Primary Graft Failure after Heart Transplantation

Primary graft failure (PGF) is a devastating complication that occurs in the immediate postoperative period following heart transplantation. It manifests as severe ventricular dysfunction of the donor graft and carries significant mortality and morbidity. In the last decade, advances in pharmacological treatment and mechanical circulatory support have improved the outlook for heart transplant recipients who develop this complication. Despite these advances in treatment, PGF is still the leading cause of death in the first 30 days after transplantation. In today's climate of significant organ shortages and growing waiting lists, transplant units worldwide have increasingly utilised “marginal donors” to try and bridge the gap between “supply and demand.” One of the costs of this strategy has been an increased incidence of PGF. As the threat of PGF increases, the challenges of predicting and preventing its occurrence, as well as the identification of more effective treatment modalities, are vital areas of active research and development

Correction to:Expanding controlled donation after the circulatory determination of death: statement from an international collaborative (Intensive Care Medicine, (2021), 47, 3, (265-281), 10.1007/s00134-020-06341-7)

The article “Expanding controlled donation after the circulatory determination of death: statement from an international collaborative”, written by Domínguez-Gil, B., Ascher, N., Capron, A.M. et al. was originally published electronically on the publisher’s internet portal on 21 February 2021 without open access. With the author(s)’ decision to opt for Open Choice the copyright of the article changed on 25 March 2021 to © The Author(s) 2021 and the article is forthwith distributed under a Creative Commons Attribution this article is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License, which permits any non-commercial use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by-nc/4.0/. The original article has been corrected

Expanding controlled donation after the circulatory determination of death: statement from an international collaborative.

A decision to withdraw life-sustaining treatment (WLST) is derived by a conclusion that further treatment will not enable a patient to survive or will not produce a functional outcome with acceptable quality of life that the patient and the treating team regard as beneficial. Although many hospitalized patients die under such circumstances, controlled donation after the circulatory determination of death (cDCDD) programs have been developed only in a reduced number of countries. This International Collaborative Statement aims at expanding cDCDD in the world to help countries progress towards self-sufficiency in transplantation and offer more patients the opportunity of organ donation. The Statement addresses three fundamental aspects of the cDCDD pathway. First, it describes the process of determining a prognosis that justifies the WLST, a decision that should be prior to and independent of any consideration of organ donation and in which transplant professionals must not participate. Second, the Statement establishes the permanent cessation of circulation to the brain as the standard to determine death by circulatory criteria. Death may be declared after an elapsed observation period of 5 min without circulation to the brain, which confirms that the absence of circulation to the brain is permanent. Finally, the Statement highlights the value of perfusion repair for increasing the success of cDCDD organ transplantation. cDCDD protocols may utilize either in situ or ex situ perfusion consistent with the practice of each country. Methods to accomplish the in situ normothermic reperfusion of organs must preclude the restoration of brain perfusion to not invalidate the determination of death

Expanding controlled donation after the circulatory determination of death: statement from an international collaborative

Abstract: A decision to withdraw life-sustaining treatment (WLST) is derived by a conclusion that further treatment will not enable a patient to survive or will not produce a functional outcome with acceptable quality of life that the patient and the treating team regard as beneficial. Although many hospitalized patients die under such circumstances, controlled donation after the circulatory determination of death (cDCDD) programs have been developed only in a reduced number of countries. This International Collaborative Statement aims at expanding cDCDD in the world to help countries progress towards self-sufficiency in transplantation and offer more patients the opportunity of organ donation. The Statement addresses three fundamental aspects of the cDCDD pathway. First, it describes the process of determining a prognosis that justifies the WLST, a decision that should be prior to and independent of any consideration of organ donation and in which transplant professionals must not participate. Second, the Statement establishes the permanent cessation of circulation to the brain as the standard to determine death by circulatory criteria. Death may be declared after an elapsed observation period of 5 min without circulation to the brain, which confirms that the absence of circulation to the brain is permanent. Finally, the Statement highlights the value of perfusion repair for increasing the success of cDCDD organ transplantation. cDCDD protocols may utilize either in situ or ex situ perfusion consistent with the practice of each country. Methods to accomplish the in situ normothermic reperfusion of organs must preclude the restoration of brain perfusion to not invalidate the determination of death

Perivascular innervation of cerebral arteries and vasa nervorum: Changes in development and disease

Using fluorescence histochemical, and chemical assays, this thesis aims to study the perivascular innervation of cerebral arteries and that of nerve-trunk vasculature in both cranial and peripheral nerves. The first part of the thesis concerns the innervation of blood vessels within nerve trunks (vasa nervorum). A novel whole-mount preparation for the visualization of these vessels is described. Perivascular nerves supplying the vasa nervorum of various nerves in different species have been shown to contain noradrenaline, 5- hydroxytryptamine, substance P, vasoactive intestinal polypeptide, neuropeptide Y and calcitonin gene-related peptide. This is followed by a study of the changes in innervation seen in experimental and human diabetic nerves. Eight weeks following induction of diabetes, there was an increase in the density of NA-containing fibres innervating the vasa nervorum in the sciatic, vagus and paravertebral sympathetic nerve trunks. This was in marked contrast to a lack of NA-containing fibres within the optic nerve sheaths in the same animals. A lack of NA-containing perivascular nerves supplying vasa nervorum in a limited number of diabetic human sural nerve biopsies is also described. The second part of the thesis examines the innervation of the major cerebral arteries during development and hypertension. Both these studies were confined to rat models. Following an initial post-natal increase in the density of innervation, it is shown that in the aging rat there is a decrease in the number of nerves containing vasoconstrictor neurotransmitter substances and an increase in the those containing vasodilator neurotransmitter substances. In the spontaneously hypertensive rat, there is an increased density of perivascular nerves containing NA and NPY at four weeks of age. The possibility that such an increase in innervation, before the onset of marked hypertension and medial hypertrophy, may be important in the development and maintenance of hypertension is discussed

Frailty in heart transplantation: Report from the heart workgroup of a consensus conference on frailty

A consensus conference on frailty in solid organ transplantation took place on February 11, 2018, to discuss the latest developments in frailty, adopt a standardized approach to assessment, and generate ideas for future research. The findings and consensus of the Frailty Heart Workgroup (American Society of Transplantation\u27s Thoracic and Critical Care Community of Practice) are presented here. Frailty is defined as a clinically recognizable state of increased vulnerability resulting from aging-associated decline in reserve and function across multiple physiologic systems such that the ability to cope with every day or acute stressors is compromised. Frailty is increasingly recognized as a distinct biologic entity that can adversely affect outcomes before and after heart transplantation. A greater proportion of patients referred for heart transplantation are older and have more complex comorbidities. However, outcomes data in the pretransplant setting, particularly for younger patients, are limited. Therefore, there is a need to develop objective frailty assessment tools for risk stratification in patients with advanced heart disease. These tools will help to determine appropriate recipient selection for advanced heart disease therapies including heart transplantation and mechanical circulatory support, improve overall outcomes, and help distinguish frailty phenotypes amenable to intervention