674 research outputs found
Femur
This chapter provides a detailed description of the Sterkfontein hominin femora and additional comparative and functional interpretations of these fossils, all of which are incomplete but still provide important information. While some have postulated that the differences among Sterkfontein femora reflect taxonomic differences, we regard these as large and small versions of the same general morphology. Multiple taxa may have been present at Sterkfontein; we just do not see evidence for it in the femora. However, while the distal femur of Australopithecus africanus is similar to that found in A. afarensis, the proximal femur is not. Sterkfontein Member 4 femora have relatively longer and more compressed femoral necks than their east African comparators, and a large femoral head to femoral neck ratio. Whether these subtle morphological differences reflect differences in substrate use, reflect differences in locomotor kinematics, or result in functional equivalency remains unclear
Phenotypic Plasticity of Climbing-Related Traits in the Ankle Joint of Great Apes and Rainforest Hunter-Gatherers
The negrito and African pygmy phenotypes are predominately exhibited by hunter-gatherers living in rainforest habitats. Foraging within such habitats is associated with a unique set of locomotor behaviors, most notably habitual vertical climbing during the pursuit of honey, fruit, and game. When performed frequently, this behavior is expected to correlate with developmentally plastic skeletal morphologies that respond to mechanical loading. Using six measurements in the distal tibia and talus that discriminate nonhuman primates by vertical climbing frequency, we tested the prediction that intraspecific variation in this behavior is reflected in the morphology of the ankle joint of habitually climbing human populations. First, to explore the plasticity of climbing-linked morphologies, we made comparisons between chimpanzees, gorillas, and orangutans from wild and captive settings. The analysis revealed significant differences in two climbing-linked traits (anterior expansion of the articular surface of the distal tibia and increased degree of talar wedging), indicating that these traits are sensitive to climbing behavior. However, our analyses did not reveal any signatures of climbing behavior in the ankles of habitually climbing hunter-gatherers. These results suggest that the detection of fine-grained differences in human locomotor behaviors at the ankle joint, particularly those associated with arboreality, may be obscured by the functional demands of terrestrial bipedalism. Accordingly, it may be difficult to use population-level characteristics of ankle morphology to make inferences about the climbing behavior of hominins in the fossil record, even when facultative arborealism is associated with key fitness benefits
Impact of a Study Abroad Course in Helping Undergraduate Students Affirm Their Career Aspirations to Become Veterinarians: A Qualitative Inquiry
Twenty-five students who participated in a study abroad course tailored to veterinary medicine during the summer of 2019 were the study’s sources of data. Using photovoice and phenomenology research methods, we sought to explore, understand, and interpret the impact of a study abroad course on pre-vet students’ views regarding veterinary medicine and their aspirations to become veterinarians. Students perceived that veterinary medicine in Mexico was structured differently from the U.S. approach and the nation’s socioeconomic and agroclimatology conditions impacted the delivery of veterinary care and affected the work settings and practice of veterinarians. They not only discerned the uniqueness of veterinary medicine in Mexico, but also recognized its universal components regardless of the culture. The students perceived socio-cultural views about the purpose of animals were significantly different compared to the United States, and veterinary medicine in Mexico was practiced in accord with such. The course contributed to enhancing students’ understanding of veterinary practice options and the professional expectations of a DVM, especially regarding large animal species. In concert with the proposition of human capital theory, the course helped some students confirm their career aspirations and others realize that veterinary medicine was not the best career fit. In some instances, the students’ experiences challenged their preconceived notions of the veterinary profession. Higher Education Institutions should facilitate appropriate and timely learning opportunities for students to understand and confirm their interests in the veterinary profession while undergraduates. Other investigations should also seek to determine factors likely to influence pre-vet students’ career choices
The Foot of \u3cem\u3eHomo naledi\u3c/em\u3e
Modern humans are characterized by a highly specialized foot that reflects our obligate bipedalism. Our understanding of hominin foot evolution is, although, hindered by a paucity of well-associated remains. Here we describe the foot of Homo naledi from Dinaledi Chamber, South Africa, using 107 pedal elements, including one nearly-complete adult foot. The H. naledi foot is predominantly modern human-like in morphology and inferred function, with an adducted hallux, an elongated tarsus, and derived ankle and calcaneocuboid joints. In combination, these features indicate a foot well adapted for striding bipedalism. However, the H. naledi foot differs from modern humans in having more curved proximal pedal phalanges, and features suggestive of a reduced medial longitudinal arch. Within the context of primitive features found elsewhere in the skeleton, these findings suggest a unique locomotor repertoire for H. naledi, thus providing further evidence of locomotor diversity within both the hominin clade and the genus Homo
The Foot of Homo Naledi
Modern humans are characterized by a highly specialized foot that reflects our obligate bipedalism. Our understanding of hominin foot evolution is, although, hindered by a paucity of well-associated remains. Here we describe the foot of Homo naledi from Dinaledi Chamber, South Africa, using 107 pedal elements, including one nearly-complete adult foot. The H. naledi foot is predominantly modern human-like in morphology and inferred function, with an adducted hallux, an elongated tarsus, and derived ankle and calcaneocuboid joints. In combination, these features indicate a foot well adapted for striding bipedalism. However, the H. naledi foot differs from modern humans in having more curved proximal pedal phalanges, and features suggestive of a reduced medial longitudinal arch. Within the context of primitive features found elsewhere in the skeleton, these findings suggest a unique locomotor repertoire for H. naledi, thus providing further evidence of locomotor diversity within both the hominin clade and the genus Homo
The foot of Homo naledi
Modern humans are characterized by a highly specialized foot that reflects our obligate bipedalism. Our understanding of hominin foot evolution is, although, hindered by a paucity of well-associated remains. Here we describe the foot of Homo naledi from Dinaledi Chamber, South Africa, using 107 pedal elements, including one nearly-complete adult foot. The H. naledi foot is predominantly modern human-like in morphology and inferred function, with an adducted hallux, an elongated tarsus, and derived ankle and calcaneocuboid joints. In combination, these features indicate a foot well adapted for striding bipedalism. However, the H. naledi foot differs from modern humans in having more curved proximal pedal phalanges, and features suggestive of a reduced medial longitudinal arch. Within the context of primitive features found elsewhere in the skeleton, these findings suggest a unique locomotor repertoire for H. naledi, thus providing further evidence of locomotor diversity within both the hominin clade and the genus Homo
When is a GIST not a GIST? A case report of synchronous metastatic gastrointestinal stromal tumor and fibromatosis
<p>Abstract</p> <p>Background</p> <p>A number of non-malignant diseases that share similar morphological features as gastrointestinal stromal tumor (GIST) have been reported. Co-existence of GIST with these other diseases is rarely recognized or reported.</p> <p>Case presentation</p> <p>We report a case of a 62 year-old man with long-term stable control of metastatic GIST with systemic therapy, presented with an apparent intra-abdominal progression but not supported by imaging with positron emission tomography. Subsequent resection of the intra-abdominal tumor identified a non-malignant fibroid.</p> <p>Conclusion</p> <p>Differentiating localized progression of GIST from other diseases has important prognostic and therapeutic implications. The potential for co-existence of non-malignant soft tissue neoplasm should always be considered.</p
Stark Broadening of the B III 2s-2p Lines
We present a quantum-mechanical calculation of Stark line widths from
electron-ion collisions for the , lambda = 2066 and 2067
A, resonance transitions in B III. The results confirm the previous
quantum-mechanical R-matrix calculations but contradict recent measurements and
semi-classical and some semi-empirical calculations. The differences between
the calculations can be attributed to the dominance of small L partial waves in
the electron-atom scattering, while the large Stark widths inferred from the
measurements would be substantially reduced if allowance is made for
hydrodynamic turbulence from high Reynolds number flows and the associated
Doppler broadening.Comment: 21 pages, 4 figures; to be published in Phys. Rev.
The Glial Regenerative Response to Central Nervous System Injury Is Enabled by Pros-Notch and Pros-NFκB Feedback
Organisms are structurally robust, as cells accommodate changes preserving structural integrity and function. The molecular mechanisms underlying structural robustness and plasticity are poorly understood, but can be investigated by probing how cells respond to injury. Injury to the CNS induces proliferation of enwrapping glia, leading to axonal re-enwrapment and partial functional recovery. This glial regenerative response is found across species, and may reflect a common underlying genetic mechanism. Here, we show that injury to the Drosophila larval CNS induces glial proliferation, and we uncover a gene network controlling this response. It consists of the mutual maintenance between the cell cycle inhibitor Prospero (Pros) and the cell cycle activators Notch and NFκB. Together they maintain glia in the brink of dividing, they enable glial proliferation following injury, and subsequently they exert negative feedback on cell division restoring cell cycle arrest. Pros also promotes glial differentiation, resolving vacuolization, enabling debris clearance and axonal enwrapment. Disruption of this gene network prevents repair and induces tumourigenesis. Using wound area measurements across genotypes and time-lapse recordings we show that when glial proliferation and glial differentiation are abolished, both the size of the glial wound and neuropile vacuolization increase. When glial proliferation and differentiation are enabled, glial wound size decreases and injury-induced apoptosis and vacuolization are prevented. The uncovered gene network promotes regeneration of the glial lesion and neuropile repair. In the unharmed animal, it is most likely a homeostatic mechanism for structural robustness. This gene network may be of relevance to mammalian glia to promote repair upon CNS injury or disease
4-Aminopyridine-induced epileptogenesis depends on activation of mitogen-activated protein kinase ERK
Extracellular signal-regulated kinases such as ERK1 [p44
mitogen-activated protein kinase (MAPK)] and ERK2 (p42
MAPK) are activated in the CNS under physiological and
pathological conditions such as ischemia and epilepsy. Here,
we studied the activation state of ERK1/2 in rat hippocampal
slices during application of the K+ channel blocker 4-aminopyridine
(4AP, 50 lM), a procedure that enhances synaptic
transmission and leads to the appearance of epileptiform
activity. Hippocampal slices superfused with 4AP-containing
medium exhibited a marked activation of ERK1/2 phosphorylation
that peaked within about 20 min. These effects
were not accompanied by changes in the activation state of
c-Jun N-terminal kinase (JNK), another member of the MAP
kinase superfamily. 4AP-induced ERK1/2 activation
was inhibited by the voltage-gated Na+ channel blocker
tetrodotoxin (1 lM). We also found that application of the ERK
pathway inhibitors U0126 (50 lM) or PD98059 (100 lM)
markedly reduced 4AP-induced epileptiform synchronization,
thus abolishing ictal discharges in the CA3 area. The effects
induced by U0126 or PD98059 were not associated with
changes in the amplitude and latency of the field potentials
recorded in the CA3 area following electrical stimuli delivered
in the dentate hylus. These data demonstrate that activation of
ERK1/2 accompanies the appearance of epileptiform activity
induced by 4AP and suggest a cause-effect relationship
between the ERK pathway and epileptiform synchronization
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