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Books on the topic 'Anatomia quantitativa'

Author: Grafiati
Published: 9 March 2023
Last updated: 10 March 2023

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1

Reguigui, Ali. Anatomie des syntagmes terminologiques arabes: Analyse formelle et quantitative. Sudbury, Ont: Université Laurentienne = Laurentian University, 2002.

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2

L, Deter Russell, ed. Quantitative obstetrical ultrasonography. New York: Wiley, 1986.

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3

I, Kyriazakis, ed. A quantitative biology of the pig. Wallingford, [England]: CABI Pub., 1999.

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4

service), ScienceDirect (Online, ed. Diffusion MRI: From quantitative measurement to in-vivo neuroanatomy. Amsterdam: Elsevier/Academic Press, 2009.

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5

F, Njeh Christopher, ed. Quantitative ultrasound: Assessment of osteoporosis and bone status. London: Martin Dunitz, 1999.

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6

La Canna, Giovanni. Heart valve disease (mitral valve disease): anatomy and morphology of the mitral valve. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198726012.003.0034.

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The mitral valve is a complex anatomical structure that includes the valve tissue (leaflets), the left atrioventricular junction (annulus), and the valve suspension system (chordae tendineae, papillary muscles, and left ventricle). Its functional anatomy can be analysed using two- and three-dimensional transthoracic and transoesophageal echocardiography. Based on certain hallmarks (commissures, clefts), in vivo mitral valve tissue anatomy can be accurately categorized. In addition, three-dimensional reconstruction provides a quantitative model for comprehensive valve analysis. This chapter describes the anatomy and morphology of the mitral valve, including the subvalvular suspension system and functional anatomy and dynamics of the mitral annulus.
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7

Anwar, Ashraf M., and Folkert Jan ten Cate. Tricuspid and pulmonary valves. Oxford University Press, 2011. http://dx.doi.org/10.1093/med/9780199599639.003.0016.

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Right-sided heart valves are complex anatomical structures. Studies describing the morphological and functional assessment of both valves are lacking. Most echocardiographic modalities provide a qualitative rather than quantitative approach.Echocardiography has a central role in the assessment of tricuspid regurgitation through estimation of severity, understanding the mechanism, assessment of pulmonary artery pressure, evaluation of right ventricular function, guidance towards surgery versus medical therapy, and assessment of valve competence after surgery.Transoesophageal echocardiography is an accurate method providing a qualitative assessment of right-sided heart valves. However, the lack of good validation makes it difficult to recommend its use for a quantitative approach. Hopefully, the future will provide refinements in instrumentation and techniques leading to increased accuracy in reporting and cost-effectiveness in making clinical decisions.
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8

Diffusion MRI: From Quantitative Measurement to in Vivo Neuroanatomy. Elsevier Science & Technology Books, 2013.

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9

Johansen-Berg, Heidi, and Timothy E. J. Behrens. Diffusion MRI: From Quantitative Measurement to in Vivo Neuroanatomy. Elsevier Science & Technology Books, 2013.

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10

Njeh, C. F., Didier Hans, Thomas Fuerst, Claus-C. Gl"uer, and Harry K. Genant. Quantitative Ultrasound: Assessment of osteoporosis and bone status. Informa Healthcare, 1999.

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11

Diogo, Rui, and Sharlene E. Santana. Evolution of Facial Musculature. Oxford University Press, 2017. http://dx.doi.org/10.1093/acprof:oso/9780190613501.003.0008.

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We review the origin and evolution of the facial musculature of mammals and pay special attention to the complex relationships between facial musculature, color patterns, mobility, and social group size during the evolution of humans and other primates. In addition, we discuss the modularity of the human head and the assymetrical use of facial expressions, as well as the evolvability of the muscles of facial expression, based on recent developmental and comparative studies and the use of a powerful new quantitative tool: anatomical networks analysis. We emphasizes the remarkable diversity of primate facial structures and the fact that the number of facial muscles present in our species is actually not as high when compared to many other mammals as previously thought. The use of new tools, such as anatomical network analyses, should be further explored to compare the musculoskeletal and other features of humans across stages of development and with other animal to enable a better understanding of the evolution of facial expressions.
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12

Warner, Matthew A., Carlos Marquez de la Plata, David S. Liebeskind, and Ramon Diaz-Arrastia. Imaging Assessment of Brain Injury. Edited by David L. Reich, Stephan Mayer, and Suzan Uysal. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190280253.003.0003.

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Imaging plays a pivotal role in discerning the extent and nature of brain injuries. Advances in neuroimaging techniques have improved sensitivity for detecting smaller lesions, improved the anatomical specificity of lesions in white matter, and improved the prognostic value of detected lesions. Novel quantitative methods allow measurements of hemorrhage and infarct volume in the acute phase of injury, and regional brain atrophy and functional disconnectedness months after injury. It is likely that the success of future clinical trials of neuroprotective therapies will be dependent on reliable and validated neuroimaging biomarkers of injury and recovery. This chapter describes neuroimaging modalities that are currently being utilized in clinical and experimental settings and their implications for the development and testing of neuroprotection strategies.
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13

Morrison, Alan R., Joseph C. Wu, and Mehran M. Sadeghi. Cardiovascular Molecular Imaging. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199392094.003.0029.

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Cardiovascular molecular imaging is a relatively young but rapidly expanding discipline that consists of a biologically-targeted approach to the assessment of physiologic and pathologic processes in vivo. This novel approach to imaging involves the integration of multiple disciplines such as cell and molecular biology, chemistry, and imaging sciences. The ultimate goal is quantitative assessment of cardiovascular processes at the cellular and molecular level, moving beyond traditional diagnostic information, in order to guide individually tailored therapy. In fact, it is likely that specific approaches to molecular imaging will be developed in tandem with the development of novel therapeutic strategies. Recent advances in probe development and imaging systems have contributed to evolution of molecular imaging toward clinical translational. These include technological progress in traditional imaging platforms; along with the emergence of newer imaging modalities such as photoacoustic imaging. In addition, hybrid imaging (e.g. nuclear imaging with CT or MRI) has the potential for improved spatial localization, and more accurate quantification by coupling anatomic and biological information. In addition to potential clinical applications that address existing diagnostic gaps in cardiovascular medicine, molecular imaging allows for unique approaches to studying pathophysiology. This chapter is intended to provide an overview of the state of the art in cardiovascular molecular imaging, highlighting how it may improve the management of major cardiovascular diseases.
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14

Dahl, Eystein, ed. Alignment and Alignment Change in the Indo-European Family. Oxford University PressOxford, 2022. http://dx.doi.org/10.1093/oso/9780198857907.001.0001.

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Abstract This volume advances research on diachronic alignment typology across the Indo-European family, showing the breadth and fertility of this field. It brings together contributions from leading specialists in Indo-European languages to explore the macro- and micro-dynamic factors contributing to variety and change in alignment and argument realisation. The chapters included in the book explore synchronic and diachronic dimensions of alignment morphosyntax based on a broad range of data from Anatolian, Indo-Iranian, Greek, Italic (including Romance), Armenian, and Slavic. Few existing studies deal with variation and change in the alignment typology across languages belonging to one linguistic family, and the present volume aims to fill this gap. Alignment is taken to include both basic alignment patterns associated with major construction types as well as various valency-decreasing constructions, such as passives, anticausatives, and impersonals. The chapters range from broad comparative studies based on data from several branches to careful studies of specific constructions in individual languages, with a strong empirical focus, partly drawing on qualitative and partly on quantitative methods. The volume contributes to a more precise understanding of the respective roles played by analogy/extension, reanalysis, and areal factors in alignment change, demonstrating the versatility of argument realisation morphosyntax in genetically related languages.
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15

Popescu, Bogdan A., Shantanu P. Sengupta, Niloufar Samiei, and Anca D. Mateescu. Heart valve disease (mitral valve disease): mitral stenosis. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780198726012.003.0035.

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The most common cause of mitral stenosis (MS) is rheumatic fever followed by degenerative MS. Echocardiography is the key method to diagnose and evaluate MS. Echocardiographic findings are closely related to aetiology. In rheumatic disease echocardiography shows thickening of leaflet tips with restricted opening caused by commissural fusion resulting in ‘doming’ of the mitral valve in diastole. Quantitation of MS severity includes measuring mitral valve area (MVA) by planimetry (anatomical area, by two-/three-dimensional echo), or by the pressure half-time (PHT) method (functional area, by Doppler), and the mean pressure gradient. Planimetry is considered the reference method to determine MVA as it is relatively load independent. The PHT method is widely used due to its simplicity, but different factors influence the relationship between PHT and MVA. Other indices of MS severity are rarely used in clinical practice. Echocardiography also helps in the assessment of consequences of MS, and of associated valvular lesions. Exercise Doppler is recommended when there is discrepancy between the resting echocardiography findings and the clinical picture. Echocardiography is crucial in determining the timing and type of intervention in patients with MS. When considering percutaneous mitral commissurotomy (PMC) valve morphology should be comprehensively evaluated for mobility, thickness, calcifications, and subvalvular apparatus. The echo findings may determine the suitability for PMC, guide the procedure, and assess its results.
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16

Sidebotham, David, Alan Forbes Merry, Malcolm E. Legget, and I. Gavin Wright, eds. Practical Perioperative Transoesophageal Echocardiography. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198759089.001.0001.

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Practical Perioperative Transoesophageal Echocardiography, 3rd edition, is a concise guide to the use of transoesophageal echocardiography (TOE) for patients undergoing cardiac surgical and interventional cardiological procedures. The text is aimed at anaesthetists and cardiologists, particularly those in training and those preparing for examinations. Three-dimensional imaging is integrated throughout the text. New to the third edition are chapters on mitral valve repair, aortic valve repair, TOE in the interventional catheter laboratory, and TOE assessment of pericardial disease. The first three chapters address the fundamentals of ultrasound imaging: physical principles, artefacts, image optimization, and quantitative echocardiography. Chapters 4 and 5 cover standard views, anatomical variants, and cardiac masses. Chapters 6 and 7 address left ventricular systolic and diastolic function, respectively. The subsequent eight chapters form the core of the book and deal with the cardiac valves and the thoracic aorta. Emphasis is placed on those aspects relevant to cardiac surgery; therefore, the mitral and aortic valves are afforded particular prominence. The role of three-dimensional imaging for the mitral valve is highlighted. Chapter 17 covers the emerging role of TOE for patients undergoing procedures in the catheter laboratory and covers topics such as transcatheter aortic valve replacement and edge-to-edge mitral valve repair. Chapter 18 provides an overview of the common congenital abnormalities encountered in adults. Two chapters address the important subjects of thoracic transplantation and mechanical cardiorespiratory support. Finally, Chapter 21 brings many threads from previous chapters together to describe the role of TOE in assessing haemodynamic instability.
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