Reviewing the morphology of the jaw-closing musculature in squirrels, rats, and guinea pigs with contrast-enhanced microCT.
about
Three dimensional digital reconstruction of the jaw adductor musculature of the extinct marsupial giant Diprotodon optatumEffect of Postnatal Myostatin Inhibition on Bite Mechanics in MiceMorphology of the jaw-closing musculature in the common wombat (Vombatus ursinus) using digital dissection and magnetic resonance imagingSine systemate chaos? A versatile tool for earthworm taxonomy: non-destructive imaging of freshly fixed and museum specimens using micro-computed tomographyMuscle moment arms and sensitivity analysis of a mouse hindlimb musculoskeletal modelThe impact of gape on the performance of the skull in chisel-tooth digging and scratch digging mole-rats (Rodentia: Bathyergidae)Jaw anatomy of Potamogale velox (Tenrecidae, Afrotheria) with a focus on cranial arteries and the coronoid canal in mammalsThe use of nano-computed tomography to enhance musculoskeletal researchSpecies-specific modifications of mandible shape reveal independent mechanisms for growth and initiation of the coronoidEndocranial and masticatory muscle volumes in myostatin-deficient miceDigital dissection - using contrast-enhanced computed tomography scanning to elucidate hard- and soft-tissue anatomy in the Common Buzzard Buteo buteoDigital dissection of the masticatory muscles of the naked mole-rat, Heterocephalus glaber (Mammalia, Rodentia)Masticatory biomechanics of the Laotian rock rat, Laonastes aenigmamus, and the function of the zygomaticomandibularis muscleOntogeny of the cranial system in Laonastes aenigmamusFunctional evolution of the feeding system in rodentsFinite element modelling of squirrel, guinea pig and rat skulls: using geometric morphometrics to assess sensitivityContrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian heartsPatterns of covariation in the masticatory apparatus of hystricognathous rodents: implications for evolution and diversification.Predicting bite force and cranial biomechanics in the largest fossil rodent using finite element analysis.Quantitative analysis of microscopic X-ray computed tomography imaging: Japanese quail embryonic soft tissues with iodine staining.A novel method for in vivo visualization of the microcirculation of the mandibular periosteum in rats.The Predictability from Skull Morphology of Temporalis and Masseter Muscle Cross-Sectional Areas in Humans.Diffusible iodine-based contrast-enhanced computed tomography (diceCT): an emerging tool for rapid, high-resolution, 3-D imaging of metazoan soft tissues.Musculoskeletal Geometry, Muscle Architecture and Functional Specialisations of the Mouse HindlimbRare ecomorphological convergence on a complex adaptive landscape: Body size and diet mediate evolution of jaw shape in squirrels (Sciuridae).Three-dimensional visualisation of the internal anatomy of the sparrowhawk (Accipiter nisus) forelimb using contrast-enhanced micro-computed tomographyDigital dissection and three-dimensional interactive models of limb musculature in the Australian estuarine crocodile (Crocodylus porosus).Masticatory muscle architecture in a water-rat from Australasia (Murinae, Hydromys) and its implication for the evolution of carnivory in rodents.Digital dissection of the model organism Xenopus laevis using contrast-enhanced computed tomography.Micro-computed tomography in murine models of cerebral cavernous malformations as a paradigm for brain disease.The jaw is a second-class lever in Pedetes capensis (Rodentia: Pedetidae).The morphology of the mouse masticatory musculature.Let bone and muscle talk together: a study of real and virtual dissection and its implications for femoral musculoskeletal structure of chimpanzees.Non-Destructive Determination of Muscle Architectural Variables Through the Use of DiceCT.An exploratory study of contrast agents for soft tissue visualization by means of high resolution X-ray computed tomography imaging.Differential influences of allometry, phylogeny and environment on the rostral shape diversity of extinct South American notoungulates.Three-dimensional imaging of the mouse heart and vasculature using micro-CT and whole-body perfusion of iodine or phosphotungstic acid.Bite force and body mass of the fossil rodent Telicomys giganteus (Caviomorpha, Dinomyidae)Can functional traits help explain the coexistence of two species of Apodemus?Life in Burrows Channelled the Morphological Evolution of the Skull in Rodents: the Case of African Mole-Rats (Bathyergidae, Rodentia)
P2860
Q24810425-2B89AB03-F962-40B4-A07B-9A06E122303AQ27301008-95D066E8-8C80-43D0-B1E4-1D7A93E47A1EQ27315512-B0D76338-CD70-4535-BABA-E796A6183605Q27334380-D3AD62F6-4904-4DB3-AA27-3C9ACA0CB2DBQ28596240-68D76DA5-5DE8-4D38-9E79-620590C7FB60Q28596259-C6F2769E-7965-4EAE-A3F7-C260DC0DCBCFQ28603907-6F689EDF-106F-46F3-92DC-1C81AC0DFEA9Q28604230-8953ED0B-3E7A-4C9B-A65C-5A142D98A61EQ28607473-442240AC-4FD7-4B52-8AC2-7188D5F483A3Q28646797-24BA6541-1167-4225-90A5-E657AE5798BAQ28655706-3CBA4BF5-A230-4E4D-A5C5-A1BE155C91CEQ28656325-1C88F0F2-B094-4E0F-B9A3-1407FBAC6096Q28680707-4F7676B9-926A-477C-81B1-293ACABF50E6Q28728731-CC0EDAE1-BA37-412C-901E-F8CDAC55B634Q28730298-F9835C11-42D8-4752-9D24-A20415FBD48DQ28741424-F89C38FB-ABBE-44B5-8B1B-A6F8886F275CQ34235623-2F144BA0-E509-4E6A-9E49-4A1ED960A778Q34352111-A2297A68-E56B-4205-809A-CC35D7B1D694Q34461358-78492DDB-8943-4040-86E5-876AD794C5E0Q34838492-89E53F78-F2FB-484A-A75B-5AC9A24B7427Q35117153-25A2C073-C34D-4E3F-AD6D-2378B636BA83Q35587044-6C69B8D4-0C0B-44F6-B5D2-F1FFA42EC2BAQ35955112-4FD5B2AC-9DA3-477F-B8C6-4CA6236FC76BQ35999318-DE7F7440-114E-46F3-B740-A5B319E68A3FQ36246054-F94AB455-1CE8-45BA-8F76-78400A395496Q36313985-4283F7CE-6512-4073-AAE0-A1C9D135C17AQ36338066-B0AD1732-39C7-43D2-838B-75FADBE66EE9Q36393717-3C00FD73-2B47-4BB8-8F4A-5678F5CBEC4DQ38761988-79FBF470-0CB3-451D-8164-2215A127AA2CQ40968561-8E7621EA-5986-4BA6-AF5C-4229E7632691Q41595535-847A661A-40D4-4402-A1A4-46E7F2B6F1AEQ45734621-70A65E2E-80D3-4FC9-B0E7-5ED4E7F96A0AQ46784986-7BDE1C62-9AF4-4018-9669-D2B1E9E481D8Q47563946-9F34482B-809D-44CD-8897-F3AD125606A6Q49134937-5DAD36F9-2034-4A9E-8780-86985AE278CEQ49185578-3A16DB5A-B95B-4941-BDA0-4F2C70398BFCQ53068162-35320C44-75D1-498D-A5EF-0F8BE2C7843EQ56522799-66EC69CA-9F04-4C28-B2F1-5B519F40CFB1Q58038021-52076011-D4FC-4B50-9CB0-013AA2FC2397Q59304459-7F3569D8-AAC2-4477-8FFA-DA19E169936D
P2860
Reviewing the morphology of the jaw-closing musculature in squirrels, rats, and guinea pigs with contrast-enhanced microCT.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 28 April 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@en
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@nl
type
label
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@en
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@nl
prefLabel
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@en
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@nl
P2860
P356
P1476
Reviewing the morphology of th ...... ith contrast-enhanced microCT.
@en
P2093
Nathan Jeffery
Philip G Cox
P2860
P304
P356
10.1002/AR.21381
P577
2011-04-28T00:00:00Z