19 results on '"Slice, Dennis E."'
Search Results
2. The Development and Use of Computational Tools in Forensic Science.
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Slice, Dennis E.
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FORENSIC sciences , *BUILDING foundations , *NINETEENTH century , *CROSS-examination , *DATA modeling - Abstract
Modern computational resources make available a rich tool kit of statistical methods that can be applied to forensic questions. This tool kit is built on the foundation of statistical developments dating back to the 19th century. To fully and efffectively exploit these developments, both the makers and users of software must be keenly aware of the quality, that is, the accuracy and precision, of the data being modeled or analyzed, and end users must be sufficiently familiar with the underlying theory to understand the process and results of any analysis or software they use. This is especially important for medicolegal personnel who might be called upon to testify in a court of law and be subject to cross-examination. With respect to the development of computational tools, it is increasingly important that they be made available as open-source code to avoid the pitfalls of commercial software support and the potential dependence of end users on orphaned software. [ABSTRACT FROM AUTHOR]
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- 2018
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3. Modeling Bone Surface Morphology: A Fully Quantitative Method for Age-at-Death Estimation Using the Pubic Symphysis.
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Slice, Dennis E. and Algee ‐ Hewitt, Bridget F. B.
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SKELETAL maturity , *SURFACE morphology , *PUBIC symphysis , *ANALYSIS of variance , *FORENSIC sciences - Abstract
The pubic symphysis is widely used in age estimation for the adult skeleton. Standard practice requires the visual comparison of surface morphology against criteria representing predefined phases and the estimation of case-specific age from an age range associated with the chosen phase. Known problems of method and observer error necessitate alternative tools to quantify age-related change in pubic morphology. This paper presents an objective, fully quantitative method for estimating age-at-death from the skeleton, which exploits a variance-based score of surface complexity computed from vertices obtained from a scanner sampling the pubic symphysis. For laser scans from 41 modern American male skeletons, this method produces results that are significantly associated with known age-at-death ( RMSE = 17.15 years). Chronological age is predicted, therefore, equally well, if not, better, with this robust, objective, and fully quantitative method than with prevailing phase-aging systems. This method contributes to forensic casework by responding to medico-legal expectations for evidence standards. [ABSTRACT FROM AUTHOR]
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- 2015
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4. Regional Shape Change in Adult Facial Bone Curvature With Age.
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Williams, Shanna E. and Slice, Dennis E.
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FACIAL bones , *LIFE expectancy , *SKULL , *LIFE spans , *PHYSICAL anthropology - Abstract
Life expectancies have increased dramatically over the last 100 years, affording greater opportunities to study the impact of age on adult craniofacial morphology. This article employs a novel application of established geometric morphometric methods to examine shape differences in adult regional facial bone curvature with age. Three-dimensional semilandmarks representing the curvature of the orbits, zygomatic arches, nasal aperture, and maxillary alveolar process were collected from a cross-sectional cranial sample of mixed sex and ancestry (male and female; African- and European-American), partitioned into three age groups (young adult = 18-39; middle-aged = 40-59 years; and elderly = 60+ years). Each facial region's semilandmarks were aligned into a common coordinate system via generalized Procrustes superimposition. Regional variation in shape was then explored via a battery of multivariate statistical techniques. Age-related shape differences were detected in the orbits, zygomatic arches, and maxillary alveolar process. Interactions between age, sex, and ancestry were also identified. Vector plots revealed patterns of superoinferior compression, lateral expansion, and posterior recession depending on the population/subpopulation, location, and age groups examined. These findings indicate that adult craniofacial curvature shape is not static throughout human life. Instead, age-related spatial modifications occur in various regions of the craniofacial skeleton. Moreover, these regional alterations vary not only through time, but across human populations and the sexes. Am J Phys Anthropol 143:437-447, 2010. [ABSTRACT FROM AUTHOR]
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- 2010
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5. Face to Face.
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Windhager, Sonja, Slice, Dennis E., Schaefer, Katrin, Oberzaucher, Elisabeth, Thorstensen, Truls, and Grammer, Karl
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FACE perception , *VISUAL perception , *EMOTIONS , *INTENTION , *MULTIVARIATE analysis , *PERSONALITY , *ATTITUDE (Psychology) , *FACIAL expression , *EVOLUTIONARY psychology - Abstract
Over evolutionary time, humans have developed a selective sensitivity to features in the human face that convey information on sex, age, emotions, and intentions. This ability might not only be applied to our conspecifics nowadays, but also to other living objects (i.e., animals) and even to artificial structures, such as cars. To investigate this possibility, we asked people to report the characteristics, emotions, personality traits, and attitudes they attribute to car fronts, and we used geometric morphometrics (GM) and multivariate statistical methods to determine and visualize the corresponding shape information. Automotive features and proportions are found to covary with trait perception in a manner similar to that found with human faces. Emerging analogies are discussed. This study should have implications for both our understanding of our prehistoric psyche and its interrelation with the modern world. [ABSTRACT FROM AUTHOR]
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- 2008
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6. Geometric Morphometrics.
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Slice, Dennis E.
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ANTHROPOLOGY , *RESEARCH , *HUMAN biology , *ANTHROPOLOGISTS , *SOCIAL sciences , *HUMAN beings , *AREA studies , *ETHNOLOGY , *HUMAN geography - Abstract
Morphometrics, the field of biological shape analysis, has undergone major change in recent years. Most of this change has been due to the development and adoption of methods to analyze the Cartesian coordinates of anatomical landmarks. These geometric morphometric (GM) methods focus on the retention of geometric information throughout a study and provide efficient, statistically powerful analyses that can readily relate abstract, multivariate results to the physical structure of the original specimens. Physical anthropology has played a central role in both the development and the early adoption of these methods, just as it has done in the realm of general statistics, where it has served as a major motivating and contributing force behind much innovation. This review surveys the current state of GM, the role of anthropologists in its development, recent applications of GM in physical anthropology, and GM-based methods newly introduced to, or by, anthropology, which are likely to impact future research. [ABSTRACT FROM AUTHOR]
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- 2007
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7. Population Affinities of 19th Century Cuban Crania: Implications for Identification Criteria in South Florida Cuban Americans.
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Ross, Ann H., Slice, Dennis E., Ubelaker, Douglas H., and Falsetti, Anthony B.
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MORPHOLOGY , *HISPANIC Americans , *CRANIOMETRY , *LATIN Americans , *FORENSIC sciences - Abstract
Presents a pilot study of the among-sample morphological variation of modern 19th Cubans, Precontact Cubans, 17th Century Spanish and Terry Blacks using landmarks-based Procrustes analysis from geometric morphometrics. Biological variation of Cuban Americans which will facilitate the development of identification criteria specific for the U.S. hybrid Hispanic community; Conclusion that the application of available traditional craniometric and non-metric methods are not appropriate for the Latin population in South Florida.
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- 2004
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8. Landmark Coordinates Aligned by Procrustes Analysis Do Not Lie in Kendall's Shape Space.
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Slice, Dennis E.
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GEOMETRY , *GEOMETRIC shapes - Abstract
Demonstrates that the geometry of sample variation resulting from the most commonly used geometric method is not the same as the geometry of the shape space described by D.G. Kendall. Difference between the geometric method and the morphometric analyses; Shape analysis on the geometric and statistical properties of shape spaces defined by Procrustes metric.
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- 2001
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9. A Landmark-Free Method for Three-Dimensional Shape Analysis.
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Pomidor, Benjamin J., Makedonska, Jana, and Slice, Dennis E.
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MORPHOMETRICS , *NUMERICAL analysis , *DATA transformations (Statistics) , *SCANNING systems , *ITERATIVE methods (Mathematics) - Abstract
Background: The tools and techniques used in morphometrics have always aimed to transform the physical shape of an object into a concise set of numerical data for mathematical analysis. The advent of landmark-based morphometrics opened new avenues of research, but these methods are not without drawbacks. The time investment required of trained individuals to accurately landmark a data set is significant, and the reliance on readily-identifiable physical features can hamper research efforts. This is especially true of those investigating smooth or featureless surfaces. Methods: In this paper, we present a new method to perform this transformation for data obtained from high-resolution scanning technology. This method uses surface scans, instead of landmarks, to calculate a shape difference metric analogous to Procrustes distance and perform superimposition. This is accomplished by building upon and extending the Iterative Closest Point algorithm. We also explore some new ways this data can be used; for example, we can calculate an averaged surface directly and visualize point-wise shape information over this surface. Finally, we briefly demonstrate this method on a set of primate skulls and compare the results of the new methodology with traditional geometric morphometric analysis. [ABSTRACT FROM AUTHOR]
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- 2016
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10. An enhanced computational method for age-at-death estimation based on the pubic symphysis using 3 D laser scans and thin plate splines.
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Stoyanova, Detelina, Algee‐Hewitt, Bridget F.B., and Slice, Dennis E.
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FORENSIC anthropology , *AGE , *DEATH , *QUANTITATIVE research , *SPLINES , *THREE-dimensional imaging - Abstract
ABSTRACT Objectives: The pubic symphysis is frequently used to estimate age-at-death from the adult skeleton. Assessment methods require the visual comparison of the bone morphology against age-informative characteristics that represent a series of phases. Age-at-death is then estimated from the age-range previously associated with the chosen phase. While easily executed, the "morphoscopic" process of feature-scoring and bone-to-phase-matching is known to be subjective. Studies of method and practitioner error demonstrate a need for alternative tools to quantify age-progressive change in the pubic symphysis. This article proposes a more objective, quantitative method that analyzes three-dimensional (3D) surface scans of the pubic symphysis using a thin plate spline algorithm (TPS). Materials and Methods: This algorithm models the bending of a flat plane to approximately match the surface of the bone and minimizes the bending energy required for this transformation. Known age-at-death and bending energy were used to construct a linear model to predict age from observed bending energy. This approach is tested with scans from 44 documented white male skeletons and 12 casts. Results: The results of the surface analysis show a significant association (regression p-value = 0.0002 and coefficient of determination = 0.2270) between the minimum bending energy and age-at-death, with a root mean square error of ≈19 years. Discussion: This TPS method yields estimates comparable to established methods but offers a fully integrated, objective and quantitative framework of analysis and has potential for use in archaeological and forensic casework. Am J Phys Anthropol 158:431-440, 2015. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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11. A Study on the Asymmetry of the Human Left and Right Pubic Symphyseal Surfaces Using High‐Definition Data Capture and Computational Shape Methods.
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Stoyanova, Detelina K., Algee‐Hewitt, Bridget F. B., Kim, Jieun, and Slice, Dennis E.
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MEDICAL care , *FORENSIC anthropology , *COMPUTED tomography , *NUMERICAL analysis , *ESTIMATION theory - Abstract
The pubic symphysis is among the most commonly used bilateral age indicators. Because of potential differences between right and left sides, it is necessary to investigate within‐individual asymmetry, which can inflate age estimation error. This study uses 3D laser scans of paired pubic symphyses for 88 documented White males. Scan data are analyzed by numerical shape algorithms, proposed as an alternative to traditional visual assessment techniques. Results are used to quantify the within‐individual asymmetry, evaluating if one side produces a better age‐estimate. Relationships between the asymmetry and advanced age, weight, and stature are examined. This analysis indicates that the computational, shape‐based techniques are robust to asymmetry (>80% of paired differences are within 10 years and >90% are within 15 years). For notably more asymmetric cases, differences in estimates are not associated with life history factors. Based on this study, either side can be used for age‐at‐death estimation by the computational methods. [ABSTRACT FROM AUTHOR]
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- 2019
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12. Testing Reliability of the Computational Age‐At‐Death Estimation Methods between Five Observers Using Three‐Dimensional Image Data of the Pubic Symphysis,.
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Kim, Jieun, Algee‐Hewitt, Bridget F.B., Stoyanova, Detelina K., Figueroa‐Soto, Cristina, and Slice, Dennis E.
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SUBARACHNOID hemorrhage , *COMPUTED tomography , *DATA analysis , *FORENSIC sciences , *NANOPARTICLES - Abstract
In an effort to standardize data collection and analysis in age estimation, a series of computational methods utilizing high‐dimensional image data of the age indicator have recently been proposed as an alternative to subjective visual, trait‐to‐phase matching techniques. To systematically quantify the reproducibility of such methods, we investigate the intrascan variability and within‐ and between‐observer reliability in initial scan data capturing and editing using 3D laser scans of the Suchey–Brooks pubic symphysis casts and five shape‐based computational methods. Our results show that (i) five observers with various training background and experience levels edited the scans consistently for all three trials and the derived shape measures and age estimates were in excellent agreement among observers, and (ii) the computational methods are robust to a measured degree of scan trimming error. This study supports the application of computational methods to 3D laser scanned images for reliable age‐at‐death estimation, with reduced subjectivity. [ABSTRACT FROM AUTHOR]
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- 2019
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13. Age-at-Death Estimation for Modern Populations in Mexico and Puerto Rico through the Use of 3D Laser Scans of the Pubic Symphysis.
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Soto, Cristina Figueroa, Algee-Hewitt, Bridget F. B., Morante, Guillermo Bravo, Slice, Dennis E., and Steadman, Dawnie W.
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PUBIC symphysis , *AGE , *FORENSIC anthropology , *LASERS , *ERROR rates , *OPTICAL scanners , *POSE estimation (Computer vision) - Abstract
Reliable age-at-death estimates from the adult skeleton are of fundamental importance in forensic anthropology, because it contributes to the identity parameters used in a medicolegal death investigation. However, reliable estimates are difffijicult because many traditional aging methods depend on a set of population-specifijic criteria derived from individuals of European and African descent. The absence of information on the potential diffferences in the aging patterns of underrepresented, especially Latinx, populations may hinder our effforts to produce useful age-at-death estimates. In response to these concerns, this study explores the utility of currently available aging techniques and whether populationspecifijic aging methods among Latinx groups are needed. The authors obtained data from two skeletal collections representing modern individuals of Mexican and Puerto Rican origin. They examined fijive newly developed computational shape-based techniques using 3D laser scans of the pubic symphysis and one traditional bone-to-phase technique. A validation test of all computational and traditional methods was implemented, and new population-specifijic equations using the computational algorithms were generated and tested against a subsample. Results suggest that traditional and computational aging techniques applied to the pubic symphysis perform best with individuals within 35-45 years of age. Levels of bias and inaccuracy increase as chronological age increases, with overestimation of individuals younger than 35 years and underestimation of individuals older than 45 years. New regression models provided error rates comparable to, and in some occasions outperformed, the original computational models developed on white American males, but age estimates did not signifijicantly improve. This study shows that population-specifijic models do not necessarily improve age estimates in Latinx samples. Results do suggest that computational methods can ultimately outperform the Suchey-Brooks method and provide improved objectivity when estimating age at death in Latinx samples. [ABSTRACT FROM AUTHOR]
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- 2018
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14. A Computational Framework for Age-at-Death Estimation from the Skeleton: Surface and Outline Analysis of 3D Laser Scans of the Adult Pubic Symphysis.
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Stoyanova, Detelina K., Algee‐Hewitt, Bridget F. B., Kim, Jieun, and Slice, Dennis E.
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FORENSIC anthropology , *PUBIC symphysis , *AGE determination of human beings , *CURVATURE measurements , *QUANTITATIVE research - Abstract
In forensic anthropology, age-at-death estimation typically requires the macroscopic assessment of the skeletal indicator and its association with a phase or score. High subjectivity and error are the recognized disadvantages of this approach, creating a need for alternative tools that enable the objective and mathematically robust assessment of true chronological age. We describe, here, three fully computational, quantitative shape analysis methods and a combinatory approach that make use of three-dimensional laser scans of the pubic symphysis. We report a novel age-related shape measure, focusing on the changes observed in the ventral margin curvature, and refine two former methods, whose measures capture the flatness of the symphyseal surface. We show how we can decrease age-estimation error and improve prior results by combining these outline and surface measures in two multivariate regression models. The presented models produce objective age-estimates that are comparable to current practices with root-mean-square-errors between 13.7 and 16.5 years. [ABSTRACT FROM AUTHOR]
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- 2017
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15. Viewpoints: Diet and dietary adaptations in early hominins: The hard food perspective.
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Strait, David S., Constantino, Paul, Lucas, Peter W., Richmond, Brian G., Spencer, Mark A., Dechow, Paul C., Ross, Callum F., Grosse, Ian R., Wright, Barth W., Wood, Bernard A., Weber, Gerhard W., Wang, Qian, Byron, Craig, Slice, Dennis E., Chalk, Janine, Smith, Amanda L., Smith, Leslie C., Wood, Sarah, Berthaume, Michael, and Benazzi, Stefano
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FOOD habits , *HOMINIDS , *ANIMAL nutrition , *FOOD preferences , *PARANTHROPUS , *AUSTRALOPITHECINES , *CARBON isotopes , *HYPOTHESIS - Abstract
ABSTRACT Recent biomechanical analyses examining the feeding adaptations of early hominins have yielded results consistent with the hypothesis that hard foods exerted a selection pressure that influenced the evolution of australopith morphology. However, this hypothesis appears inconsistent with recent reconstructions of early hominin diet based on dental microwear and stable isotopes. Thus, it is likely that either the diets of some australopiths included a high proportion of foods these taxa were poorly adapted to consume (i.e., foods that they would not have processed efficiently), or that aspects of what we thought we knew about the functional morphology of teeth must be wrong. Evaluation of these possibilities requires a recognition that analyses based on microwear, isotopes, finite element modeling, and enamel chips and cracks each test different types of hypotheses and allow different types of inferences. Microwear and isotopic analyses are best suited to reconstructing broad dietary patterns, but are limited in their ability to falsify specific hypotheses about morphological adaptation. Conversely, finite element analysis is a tool for evaluating the mechanical basis of form-function relationships, but says little about the frequency with which specific behaviors were performed or the particular types of food that were consumed. Enamel chip and crack analyses are means of both reconstructing diet and examining biomechanics. We suggest that current evidence is consistent with the hypothesis that certain derived australopith traits are adaptations for consuming hard foods, but that australopiths had generalized diets that could include high proportions of foods that were both compliant and tough. Am J Phys Anthropol 151:339-355, 2013.© 2013 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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16. A New Method for the Analysis of Soft Tissues with Data Acquired under Field Conditions.
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Sonnweber, Ruth S., Stobbe, Nina, Zavala Romero, Olmo, Slice, Dennis E., Fieder, Martin, and Wallner, Bernard
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TISSUE physiology , *PHOTOGRAMMETRY , *MORPHOMETRICS , *VOLUMETRIC analysis , *GENITALIA , *PRINCIPAL components analysis - Abstract
Analyzing soft-tissue structures is particularly challenging due to the lack of homologous landmarks that can be reliably identified across time and specimens. This is particularly true when data are to be collected under field conditions. Here, we present a method that combines photogrammetric techniques and geometric morphometrics methods (GMM) to quantify soft tissues for their subsequent volumetric analysis. We combine previously developed methods for landmark data acquisition and processing with a custom program for volumetric computations. Photogrammetric methods are a particularly powerful tool for field studies as they allow for image acquisition with minimal equipment requirements and for the acquisition of the spatial coordinates of points (anatomical landmarks or others) from these images. For our method, a limited number of homologous landmarks, i.e., points that can be found on any specimen independent of space and time, and further distinctive points, which may vary over time, space and subject, are identified on two-dimensional photographs and their three-dimensional coordinates estimated using photogrammetric methods. The three-dimensional configurations are oriented by the spatial principal components (PCs) of the homologous points. Crucially, this last step orients the configuration such that x and y-information (PC1 and PC2 coordinates) constitute an anatomically-defined plane with the z-values (PC3 coordinate) in the direction of interest for volume computation. The z-coordinates are then used to estimate the volume of the tissue. We validate our method using a physical, geometric model of known dimensions and physical (wax) models designed to approximate perineal swellings in female macaques. To demonstrate the usefulness and potential of our method, we use it to estimate the volumes of Barbary macaque sexual swellings recorded in the field with video images. By analyzing both the artificial data and real monkey swellings, we validate our method's accuracy and illustrate its potential for application in important areas of biological research. [ABSTRACT FROM AUTHOR]
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- 2013
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17. Microwear, mechanics and the feeding adaptations of Australopithecus africanus
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Strait, David S., Weber, Gerhard W., Constantino, Paul, Lucas, Peter W., Richmond, Brian G., Spencer, Mark A., Dechow, Paul C., Ross, Callum F., Grosse, Ian R., Wright, Barth W., Wood, Bernard A., Wang, Qian, Byron, Craig, and Slice, Dennis E.
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BIOMECHANICS , *PHYSIOLOGICAL adaptation , *AUSTRALOPITHECUS africanus , *ECOLOGY , *FINITE element method , *NUMERICAL analysis - Abstract
Abstract: Recent studies of dental microwear and craniofacial mechanics have yielded contradictory interpretations regarding the feeding ecology and adaptations of Australopithecus africanus. As part of this debate, the methods used in the mechanical studies have been criticized. In particular, it has been claimed that finite element analysis has been poorly applied to this research question. This paper responds to some of these mechanical criticisms, highlights limitations of dental microwear analysis, and identifies avenues of future research. [Copyright &y& Elsevier]
- Published
- 2012
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18. The feeding biomechanics and dietary ecology; of Australopithecus africanus.
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Strait, David S., Weber, Gerhard W., Neubauer, Simon, Chalk, Janine, Richmond, Brian G., Lucas, Peter W., Spencer, Mark A., Schrein, Caitlin, Dechow, Paul C., Ross, Callum F., Grosse, Ian R., Wright, Barth W., Constantin, Paul, Wood, Bernard A., Lawn, Brian, Hylander, William L., Wang, Qian, Byron, Craig, Slice, Dennis E., and Smith, Amanda L.
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FOSSIL hominids , *BIOMECHANICS , *BIOLOGICAL adaptation , *DIET , *NUTRITION - Abstract
The African Plio-Pleistocene hominins known as australopiths evolved a distinctive craniofacial morphology that traditionally has been viewed as a dietary adaptation for feeding on either small, hard objects or on large volumes of food. A historically influential interpretation of this morphology hypothesizes that loads applied to the premolars during feeding had a profound influence on the evolution of australopith craniofacial form. Here, we test this hypothesis using finite element analysis in conjunction with comparative, imaging, and experimental methods. We find that the facial skeleton of the Australopithecus type species, A. africanus, is well suited to withstand premolar loads. However, we suggest that the mastication of either small objects or large volumes of food is unlikely to fully explain the evolution of facial form in this species. Rather, key aspects of australopith craniofacial morphology are more likely to be related to the ingestion and initial preparation of large, mechanically protected food objects like large nuts and seeds. These foods may have broadened the diet of these hominins, possibly by being critical resources that australopiths relied on during periods when their preferred dietary items were in short supply. Our analysis reconciles apparent discrepancies between dietary reconstructions based on biomechanics, tooth morphology, and dental microwear. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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19. Quantification of age-related shape change of the human rib cage through geometric morphometrics
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Gayzik, Francis S., Yu, Mao M., Danelson, Kerry A., Slice, Dennis E., and Stitzel, Joel D.
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DEVELOPMENTAL biology , *BIOLOGY , *DEVELOPMENTAL psychology , *GROWTH , *LIFE spans - Abstract
Abstract: The aim of this study is to quantify patterns of age-related shape change in the human thorax using Procrustes superimposition. Landmarks (n=106) selected from anonymized computed tomography (CT) scans of 63 adult males free of skeletal pathology were used to describe the form of the rib cage. Multivariate linear regression was used to determine a relationship between landmark location and age. Linear and quadratic models were also investigated. A permutation test employing 1×105 random trials was used to assess the model significance for both model formulations. Linear relationships between the centroid size (CS) of a landmark set and the corresponding individual''s height, weight, and BMI were conducted to enable scaling of the dimensionless results from the Procrustes analysis. A significance level of α=0.05 was used for all tests. The average age of the study subjects was 57.0±17.3 years. Complete landmark sets were obtained from most of the scans (44 of 63). The quadratic relationship between the age and landmark location was found to be significant (p=0.037), thereby establishing a relationship between the age and thoracic shape change. The linear relationship was mildly significant as well (p=0.073). Significant relationships between the centroid size of the dataset and subject weight, height and BMI were determined, with the best-correlated value being weight (p=0.002, R 2=0.22). Landmark datasets calculated using the quadratic model exhibited shape change consistent with the clinical observations (increasing kyphosis and rounding of the thoracic cage). Procrustes superimposition represents a potential improvement in the approach used to generate computational models for injury biomechanics studies. The coefficients from the quadratic model are provided and can be used to generate the complete set of model landmark data points at a given age. [Copyright &y& Elsevier]
- Published
- 2008
- Full Text
- View/download PDF
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