Organ Repair and Regeneration: Preserving Organs in the Regenerative Medicine Era encompasses updates on all organs, from the kidneys, to the lungs, liver, pancreas, intestines, and beyond. Chapters cover the pathophysiology of ischemia-reperfusion, repairing organs with MSC, repairing cardiac allografts in situ, and much more. The book conceptualizes the idea that the modern approach to organ preservation is ante literam, a form of organ repair and regeneration which, per se, is referred to as a field of health sciences under the umbrella of regenerative medicine. This book demonstrates the merging of regenerative medicine and organ transplantation.

The book offers an overview of credit risk modeling and management. A three-step approach is adopted with the contents, after introducing the essential concepts of both mathematics and finance.Initially the focus is on the modeling of credit risk parameters mainly at the level of individual debtor and transaction, after which the book delves into counterparty credit risk, thus providing the link between credit and market risks. The second part is aimed at the portfolio level when multiple loans are pooled and default correlation becomes an important factor to consider and model. In this respect, the book explains how copulas help in modeling. The final stage is the macro perspective when the combination of credit risks related to financial institutions produces systemic risk and affects overall financial stability.The entire approach is two-dimensional as well. First, all modeling steps have replicable programming codes both in R and Matlab. In this way, the reader can experience the impact of changing the default probabilities of a given borrower or the weights of a sector. Second, at each stage, the book discusses the regulatory environment. This is because, at times, regulation can have stricter constraints than the outcome of internal models. In summary, the book guides the reader in modeling and managing credit risk by providing both the theoretical framework and the empirical tools necessary for a modern finance professional. In this sense, the book is aimed at a wide audience in all fields of study: from quants who want to engage in finance to economists who want to learn about coding and modern financial engineering.

"Regenerative Medicine Applications in Organ Transplantation" illustrates exactly how these two fields are coming together and can benefit one another. It discusses technologies being developed, methods being implemented, and which of these are the most promising. The text encompasses tissue engineering, biomaterial sciences, stem cell biology, and developmental biology, all from a transplant perspective. Organ systems considered include liver, renal, intestinal, pancreatic, and more. Leaders from both fields have contributed chapters, clearly illustrating that regenerative medicine and solid organ transplantation speak the same language and that both aim for similar medical outcomes. The overall theme of the book is to provide insight into the synergy between organ transplantation and regenerative medicine.

Recent groundbreaking achievements in regenerative medicine have received unprecedented coverage by the media, fueling interest and enthusiasm in transplant clinicians and researchers. Regenerative medicine is changing the premise of solid organ transplantation, requiring transplantation investigators to become familiar with regenerative medicine investigations that can be extremely relevant to their work. Similarly, regenerative medicine investigators need to be aware of the needs of the transplant field to bring these two fields together for greater results.
Bridges the gap between regenerative medicine and solid organ transplantation and highlights reasons for collaboration Explains the importance and future potential of regenerative medicine to the transplant communityIllustrates to regenerative medicine investigators the needs of the transplant discipline to drive and guide investigations in the most promising directions

This interdisciplinary book argues that the economy has an underlying non-linear structure and that business cycles are endogenous, which allows a greater explanatory power with respect to the traditional assumption that dynamics are stochastic and shocks are exogenous. The first part of this work is formal-methodological and provides the mathematical background needed for the remainder, while the second part presents the view that signal processing involves construction and deconstruction of information and that the efficacy of this process can be measured. The third part focuses on economics and provides the related background and literature on economic dynamics and the fourth part is devoted to new perspectives in understanding nonlinearities in economic dynamics: growth and cycles. By pursuing this approach, the book seeks to (1) determine whether, and if so where, common features exist, (2) discover some hidden features of economic dynamics, and (3) highlight specific indicators of structural changes in time series. Accordingly, it is a must read for everyone interested in a better understanding of economic dynamics, business cycles, econometrics and complex systems, as well as non-linear dynamics and chaos theory.

Transplantation, Bioengineering, and Regeneration of the Endocrine Pancreas, Volume 2, sets a new standard in transplant and regenerative medicine. The book details the state-of-the-art in modern islet auto-transplantation, also discussing current progress in regenerative medicine research in diabetes medicine. Regenerative medicine is changing the premise of solid organ transplantation, hence this volume catalogs technologies being developed and methods being implemented. Bioengineering and regenerating beta cells, clinical pancreas and islet transplantation, tissue engineering, biomaterial sciences, stem cell biology and developmental biology are all addressed and applied directly to diabetes medicine.

Transplantation, Bioengineering, and Regeneration of the Endocrine Pancreas, Volume 1, sets a new standard in transplant and regenerative medicine. The book details the-state-of-the-art in modern whole pancreas and islet transplantation, including donor selection, immunosuppression, complications, allograft pathology, and more. As regenerative medicine is changing the premise of solid organ transplantation, this volume catalogs the technologies being developed and the methods being implemented to bioengineer or regenerate the endocrine pancreas in order to more effectively treat diabetes. Edited and authored by unparalleled leaders in the field, this new volume argues for a much needed synergy between organ transplantation and regenerative medicine.

This interdisciplinary book argues that the economy has an underlying non-linear structure and that business cycles are endogenous, which allows a greater explanatory power with respect to the traditional assumption that dynamics are stochastic and shocks are exogenous. The first part of this work is formal-methodological and provides the mathematical background needed for the remainder, while the second part presents the view that signal processing involves construction and deconstruction of information and that the efficacy of this process can be measured. The third part focuses on economics and provides the related background and literature on economic dynamics and the fourth part is devoted to new perspectives in understanding nonlinearities in economic dynamics: growth and cycles. By pursuing this approach, the book seeks to (1) determine whether, and if so where, common features exist, (2) discover some hidden features of economic dynamics, and (3) highlight specific indicators of structural changes in time series. Accordingly, it is a must read for everyone interested in a better understanding of economic dynamics, business cycles, econometrics and complex systems, as well as non-linear dynamics and chaos theory.

Saturation nonlinearities are ubiquitous in engineering systems: every physical actuator or sensor is subject to saturation owing to its maximum and minimum limits. Input saturation is an operating condition that is well known to the control community for its "side effects", which cause conventional controllers to lose their closed-loop performance as well as control authority in stabilization. Therefore, the practical application of control theory cannot avoid taking into account saturation nonlinearities in actuators, explicitly dealing with constraints in control design.