| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/S00467-010-1517-Y |
| P698 | PubMed publication ID | 20458595 |
| P2093 | author name string | Eckhard Schoenau | |
| Oliver Fricke | |||
| Oliver Semler | |||
| Ralf Beccard | |||
| P2860 | cites work | Neural crest origins of the neck and shoulder | Q28768602 |
| Muscle analysis by measurement of maximal isometric grip force: new reference data and clinical applications in pediatrics | Q30683087 | ||
| The bone mass concept: problems in short stature | Q30839741 | ||
| Bone mineral content per muscle cross-sectional area as an index of the functional muscle-bone unit | Q32127649 | ||
| A cybernetic approach to osteoporosis in anorexia nervosa. | Q33216941 | ||
| From mechanostat theory to development of the "Functional Muscle-Bone-Unit". | Q33223611 | ||
| Association between bone mass and fractures in children: a prospective cohort study | Q33255693 | ||
| Bone and muscle development during puberty in girls: a seven-year longitudinal study | Q33439936 | ||
| Comments on the hypotheses underlying fracture risk assessment in osteoporosis as proposed by the World Health Organization | Q33534462 | ||
| The Utah paradigm of skeletal physiology: an overview of its insights for bone, cartilage and collagenous tissue organs. | Q33923105 | ||
| The developing bone: slave or master of its cells and molecules? | Q34344212 | ||
| Examining the developing skeletal muscle: Why, what and how? | Q34452240 | ||
| Estrogen and bone-muscle strength and mass relationships | Q34453130 | ||
| Mechanography--a new device for the assessment of muscle function in pediatrics | Q34472816 | ||
| The "muscle-bone unit" in children and adolescents | Q34605083 | ||
| Mechanographic characteristics of adolescents and young adults with congenital heart disease | Q34630334 | ||
| Vitamin a deficiency and clinical disease: an historical overview | Q34832814 | ||
| Association between bone density and fractures in children: a systematic review and meta-analysis | Q36384217 | ||
| Osteoporosis in children and adolescents | Q36913350 | ||
| Mineral metabolism and bone abnormalities in children with chronic renal failure | Q37050485 | ||
| Special report on the 2007 adult and pediatric Position Development Conferences of the International Society for Clinical Densitometry | Q37218758 | ||
| Mechanical influences on bone development in children | Q37267012 | ||
| The effects of exercise and physical activity participation on bone mass and geometry in postmenopausal women: a systematic review of pQCT studies | Q37510684 | ||
| Mechanically stimulated osteocytes regulate osteoblastic activity via gap junctions | Q40248461 | ||
| Why should many skeletal scientists and clinicians learn the Utah paradigm of skeletal physiology? | Q40439243 | ||
| The development of bone strength at the proximal radius during childhood and adolescence | Q40729215 | ||
| Interim report and recommendations of the World Health Organization Task-Force for Osteoporosis | Q41721974 | ||
| Gender-related differences in the relationship between densitometric values of whole-body bone mineral content and lean body mass in humans between 2 and 87 years of age. | Q42679137 | ||
| Bone densities and bone size at the distal radius in healthy children and adolescents: a study using peripheral quantitative computed tomography | Q47219947 | ||
| Albright's hereditary osteodystrophy | Q48864390 | ||
| Influence of puberty on muscle area and cortical bone area of the forearm in boys and girls. | Q52080944 | ||
| Correlation of pQCT bone strength index with mechanical testing in distraction osteogenesis. | Q53350722 | ||
| Analysis of the functional muscle-bone unit of the forearm in pediatric renal transplant recipients. | Q53608874 | ||
| Changing concepts in skeletal physiology: Wolff's Law, the Mechanostat, and the "Utah Paradigm". | Q54227296 | ||
| Comparison of different models for interpreting bone mineral density measurements using DXA and MRI technology | Q70882920 | ||
| The diagnosis of osteoporosis | Q72846752 | ||
| Perspectives: some roles of mechanical usage, muscle strength, and the mechanostat in skeletal physiology, disease, and research | Q73956687 | ||
| Analysis of muscle strength and bone structure in children with renal disease | Q74059771 | ||
| The peak bone mass concept: is it still relevant? | Q80201469 | ||
| Peripheral quantitative computed tomography of the tibia: pediatric reference values | Q80421970 | ||
| Relationship of muscle function to auxology in preterm born children at the age of seven years | Q84056727 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 2393-2400 | |
| P577 | publication date | 2010-05-11 | |
| P1433 | published in | Pediatric Nephrology | Q15749796 |
| P1476 | title | Analyses of muscular mass and function: the impact on bone mineral density and peak muscle mass | |
| P478 | volume | 25 |
| Q36145137 | Bone and skeletal muscle: Key players in mechanotransduction and potential overlapping mechanisms. |
| Q36957421 | Bone density in patients with late onset Pompe disease. |
| Q37421306 | Genetic and tissue level muscle-bone interactions during unloading and reambulation |
| Q33872433 | High-frequency, low-intensity vibrations increase bone mass and muscle strength in upper limbs, improving autonomy in disabled children |
| Q38132696 | Muscle-bone interactions: basic and clinical aspects |
| Q47209756 | Sex-specific associations between soft tissue body composition and bone mineral density among older adults |
| Q33730193 | The Relationship between Physical Activity and Bone during Adolescence Differs according to Sex and Biological Maturity |
| Q35772008 | Which Extrinsic and Intrinsic Factors are Associated with Non-Contact Injuries in Adult Cricket Fast Bowlers? |
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