 x 10(3)/muL; reference range, [1.0-3.0] x 10(3)/muL), and neutrophil

67 t/L]), and high lymphocyte (4.55 x 10(3)/mL; reference range, [1.0-3.0] x10(3)/mL), and neutrophil (8

68 se level (49 006 U/L [818.4 mukat/L]; normal reference range, 10-205 U/L [0.17-3.42 mukat/L]).

69 cancer cell lines corresponding to its serum reference range (100-800 nM) reverted endothelial-to-mes

70 icating a serum chloride level of 98 mmol/L (reference range, 100-108 mmol/L) and an alkaline phospha

71 ndings of hyperzincaemia (77-200 micromol/L, reference range 11-18 micromol/L) and raised plasma calp

72 3-23 mm/h), a hemoglobin level of 14.1 g/dL (reference range, 13.8-17.5 g/dL), a leukocyte count of 8

73 CI 0.07-4.02); and the mean thiamine level (reference range 14.6-29.5 nmol/L), 6.0 nmol/L (95% CI 4.

74 individuals had a platelet count within the reference range (150 x 109/L to 450 x 109/L) reported wi

75 openia, with a platelet count of 100 000/uL (reference range, 150 000-400 000/uL), and a normal hormo

76 10(9)/L), a platelet count of 223 x 10(9)/L (reference range, [158-424] x 10(9)/L), an alkaline phosp

77 center (78.7 x 10(3) cones/mm(2); mean [SD] reference range, 199 [87] x 10(3) cones/mm(2)), and cone

78 were categorized according to quartiles and reference range (2.5 and 97.5 percentiles) of 599 contro

79 a total serum calcium level of 2.46 mmol/L (reference range, 2.14-2.53 mmol/L), and a carcinoembryon

80 lymphocytes) and normal glucose (3.3 mmol/L; reference range, 2.2-3.9 mmol/L) and normal total protei

81 x10(3)/mL), and neutrophil (8.79 x 10(3)/mL; reference range, [2.0-7.0] x 10(3)/mL) levels.

82 0(3)/muL), and neutrophil (8.79 x 10(3)/muL; reference range, [2.0-7.0] x 10(3)/muL) levels.

83 7.35-7.45), bicarbonate level of 5.4 mmol/L (reference range, 20-28 mmol/L), and anion gap of 28 mmol

84 2%) and VFRA (7.6% to 13.6%) compared to the reference range (- 205 to - 51 HU).

85 n erythrocyte sedimentation rate of 58 mm/h (reference range, 3-23 mm/h), a hemoglobin level of 14.1

86 otransferase (488 U/L [8.15 mukat/L]; normal reference range, 3-44 U/L [0.05-0.74 mukat/L]) levels we

87 al serum albumin level of 3.9 g/dL (39 g/L) (reference range, 3.5-5.0 g/dL [35-50 g/L]) and low serum

88 5 g/dL), a leukocyte count of 8.1 x 10(9)/L (reference range, [3.4-9.7] x 10(9)/L), a platelet count

89 ed white blood cell count of 12.2 x 10(9)/L (reference range, [3.9-10.3] x 10(9)/L), with a predomina

90 e lymphocyte count of 710/uL, CD4 of 294/uL (reference range, 325-1251/uL), CD8 of 85/uL (reference r

91 , 20-28 mmol/L), and anion gap of 28 mmol/L (reference range, 4-12 mmol/L).

92 d white blood cell count was 18.8 x 10(9)/L (reference range, 4.5 x 10(9)/L to 11 x 10(9)/L).

93 -81 g/L), a serum albumin level of 39.3 g/L (reference range, 40.2-47.6 g/L), an albumin-to-globulin

94 phosphatase level of 121 U/L (2.02 mukat/L) (reference range, 45-115 U/L [0.75-1.92 mukat/L]).

95 reased glucose level (41 mg/dL [2.3 mmol/L]; reference range, 45-70 mg/dL [2.5-3.9 mmol/L]).

96 w CSF glucose level (37 mg/dL [2.05 mmol/L]; reference range, 45-70 mg/dL [2.50-3.89 mmol/L]); otherw

97 Reference ranges (5th and 95th percentiles) for the tota

98 The reference ranges (5th-95th percentiles) were 13.1-74.3 n

99 um total protein level of 6.1 g/dL (61 g/L) (reference range, 6.3-7.9 g/dL [63-79 g/L]) were noted.

100 l/L), a serum total protein level of 82 g/L (reference range, 66-81 g/L), a serum albumin level of 39

101 ith an elevated CSF protein level (78 mg/dL; reference range, 7.0-35.0 mg/dL) and a low CSF glucose l

102 al blood gas analysis revealed a pH of 6.86 (reference range, 7.35-7.45), bicarbonate level of 5.4 mm

103 reased protein level (379 mg/dL [3790 mg/L]; reference range: 7-35 mg/dL [70-350 mg/L]) and a mildly

104 d glucose level was 282 mg/dL (15.7 mmol/L) (reference range, 70-99 mg/dL [3.9-5.5 mmol/L]), and whit

105 L]), a serum creatinine level of 93 mumol/L (reference range, 79-125 mumol/L), a serum total protein

106 reference range, 325-1251/uL), CD8 of 85/uL (reference range, 90-775/uL), CD19 of 1/uL, preserved CD4

107 For all tracers, SUV reference ranges (95th percentiles) were calculated, whi

108 sodium excretion of 4.00 to 5.99 g per day (reference range), a higher estimated sodium excretion (>

109 If the S100B level was within the reference range according to age, the children were disc

110 Our resource provides insights into HSPC reference ranges across the lifespan and has the potenti

111 As compared with the reference range, an estimated sodium excretion that was

112 The reference range and applications for TSHR mRNA were prev

113 ities affected the establishment of a normal reference range and cutpoints.

114 n 110 healthy controls to establish a normal reference range and in repeated samples of serum and spu

115 stimulating hormone (TSH) levels outside the reference range and levels of free thyroxine (FT4) and t

116 arameters, but values were within the normal reference range and none of the changes was deemed clini

117 dian MMSE score for survivors was within the reference range and similar (33 degrees C group median,

118 eft ventricular ejection fraction was in the reference range and similar between the groups, and the

119 Health and Nutrition Examination Survey III reference ranges and 9.0% using local reference ranges.

120 should be investigated further to establish reference ranges and assess its value in routine clinica

121 to its unknown normal growth trajectory and reference ranges and lack of standardized measurement.

122 ce interval estimates were used to calculate reference ranges and linear regression was used to quant

123 Overall, the levels of agreement between MIC reference ranges and the reported MICs were 85 and 74% f

124 individuals with and without CKD to provide reference ranges and to assess their fractional excretio

125 ing the appropriateness of currently applied reference ranges and treatment thresholds, particularly

126 itin concentrations (consistently within the reference ranges) and dietary iron intakes did not diffe

127 estores thyroid function tests to within the reference range, and improves symptoms in the majority o

128 of the lack of assay standardization, common reference ranges, and common cutoffs.

129 ctive study, alpha-tocopherol, within normal reference ranges, and PAF-AH enzymatic activity were ass

130 levels in healthy controls used to define a reference range, anti-LAMP-2 reactivity was present in 2

131 ysis of mouse knockout data and compare to a reference range approach.

132 arker levels at the upper end of the healthy reference range are associated with the presence of subc

133 e (FT4) and triiodothyronine (T3) within the reference range are common in clinical practice.

134 CSF Abeta42 levels in the lower part of the reference range are strongly associated with future Abet

135 Reference ranges are also reported for 40 serum metaboli

136 Our TH reference ranges are in good agreement with those report

137 most clinicians and because population-based reference ranges are lacking, thus making clinical trial

138 iodine status, but validated assay-specific reference ranges are needed for the determination of iod

139 easured routinely in acute settings, current reference ranges are not based on evidence.

140 Healthy tissue SUV reference ranges are presented and applicable as image-b

141 Pediatric means and normative reference ranges are provided for each measurement.

142 Reference ranges are provided for regional systemic bloo

143 (PSA) in serum is improved when age-specific reference ranges are used, but these ranges have been de

144 vir geometric mean AUC0-24 crossed the upper reference range at pharmacokinetics 1, but rapidly decre

145 one of three sex hormone levels outside the reference range at SII.

146 tamins and carotenoids were generally within reference ranges at baseline and postintervention.

147 kelihood of nighttime vital signs within the reference ranges based on a logistic regression model th

148 appa, lambda, and their ratio (kappa/lambda) reference ranges based on a mostly White population.

149 In patients with reference range BMI at MGUS diagnosis, each 1-unit incre

150 Compared with reference range BMI at MGUS diagnosis, patients with BMI

151 ciations were consistent within the clinical reference ranges but were lost or changed direction for

152 %)) to levels at the lower end of the normal reference range by 24 h of age (24.4% (21.2-27.6%)).

153 mphocyte count was recovered and was back to reference range by 6 months in TMG.

154 , mean [SD] age of participants with high vs reference range CIMT: 55 [5] years vs 50 [6] years; P <

155 ently with abnormal D-Dimer levels above the reference range compared to children that had fully reco

156 or with intrauterine growth within standard reference ranges (controls).

157 We calculated the reference ranges (cut-off values) for absolute IS and T2

158 The reference ranges determined in all apple samples are 39-

159 Conclusion Diagnostic reference ranges developed in this study provided target

160 Notably, CA 15-3 levels within the reference range do not exclude breast cancer disease rec

161 e interval and a gradient of risk across the reference range even in normal healthy individuals.

162 erum collagen fragment levels were above the reference range for 67%-98% of patients, with median val

163 We compared our prior reference range for ALT (ULN < or = 30 U/L in women) wit

164 ntration greater than the pregnancy-specific reference range for each laboratory value, or by serum T

165 In our patient cohort, the reference range for intrapatient variation in blood-pool

166 termined the correlates of and established a reference range for PASP as determined by Doppler transt

167 We generated a reference range for plasma IL-6 in a cohort of healthy c

168 We provide a reference range for radial artery diameters across child

169 oncentration > 210 nmol/L-the maximum of the reference range for serum vitamin B-12-replete participa

170 ing magnetic resonance imaging and provide a reference range for spleen iron in an unselected populat

171 These findings identify a normal reference range for studies assessing the coronary circu

172 y cohort of 105 volunteers, used to define a reference range for SUVR.

173 usei fell well above the upper limits of the reference range for this strain.

174 A recently provided reference range for uNGAL in very low birth weight infan

175 Reference ranges for 32 chemical elements in 22 samples

176 , and immune health, deviated from normative reference ranges for all 4 neuropsychiatric disorders st

177 , and glucose and insulin levels were within reference ranges for all patients.

178 The approach enabled the definition of reference ranges for appearance, chemical, and functiona

179 Conclusion Reference ranges for BFVs and changes in BFVs in respons

180 Results Reference ranges for BFVs were estimated in 39 volunteer

181 However, mean and reference ranges for blood flow measurements made in the

182 Purpose To estimate reference ranges for blood flow volume (BFV) in major sp

183 FDMaxApical reference ranges for BMI 30 kg/m(2) or greater (n = 163)

184 children across all age groups, to establish reference ranges for clinical use.

185 Deviations from normative reference ranges for composite health scores indexing th

186 oliferation, and Ig production and to define reference ranges for different age categories.

187 none of these measures varied from available reference ranges for ducks, suggesting OSPW is not toxic

188 data shows that most results are within the reference ranges for each assay.

189 or clinical validation, we first established reference ranges for each gene and junction based on exp

190 easingly used for (82)Rb cardiac PET/CT, but reference ranges for global functional parameters are no

191 f our centile charts with existing published reference ranges for heart rate and respiratory rate sho

192 We defined age-related reference ranges for human B cell differentiation.

193 size were used to determine gender-specific reference ranges for LAD and LAV.

194 c and diastolic function was used to develop reference ranges for LAD and LAV.

195 Reference ranges for mean angle-corrected V(MCA)/V(ICA)

196 y approached the fifth percentile of defined reference ranges for normal values.

197 achieve serum TSH concentrations within the reference ranges for pregnancy as soon as possible.

198 Reference ranges for serum total homocysteine concentrat

199 For plasma tHcy and MMA, the reference ranges for serum vitamin B-12-replete particip

200 oactive microspheres and provide preliminary reference ranges for the late-gestation human fetuses.

201 We aimed to derive age-related HbA1c reference ranges for these patients to determine how wel

202 ldren and adolescents and may be valuable as reference ranges for this population.

203 Reference ranges for thyroid function tests are based on

204 uding PSA density and velocity, age-specific reference ranges, "free" and "bound" PSA ratios, the uti

205 n using the Brief Pain Inventory-Short Form (reference range from 0 to 10 points); those with moderat

206 Methods for estimating the reference range from a meta-analysis of aggregate data t

207 In addition, ANC reference ranges from countries in Africa emphasize that

208 trations above the lower limit of the normal reference range (>/=0.8 mumol/L).

209 eonates with serum Cr levels higher than the reference range (>0.4 mg/dL) at any time point (iodine-

210 g pregnancy, including changes within normal reference ranges, have been linked to cognitive function

211 ted with increasing weight compared with the reference range (ie, normal) in CF.

212 The morning cortisol was below the reference range in 20% of the patients and undetectable

213 on, and a measure of clot strength was above reference range in 60.1% of patients.

214 The alpha angle was above reference range in 70.3% of patients indicative of rapid

215 omboplastin time returned towards the normal reference range in both of these patients.

216 ihypertensives reduced blood pressure to the reference range in most women.

217 Using 95th percentiles, the reference range in our patient population for intrapatie

218 lated LV mass (LVM) and (b) establish normal reference ranges in a selected group of healthy UK Bioba

219 ned the distribution of PSA and age-specific reference ranges in black men both with and without pros

220 iomarkers information on pathophysiology and reference ranges in both healthy and diseased population

221 Reference ranges in centimeters per second for mean angl

222 n practice; data are limited regarding their reference ranges in healthy individuals.

223 beculations in the LV mass, pooled normative reference ranges in men and women, respectively, were as

224 culations in the LV volume, pooled normative reference ranges in men and women, respectively, were as

225 For RV parameters, pooled normative reference ranges in men and women, respectively, were as

226 HbA1c reference ranges in subjects with GCK mutations were: 38

227 s showed patterns of neurodevelopment within reference ranges: increase in white matter and decrease

228 ma calprotectin concentrations (1.4-6.5 g/L, reference range <1 mg/L).

229 DCA 2000 analyzer and expressed in mg/mmol (reference range <2.3).

230 ents whose median SAA values were within the reference range (<10 mg/L) throughout follow-up, and amy

231 F Abeta42 levels in the lower tertile of the reference range (<225 ng/L), and 22 of 24 nondecliners h

232 were mostly low (between 0.5 and 1.0 units; reference range, <0.50), and none of the PF4/polyanion E

233 to-creatinine ratio in urine, 59.21 mg/mmol; reference range, <3.00 mg/mmol) and hyperlipidemia (low-

234 nd a cancer antigen 19-9 level of 17.4 kU/L (reference range, <=35.0 kU/L).

235 oembryonic antigen level less than 0.6 ug/L (reference range, <=5.0 ug/L), and a cancer antigen 19-9

236 uded an alpha-fetoprotein level of 2.1 ug/L (reference range, <=8.3 ug/L), a carcinoembryonic antigen

237 lation, time to achieve a temperature within reference range, maximum severity of COVID-19, and the c

238 The association of having a BMI within reference range may be similar to that of having a subst

239 th LDL values into groups: >100, >80 to 100 (reference-range-meeting guidelines), >60 to 80, >40 to 6

240 sk of having biochemical variables above the reference range (multiple logistic regression).

241 ted NT-proBNP concentrations were within the reference range (normal) in 1228 of 1594 patients (77.0%

242 all, 57% of CuEX measurements fell below the reference "range of normality," whereas only 34% were wi

243 o 0.63] for >/=12 patients compared with the reference range of 0 to 1 patients).

244 uding participants with abnormal FT4 values (reference range of 0.85-1.95 ng/dL) and including only w

245 In the 25(OH)D reference range of 22.5-94 nmol/L, most of the improveme

246 y surpass the upper limit of the traditional reference range of 4 to 5 mU/L among elderly patients.

247 pecimens falling within the laboratory serum reference range of 40 to 130 U/L.

248 +/- 22.5 pg/mL), which was consistent with a reference range of 41-274 pmol/L or 15.7-105.5 pg/mL.

249 stablished, it is unclear whether the entire reference range of arterial pH (7.37-7.44) is equivalent

250 The reference range of LVEF and LV volumes from gated (82)Rb

251 The present study suggests a reference range of TID for (82)Rb PET myocardial perfusi

252 These subjects were used to establish a reference range of TID.

253 From measuring reference ranges of AV function in a healthy subcohort (

254 However, there are no standard reference ranges of B-cell levels in healthy infants by

255 went a 2-minute walk test, which was outside reference ranges of expected performance for age and sex

256 r mortality compared with individuals in the reference ranges of HDL-C levels.

257 on of hypothyroidism is based on statistical reference ranges of the relevant biochemical parameters

258 Age- and sex-specific reference ranges of trabeculated LVM in a healthy middle

259 Purpose To determine diagnostic reference ranges on the basis of the size of a pediatric

260 , we present 3 approaches for estimating the reference range: one frequentist, one Bayesian, and one

261 mpression Severity scale (CGI-S) score of 1 (reference range or not ill) or 2 (minimally ill) within

262 us by body mass index [BMI] in categories of reference range or underweight [<25], overweight [25 to

263 ere infant birth weight, categorized as SGA, reference range, or LGA, and infant growth from birth to

264 Serum free thyroxine levels may be below the reference range (overt hypothyroidism) or within the ref

265 altase, and palatinase consistently exceeded reference ranges (P<0.05).

266 atients with serum levels below the standard reference range, primarily for the prevention of tachyar

267 lic function in older adults, including both reference ranges reflecting the older adult population a

268 tivity among black men, the following normal reference ranges should be used: for men in their 40s, 0

269 Results Diagnostic reference ranges (SSDEs) were 1.8-3.9, 2.2-4.5, 2.7-5.1,

270 t known cardiovascular disease and establish reference ranges stratified by age and sex.

271 Smokers were likely to have higher vs reference range SUA (210 [18.8%] vs 407 [16.0%]) and uAC

272 n (eg, hypertension among those with high vs reference range SUA: 213 of 1117 [19.1%] vs 356 of 2549

273 e range (overt hypothyroidism) or within the reference range (subclinical hypothyroidism).

274 up but did not reach values below the normal reference range, suggesting no atrophic remodeling after

275 We have derived age-related HbA1c reference ranges that can be used for discriminating hyp

276 those exposed to androgen levels within the reference range (the "Normal-T" group).

277 Compared to laboratory-defined, age-specific reference ranges, there were deficiencies in sulfur-cont

278 histidine and hydroxyproline were below the reference range throughout the 6-day period.

279 ed stable and were maintained in the healthy reference range throughout.

280 dation of MTV measurement enabling benchmark reference ranges to be derived for published delineation

281 Using the upper limit of the age-appropriate reference ranges to discriminate those with a mutation f

282 easurements are used to establish population reference ranges, track exposure trends, identify popula

283 Patients with SPPB scores within reference range underwent a 2-minute walk test, which wa

284 2 biomarker in asthma is limited by lack of reference range values derived from a population without

285 m development during infancy, but absence of reference ranges, variability in methods and populations

286 Laboratory designations of normal reference ranges varied greatly, resulting in conflictin

287 -29.2 to -17.6 min/d) of MVPA for obesity vs reference range weight in 20-year prospective analyses f

288 -38.6 to -17.4 min/d) of LIPA for obesity vs reference range weight, and from -5.3 min/d (95% CI, -8.

289 min/d) of sedentary behavior for obesity vs reference range weight, from -6.2 min/d (95% CI, -8.4 to

290 Adjusted reference ranges were derived incorporating characterist

291 Diagnostic reference ranges were developed after analysis of image

292 Potentially useful reference ranges were identified in the subgroup analyse

293 If traditional age-specific reference ranges were used in screening black men, with

294 Published reference ranges were used to define an elevated FLC or

295 cted by tests using traditional age-specific reference ranges, which maintain specificity at 95 perce

296 g restoration of the TSH level to within the reference range with improvements in bone mineral densit

297 yroid-stimulating hormone levels outside the reference range with normal free thyroxine levels in asy

298 defined as a decrease in serum TSH below the reference range with normal serum FT4 and T3 concentrati

299 We compared existing reference ranges with those derived from our centile cha

300 score [WLZ] score difference <-0.67), within reference range (WLZ score difference -0.67 to 0.67), or