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3. Avances en la cirugia de la disrrafia espinal en el instituto de neurocirugia de Chile: el uso del neuromonitoreo mejora radicalmente los resultados quirurgicos

Author

Marengo, J.J., Cuevas, J.L., Concha, C., Becar, H., Abdala, V., Solari, G., Naudy, C., and Zuleta, A.

Subjects
Health
Abstract

El objetivo del tratamiento quirúrgico de los pacientes aquejados de disrrafia espinal es mantener su función neurológica estable y óptima durante toda su vida, sin embargo, existe un riesgo importante implícito en la cirugía. Con el objeto de investigar el impacto del monitoreo electrofisiológico intraoperatorio (MIO) en la evolución postoperatoria de estos pacientes, el cirujano practicó electromiografía libre y estimulada como retroalimentación continua del procedimiento. Las patologías operadas fueron: lipomas del fillum, lipomas del cono medular y re-anclajes de pacientes portadores de mielomeningocele al nacer. En todas las patologías se comparó la evolución post-operatoria con grupos de pacientes operados sin MIO, con el objeto de comparar sus evoluciones. Se observaron diferencias significativas entre los tres grupos de pacientes el uso de MIO evita el deterioro motor y la aparición de vejiga neurogénica en pacientes operados de lipoma del cono, evita la inclusión de raíces nerviosas en la sección del Fillum y evita el deterioro motor y ayuda a mejorar la función vesical de pacientes que se operan por re-anclaje medular por mielomeningocele. Finalmente, fue posible aplicar esta técnica en recién nacidos con mielomeningocele bajo, desarrollándose un protocolo que evita de facto el deterioro motor y debería evitar la inclusión de piel durante la tunelización de la placoda. Los datos mostrados en el presente trabajo permiten afirmar que esta técnica, por primera vez desarrollada en el sistema público chileno, así aplicada mejora muy significativamente los resultados de la cirugía de disrrafia espinal., Introduccion La incidencia mundial de la espina bífida es entre 0,5 y 5 por cada 1000 nacidos vivos. Una serie de estudios epidemiológicos ha permitido identificar factores tanto genéticos como [...]

Published
2011

9. Evolution of tendon shape in an anuran clade and its relation to size, phylogeny and locomotion.

Author

Fratani, J., Ponssa, M. L., and Abdala, V.

Subjects
PHYLOGENY, ANIMAL locomotion, HINDLIMB, EXTENSOR muscles, ACHILLES tendon
Abstract

Most anatomical specializations related to anuran jumping have been observed in pelvic girdle and hindlimbs, which are characterized by its fused caudal vertebrae and elongated hindlimbs. Still, despite of a greatly specialized body plan, locomotor variation in anurans goes beyond jumping, including specializations for swimming, burrowing, and climbing. Herein, we test for morphological adaptation in three tendinous elements associated with the urostyle and hindlimb joints: the tendon of the longissimus dorsi which inserts on the urostyle and rotates it dorsally; the patellar tendon which goes over the knee joint and connects the larger thigh extensor muscles; and the Achilles tendon which passes over the ankle joint and participates in the catapult‐like mechanism of jumping species. We make an incursion in tendon variation using geometric morphometrics and test if tendon shape is related to size, phylogeny and locomotion in leptodactylid species. Also, we hypothesize that tarsal bone elongation in anura alters the heel into a more 'knee‐like' joint affecting tendon shape, and test for patellar and Achilles similarity. We found that a combination of factors drives Leptodactylidae tendon morphological diversity. Allometry, phylogeny and function take part in the longissimus dorsi tendon variation, with significant difference between hopping and all jumping species. The patellar tendon shape scales isometrically with size, with significant shape difference between jumping and jumping‐swimming species. Achilles tendon shape is mainly affected by allometry. Optimization showed a shift for a broader longissimus dorsi tendon shape in the ancestor of Leptodactylus. Finally, and contrary to our prediction, patellar and Achilles tendon shapes are significantly different. Once again, evidence points to a combination of factors explaining shape, rather than a direct and evident functional‐anatomic relation. We test for morphological adaptation in three tendinous elements associated with pelvic and hindlimb joints in anuran locomotion using geometric morphometrics. Allometry, phylogeny and function take part in tendon variation, with different possible interpretations for each studied element. Evidence points to a combination of factors explaining shape, rather than a direct and evident functional‐anatomic relationship. [ABSTRACT FROM AUTHOR]

Published
2019
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10. Impact of temperature on performance in two species of South African dwarf chameleon, Bradypodion pumilum and B. occidentale

Author

Perrenoud, M., Decamps, T., Abdala, V., Manzano, A., Pouydebat, E., Houssaye, Alexandra, Böhme, Wolfgang, Konow, Nicolai, Krijestorac, Belma, Sanford, Christopher, Segall, M., Tolley, K., Vanhooydonck, B., Measey, G., Herrel, Anthony, Rathgen-Forschungslabor, Staatliche Museen zu Berlin-Stiftung Preußischer KulturbesitzBerlin, Delft University of Technology (TU Delft), Laboratoire de Biomodélisation et Ingénierie des Handicaps - EA 4322 (HANDIBIO), Université de Toulon (UTLN), Mécanismes adaptatifs : des organismes aux communautés, Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS), Zoologische Forschungsmuseum Alexander Koenig (ZFMK), Center for Research and Education in Optics and Lasers (CREOL), and University of Central Florida [Orlando] (UCF)-School of Optics

Subjects
Male, 0106 biological sciences, Physiology, [SDV]Life Sciences [q-bio], Climate change, Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, Acclimatization, Bite Force, South Africa, 03 medical and health sciences, Species Specificity, Animals, Molecular Biology, Bradypodion pumilum, Ecology, Evolution, Behavior and Systematics, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, Bradypodion, 0303 health sciences, Ecology, [SDV.BA]Life Sciences [q-bio]/Animal biology, Temperature, Lizards, biology.organism_classification, 13. Climate action, Insect Science, Ectotherm, Threatened species, Trait, Female, Animal Science and Zoology, Human medicine, Adaptation
Abstract

Summary Temperature is an extrinsic factor which influences reptile behavior given that their physiology is dependent on environmental temperature. Understanding the impact of temperature on performance traits is important as it may affect the ecology and fitness of ectothermic animals such as reptiles. Here we examine the temperature dependence of performance in two species of South African Dwarf chameleon (Bradypodion), a semi-arid and a mesic adapted species. Ecologically relevant performance traits were tested at different temperatures to evaluate their thermal dependence and temperature-performance breadths for 80% and 90% of each performance trait were calculated. Our results show distinct differences in the thermal dependence of speed versus force-related performance traits. Moreover, our results show that the semi-arid species is better adapted to higher temperatures and as such has better chances to cope with the predicted increases in temperature. The mesic-adapted species seems to be more sensitive to an increase in temperature and could therefore potentially be threatened by predicted future climate change. However, further studies investigating the potential for acclimation in chameleons are needed to better understand how animals may respond to predicted future climate change.

Published
2013
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18. Musculoskeletal and tendinous details of selected anomalies in the locomotor system of anurans.

Author

Soliz MC and Abdala V

Subjects
Animals, Locomotion physiology, Forelimb abnormalities, Hindlimb abnormalities, Muscle, Skeletal abnormalities, Anura abnormalities, Anura anatomy & histology, Tendons abnormalities
Abstract

Previous studies on anuran anomalies predominantly examine isolated cases or focus on external and skeletal features. Our study analyzes a comprehensive sample collected from 1991 to 2017, examining the muscle-tendon system in 24 anuran species across adult, juvenile, and metamorphic stages. This extensive sample size allows us to investigate consistent anomaly patterns across different developmental stages and anuran families, exploring potential common developmental or genetic factors. Our detailed anatomical examination, encompassing musculature, tendons, and skeletal structures, revealed that 21% of the specimens displayed anomalies, a noteworthy finding considering the extensive sample size and duration of the studied sample. Of these anomalies, 17% affected the locomotor system, predominantly in the upper limbs. Key anomalies included, forelimbs and hindlimbs brachydactyly, rotation in forelimbs, partial kyphotic lordosis, and scoliosis. Notably, the digit 4 in the forelimbs and digits 4 and 5 in the hindlimbs were particularly susceptible to teratogenic effects, indicating possible prolonged exposure during development. Our study also uncovered combinations of anomalies and identified a phenotype similar to Poland syndrome. The findings validate the "Logic of Monsters" (LoMo theory) by Alberch, although the name itself may not be deemed appropriate, showing that developmental disruptions in tetrapods are not random but follow distinct sequences and patterns. The name, while unfortunate, accurately reflects the unusual nature of these developmental anomalies. This contributes to the evolving "Evo-Devo-Path" framework, highlighting the study's importance in understanding developmental disruptions in tetrapods., (© 2024 American Association for Anatomy.)

Published
2024
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19. Prey capture kinematics of horned frogs (Anura: Ceratophryidae).

Author

Duport-Bru AS and Abdala V

Subjects
Animals, Biomechanical Phenomena, Mouth anatomy & histology, Feeding Behavior physiology, Predatory Behavior physiology, Anura anatomy & histology, Tongue anatomy & histology
Abstract

Horned frogs, members of the Ceratophryidae family, encompass a group of anurans varying in size and behavior, yet unified by morphological and behavioral traits enabling them to adopt a megalophagous diet (i.e., large prey feeding). Although the group has been the focus of numerous studies, our understanding of its feeding behavior remains limited. In this study, we characterize the feeding mechanism in five species representing the three extant genera of ceratophryid anurans, both in terrestrial and aquatic environments. We also explore the ability of Chacophrys pierottii to adjust feeding behavior based on prey type. Our findings show that all species are capable of wide mouth opening, displaying an asymmetric feeding cycle. While tongue usage is the primary method for capturing prey on land, ceratophryids may use their forelimbs to manipulate prey into their mouths, exhibiting different behavioral patterns. C. pierottii shows modulation of its feeding kinematics and is also capable of some modulation of its feeding in response to prey properties., (© 2024 Wiley Periodicals LLC.)

Published
2024
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20. Modelling evolutionary tempo and mode using formal morphological spaces and Markov chain principles.

Author

Fontanarrosa G, Abdala V, and Dos Santos DA

Subjects
Humans, Phylogeny, Markov Chains, Phenotype, Biological Evolution, Fossils
Abstract

Evolutionary tempo and mode summarize ancient and controversial subjects of theoretical biology such as gradualism, convergence, contingence, trends, and entrenchment. We employed an integrative methodological approach to explore the evolutionary tempo and mode of Lepidosaurian phalangeal formulae (PFs). This approach involves quantifying the frequencies of morphological changes along an evolutionary trajectory. The five meristic characters encoded by PFs are particularly valuable in revealing evolutionary patterns, owing to their discrete nature and extensive documentation in the literature. Based on a pre-existing dataset of PFs from 649 taxa (35 Lepidosauria families, including fossils), from which there exists a unique repertoire of 53 formulations, our approach simultaneously considers phenetic and phylogenetic data. This culminates in a diagram accounting for the phylogenetic dynamic of evolution traversing across different regions of morphospace. The method involves enumerating phenotypical options, reconstructing phenotypes across the phylogeny, projecting phenotypes onto a morphospace, and constructing a flow network from the frequency of evolutionary transitions between unique phenotypic conditions. This approach links Markovian chains and evolutionary trajectories to formally define parameters that describe the underlying transitions of morphological change. Among other results, we found that (a) PF evolution exhibits a clear trend towards reduction in the phalangeal count and that (b) evolutionary change tends to occur significantly between morphologically similar PFs. Notwithstanding, although minor but not trivial, transitions between distant formulas -jumps- occur. Our results support a pluralistic view including stasis, gradualism, and saltationism discriminating their prevalence in a target character evolution., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Evolutionary Biology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2024
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21. The BIGG-REC database makes available all WHO/PAHO evidence informed recommendations.

Author

Ragusa M, Tortosa F, Rada G, Vergara C, Zaragoza L, Farrell J, Torres M, Abdala V, Izcovich A, Haby M, Schunemann HJ, Garcia-Saiso S, and Reveiz L

Subjects
Child, Humans, World Health Organization, Health Personnel, Pan American Health Organization, COVID-19 epidemiology
Abstract

Objectives: To build and maintain a living database of the Pan American Health Organization/World Health Organization (PAHO/WHO) recommendations developed using Grading of Recommendations Assessment, Development, and Evaluation (GRADE)., Study Design and Setting: Guidelines are identified from WHO and PAHO databases. We periodically extract recommendations, according to the health and well-being targets of sustainable development goal 3 (SDG-3)., Results: As of March 2022, the International database of GRADE guidelines (https://bigg-rec.bvsalud.org/en) database hosted 2,682 recommendations contained in 285 WHO/PAHO guidelines. Recommendations were classified as follows: communicable diseases (1,581), children's health (1,182), universal health (1,171), sexual and reproductive health (910), noncommunicable diseases (677), maternal health (654), COVID-19 (224), use of psychoactive substances (99), tobacco (14) and road and traffic accidents (16). International database of GRADE guidelines allows searching by SDG-3, condition or disease, type of intervention, institution, year of publication, and age., Conclusion: Recommendation maps provide an important resource for health professionals, organizations and member states that use evidence-informed guidance to make better decisions, providing a source for the adoption or adaptation of recommendations to meet their needs. This one-stop shop database of evidence-informed recommendations built with intuitive functionalities undoubtedly represents a long-needed tool for decision-makers, guideline developers, and the public at large., Competing Interests: Declaration of Competing Interest Holger J. Schunemann reports a relationship with WHO that includes: funding grants. Holger J. Schünemann reports grants from the WHO, conceptualization of the Recommendation Mapping approach and that he is co-chair of the GRADE Working Group. The other authors have declared no competing interests. Authors hold sole responsibility for the views expressed in the manuscript, which may not necessarily reflect the opinion or policy of the PAHO., (Copyright © 2023 Pan American Health Organization. Published by Elsevier Inc. All rights reserved.)

Published
2023
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22. An overview of the osseous palmar sesamoid in Anura, with the particular case of some Rhinella species.

Author

Manzano A and Abdala V

Subjects
Animals, Phylogeny, Tendons anatomy & histology, Muscle, Skeletal anatomy & histology, Bufonidae, Sesamoid Bones diagnostic imaging
Abstract

Background: Sesamoids are generally regarded as structures that are not part of the tetrapod body plan. The presence of a palmar sesamoid is assumed to serve as a distribution point for the forces of the flexor digitorum communis muscle to the flexor tendons of the digits, which are embedded in the flexor plate. It has been considered that the palmar sesamoid is present in most anuran groups, and it has been suggested that it acts by inhibiting the closing of the palm, preventing grasping. Typical arboreal anuran groups lack a palmar sesamoid and flexor plate, a pattern shared with other tetrapod groups, which can retain a reduced sesamoid and flexor plate. We focus on the anatomical structure of the Rhinella group, which includes species that present an osseous palmar sesamoid and climb bushes or trees to avoid depredation or escape dangerous situations, and can exhibit scansorial and arboreal behaviors. We also add data on the bony sesamoids of 170 anuran species to study the anatomy and evolution of the osseous palmar sesamoid within this amphibian group. Our objective is to bring an overview of the osseous palmar sesamoid in anurans, unveiling the relationship between this element of the manus, its phylogeny, and the anuran habitat use., Methods: Skeletal whole-mount specimens of Rhinella were cleared and double-dyed to describe the sesamoid anatomy and related tissues. We review and describe the palmar sesamoid of 170 anuran species from CT images downloaded from Morphosource.org, representing almost all Anuran families. We performed an standard ancestral state reconstruction by optimizing two selected characters (osseous palmar sesamoid presence, distal carpal palmar surface) along with the habitat use of the sampled taxa, using parsimony with Mesquite 3.7., Results: Our primary finding is that sesamoid optimization in the anuran phylogeny revealed that its presence is associated with certain clades and not as widespread as previously anticipated. Additionally, we will also be delving into other important outcomes of our study that are relevant to those working in the field of anuran sesamoids. The osseous palmar sesamoid is present in the clade Bufonidae-Dendrobatidae-Leptodactylidae-Brachicephalidae that we named as PS clade, and also in the archeobatrachian pelobatoid Leptobranchium , all strongly terrestrial and burrowing species, though with exceptions. The osseous palmar sesamoid is always present in Bufonidae, but varies in form and size, depending on the mode that they use their manus, such as in the Rhinella margaritifera which has a cylindrical one and also grasping abilities that involve closing the manus. The scattered presence of the bony palmar sesamoid among anuran clades raises the question whether this sesamoid can be present with a different tissular composition in other groups., Competing Interests: Virginia Abdala is an Academic Editor for PeerJ., (©2023 Manzano et al.)

Published
2023
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23. Ontogeny of the meniscus in the anuran Xenopus laevis.

Author

Lazarte MLÁ, Manzano A, Sanchez RS, and Abdala V

Subjects
Animals, Xenopus laevis, Knee Joint, Stress, Mechanical, Menisci, Tibial pathology, Meniscus
Abstract

The anuran knee joint is subjected to the jump, one of the tetrapods' most demanding mechanical stresses. Consistent with this continuous effort, the knee of the anurans has a complex structure comparable to that of an amniote. Here, we describe the ontogeny of the Xenopus knee tissues and study the morphogenesis of the knee joint shape by performing a geometric morphometric analysis of specially selected anatomical structures: the menisci and the long bone epiphyses. A meniscus is a crescent-shaped fibrocartilaginous structure, with a triangular cross-section inserted between joints surfaces. A meniscus transmits load across the tibiofemoral joint by increasing congruity of the long bone epiphysis and decreasing the resulting stress exerted on the articular cartilage. We ask two questions: (1) what is the tissue composition along the ontogeny of the menisci of a swimming frog? (2) How do the menisci acquire the shape that will allow their adjustment? We studied the structures and tissue ontogeny of the knee of several specimens of Xenopus laevis and evaluated the congruity of the knee structures across the species ontogeny. Histological sections showed that the cavitation process responsible for separating the menisci and the epiphyses seems to be pivotal in shaping the conformity of these structures and the long bone epiphyses of the hindlimbs. The geometric morphometric analysis allowed us to interpret three phases of differentiation associated with limb functionality. The characteristic shape of the meniscus appears early in the ontogeny of the knee, simultaneously with the epiphysis contours., (© 2022 American Association for Anatomy.)

Published
2023
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24. Hind limb muscles influence the architectural properties of long bones in frogs.

Author

Vera MC, Ferretti JL, Cointry GR, and Abdala V

Subjects
Animals, Femur physiology, Locomotion physiology, Muscles, Tibia physiology, Anura physiology, Bone and Bones
Abstract

The Mechanostat Theory states that osteocytes sense both the intensity and directionality of the strains induced by mechanical usage and modulate the bone design accordingly. In long bones, this process may adapt anterior-posterior and lateral-medial strength to their mechanical environment showing regional specificity. Anuran species are ideal for analyzing the muscle-bone relationships related to the different mechanical stresses induced by their many locomotor modes and habitat uses. This work aimed to explore the relationships between indicators of the force of the most relevant muscles to locomotion and the mechanical properties of femur and tibia fibula in preserved samples of three anuran species with different habitat use (aquatic, arboreal) and locomotion modes (swimmer, jumper, walker/climber). For that purpose, we measured the anatomical cross-sectional area of each dissected muscle and correlated it with the moments of inertia and bone strength indices. Significant, species-specific covariations between muscle and bone parameters were observed. Pseudis platensis, the aquatic swimmer, showed the largest muscles, followed by Boana faber, the jumper and Phyllomedusa sauvagii, the walker/climber. As we expected, bigger muscles correlate with bone parameters in all the species. Nevertheless, smaller muscles also play an important role in bone design. In aquatic species, muscle interaction enhances mostly lateral bending strength throughout the femur and lateral and antero-posterior bending strength in the tibia fibula. In the jumper species, muscles affected the femur and tibia fibula mostly in anterior-posterior bending. In the walker/climber species, responses involving both antero-posterior and lateral bending strengths were observed in the femur and tibia fibula. These results show that bones will be more or less resistant to lateral and antero-posterior bending according to the different mechanical challenges of locomotion in aquatic vs. arboreal habitats. This study provides new evidence of the muscle-bone relationships in three frog species associated with their different locomotion and habitat uses, highlighting the crucial role of muscle in determining the architectural properties of bones., (© 2022 Anatomical Society.)

Published
2022
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25. Insights on the evolution of Coronavirinae in general, and SARS-CoV-2 in particular, through innovative biocomputational resources.

Author

Dos Santos DA, Reynaga MC, González JC, Fontanarrosa G, Gultemirian ML, Novillo A, and Abdala V

Subjects
Humans, SARS-CoV-2 genetics, Proteomics, Phylogeny, Coronaviridae, COVID-19
Abstract

The structural proteins of coronaviruses portray critical information to address issues of classification, assembly constraints, and evolutionary pathways involving host shifts. We compiled 173 complete protein sequences from isolates belonging to the four genera of the subfamily Coronavirinae. We calculate a single matrix of viral distance as a linear combination of protein distances. The minimum spanning tree (MST) connecting the individuals captures the structure of their similarities. The MST re-capitulates the known phylogeny of Coronovirinae. Hosts were mapped onto the MST and we found a non-trivial concordance between host phylogeny and viral proteomic distance. We also study the chimerism in our dataset through computational simulations. We found evidence that structural units coming from loosely related hosts hardly give rise to feasible chimeras in nature. This work offers a fresh way to analyze features of SARS-CoV-2 and related viruses., Competing Interests: Virginia Abdala is Academic Editor for PeerJ., (©2022 Dos Santos et al.)

Published
2022
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26. BIGG, the international database of GRADE Guidelines.

Author

Torres M, Ragusa M, Abdala V, Brocard E, Schunemann H, Garcia-Saiso S, and Reveiz L

Abstract

Competing Interests: The authors have declared that no competing interests exist. Authors hold sole responsibility for the views expressed in the manuscript, which may not necessarily reflect the opinion or policy of the Pan American Health Organization.

Published
2022
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27. Meditation: Evidence Map of Systematic Reviews.

Author

Schlechta Portella CF, Ghelman R, Abdala V, Schveitzer MC, and Afonso RF

Subjects
Humans, Quality of Life, Systematic Reviews as Topic, Meditation methods, Mindfulness methods
Abstract

Study Basis: This evidence map presents a summary of studies that addressed the effects of meditation on various clinical and health conditions. Meditation is a contemplative practice that has been used for the promotion of health, and the treatment of different conditions. Method: The study is based on the search of four electronic databases for the period 1994-November 2019 and includes systematic reviews, meta-analyses, meta-syntheses, and integrative reviews. 3iE evidence gap map was the methodology of choice, and AMSTAR 2 was used for the analyses. Tableau was used to graphically display the confidence level, number of reviews, health outcomes, and intervention effects. Results: This map encompasses 191 studies, with Mindfulness being the key word that retrieved the highest number of results. Several meditation techniques were evaluated in different contexts, and the confidence levels of 22 studies were high, 84 were moderate, and 82 were low. Two 2 meta-syntheses and 1 integrative review were also included. Most of the studies reported positive effects and a beneficial potential of the practice of meditation. Health outcomes were divided into five groups out of which mental health and vitality, and well-being and quality of life stood out with the largest number of studies. Conclusions: Meditation has been applied in different areas. This Evidence Map intends to be an easy visual tool to access valuable evidence-based information on this complementary therapy for patients, health professionals, and managers., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Schlechta Portella, Ghelman, Abdala, Schveitzer and Afonso.)

Published
2021
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28. Morphospace analysis leads to an evo-devo model of digit patterning.

Author

Fontanarrosa G, Abdala V, and Dos Santos DA

Subjects
Animals, Body Patterning genetics, Forelimb physiology, Lizards genetics, Lizards growth & development, Models, Biological, Biological Evolution, Body Patterning physiology, Forelimb anatomy & histology, Lizards anatomy & histology, Toes growth & development
Abstract

Biological forms occupy a constrained portion of theoretical morphospaces. Developmental models accounting for empirical morphospaces are necessary to achieve a better understanding of this phenomenon. We analyzed the phalangeal formulas (PFs) in lizards and relatives' hands by comparing them with a set of simulated PFs that compose a theoretical morphospace. We detected that: (1) the empirical morphospace is severely limited in size, (2) the PFs comply with two properties of phalangeal count per digit, namely the ordering rule (DI ≤ DII ≤ DIII ≤ DIV ≥ DV), and the contiguity relationship (neighbor digits differ on average in one phalanx), (3) the totality of the PFs can be categorized into four categories of hands aligned along a feasibility gradient. We also reconstructed the evolution of PFs and found a stepwise trajectory from the plesiomorphic PF towards reduced conditions. Finally, we propose a developmental model as the generative mechanism behind the PFs. It is consistent with the bulk of evidence managed and involves an ordered digit primordia initialization timed with periodic signals of joint formation coming from digit tips. Our approach is also useful to address the study of other meristic sequences in nature such as dental, floral, and branchial formulas., (© 2021 Wiley Periodicals LLC.)

Published
2021
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29. Antibiotic prophylaxis for surgical procedures: a scoping review.

Author

Brocard E, Reveiz L, Régnaux JP, Abdala V, Ramón-Pardo P, and Del Rio Bueno A

Abstract

Objectives: To map the current evidence on surgical antibiotic prophylaxis (SAP) administration and identify knowledge gaps in the literature available in this field., Methods: The PubMed, Cochrane Library, Epistemonikos, and Health Systems Evidence databases were searched from January 2015 to March 2020 for systematic reviews published in English, French, Portuguese, and Spanish., Results: Eighty-three systematic reviews were included, the quality of the reviews was assessed using AMSTAR 2, and data were extracted for all primary outcomes. Perioperative antibiotic administration, the use of first generation cephalosporins, and surgical site infection (SSI) were the most commonly reported for timing of antibiotic administration, drug class, and primary outcome, respectively. Findings showed that, overall, SAP may reduce SSIs compared with a placebo or with no SAP. Results suggested that intraoperative SAP may lower SSI, while postoperative SAP did not show a statistically significant difference., Conclusions: Findings have confirmed the role of SAP in reducing postoperative SSI across various surgeries and do not support the use of antibiotics after surgery to prevent infections. The findings of this scoping review have enhanced the evidence base that can inform decisions regarding the development of global guidelines for the prevention of SSI. However, high-quality systematic reviews and research reflecting diverse populations and settings are needed.

Published
2021
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30. Sesamoids in Caudata and Gymnophiona (Lissamphibia): absences and evidence.

Author

Ponssa ML and Abdala V

Abstract

An integrative definition of sesamoid bones has been recently proposed, highlighting their relationship with tendons and ligaments, their genetic origin, the influence of epigenetic stimuli on their development, and their variable tissue composition. Sesamoid bones occur mainly associated with a large number of mobile joints in vertebrates, most commonly in the postcranium. Here, we present a survey of the distribution pattern of sesamoids in 256 taxa of Caudata and Gymnophiona and 24 taxa of temnospondyls and lepospondyls, based on dissections, high-resolution X-ray computed tomography from digital databases and literature data. These groups have a pivotal role in the interpretation of the evolution of sesamoids in Lissamphibia and tetrapods in general. Our main goals were: (1) to contribute to the knowledge of the comparative anatomy of sesamoids in Lissamphibia; (2) to assess the evolutionary history of selected sesamoids. We formally studied the evolution of the observed sesamoids by optimizing them in the most accepted phylogeny of the group. We identified only three bony or cartilaginous sesamoids in Caudata: the mandibular sesamoid, which is adjacent to the jaw articulation; one located on the mandibular symphysis; and one located in the posterior end of the maxilla. We did not observe any cartilaginous or osseous sesamoid in Gymnophiona. Mapping analyses of the sesamoid dataset of urodeles onto the phylogeny revealed that the very conspicuous sesamoid in the mandibular symphysis of Necturus beyeri and Amphiuma tridactylum is an independent acquisition of these taxa. On the contrary, the sesamoid located between the maxilla and the lower jaw is a new synapomorphy that supports the node of Hydromantes platycephalus and Karsenia coreana . The absence of a mandibular sesamoid is plesiomorphic to Caudata, whereas it is convergent in seven different families. The absence of postcranial sesamoids in salamanders might reveal a paedomorphic pattern that would be visible in their limb joints., Competing Interests: Virginia Abdala is an Academic Editor for PeerJ., (© 2020 Ponssa and Abdala.)

Published
2020
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31. Biomechanical properties of anuran long bones: correlations with locomotor modes and habitat use.

Author

Vera MC, Ferretti JL, Abdala V, and Cointry GR

Subjects
Animals, Biomechanical Phenomena physiology, Bone Density physiology, Ecosystem, Femur diagnostic imaging, Fibula diagnostic imaging, Male, Tibia diagnostic imaging, Tomography, X-Ray Computed, Anura physiology, Femur physiology, Fibula physiology, Locomotion physiology, Tibia physiology
Abstract

Long bones are subjected to mechanical loads during locomotion that will influence their biomechanical properties through a feedback mechanism (the bone mechanostat). This mechanism adapts the spatial distribution of the mineralized tissue to resist compression, bending and torsion. Among vertebrates, anurans represent an excellent group to study long bone properties because they vary widely in locomotor modes and habitat use, which enforce different skeletal loadings. In this study, we hypothesized that (a) the cortical bone mass, density and design of anuran femur and tibiofibula would reflect the mechanical influences of the different locomotor modes and habitat use, and (b) the relationships between the architectural efficiency of cortical design (cross-sectional moments of inertia) and the intrinsic stiffness of cortical tissue [cortical mineral density; the 'distribution/quality' (d/q) relationship] would describe some inter-specific differences in the efficiency of the bone mechanostat to improve bone design under different mechanical loads. To test this hypothesis, we determined tomographic (peripheral quantitative computed tomography) indicators of bone mass, mineralization, and design along the femur and tibiofibula of four anuran species with different modes of locomotion and use of habitat. We found inter-specific differences in all measures between the distal and proximal ends and mid-diaphysis of the bones. In general, terrestrial-hopper species had the highest values. Arboreal-walker species had the lowest values for all variables except for cortical bone mineral density, which was lowest in aquatic-swimmer species. The d/q relationships showed similar responses of bone modeling as a function of cortical stiffness for aquatic and arboreal species, whereas terrestrial-hoppers had higher values for moments of inertia regardless of the tissue compliance to be deformed. These results provide new evidence regarding the significant role of movement and habitat use in addition to the biomechanical properties of long bones within a morpho-functional and comparative context in anuran species., (© 2020 Anatomical Society.)

Published
2020
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32. Forelimb musculoskeletal-tendinous growth in frogs.

Author

Soliz M, Tulli MJ, and Abdala V

Abstract

The tendons unite and transmit the strength of the muscles to the bones, allowing movement dexterity, the distribution of the strength of the limbs to the digits, and an improved muscle performance for a wide range of locomotor activities. Tissue differentiation and maturation of the structures involved in locomotion are completed during the juvenile stage; however, few studies have investigated the ontogenetic variation of the musculoskeletal-tendinous system. We ask whether all those integrated tissues and limb structures growth synchronically between them and along with body length. We examined the ontogenetic variation in selected muscles, tendons and bones of the forelimbs in seventy-seven specimens belonging to seven anuran species of different clades and of three age categories, and investigate the relative growth of the forelimb musculoskeletal-tendinous structures throughout ontogeny. Ten muscles and nine tendons and their respective large bones (humerus and radioulna) were removed intact, and their length was measured and analyzed through a multivariate approach of allometry. We obtained an allometry coefficient, which indicates how the coefficient departures from isometry as well as allometric trends. Our data suggest that along with the post-metamorphic ontogeny, muscles tend to elongate proportionally to bone length, with a positive allometric trend. On the contrary, tendons show a negative allometric growth trend. Only two species show different patterns: Rhinella granulosa and Physalaemus biligonigerus , with an isometric and positive growth of muscles and bones, and most tendons being isometric., Competing Interests: Virginia Abdala is an Academic Editor for PeerJ., (©2020 Soliz et al.)

Published
2020
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33. Sesamoids in tetrapods: the origin of new skeletal morphologies.

Author

Abdala V, Vera MC, Amador LI, Fontanarrosa G, Fratani J, and Ponssa ML

Subjects
Animals, Amphibians, Biological Evolution, Mammals, Reptiles, Sesamoid Bones physiology
Abstract

Along with supernumerary bones, sesamoids, defined as any organized intratendinous/intraligamentous structure, including those composed of fibrocartilage, adjacent to an articulation or joint, have been frequently considered as enigmatic structures associated with the joints of the skeletal system of vertebrates. This review allows us to propose a dynamic model to account for part of skeletal phenotypic diversity: during evolution, sesamoids can become displaced, attaching to and detaching from the long bone epiphyses and diaphysis. Epiphyses, apophyses and detached sesamoids are able to transform into each other, contributing to the phenotypic variability of the tetrapod skeleton. This dynamic model is a new paradigm to delineate the contribution of sesamoids to skeletal diversity. Herein, we first present a historical approach to the study of sesamoids, discussing the genetic versus epigenetic theories of their genesis and growth. Second, we construct a dynamic model. Third, we present a summary of literature on sesamoids of the main groups of tetrapods, including veterinary and human clinical contributions, which are the best-studied aspects of sesamoids in recent decades. Finally, we discuss the identity of certain structures that have been labelled as sesamoids despite insufficient formal testing of homology. We also propose a new definition to help the identification of sesamoids in general. This review is particularly timely, given the recent increasing interest and research activity into the developmental biology and mechanics of sesamoids. With this updated and integrative discussion, we hope to pave the way to improve the understanding of sesamoid biology and evolution., (© 2019 Cambridge Philosophical Society.)

Published
2019
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34. Functional morphology and identity of the thenar pad in the subterranean genus Ctenomys (Rodentia, Caviomorpha).

Author

Echeverría AI, Abdala V, Longo MV, and Vassallo AI

Subjects
Adaptation, Physiological physiology, Animals, Foot physiology, Forelimb physiology, Foot anatomy & histology, Forelimb anatomy & histology, Motor Activity physiology, Rodentia anatomy & histology
Abstract

As in many other fossorial tetrapods, the most obvious adaptations to scratch-digging in the subterranean tuco-tuco (Rodentia, Ctenomyidae, Ctenomys) are found in the hands, which among other adaptations, present the mesaxonic condition; i.e. the central digits are more developed, and also their claws, which are curved and elongated. The thumb is atrophied and aligned with the rest of the digits, showing a small and flat claw. This configuration of digits and claws seems to be in accordance with what it is expected for rodents: rudimentary movements when handling food items. However, on the palmar side of the hand, tuco-tucos have several pads, the thenar (located under the thumb) being the most developed. In this study, we investigated the functional morphology of the thenar pad through different approaches: musculoskeletal anatomy, histology and functionality. The analysis of radiographs and clarified and double-stained hand samples of Ctenomys talarum and C. australis showed that the thenar pad is supported by a paddle-shaped bone that articulates with a protrusion in the scapholunate bone. This bone, flat and long, continues in a flat cartilaginous structure, with a shape similar to a claw. Dissections showed that the thenar pad has several associated muscles: the m. palmaris longus, the m. abductor pollicis longus, and a massive muscular complex located between the thumb and the thenar pad. By topology it might be inferred that this complex is formed by the m. abductor pollicis brevis, the m. flexor pollicis brevis and the m. adductor pollicis brevis. Longitudinal histological sections of the thenar pad stained with hematoxylin-eosin showed a thick layer of keratin at the distal end, external face. The observation of live specimens of C. talarum foraging on two food items of different size and filmed at 300 fps showed that the thenar pad acts as an opposable thumb, with digit-like movements. Tuco-tucos are able to perform more precise movements than expected, and to grasp and manipulate the food with one hand. In previous studies, it was suggested that the thenar pad was supported by a 'palmar ossicle', or 'prepollex' (= radial sesamoid bone). Our results suggest that this sesamoid underwent a radical change on its morphology, making the thenar pad a part of the food handling system in Ctenomys, so the thenar pad might be considered a 'false thumb', rather than a palmar pad. It is suggested to advance on the description and functional analysis of the thenar pad, redefining the structure, since the terms used so far to define it would not be accurate., (© 2019 Anatomical Society.)

Published
2019
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35. Anuran forelimb muscle tendinous structures and their relationship with locomotor modes and habitat use.

Author

De Oliveira-Lagôa S, Cruz FB, Azócar DLM, Lavilla EO, and Abdala V

Abstract

The interaction between organisms and their environment is central in functional morphology. Differences in habitat usage may imply divergent morphology of locomotor systems; thus, detecting which morphological traits are conservative across lineages and which ones vary under environmental pressure is important in evolutionary studies. We studied internal and external morphology in 28 species of Neotropical anurans. Our aim was to determine if internal morphology (muscle and tendons) shows lower phylogenetic signal than external morphology. In addition, we wanted to know if morphology varies in relation to the habitat use and if there are different functional groups. We found differences in the degree of phylogenetic signal on the groups of traits. Interestingly, postaxial regions of the forelimb are evolutionarily more labile than the preaxial regions. Phylomorphospace plots show that arboreal (jumpers and graspers) and swimmer frogs cluster based on length of fingers and the lack of sesamoid, also reflected by the use of habitat. These functional clusters are also related to phylogeny. Sesamoid and flexor plate dimensions together with digit tendons showed to be important to discriminate functional groups as well as use of habitat classification. Our results allow us to identify a "grasping syndrome" in the hand of these frogs, where palmar sesamoid and flexor plate are absent and a third metacarpal with a bony knob are typical. Thus, a lighter skeleton, long fingers and a prensile hand may be key for arboreality., (© The Author(s) (2018). Published by Oxford University Press.)

Published
2019
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36. Morphology and evolution of the wing bullae in South American Leptophlebiidae (Ephemeroptera).

Author

Dominguez E and Abdala V

Subjects
Animals, Ephemeroptera ultrastructure, Female, Male, Phylogeny, Wings, Animal ultrastructure, Biological Evolution, Ephemeroptera anatomy & histology, Wings, Animal anatomy & histology
Abstract

Insects were the first animals to take to the skies, and have been flying for over 320 million years. The order Ephemeroptera is, or at least is part of, the most early-diverging lineage of extant winged insects. The extant species present a very short adult life span, mainly dedicated to reproduction and dispersal of eggs. Mating and egg-laying behavior depend on flight. Wings are structures to fly and as such face a number of physical and physiological challenges. The convex curvature along the anterior-posterior axis of the wing generates a camber that must be carefully regulated. One of the most interesting ways of wing bending is provided by the bullae, which have been defined as short sections of flexible chitin, where the flexion lines cross veins. Although the bullae have been frequently used as taxonomic characters, there is no study focused on their morphology, although their prevalence on the wings of mayflies strongly suggests a role in flight. In order to identify evolutionary trends of these structures within Ephemeroptera, we constructed a matrix with comparative anatomy data of the bullae from whole mounts of the wings of 300 specimens belonging to 70 species of several mayfly families, as well as scanning microscopy samples of selected specimens. We also surveyed the number of bullae and their distribution in the wings of the different species within the South American Leptophlebiidae clade. We optimized the characters onto the latest published phylogeny for Leptophlebiidae., (© 2018 Wiley Periodicals, Inc.)

Published
2019
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37. Movement and joints: effects of overuse on anuran knee tissues.

Author

Vera MC, Abdala V, Aráoz E, and Ponssa ML

Abstract

Movement plays a main role in the correct development of joint tissues. In tetrapods, changes in normal movements produce alterations of such tissues during the ontogeny and in adult stages. The knee-joint is ideal for observing the influence of movement disorders, due to biomechanical properties of its components, which are involved in load transmission. We analyze the reaction of knee tissues under extreme exercise in juveniles and adults of five species of anurans with different locomotor modes. We use anurans as the case study because they undergo great mechanical stress during locomotion. We predicted that (a) knee tissues subjected to overuse will suffer a structural disorganization process; (b) adults will experience deeper morphological changes than juveniles; and (c) morphological changes will be higher in jumpers compared to walkers. To address these questions, we stimulated specimens on a treadmill belt during 2 months. We performed histological analyses of the knee of both treated and control specimens. As we expected, overuse caused structural changes in knee tissues. These alterations were gradual and higher in adults, and similar between jumpers and walkers species. This study represents a first approach to the understanding of the dynamics of anuran knee tissues during the ontogeny, and in relation to locomotion. Interestingly, the alterations found were similar to those observed in anurans subjected to reduced mobility and also to those described in joint diseases (i.e., osteoarthritis and tendinosis) in mammals, suggesting that among tetrapods, changes in movement generate similar responses in the tissues involved., Competing Interests: Virginia Abdala is an Academic Editor for PeerJ.

Published
2018
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38. Comparative anatomy and development of pectoral and pelvic girdles in hylid anurans.

Author

Soliz MC, Ponssa ML, and Abdala V

Subjects
Animals, Organogenesis, Phylogeny, Species Specificity, Anatomy, Comparative, Anura anatomy & histology, Anura growth & development, Forelimb anatomy & histology, Hindlimb anatomy & histology
Abstract

The development of the tetrapod pectoral and pelvic girdles is intimately linked to the proximal segments of the fore- and hindlimbs. Most studies on girdles are osteological and provide little information about soft elements such as muscles and tendons. Moreover, there are few comparative developmental studies. Comparative data gleaned from cleared-and-stained whole mounts and serial histological sections of 10 species of hylid frogs are presented here. Adult skeletal morphology, along with bones, muscles, and connective tissue of both girdles and their association with the proximal portions of the anuran fore- and hindlimbs are described. The data suggest that any similarity could be attributable to the constraints of their ball-and-socket joints, including incorporation of the girdle and stylopodium into a single developmental module. An ancestral state reconstruction of key structures and developmental episodes reveals that several development events occur at similar stages in different species, thereby preventing heterochronic changes. The medial contact of the halves of the pectoral girdle coincides with the emergence of the forelimbs from the branchial chamber and with the total differentiation of the linkage between the axial skeleton and the girdles. The data suggest that morphogenic activity in the anterior dorsal body region is greater than in the posterior one, reflecting the evolutionary sequence of the development of the two girdles in ancient tetrapods. The data also document the profound differences in the anatomy and development of the pectoral and pelvic girdles, supporting the proposal that the pectoral and pelvic girdles are not serially homologous, as was long presumed., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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39. Frog tendon structure and its relationship with locomotor modes.

Author

Abdala V, Ponssa ML, Tulli MJ, Fabre AC, and Herrel A

Subjects
Animals, Extracellular Matrix metabolism, Fibrillar Collagens metabolism, Principal Component Analysis, Tendons ultrastructure, Anura anatomy & histology, Locomotion physiology, Tendons anatomy & histology
Abstract

Tendon collagen fibrils are the basic force-transmitting units of the tendon. Yet, surprisingly little is known about the diversity in tendon anatomy and ultrastructure, and the possible relationships between this diversity and locomotor modes utilized. Our main objectives were to investigate: (a) the ultra-structural anatomy of the tendons in the digits of frogs; (b) the diversity of collagen fibril diameters across frogs with different locomotor modes; (c) the relationship between morphology, as expressed by the morphology of collagen fibrils and tendons, and locomotor modes. To assess the relationship between morphology and the locomotor modes of the sampled taxa we performed a principal component analysis considering body length, fibrillar cross sectional area (CSA) and tendon CSA. A MANOVA showed that differences between species with different locomotor modes were significant with collagen fibril diameter being the discriminating factor. Overall, our data related the greatest collagen fibril diameter to the most demanding locomotor modes, conversely, the smallest collagen fibril CSA and the highest tendon CSA were observed in animals showing a hopping locomotion requiring likely little absorption of landing forces given the short jump distances., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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40. Phylogenetic patterns and correlation of key structures for jumping: bone crests and cross-sectional areas of muscles in Leptodactylus (Anura, Leptodactylidae).

Author

Ponssa ML, Fratani J, and Abdala V

Subjects
Animals, Anura anatomy & histology, Pelvic Bones anatomy & histology, Anura physiology, Biological Evolution, Locomotion physiology, Muscle, Skeletal anatomy & histology
Abstract

Anurans are characterized by their saltatory mode of locomotion, which is associated with a specific morphology. The coordinated action of the muscles and bones of the pelvic girdle is key to the transmission of the force of the hindlimbs to the axial skeleton during jumping. Two features are critical for optimal locomotory performance: the cross-sectional area of muscle and the bone crest attachment sites. The first character is a proxy of the force exerted by the muscle, whereas the crests are muscle attachments sites related to muscle force. The provisory relationship between these features has previously been identified and bone crest size can be used to infer the magnitude and, therefore, muscle force in fossils records. In this work, we explore the correlation between the cross-sectional area of essential muscles to the jumping mechanism (longissimus dorsi, extensor iliotibialis B, tenuissimus, puboischiofemoralis internus B, coccygeo-sacralis and coccygeo-iliacus) and the bone crests where these muscles are inserted (dorsal tubercle, dorsal crest and urostylar crest) in species of the genus Leptodactylus. This genus, along with other leptodactylids, exhibits a diversity of locomotor modes, including jumping, hopping, swimming and burrowing. We therefore analyzed the morphometric variation in the two features, cross-sectional area and bone crest area, expecting a correlation with different locomotor types. Our results showed: (i) a correlation between the urostylar crest and the cross-sectional area of the related muscles; (ii) that the bone crest surface area of urostyle and ilium and the cross-sectional area of the corresponding muscles can be utilized to infer locomotor faculties in leptodactylid frogs; and (iii) that the evolution of both characters demonstrates a general tendency from lower values in leptodactylid ancestors to higher values in the Leptodactylus genus. The results attest to the importance of the comparison of current ecological and phylogenetic analogues as they allow us to infer functionality and behavior in fossil and extant groups based on skeletal evidence. Phylogenetic patterns in character evolution and their correlation with locomotory types could imply that functional restrictions are also inherited in leptodactylid., (© 2018 Anatomical Society.)

Published
2018
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41. Does the Morphology of the Forelimb Flexor Muscles Differ Between Lizards Using Different Habitats?

Author

Lowie A, Herrel A, Abdala V, Manzano AS, and Fabre AC

Subjects
Animals, Ecology, Phylogeny, Ecosystem, Forelimb anatomy & histology, Lizards anatomy & histology, Locomotion, Muscle, Skeletal anatomy & histology
Abstract

Lizards are an interesting group to study how habitat use impacts the morphology of the forelimb because they occupy a great diversity of ecological niches. In this study, we specifically investigated whether habitat use impacts the morphology of the forelimb flexor muscles in lizards. To do so, we performed dissections and quantified the physiological cross sectional area (PCSA), the fiber length, and the mass of four flexor muscles in 21 different species of lizards. Our results show that only the PCSA of the m. flexor carpi radialis is different among lizards with different ecologies (arboreal versus non-arboreal). This difference disappeared, however, when taking phylogeny into account. Arboreal species have a higher m. flexor carpi radialis cross sectional area likely allowing them to flex the wrist more forcefully which may allow them climb and hold on to branches better. In contrast, other muscles are not different between arboreal and non-arboreal species. Further studies focusing on additional anatomical features of the lizard forelimb as well as studies documenting how lizards use the arboreal niche are needed to fully understand how an arboreal life style may constrain limb morphology in lizards. Anat Rec, 301:424-433, 2018. © 2018 Wiley Periodicals, Inc., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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42. Tendinous framework of anurans reveals an all-purpose morphology.

Author

Fratani J, Ponssa ML, and Abdala V

Subjects
Anatomy, Comparative, Animals, Ecosystem, Female, Forelimb anatomy & histology, Forelimb physiology, Hindlimb anatomy & histology, Hindlimb physiology, Locomotion, Male, Phylogeny, Tendons physiology, Anura anatomy & histology, Tendons anatomy & histology
Abstract

Tendons are directly associated with movement, amplifying power and reducing muscular work. Taking into account habitat and locomotor challenges faced by anurans, we identify the more conspicuous superficial tendons of a neotropical anuran group and investigate their relation to the former factors. We show that tendons can be visualized as an anatomical framework connected through muscles and/or fascia, and describe the most superficial tendinous layer of the postcranium of Leptodactylus latinasus. To analyze the relation between tendon morphology and ecological characters, we test the relative length ratio of 10 tendon-muscle (t-m) elements in 45 leptodactylid species while taking phylogeny into account. We identify the evolutionary model that best explains our variables. Additionally, we optimize t-m ratio values, and the shape of the longissimus dorsi insertion onto a selected phylogeny of the species. Our data show the existence of an all-purpose morphology that seems to have evolved independently of ecology and functional requirements. This is indicated by no significant relation between morphometric data of the analyzed tendons and habitat use or locomotion, a strong phylogenetic component to most of the analyzed variables, and a generalized pattern of intermediate values for ancestral states. Ornstein-Uhlenbeck is the model that best explains most t-m variables, indicating that stabilizing selection or selective optima might be driving shifts in tendon length within Leptodactylidae. Herein, we show the substantial influence that phylogeny has on tendon morphology, demonstrating that a generalized and stable morphological configuration of tendons is adequate to enable versatile locomotor modes and habitat use. This is an attempt to present the tendinous system as a framework to body support in vertebrates, and can be considered a starting point for further ecomorphological research of this anatomical system in anurans., (Copyright © 2017 Elsevier GmbH. All rights reserved.)

Published
2018
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43. On the Presence of the Patella in Frogs.

Author

Abdala V, Vera MC, and Ponssa ML

Subjects
Animals, Anura anatomy & histology, Biological Evolution, Patella anatomy & histology
Abstract

The patella is one of the most studied sesamoids. Historically, the patella is described as a big sesamoid embedded in the tendon of the quadriceps femoris muscle. This sesamoid is studied from developmental, functional, clinical, and anatomical perspectives. The presence of a patella is reported in squamatans, birds, and mammals. Lissamphibians are identified as the major lineage that fail to develop a patella. However, this sesamoid is reported at least once in anurans, but without detailed anatomical discussions. Through anatomical and histological studies we examined the topography and tissue composition of two structures that we identify as the proximal and distal patellae in several anuran species. We explored the evolution of these sesamoids through ancestral state reconstruction, finding that they are ancestral for amphibians and possibly tetrapods as a whole. The presence of these patellae in anurans would roll back their origin to the last common ancestor of tetrapods. From a functional perspective, the overwhelming evidence of fibrocartilage as a clear response to compression suggests that the fibrocartilaginous patellae could also withstand the mechanical stress generated on the knee undergoing compression during limb extension. Anat Rec, 2017. © 2017 Wiley Periodicals, Inc. Anat Rec, 300:1747-1755, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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44. How common are cranial sesamoids among squamates?

Author

Montero R, Daza JD, Bauer AM, and Abdala V

Subjects
Animals, Muscle, Skeletal anatomy & histology, Sesamoid Bones diagnostic imaging, Skull diagnostic imaging, Tomography, X-Ray Computed, Lizards anatomy & histology, Sesamoid Bones anatomy & histology, Skull anatomy & histology
Abstract

Sesamoids are elements that originate as intratendinous structures due to genetic and epigenetic factors. These elements have been reported frequently in vertebrates, although cranial sesamoids have been recorded almost exclusively in non-tetrapod Osteichthyes. The only tetrapod cranial sesamoids reported until now have been the transiliens cartilage (of crocodiles and turtles), and another one located in the quadrate-mandibular joint of birds. Here, we examined seven squamate species using histological sections, dissections of preserved specimens, dry skeletons, cleared and stained specimens, computed tomographies (CT), and report the presence of other cranial sesamoids. One is attached to the cephalic condyle of the quadrate, embedded in the bodenaponeurosis and jaw adductor muscles of Ophiodes intermedius (Anguidae). The other sesamoid is found at the base of the basicranium of several squamates, capping the sphenoccipital tubercle, on the lateral side of the basioccipital-basisphenoid suture. This bone has previously been reported as "element X." We reinterpret it as a basicranial sesamoid, as it is associated with tendons of the cranio-cervical muscles. This bone seems to have the function of resisting tension-compression forces generated by the muscle during flexion the head. This element was previously known in several squamates, and we confirmed its presence in three additional squamate families: Gymnophthalmidae, Gekkonidae, and Pygopodidae. The evidence suggests that cranial sesamoids are a widespread character in squamates, and it is possible that this feature has been present since the origin of the group., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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45. Variation in brain anatomy in frogs and its possible bearing on their locomotor ecology.

Author

Manzano AS, Herrel A, Fabre AC, and Abdala V

Subjects
Animals, Anura physiology, Anatomic Variation, Anura anatomy & histology, Brain anatomy & histology, Locomotion
Abstract

Despite the long-standing interest in the evolution of the brain, relatively little is known about variation in brain anatomy in frogs. Yet, frogs are ecologically diverse and, as such, variation in brain anatomy linked to differences in lifestyle or locomotor behavior can be expected. Here we present a comparative morphological study focusing on the macro- and micro-anatomy of the six regions of the brain and its choroid plexus: the olfactory bulbs, the telencephalon, the diencephalon, the mesencephalon, the rhombencephalon, and the cerebellum. We also report on the comparative anatomy of the plexus brachialis responsible for the innervation of the forelimbs. It is commonly thought that amphibians have a simplified brain organization, associated with their supposedly limited behavioral complexity and reduced motor skills. We compare frogs with different ecologies that also use their limbs in different contexts and for other functions. Our results show that brain morphology is more complex and more variable than typically assumed. Moreover, variation in brain morphology among species appears related to locomotor behavior as suggested by our quantitative analyses. Thus we propose that brain morphology may be related to the locomotor mode, at least in the frogs included in our analysis., (© 2017 Anatomical Society.)

Published
2017
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46. Network architecture associated with the highly specialized hindlimb of frogs.

Author

Dos Santos DA, Fratani J, Ponssa ML, and Abdala V

Subjects
Animals, Biological Evolution, Bone and Bones anatomy & histology, Models, Anatomic, Muscle, Skeletal anatomy & histology, Anura anatomy & histology, Anura genetics, Hindlimb anatomy & histology
Abstract

Network analyses have been increasingly used in the context of comparative vertebrate morphology. The structural units of the vertebrate body are treated as discrete elements (nodes) of a network, whose interactions at their physical contacts (links) determine the phenotypic modules. Here, we use the network approach to study the organization of the locomotor system underlying the hindlimb of frogs. Nodes correspond to fibrous knots, skeletal and muscular units. Edges encode the ligamentous and monoaxial tendinous connections in addition to joints. Our main hypotheses are that: (1) the higher centrality scores (measured as betweenness) are recorded for fibrous elements belonging to the connective system, (2) the organization of the musculoskeletal network belongs to a non-trivial modular architecture and (3) the modules in the hindlimb reflect functional and/or developmental constraints. We confirm all our hypotheses except for the first one, since bones overpass the fibrous knots in terms of centrality. Functionally, there is a correlation between the proximal-to-distal succession of modules and the progressive recruitment of elements involved with the motion of joints during jumping. From a developmental perspective, there is a correspondence between the order of the betweenness scores and the ontogenetic chronology of hindlimbs in tetrapods. Modular architecture seems to be a successful organization, providing of the building blocks on which evolution forges the many different functional specializations that organisms exploit.

Published
2017
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47. Osteological postcranial traits in hylid anurans indicate a morphological continuum between swimming and jumping locomotor modes.

Author

Soliz M, Tulli MJ, and Abdala V

Subjects
Animals, Anura physiology, Biological Evolution, Osteology, Skeleton physiology, Species Specificity, Anura anatomy & histology, Ecosystem, Locomotion, Skeleton anatomy & histology
Abstract

Anurans exhibit a particularly wide range of locomotor modes that result in wide variations in their skeletal structure. This article investigates the possible correlation between morphological aspects of the hylid postcranial skeleton and their different locomotor modes and habitat use. To do so, we analyzed 18 morphometric postcranial variables in 19 different anuran species representative of a variety of locomotor modes (jumper, hopper, walker, and swimmer) and habitat uses (arboreal, bush, terrestrial, and aquatic). Our results show that the evolution of the postcranial hylid skeleton cannot be explained by one single model, as for example, the girdles suggest modular evolution while the vertebral column suggests other evolutionary modules. In conjunction with data from several other studies, we were able to show a relationship between hylid morphology and habitat use; offering further evidence that the jumper/swimmer and walker/hopper locomotor modes exhibit quite similar morphological architecture. This allowed us to infer that new locomotor modalities are, in fact, generated along a morphological continuum. J. Morphol. 278:403-417, 2017. © 2017 Wiley Periodicals, Inc., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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48. When a general morphology allows many habitat uses.

Author

Tulli MJ, Cruz FB, Kohlsdorf T, and Abdala V

Subjects
Animals, Hindlimb anatomy & histology, Muscles anatomy & histology, Phenotype, Phylogeny, Species Specificity, Tendons anatomy & histology, Ecosystem, Lizards anatomy & histology
Abstract

During the last decades the study of functional morphology received more attention incorporating more detailed data corresponding to the internal anatomy that together contribute for a better understanding of the functional basis in locomotion. Here we focus on 2 lizard families, Tropiduridae and Liolaemidae, and use information related to muscle-tendinous and external morphology traits of hind legs. We investigate whether the value of the traits analyzed tend to exhibit a reduced phenotypic variation produced by stabilizing selection, and whether species showing specialization in their habitat use will also exhibit special morphological features related to it. As a result, we identified that evolution of hind limb traits is mainly explained by the Ornstein-Uhlenbeck model, suggesting stabilizing selection. Liolaemids and tropidurids show clear ecomorphological trends in the variables considered, with sand lizards presenting the most specialized morphological traits. Some ecomorphological trends differ between the 2 lineages, and traits of internal morphology tend to be more flexible than those of external morphology, restricting the ability to identify ecomorphs shared between these 2 lineages. Conservative traits of external morphology likely explain such restriction, as ecomorphs have been historically defined in other lizard clades based on variation of external morphology., (© 2016 International Society of Zoological Sciences, Institute of Zoology/Chinese Academy of Sciences and John Wiley & Sons Australia, Ltd.)

Published
2016
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49. Bone indicators of grasping hands in lizards.

Author

Fontanarrosa G and Abdala V

Abstract

Grasping is one of a few adaptive mechanisms that, in conjunction with clinging, hooking, arm swinging, adhering, and flying, allowed for incursion into the arboreal eco-space. Little research has been done that addresses grasping as an enhanced manual ability in non-mammalian tetrapods, with the exception of studies comparing the anatomy of muscle and tendon structure. Previous studies showed that grasping abilities allow exploitation for narrow branch habitats and that this adaptation has clear osteological consequences. The objective of this work is to ascertain the existence of morphometric descriptors in the hand skeleton of lizards related to grasping functionality. A morphological matrix was constructed using 51 morphometric variables in 278 specimens, from 24 genera and 13 families of Squamata. To reduce the dimensions of the dataset and to organize the original variables into a simpler system, three PCAs (Principal Component Analyses) were performed using the subsets of (1) carpal variables, (2) metacarpal variables, and (3) phalanges variables. The variables that demonstrated the most significant contributions to the construction of the PCA synthetic variables were then used in subsequent analyses. To explore which morphological variables better explain the variations in the functional setting, we ran Generalized Linear Models for the three different sets. This method allows us to model the morphology that enables a particular functional trait. Grasping was considered the only response variable, taking the value of 0 or 1, while the original variables retained by the PCAs were considered predictor variables. Our analyses yielded six variables associated with grasping abilities: two belong to the carpal bones, two belong to the metacarpals and two belong to the phalanges. Grasping in lizards can be performed with hands exhibiting at least two different independently originated combinations of bones. The first is a combination of a highly elongated centrale bone, reduced palmar sesamoid, divergence angles above 90°, and slender metacarpal V and phalanges, such as exhibited by Anolis sp. and Tropidurus sp. The second includes an elongated centrale bone, lack of a palmar sesamoid, divergence angles above 90°, and narrow metacarpal V and phalanges, as exhibited by geckos. Our data suggest that the morphological distinction between graspers and non-graspers is demonstrating the existence of ranges along the morphological continuum within which a new ability is generated. Our results support the hypothesis of the nested origin of grasping abilities within arboreality. Thus, the manifestation of grasping abilities as a response to locomotive selective pressure in the context of narrow-branch eco-spaces could also enable other grasping-dependent biological roles, such as prey handling.

Published
2016
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50. Phenotypical expression of reduced mobility during limb ontogeny in frogs: the knee-joint case.

Author

Ponssa ML and Abdala V

Abstract

Movement is one of the most important epigenetic factors for normal development of the musculoskeletal system, particularly during genesis and joint development. Studies regarding alterations to embryonic mobility, performed on anurans, chickens and mammals, report important phenotypical similarities as a result of the reduction or absence of this stimulus. The precise stage of development at which the stimulus modification generates phenotypic modifications however, is yet to be determined. In this work we explore whether the developmental effects of abnormal mobility can appear at any time during development or whether they begin to express themselves in particular phases of tadpole ontogeny. We conducted five experiments that showed that morphological abnormalities are not visible until Stages 40-42. Morphology in earlier stages remains normal, probably due to the fact that the bones/muscles/tendons have not yet developed and therefore are not affected by immobilization. These results suggest the existence of a specific period of phenotypical expression in which normal limb movement is necessary for the correct development of the joint tissue framework.

Published
2016
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