ライフサイエンスコーパス: skeletal system

1 pment and function of the cerebellum and the skeletal system.

2 ro-mechanical interplay in the neuro-musculo-skeletal system.

3 nts in the developing nervous, vascular, and skeletal system.

4 nes and cartilages), and subdivisions of the skeletal system.

5 athological changes in either the hepatic or skeletal system.

6 reported to be specifically expressed in the skeletal system.

7 ng, especially of the nervous system and the skeletal system.

8 it transduces muscle-generated force to the skeletal system.

9 l effect on the physiology and health of the skeletal system.

10 n multiple organs, including ear, kidney and skeletal system.

11 is associated with numerous diseases of the skeletal system.

12 factors controlling ageing processes in the skeletal system.

13 he model should be registered to the musculo-skeletal system.

14 organization and function of the neural and skeletal systems.

15 ablishment of vertebrate neurobehavioral and skeletal systems.

16 relationship between cells of the immune and skeletal systems.

17 rmalities that affect the cardiovascular and skeletal systems.

18 advanced study of the biomechanics of other skeletal systems.

19 ve tissue that affects the cardiac, eye, and skeletal systems.

20 organ systems, including gut, liver, and the skeletal system, also demonstrated age-related pathologi

21 In the skeletal system, although intermittent PTH administratio

22 ied two therapeutic groups of drugs (Musculo-skeletal system and Anti-infective for systemic use) whe

23 titutes for reconstructive treatments of the skeletal system and for constructing qualified experimen

24 particularly, growth and development of the skeletal system and for current screening and future tre

25 of neural tissue, formation of joints in the skeletal system and neurogenesis in the adult brain.

26 Development and repair of the skeletal system and other organs is highly dependent on

27 the major secretory cells that comprise the skeletal system and pancreas.

28 TGF-beta is abundantly produced in the skeletal system and plays a crucial role in skeletal hom

29 c morphological traits in the nervous and/or skeletal systems and provide the impetus for additional

30 a close interrelationship between immune and skeletal systems and suggests an osteolytic role of IL-1

31 enriched in morphogenesis and development of skeletal system, and HOX transcription factors.

32 n renal development and in patterning of the skeletal system, and suggest that alteration of Lmx1b/LM

33 The immune and the skeletal system are tightly interconnected, and B lympho

34 radigm was exemplified in the context of the skeletal system by testing the osteoinductive capacity o

35 Gene functions related to cell adhesion, skeletal system development, and extracellular matrix ar

36 Deterioration of the immune and skeletal systems, each of which parallel obesity, reflec

37 ch species can achieve connective tissue and skeletal system formation in the absence of ascorbate.

38 ctive skin abnormality, birth defects of the skeletal system, genomic instability and increased cance

39 The vertebrate skeletal system has various functions, including support

40 ral bacterium that can cause diseases of the skeletal system in children and infective endocarditis i

41 l bacterium that can cause infections of the skeletal system in children.

42 Interactions between the immune and skeletal systems in inflammatory bone diseases are well

43 , plural membrane, and widely throughout the skeletal system including the skull, vertebra, femur, ti

44 tly associated with bacteremia, clone N with skeletal system infections, and clone P with bacterial e

45 2012 from Israeli patients with bacteremia, skeletal system infections, or endocarditis, were typed

46 The skeletal system is affected in up to 39% of patients, bu

47 The diverse morphology of vertebrate skeletal system is genetically controlled, yet the means

48 Skeletal system is possible localization of primary extr

49 tilage and bones, the core components of the skeletal system, is mediated by systematic inter- and in

50 Debilitating diseases of the skeletal system occur when mutations arise that disrupt

51 ral bones is crucial for coherent neural and skeletal system organization.

52 damental aspects of vascular function in the skeletal system remain poorly understood.

53 A functional skeletal system requires the coordinated development of

54 osition of EMILIN-1 and -2 in tissues of the skeletal system such as cartilage and bone as well as in

55 monstrated changes in the liver, spleen, and skeletal system suggestive of SCA complicated with spond

56 steoblasts are two primary cell types in the skeletal system that are differentiated from common mese

57 oped a module of anatomical concepts for the skeletal system, the Vertebrate Skeletal Anatomy Ontolog

58 omise the integrity and functionality of the skeletal system to the extent requiring implantation of

59 om the surface barbs to the remainder of the skeletal system was maximized.

60 Our understanding of interactions of the skeletal system with other systems, ie, the vascular sys