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Organ Donors clinical trials

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NCT ID: NCT05609123 Recruiting - Clinical trials for Organ Transplant Failure or Rejection

Endothelial Glycocalyx Damage in Brain Death Organ Donors

Start date: January 1, 2022
Phase:
Study type: Observational

The study aims the assessment of endothelial glycocalyx (EG) degradation in deceased organ donors. There is a lack of organs for the transplantation program. By the description of the EG status, we can open room for organ optimization before transplantation and improve the organ function after transplantation in marginal donors.

NCT ID: NCT03477461 Completed - Organ Donors Clinical Trials

Effects of Terlipressin on Management of Potential Organ Donors

Start date: January 1, 2015
Phase:
Study type: Observational

During brain death, many significant systemic changes take place and among these, the most notable is hemodynamic instability. In the pathogenesis of brain death, after the hypertensive phase of the "catecholamine storm", arterial tonus and heart inotropism eventually deteriorate, leading to hypotension and hypoperfusion. Therefore, vasopressor agents are necessary in treatment of brain-dead organ donors. The most commonly used and recommended vasoactive drugs for this indication are dopamine, norepinephrine, and vasopressin.The Transplantation Committee of the American College of Cardiology recommends vasopressin as the primary vasoactive drug for treating hemodynamic instability and diabetes insipidus in brain-death heart donors. Terlipressin (TP) is a new type of synthetic long-acting vasopressin preparations, AVP long-acting derivatives, belongs to a kind of precursor drugs, itself is inactive, the body through the aminopeptidase, slow "release" of a reactive lysine vasopressin. On the one hand,terlipressin can splanchnic vascular smooth muscle contraction, reduces splanchnic blood flow (e.g., reduce blood flow to the mesenteric, spleen, uterus, etc), to ensure the flow of blood to the important viscera;On the other hand, it reduces the concentration of plasma renin, increases the perfusion of renal blood flow, and improves the glomerular filtration rate, thus improving renal function.From the pharmacological perspective, it is better than arginine vasopressin for the stability of hemodynamics and the perfusion of tissue. Whether or not it has therapeutic effect on the potential brain death donor with unstable hemodynamics is not studied in the literature at home and abroad.This paper discusses the application value of terlipressin in the management of potential brain death, and provides clinical evidence for the maintenance of brain death donor.

NCT ID: NCT02581111 Completed - Clinical trials for Lung Transplantation

Naloxone for Optimizing Hypoxemia Of Lung Donors

NO-HOLDS
Start date: September 2015
Phase: Phase 2/Phase 3
Study type: Interventional

Brain-dead patients who provide authorization for organ donation will be randomized to naloxone or placebo if baseline arterial blood gas (ABG) after initiation of OPO (Organ Procurement Organization) management reveals hypoxemia, as defined by the ratio of partial pressure of oxygen in arterial blood (PaO2) to fraction of inspired oxygen (FiO2) below 300 mm Hg, unless they have already been ruled-out for lung recovery. Investigators aim to assess whether naloxone improves oxygenation prior to organ recovery more than placebo.