Identification of functionally related adaptations in the trabecular network of the proximal femur and tibia of a bipedally trained Japanese macaque
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- 資料種別
- 記事
- 著者・編者
- Marine CazenaveMasato NakatsukasaArnaud MazurierMatthew M. Skinner
- タイトル(掲載誌)
- Anthropological science
- 巻号年月日等(掲載誌)
- 132(1):2024.1
- 掲載巻
- 132
- 掲載号
- 1
- 掲載ページ
- 13-26
- 掲載年月日(W3CDTF)
- 2024-01
- ISSN(掲載誌)
- 0918-7960
- ISSN-L(掲載誌)
- 0918-7960
- 出版事項(掲載誌)
- Tokyo : Anthropological Society of Nippon
- 出版地(国名コード)
- JP
- 本文の言語コード
- eng
- NDLC
- 対象利用者
- 一般
- 所蔵機関
- 国立国会図書館
- 請求記号
- Z54-J370
- 連携機関・データベース
- 国立国会図書館 : 国立国会図書館雑誌記事索引
- 書誌ID(NDLBibID)
- 033268331
- 整理区分コード
- 632
- 要約等
- <p>The axial and appendicular skeleton of Japanese macaques (<i>Macacca fuscata</i>) trained to adopt bipedal posture and locomotion display a number of functionally related external and internal macro- and micromorphological changes, including site-specific cortical and trabecular bone adaptations. In this study we use high-resolution microtomography scanning to analyse the three-dimensional distribution of the trabecular architecture of the proximal femur and proximal tibia of Sansuke, a male individual trained in bipedal performances for eight years, as well as five wild individuals. The distribution and architecture of trabecular bone in the femoral head of Sansuke is distinct from that found in wild <i>M. fuscata</i> individuals, with a unique bone reinforcement around the region of the fovea capitis. Conversely, wild individuals exhibit two pillar-like, high-density structures (converging in an inverted cone) that reach distinct regions of the posterior and anterior surfaces of the femoral head. For Sansuke’s proximal tibia, contrary to previous observations from the corticotrabecular complex distribution at the plateau, our results do not show a more asymmetric distribution between medial and lateral condyles with a medial reinforcement. Additionally, relative bone volume in this region is not significantly higher in Sansuke. However, we observed a slightly more medially placed bone reinforcement in the lateral condyle compared with the wild individuals as well as a slightly higher trabecular bone anisotropy in the medial than in the lateral condyle not observed in the wild individuals. These analyses provide new evidence about the nature and extent of functionally related adaptive arrangements of the trabecular network at the coxofemoral and the knee joints in individuals recurrently experiencing atypical load.</p>
- DOI
- 10.1537/ase.2307142
- オンライン閲覧公開範囲
- インターネット公開
- 連携機関・データベース
- 科学技術振興機構 : J-STAGE
- 要約等
- <p>The axial and appendicular skeleton of Japanese macaques (<i>Macacca fuscata</i>) trained to adopt bipedal posture and locomotion display a number of functionally related external and internal macro- and micromorphological changes, including site-specific cortical and trabecular bone adaptations. In this study we use high-resolution microtomography scanning to analyse the three-dimensional distribution of the trabecular architecture of the proximal femur and proximal tibia of Sansuke, a male individual trained in bipedal performances for eight years, as well as five wild individuals. The distribution and architecture of trabecular bone in the femoral head of Sansuke is distinct from that found in wild <i>M. fuscata</i> individuals, with a unique bone reinforcement around the region of the fovea capitis. Conversely, wild individuals exhibit two pillar-like, high-density structures (converging in an inverted cone) that reach distinct regions of the posterior and anterior surfaces of the femoral head. For Sansuke’s proximal tibia, contrary to previous observations from the corticotrabecular complex distribution at the plateau, our results do not show a more asymmetric distribution between medial and lateral condyles with a medial reinforcement. Additionally, relative bone volume in this region is not significantly higher in Sansuke. However, we observed a slightly more medially placed bone reinforcement in the lateral condyle compared with the wild individuals as well as a slightly higher trabecular bone anisotropy in the medial than in the lateral condyle not observed in the wild individuals. These analyses provide new evidence about the nature and extent of functionally related adaptive arrangements of the trabecular network at the coxofemoral and the knee joints in individuals recurrently experiencing atypical load.</p>
- DOI
- 10.1537/ase.2307142
- オンライン閲覧公開範囲
- インターネット公開
- 関連情報(URI)
- 参照
- Hunter-gatherer postcranial robusticity relative to patterns of mobility, climatic adaptation, and selection for tissue economyHuman-like hip joint loading in Australopithecus africanus and Paranthropus robustusThree-dimensional musculoskeletal kinematics during bipedal locomotion in the Japanese macaque, reconstructed based on an anatomical model-matching methodFootfall Patterns in the Early Development of the Quadrupedal Walking of Japanese MacaquesTrabecular organization of the proximal femur in Paranthropus robustus: Implications for the assessment of its hip joint loading conditionsTechnical note: Morphometric maps of long bone shafts and dental roots for imaging topographic thickness variationBone modeling or bone remodeling: That is the questionMRI texture analysis of femoral neck: Detection of exercise load‐associated differences in trabecular boneGrowth and development of trabecular structure in the calcaneus of Japanese macaques ( <i>Macaca fuscata</i> ) reflects locomotor behavior, life history, and neuromuscular developmentHardness of the Subchondral Bone of the Tibial Condyles in the Normal State and in Osteoarthritis and Rheumatoid ArthritisUnique Suites of Trabecular Bone Features Characterize Locomotor Behavior in Human and Non-Human Anthropoid PrimatesSystemic patterns of trabecular bone across the human and chimpanzee skeletonJoint loading and proximal tibia subchondral trabecular bone microarchitecture differ with walking gait patterns in end-stage knee osteoarthritisTrabecular mapping: Leveraging geometric morphometrics for analyses of trabecular structureTraumatic avulsion of the ligamentum teres without dislocation of the hip. Two case reports.Ontogenetic Patterning of Human Subchondral Bone Microarchitecture in the Proximal TibiaInfluência do ligamento da cabeça do fêmur na mecânica do quadrilBipedal gait versatility in the Japanese macaque (Macaca fuscata)INJURY TO THE LIGAMENTUM TERESThe functionally-related signatures characterizing the endostructural organisation of the femoral shaft in modern humans and chimpanzeeTrabecular Bone Structure in the Distal Femur of Humans, Apes, and BaboonsCortical and trabecular bone structure of the hominoid capitateIntrapopulation variation in lower limb trabecular architectureInsight into the 3D-trabecular architecture of the human patellaAbstracts of AAPA poster and podium presentationsTrabecular variation in the first metacarpal and manipulation in hominidsTibial cortical and trabecular variables together can pinpoint the timing of impact loading relative to menarche in premenopausal femalesThe position of Australopithecus sediba within fossil hominin hand use diversityA computational framework for canonical holistic morphometric analysis of trabecular boneInverse remodelling algorithm identifies habitual manual activities of primates based on metacarpal bone architectureA novel and simple classification for ligamentum teres pathology based on joint hypermobilityA comparison of enhanced continuum FE with micro FE models of human vertebral bodiesComplex variation of trabecular bone structure in the proximal humerus and femur of five modern human populationsArthroscopic Anatomy of the HipKnee Posture Predicted from Subchondral Apparent Density in the Distal Femur: An Experimental Validationmorphomap: An R package for long bone landmarking, cortical thickness, and cross‐sectional geometry mappingggplot2Primate AdaptationsMuscles of the pelvic limb. A study of the differences between bipeds and quadrupedsThe Cartilage-Bone InterfaceTrabecular bone patterning in the hominoid distal femurNovel strategies for the characterization of cancellous bone morphology: Virtual isolation and analysisTrabecular bone structural variation throughout the human lower limbTrabecular architecture of the great ape and human femoral headMIA-Clustering: a novel method for segmentation of paleontological materialAbstracts of AAPA poster and podium presentationsPatterns of internal bone structure and functional adaptation in the hominoid scaphoid, lunate, and triquetrumA Wolff in sheep's clothing: Trabecular bone adaptation in response to changes in joint loading orientationBone Modeling and RemodelingFossil apes and human evolutionUsing point clouds to investigate the relationship between trabecular bone phenotype and behavior: An example utilizing the human calcaneusStructural Properties of the Native Ligamentum TeresCombinations of trabecular and cortical bone properties distinguish various loading modalities between athletes and controlsEvidence for habitual climbing in a Pleistocene hominin in South AfricaDensity changes at the proximal tibia after medial meniscectomyInner structural organization of the distal humerus in Paranthropus and HomoTextural characteristics of the iliac-femoral trabecular pattern in a bipedally trained Japanese macaqueMetacarpal trabecular bone varies with distinct hand‐positions used in hominid locomotionAdaptive changes in trabecular architecture in relation to functional strain patterns and disuseTrabecular bone strain changes associated with cartilage defects in the proximal and distal tibiaThe role of the ligamentum teres in the adult hip: redundant or relevant? A reviewRe-epithelialization and immune cell behaviour in an ex vivo human skin modelWho's afraid of the big bad Wolff?: “Wolff's law” and bone functional adaptationCurvature of the Lumbar Spine as a Consequence of Mechanical Necessities in Japanese Macaques Trained for BipedalismHigher premenarcheal bone mass in elite gymnasts is maintained into young adulthood after long-term retirement from sport: A 14-year follow-upKinematic analysis of bipedal locomotion of a Japanese macaque that lost its forearms due to congenital malformationCortical bone distribution in the femoral neck of Paranthropus robustusCortical and trabecular bone adaptation to incremental load magnitudes using the mouse tibial axial compression loading modelTrabecular bone ontogeny in the human proximal femurA comparison of the femoral head and neck trabecular architecture of Galago and Perodicticus using micro-computed tomography (μCT)Angular orientation of trabecular bone in the femoral head and its relationship to hip joint loads in leaping primatesLow trabecular bone density in recent sedentary modern humansThe inner structural variation of the primate tibial plateau characterized by high-resolution microtomography. Implications for the reconstruction of fossil locomotor behavioursIntegration of multiple motor segments for the elaboration of locomotion: role of the fastigial nucleus of the cerebellumThe aging of Wolff's ?law?: Ontogeny and responses to mechanical loading in cortical boneImproved Bone Structure and Strength After Long-Term Mechanical Loading Is Greatest if Loading Is Separated Into Short BoutsTrabecular Bone Structure Correlates with Hand Posture and Use in HominoidsDoes skeletal anatomy reflect adaptation to locomotor patterns? cortical and trabecular architecture in human and nonhuman anthropoidsStructural Adaptation of Trabecular Bone Revealed by Position Resolved Analysis of Proximal Femora of Different PrimatesAn ontogenetic framework linking locomotion and trabecular bone architecture with applications for reconstructing hominin life historyFemoral head trabecular bone structure in two omomyid primatesThree‐dimensional analysis of nonhuman primate trabecular architecture using micro‐computed tomographyNonhuman anthropoid primate femoral neck trabecular architecture and its relationship to locomotor modeAged mice have enhanced endocortical response and normal periosteal response compared with young-adult mice following 1 week of axial tibial compressionRecent origin of low trabecular bone density in modern humansTrabecular Bone Structure in the Humeral and Femoral Heads of Anthropoid PrimatesGracility of the modern<i>Homo sapiens</i>skeleton is the result of decreased biomechanical loadingPositional behavior of free-ranging Japanese macaques (Macaca fuscata)Do highly trained monkeys walk like humans? A kinematic study of bipedal locomotion in bipedally trained Japanese macaquesA review of trabecular bone functional adaptation: what have we learned from trabecular analyses in extant hominoids and what can we apply to fossils?Trabecular bone adaptation to variations in porous-coated implant topologyIntra-individual variation in hand postures during terrestrial locomotion in Japanese macaques (Macaca fuscata)The natural history of human gait and posturePrimates Trained for Bipedal Locomotion as a Model for Studying the Evolution of Bipedal LocomotionTrabecular bone in the bird knee responds with high sensitivity to changes in load orientationGround-reaction-force profiles of bipedal walking in bipedally trained Japanese monkeysNon-invasive axial loading of mouse tibiae increases cortical bone formation and modifies trabecular organization: A new model to study cortical and cancellous compartments in a single loaded elementThe ligamentum teres of the hip: An arthroscopic classification of its pathologyBiomechanical constraints in hindlimb joints during the quadrupedal versus bipedal locomotion of M. fuscataTrabecular bone density of the proximal tibia as it relates to failure of a total knee replacementThe three-dimensional structure of trabecular bone in the femoral head of strepsirrhine primatesBone remodelling in humans is load-driven but not lazyComparative analysis of trabecular bone structure and orientation in South African hominin taliPostcranial Skeleton of a Macaque Trained for Bipedal Standing and Walking and Implications for Functional AdaptationThe tibial subchondral plate. A scanning electron microscopic study.Development of an anatomically based whole‐body musculoskeletal model of the Japanese macaque (<i>Macaca fuscata</i>)Acquisition of bipedalism: the Miocene hominoid record and modern analogues for bipedal protohominidsThe capsular ligaments provide more hip rotational restraint than the acetabular labrum and the ligamentum teresEffect of Long-Term Impact-Loading on Mass, Size, and Estimated Strength of Humerus and Radius of Female Racquet-Sports Players: A Peripheral Quantitative Computed Tomography Study Between Young and Old Starters and ControlsHigher Nervous Control of Quadrupedal vs Bipedal Locomotion in Non-human Primates; Common and Specific PropertiesSkeletal Benefits After Long-Term Retirement in Former Elite Female Gymnasts3D‐kinematics of vertical climbing in hominoidsInterrelationship of trabecular mechanical and microstructural properties in sheep trabecular boneEnergy expenditure of bipedal walking is higher than that of quadrupedal walking in Japanese macaquesKinesiological Characteristics of Vertical Climbing in Ateles geoffroyi and Macaca fuscata支持基体の傾斜角度によるニホンザル運動様式の変化について
- 連携機関・データベース
- 国立情報学研究所 : CiNii Research
- 提供元機関・データベース
- Japan Link Center雑誌記事索引データベースCrossref
- 書誌ID(NDLBibID)
- 033268331