ライフサイエンスコーパス: DDH

1 replacement surgery with and without DDH (9 DDH-OA, 12 OA-only, one femoral fracture).

2 DDH in infants younger than 3 months, and a DDH risk increase of female sex was found to be lower th

3 tency and provides a functional link between DDH and ICK scorpion toxins.

4 the sub-nano structure) effects on n-butane DDH reaction at the atomic level.

5 related the n-butane direct dehydrogenation (DDH) activity with the average coordination number (CN)

6 The incidence of late-detected DDH was 0.5 (95% CI, 0.2-1.5) infants with DDH per 1000

7 kene selectivity (99.0%) for n-butane direct DDH reaction at 450 C, compared to typical Pt NP and Pt

8 esented by one of the authors for explaining DDH.

9 For DDH from ICU, compared with ward transfers, there was no

10 d not evaluate how patients are selected for DDH.

11 rtilage can be detected in chondrocytes from DDH cartilage before histological manifestations of dege

12 fold termed the disulfide-directed hairpin (DDH) motif, which is the proposed evolutionary structura

13 ology to developmental dysplasia of the hip (DDH) and a realisation that neonatal hip maturation is p

14 to treat developmental dysplasia of the hip (DDH) classified Crowe III-IV using direct anterior appro

15 ning for developmental dysplasia of the hip (DDH) has gained increasing popularity despite the lack o

16 cts with developmental dysplasia of the hip (DDH) often show early-onset osteoarthritis (OA); however

17 story of developmental dysplasia of the hip (DDH), female sex, and primiparity to increase the risk o

18 such as developmental dysplasia of the hip (DDH), the differentiation of what is normal, what is abn

19 hout the superficial and deeper dorsal horn (DDH), as well as the lateral spinal nucleus (LSN), of mo

20 This depth-dependent hysteresis (DDH) is not explained by classical contact mechanics the

21 e full acetabular shape, which might improve DDH developmental dysplasia of the hip assessment accura

22 These findings suggest that early events in DDH cartilage originate at the chondrocyte level and tha

23 nty-three consecutive hips with Crowe III-IV DDH who underwent DAA were retrospectively evaluated fro

24 ental variable (IV) analysis using ICU-level DDH rate as the IV.

25 to match patients who were DDH to those not DDH and a preference-based instrumental variable (IV) an

26 younger than 3 months in whom a diagnosis of DDH was made by hip ultrasonography using the criterion

27 Historically, the diagnosis of DDH was straightforward.

28 in studies on the use of US for diagnosis of DDH.

29 4.15 [95% CI, 2.62-6.57]), family history of DDH (OR, 3.83 [95% CI, 2.05-7.15]), female sex (OR, 2.50

30 -analysis calculated the pooled incidence of DDH per 1000 newborns with 95% CIs using a random- or fi

31 The main outcome measures were risk of DDH (using odds ratios [ORs]) for each of the risk facto

32 ociated with a significant increased risk of DDH.

33 sex, and primiparity to increase the risk of DDH.

34 Randomized and nonrandomized studies of DDH patients compared with ward transfer were eligible.

35 udicots only, which fits with the reports on DDH isomers in that clade.

36 the formation of three didehydro-orobanchol (DDH) isomers.

37 ere not significantly different for patients DDH (odds ratio [OR], 1.00; 95% CI, 0.96-1.04), and ther

38 ference in mortality at 90 days for patients DDH (OR, 1.08; 95% CI, 0.97-1.21).

39 e was no difference in outcomes for patients DDH compared with ward transfer prior to discharge when

40 st that it can convert orobanchol to similar DDH isomers as tomato.

41 originate at the chondrocyte level and that DDH cartilage may provide a novel opportunity to study t

42 nce from observational studies suggests that DDH from ICU may have no difference in safety outcomes c

43 However, the DDH definition, reference tests, and the age of the exam

44 asonable desorption barrier of butene in the DDH reaction.

45 It has been observed that the DDH energy loss initially increases and then decreases w

46 ate in the conversion from orobanchol to the DDH isomers.

47 expression in yeast showed that one of these DDH isomers is converted to solanacol, one of the most a

48 f sequence homology and contains an uncommon DDH triad.

49 and collagen II immunostaining in undamaged DDH cartilage, with no evidence of augmented cell death

50 y cartilage that was also found in undamaged DDH-OA cartilage.

51 increase in the risk of sonography-verified DDH in infants younger than 3 months, and a DDH risk inc

52 y-detected or late-detected (age >=12 weeks) DDH were included.

53 37 patients in our cohort, 46,859 (61%) were DDH from the ICU.

54 ropensity scoring to match patients who were DDH to those not DDH and a preference-based instrumental

55 ht, and prematurity were not associated with DDH risk.

56 d DDH was 0.5 (95% CI, 0.2-1.5) infants with DDH per 1000 newborns with clinical screening, 0.6 (95%

57 rate was 8.4 (95% CI, 4.8-14.8) infants with DDH per 1000 newborns with clinical screening, 4.4 (95%

58 creening, 4.4 (95% CI, 2.4-8.0) infants with DDH per 1000 newborns with selective ultrasonographic sc

59 creening, 0.6 (95% CI, 0.3-1.3) infants with DDH per 1000 newborns with selective ultrasonographic sc

60 g, and 23.0 (95% CI, 15.7-33.4) infants with DDH per 1000 newborns with universal ultrasonographic sc

61 ning, and 0.2 (95% CI, 0.0-0.8) infants with DDH per 1000 newborns with universal ultrasonographic sc

62 ing hip replacement surgery with and without DDH (9 DDH-OA, 12 OA-only, one femoral fracture).