Your search keyword '"computational morphometrics"' showing total 5 results

1. Editorial: Statistical model-based computational biomechanics: applications in joints and internal organs

Author

Bhushan Borotikar, Tinashe E. M. Mutsvangwa, Shireen Y. Elhabian, and Emmanuel A. Audenaert

Subjects

computational morphometrics, osteoarthristis, foot and ankle, cerebral palsy, particle-based shape modeling, spatiotemporal modeling, Biotechnology, TP248.13-248.65

Published

2023

2. Statistical multi-level shape models for scalable modeling of multi-organ anatomies

Author

Nawazish Khan, Andrew C. Peterson, Benjamin Aubert, Alan Morris, Penny R. Atkins, Amy L. Lenz, Andrew E. Anderson, and Shireen Y. Elhabian

Subjects

computational anatomy, hierarchical statistical models, statistical shape modeling, computational morphometrics, shape and relative pose models, vertebra, Biotechnology, TP248.13-248.65

Abstract

Statistical shape modeling is an indispensable tool in the quantitative analysis of anatomies. Particle-based shape modeling (PSM) is a state-of-the-art approach that enables the learning of population-level shape representation from medical imaging data (e.g., CT, MRI) and the associated 3D models of anatomy generated from them. PSM optimizes the placement of a dense set of landmarks (i.e., correspondence points) on a given shape cohort. PSM supports multi-organ modeling as a particular case of the conventional single-organ framework via a global statistical model, where multi-structure anatomy is considered as a single structure. However, global multi-organ models are not scalable for many organs, induce anatomical inconsistencies, and result in entangled shape statistics where modes of shape variation reflect both within- and between-organ variations. Hence, there is a need for an efficient modeling approach that can capture the inter-organ relations (i.e., pose variations) of the complex anatomy while simultaneously optimizing the morphological changes of each organ and capturing the population-level statistics. This paper leverages the PSM approach and proposes a new approach for correspondence-point optimization of multiple organs that overcomes these limitations. The central idea of multilevel component analysis, is that the shape statistics consists of two mutually orthogonal subspaces: the within-organ subspace and the between-organ subspace. We formulate the correspondence optimization objective using this generative model. We evaluate the proposed method using synthetic shape data and clinical data for articulated joint structures of the spine, foot and ankle, and hip joint.

Published

2023

3. Multi-level multi-domain statistical shape model of the subtalar, talonavicular, and calcaneocuboid joints

Author

Andrew C. Peterson, Rich J. Lisonbee, Nicola Krähenbühl, Charles L. Saltzman, Alexej Barg, Nawazish Khan, Shireen Y. Elhabian, and Amy L. Lenz

Subjects

foot and ankle, statistical shape modeling, computational morphometrics, midtarsal joint locking, weightbearing computed tomography, Biotechnology, TP248.13-248.65

Abstract

Traditionally, two-dimensional conventional radiographs have been the primary tool to measure the complex morphology of the foot and ankle. However, the subtalar, talonavicular, and calcaneocuboid joints are challenging to assess due to their bone morphology and locations within the ankle. Weightbearing computed tomography is a novel high-resolution volumetric imaging mechanism that allows detailed generation of 3D bone reconstructions. This study aimed to develop a multi-domain statistical shape model to assess morphologic and alignment variation of the subtalar, talonavicular, and calcaneocuboid joints across an asymptomatic population and calculate 3D joint measurements in a consistent weightbearing position. Specific joint measurements included joint space distance, congruence, and coverage. Noteworthy anatomical variation predominantly included the talus and calcaneus, specifically an inverse relationship regarding talar dome heightening and calcaneal shortening. While there was minimal navicular and cuboid shape variation, there were alignment variations within these joints; the most notable is the rotational aspect about the anterior-posterior axis. This study also found that multi-domain modeling may be able to predict joint space distance measurements within a population. Additionally, variation across a population of these four bones may be driven far more by morphology than by alignment variation based on all three joint measurements. These data are beneficial in furthering our understanding of joint-level morphology and alignment variants to guide advancements in ankle joint pathological care and operative treatments.

Published

2022

4. Prediction of femoral head coverage from articulated statistical shape models of patients with developmental dysplasia of the hip.

Author

Atkins, Penny R., Agrawal, Praful, Mozingo, Joseph D., Uemura, Keisuke, Tokunaga, Kunihiko, Peters, Christopher L., Elhabian, Shireen Y., Whitaker, Ross T., and Anderson, Andrew E.

Subjects

*FEMUR head, *CONGENITAL hip dislocation, *STATISTICAL models, *JAPANESE people, *DYSPLASIA, *COMPUTED tomography

Abstract

Developmental dysplasia of the hip (DDH) is commonly described as reduced femoral head coverage due to anterolateral acetabular deficiency. Although reduced coverage is the defining trait of DDH, more subtle and localized anatomic features of the joint are also thought to contribute to symptom development and degeneration. These features are challenging to identify using conventional approaches. Herein, we assessed the morphology of the full femur and hemi‐pelvis using an articulated statistical shape model (SSM). The model determined the morphological and pose‐based variations associated with DDH in a population of Japanese females and established which of these variations predict coverage. Computed tomography (CT) images of 83 hips from 47 patients were segmented for input into a correspondence‐based SSM. The dominant modes of variation in the model initially represented scale and pose. After removal of these factors through individual bone alignment, femoral version and neck‐shaft angle, pelvic curvature, and acetabular version dominated the observed variation. Femoral head oblateness and prominence of the acetabular rim and various muscle attachment sites of the femur and hemi‐pelvis were found to predict 3D CT‐based coverage measurements (R2 = 0.5–0.7 for the full bones, R2 = 0.9 for the joint). Statement of Clinical Significance: Currently, clinical measurements of DDH only consider the morphology of the acetabulum. However, the results of this study demonstrated that variability in femoral head shape and several muscle attachment sites were predictive of femoral head coverage. These morphological differences may provide insight into improved clinical diagnosis and surgical planning based on functional adaptations of patients with DDH. [ABSTRACT FROM AUTHOR]

Published

2022

5. A survey of computer-based vision systems for automatic identification of plant species.

Author

Babatunde, Oluleye, Armstrong, Leisa, Diepeveen, Dean, and Leng, Jinsong

Subjects

*AUTOMATIC identification, *AGRICULTURAL informatics, *PLANT species, *RESTORATION ecology, *WEEDS, *COMPUTERS in agriculture

Abstract

Plants are unavoidable for the existence of most living things on this planet. There are many needs of both humans and animals that are satisfied by materials from plants. These needs include food, shelter, and medicine. The ability to identify plants is highly important in several applications, including conservation of endangered plant species, rehabilitation of lands after mining activities and differentiating crop plants from weeds. This paper reviews several applications and works that have been made towards computer-based vision systems for automatic identification of plant species. It shows the various techniques alongside their descriptions. It portrays how future researchers in this field (especially precision agriculture or agricultural informatics) may move the knowledge domain forward. [ABSTRACT FROM AUTHOR]

Published

2015