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Comparison Of Musculoskeletal Networks Of The Primate Forelimb

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Anatomical comparison across heads, fore‐ and hindlimbs in mammals ...

Comparison of musculoskeletal networks of the primate forelimb

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Grist for Riedl’s mill: A network model perspective on the integration and modularity of the human skull

Comparison of musculoskeletal networks of the primate forelimb Molnar, J; Esteve-Altava, B; Rolian, C; Diogo, R

Here we apply this approach to study the macroevolution of the forelimb in primates, a structure whose proportions and functions vary widely within this group. We

Here we apply this approach to study the macroevolution of the forelimb in primates, a structure whose proportions and functions vary widely within this group. We analyzed musculoskeletal

networks of the primate forelimb Julia Molnar 1 , Borja Esteve-Altava 1,2, Campbell Rolian 3 & Rui Diogo 1 Anatomical network analysis is a framework for quantitatively characterizing the

Comparison of musculoskeletal networks of the primate forelimb Publications; Year 2017 Type(s) Journal Article Author(s) Molnar, Julia and Esteve-Altava, Borja and Rolian, Campbell and

We analyzed the musculoskeletal networks of the forelimb in 22 genera representing all major extant primate clades as well as three

Example showing skeletal anatomy of the human forelimb (A) and its corresponding network model.(B) Every bone of the forearm is modeled in the network as a node. Links between two

Comparison of musculoskeletal networks of the primate forelimb Publications; Year 2017 Type(s) Journal Article Author(s) Molnar, Julia and Esteve-Altava, Borja and Rolian, Campbell and

We created anatomical network models of the head, forelimb, and hindlimb of two taxa considered to represent a ‘generalized’ eutherian (placental: mouse) and metatherian (marsupial:

The chapter has three main sections: (1) summary of the basic organization and homologies of the musculature of the human hand, (2) comparison of major differences in hand

That is, at a musculoskeletal level the values of network parameters show that the complexity in Homo sapiens forelimb is lower than in Pan troglodytes and Pan paniscus (lower

We analyzed the musculoskeletal networks of the forelimb in 22 genera representing all major extant primate clades as well as three outgroups: the primate sister-group Dermoptera

Furthermore, all primate taxa with divergent forelimb and hindlimb function show reduced integration between the limbs than primates with similar forelimb and hindlimb function (Young

Comparison of musculoskeletal networks of the primate forelimb. Scientific Reports. 7: 10520. PMID 28874673 DOI: 10.1038/S41598-017-09566-7 : 0.359: 2017: Ziermann JM, Freitas R,

There was no clear indication that humans and mice are more alike when compared to the opossum overall, even though their musculoskeletal and skeletal networks of fore- and

There was no clear indication that humans and mice are more alike when compared to the opossum overall, even though their musculoskeletal and skeletal networks of fore- and

Comparison of musculoskeletal networks of the primate forelimb (Q41620035) From Wikidata. Jump to navigation Jump to search. scientific article. edit. Language Label Description Also

networks of the primate forelimb Julia Molnar 1 , Borja Esteve-Altava 1,2, Campbell Rolian 3 & Rui Diogo 1 Anatomical network analysis is a framework for quantitatively characterizing the

Comparison of musculoskeletal networks of the primate forelimb Julia Molnar1, Borja Esteve-Altava 1,2, Here we apply this approach to study the macroevolution of the forelimb in

Comparison of musculoskeletal networks of the primate forelimb Julia Molnar1, Borja Esteve-Altava 1,2, Here we apply this approach to study the macroevolution of the forelimb in

Julia Molnar investigates the evolution of vertebrate locomotion. She uses three-dimensional virtual models of fossil and living animals to study how muscle leverage, joint range of motion, and other biomechanical factors change over

We created anatomical network models of the head, forelimb, and hindlimb of two taxa considered to represent a ‚generalized‘ eutherian (placental: mouse) and metatherian (marsupial:

The forelimb is the most versatile part of the locomotor system in primates. As such, its functional morphology varies widely among taxa with different locomotor specializations. It is therefore an