The chapters in this contributed volume showcase current theoretical approaches in the modeling of ocular fluid dynamics in health and disease. By including chapters written by experts from a variety of fields, this volume will help foster a genuinely collaborative spirit between clinical and research scientists. It vividly illustrates the advantages of clinical and experimental methods, data-driven modeling, and physically-based modeling, while also detailing the limitations of each approach. Blood, aqueous humor, vitreous humor, tear film, and cerebrospinal fluid each have a section dedicated to their anatomy and physiology, pathological conditions, imaging techniques, and mathematical modeling. Because each fluid receives a thorough analysis from experts in their respective fields, this volume stands out among the existing ophthalmology literature.
Ocular Fluid Dynamics is ideal for current and future graduate students in applied mathematics and ophthalmology who wish to explore the field by investigating open questions, experimental technologies, and mathematical models. It will also be a valuable resource for researchers in mathematics, engineering, physics, computer science, chemistry, ophthalmology, and more.
The chapters in this contributed volume showcase current theoretical approaches in the modeling of ocular fluid dynamics in health and disease. By including chapters written by experts from a variety of fields, this volume will help foster a genuinely collaborative spirit between clinical and research scientists. It vividly illustrates the advantages of clinical and experimental methods, data-driven modeling, and physically-based modeling, while also detailing the limitations of each approach. Blood, aqueous humor, vitreous humor, tear film, and cerebrospinal fluid each have a section dedicated to their anatomy and physiology, pathological conditions, imaging techniques, and mathematical modeling. Because each fluid receives a thorough analysis from experts in their respective fields, this volume stands out among the existing ophthalmology literature.
Ocular Fluid Dynamics is ideal for current and future graduate students in applied mathematicsand ophthalmology who wish to explore the field by investigating open questions, experimental technologies, and mathematical models. It will also be a valuable resource for researchers in mathematics, engineering, physics, computer science, chemistry, ophthalmology, and more.
Promotes understanding of three interdisciplinary approaches to studying the eye: experimental methods, data-driven modeling, and physically-based modeling Provides an overview of the state-of-the-art in modeling ocular fluid dynamics Offers a truly collaborative approach to ophthalmology, with chapters written by mathematicians, engineers, clinical scientists, and more
Giovanna Guidoboni
Ocular Fluid Dynamics Ocular fluid dynamics book Ocular fluid flow Fluid dynamics Ophthalmology Blow Flow eye Aqueous Humor Vitreous humor Tear film Cerebrospinal Fluid Modeling fluid flow Ocular Biophysics Mathematical Modeling in Ophthalmology Computational Fluid Dynamics Dynamics of Tear Film