Preparation of the donor to the removal of organs — the most common clinical problems

Przeszczepienie narządu to najskuteczniejsza metoda leczenia, gdy dochodzi do jego niewydolności. W procesie transplantacji ważne jest przygotowanie dawcy tak, aby możliwe było pobranie wielonarządowe. Na przeszkodzie temu stoi wiele procesów patofizjologicznych rozwijających się po śmierci mózgu. W części przypadków mają one bezpośredni związek z powstającą „burzą cytokinową”, a część problemów wynika z samego pobytu dawcy na oddziale intensywnej terapii — zwiększa się ryzyko rozwoju zakażeń szpitalnych. W pracy zaprezentowano najczęstsze problemy stojące na przeszkodzie pobrania jak największej liczby narządów w celu ocalenia życia innym pacjentom.An organ transplantation is the most effective method of treatment when the organ is becoming insuficient. In the process of the transplant arrangements it’s important to prepare donor for multiorgan donation. Many pathophysiological processes after the brain death making it imposible. In some cases those disorders are caused by cytokines and in the others higher risk of nosocomial infection during the treatment in ICU. In this article were presented the most common problems of multiorgan donation, which make donation impossible or less effective

Perioperative factors influencing the mortalit

WSTĘP: Tętniaki aorty brzusznej są uznaną przyczyną zwiększonej śmiertelności w populacji europejskiej. Dlatego ważna jest identyfikacja śródoperacyjnych czynników ryzyka zgonu w okresie okołooperacyjnym. MATERIAŁ I METODY: Prospektywnym badaniem obserwacyjnym, przeprowadzonym w Klinice Chirurgii Naczyniowej Pomorskiego Uniwersytetu Medycznego w Szczecinie, objęto grupę 95 pacjentów z tętniakiem aorty brzusznej w odcinku podnerkowym. Na podstawie kryteriów TASC pacjentów zakwalifikowano do implantacji protezy naczyniowej. Analizowano wpływ czynników hemodynamicznych i metabolicznych na śmiertelność okołooperacyjną. Obserwację badanej populacji prowadzono przez 28 dni. WYNIKI: Wykazano, że wzrost stężenia mleczanów, potasu oraz spadek wartości pH szczególnie w pierwszych minutach po odklemowaniu aorty były zasadniczymi czynnikami zwiększającymi śmiertelność w okresie okołooperacyjnym. Ponadto ryzyko zgonu było zwiększone, jeśli poza znieczuleniem ogólnym nie zastosowano znieczulenia regionalnego. Poza tym nie wykazano istotnego wpływu pozostałych badanych czynników. WNIOSKI: Zastosowanie znieczulenia zewnątrzoponowego u pacjentów poddawanych operacjom tętniaków aorty brzusznej jest istotnym, niezależnym czynnikiem zmniejszającym śmiertelność we wczesnym okresie pooperacyjnym. Natomiast zmniejszenie wartości pH, wzrost stężenia potasu i mleczanów w pierwszych minutach po odklemowaniu aorty może być przydatnym wskaźnikiem służącym do identyfikacji pacjentów zagrożonych zwiększonym ryzykiem zgonu we wczesnym okresie pooperacyjnym.INTRODUCTION: Abdominal aorta aneurysm is a recognized cause of death for the European population. The identification of intra-operative risk factors for perioperative death is of crucial importance for the society. MATERIAL AND METHODS: A prospective observational study was conducted in the Vascular Surgery Department of the Pomeranian Medical University in Szczecin, Poland. The study group consisted of 95 patients, diagnosed with abdominal aorta aneurysm in the sub-renal region scheduled for an operative procedure of straight vascular graft implantation. Patient qualification was fulfilled according to TASC criteria. The influence of preoperative factors, hemodynamic and metabolic parameters on the risk of death in the study population was analyzed. Postoperatively, observation was continued for 28 days. RESULTS: In this study group an increase of lactate, potassium levels or pH decrease during the first minute post cross-clamp release were significant risk factors for perioperative death. The importance of metabolic parameters is a recognized risk factor, however their statistical significance within the first minute post cross-clamp release is in our opinion of crucial importance. Additionally, significantly higher mortality was reported among patients without epidural anaesthesia. No importance of other analyzed parameters was found. CONCLUSIONS: Epidural anaesthesia is an independent factor decreasing mortality in the early postoperative period in patients undergoing abdominal aorta aneurysm repair. A decrease of pH value and increase of lactate and K+ levels within the first minute after aortic cross-clamp release may be a valuable tool in identifying patients with an increased risk of perioperative death after abdominal aorta prosthesis implantation

Ewolucja próby bezdechu w rozpoznawaniu śmierci mózgu

The concept of brain death (BD) was initially described in 1959 and subsequently became widely accepted in the majority of countries. Nevertheless, the diagnostic guidelines for BD markedly differ, especially regarding the apnoea test (AT), a crucial element of clinical BD confirmation. The current basic guidelines recommend preoxygenation rather than disconnection from the ventilator and insertion of an oxygen insufflation catheter into the endotracheal tube. Although a properly prepared and conducted AT is relatively safe, it has to be aborted in cases of serious disturbances, such as severe cardiac arrhythmia, cardiac arrest, hypotension, hypercarbia, desaturation and tension pneumothorax. These complications may be more frequent in patients with previously existing risk factors, such as poor oxygenation, severe acidosis, hypotension and cardiac rhythm disturbances. Airway injuries can occur if the insufflation catheter is placed too deep or catheter-related obstruction of the intubation tube occurs. It is widely accepted that AT should be performed as the very last BD diagnostic procedure due to its possible lethal consequences. Reports concerning the possible pitfalls of AT and confounding situations have inspired attempts to determine the most effective and safe method of AT. The use of CPAP with oxygen supplementation is becoming highly popular. CPAP can be generated in three manners: directly by the ventilator; through the use of a CPAP valve with a reservoir; and through the use of a highly traditional T-piece system with a reservoir bag connected to distal tubing immersed in water.The concept of brain death (BD) was initially described in 1959 and subsequently became widely accepted in the majority of countries. Nevertheless, the diagnostic guidelines for BD markedly differ, especially regarding the apnoea test (AT), a crucial element of clinical BD confirmation. The current basic guidelines recommend preoxygenation rather than disconnection from the ventilator and insertion of an oxygen insufflation catheter into the endotracheal tube. Although a properly prepared and conducted AT is relatively safe, it has to be aborted in cases of serious disturbances, such as severe cardiac arrhythmia, cardiac arrest, hypotension, hypercarbia, desaturation and tension pneumothorax. These complications may be more frequent in patients with previously existing risk factors, such as poor oxygenation, severe acidosis, hypotension and cardiac rhythm disturbances. Airway injuries can occur if the insufflation catheter is placed too deep or catheter-related obstruction of the intubation tube occurs. It is widely accepted that AT should be performed as the very last BD diagnostic procedure due to its possible lethal consequences. Reports concerning the possible pitfalls of AT and confounding situations have inspired attempts to determine the most effective and safe method of AT. The use of CPAP with oxygen supplementation is becoming highly popular. CPAP can be generated in three manners: directly by the ventilator; through the use of a CPAP valve with a reservoir; and through the use of a highly traditional T-piece system with a reservoir bag connected to distal tubing immersed in water

Możliwości wykonania próby bezdechu w czasie procedury rozpoznawania śmierci mózgu u chorych leczonych z użyciem utlenowania pozaustrojowego (ECMO)

Extracorporeal Membrane Oxygenation (ECMO) is a well-established method of support in patients with severe respiratory and/or circulatory failure. Unfortunately, this invasive method of treatment is associated with a high risk of neurological complications including brain death. Proper diagnosis of brain death is crucial for the termination of futile medical care. Currently, the legal system in Poland does not provide an accepted protocol for apnea tests for patients on ECMO support. Veno-arterial ECMO is particularly problematic in this regard because it provides both gas exchange and circulatory support. CO2 elimination by ECMO prevents hypercapnia, which is required to perform an apnea test. Several authors have described a safe apnea test procedure in patients on ECMO. Maximal reduction of the sweep gas flow to the oxygenator should maintain an acceptable haemoglobin oxygenation level and reduce elimination of carbon dioxide. Hypercapnia achieved via this method should allow an apnea test to be conducted in the typical manner. In the case of profound desaturation and an inadequate increase in the arterial CO2 concentration, the sweep gas flow rate may be increased to obtain the desired oxygenation level, and exogenous carbon dioxide may be added to achieve a target carbon dioxide level. Incorporation of an apnea test for ECMO patients is planned in the next edition of the Polish guidelines on the determination of brain death.Extracorporeal Membrane Oxygenation (ECMO) is a well-established method of support in patients with severe respiratory and/or circulatory failure. Unfortunately, this invasive method of treatment is associated with a high risk of neurological complications including brain death. Proper diagnosis of brain death is crucial for the termination of futile medical care. Currently, the legal system in Poland does not provide an accepted protocol for apnea tests for patients on ECMO support. Veno-arterial ECMO is particularly problematic in this regard because it provides both gas exchange and circulatory support. CO2 elimination by ECMO prevents hypercapnia, which is required to perform an apnea test. Several authors have described a safe apnea test procedure in patients on ECMO. Maximal reduction of the sweep gas flow to the oxygenator should maintain an acceptable haemoglobin oxygenation level and reduce elimination of carbon dioxide. Hypercapnia achieved via this method should allow an apnea test to be conducted in the typical manner. In the case of profound desaturation and an inadequate increase in the arterial CO2 concentration, the sweep gas flow rate may be increased to obtain the desired oxygenation level, and exogenous carbon dioxide may be added to achieve a target carbon dioxide level. Incorporation of an apnea test for ECMO patients is planned in the next edition of the Polish guidelines on the determination of brain death

Probiotics in the Management of Mental and Gastrointestinal Post-COVID Symptomes

Patients with “post-COVID” syndrome manifest with a variety of signs and symptoms that continue/develop after acute COVID-19. Among the most common are gastrointestinal (GI) and mental symptoms. The reason for symptom occurrence lies in the SARS-CoV-2 capability of binding to exact receptors, among other angiotensin converting enzyme 2 (ACE2) receptors in gastrointestinal lining and neuropilin-1 (NRP-1) in the nervous system, which leads to loss of gastrointestinal and blood-brain barriers integrity and function. The data are mounting that SARS-CoV-2 can trigger systemic inflammation and lead to disruption of gut-brain axis (GBA) and the development of disorders of gut brain interaction (DGBIs). Functional dyspepsia (FD) and irritable bowel syndrome (IBS) are the most common DGBIs syndromes. On the other hand, emotional disorders have also been demonstrated as DGBIs. Currently, there are no official recommendations or recommended procedures for the use of probiotics in patients with COVID-19. However, it can be assumed that many doctors, pharmacists, and patients will want to use a probiotic in the treatment of this disease. In such cases, strains with documented activity should be used. There is a constant need to plan and conduct new trials on the role of probiotics and verify their clinical efficacy for counteracting the negative consequences of COVID-19 pandemic. Quality control is another important but often neglected aspect in trials utilizing probiotics in various clinical entities. It determines the safety and efficacy of probiotics, which is of utmost importance in patients with post-acute COVID-19 syndrome

Atypical Pupil Reactions in Brain Dead Patients

Background: During routine diagnosis of brain death, changes in pupil diameter in response to the stimulation of peripheral nerves are sometimes observed. For example, pupillary dilation after diagnosed brain death is described in the literature as the ciliospinal reflex. However, pupil constriction creates diagnostic doubts. Objective: The pupillometric analysis of pupil response to stimulation of the cervicothoracic spinal cord in patients with diagnosed brain death. Methods: Instrumental tests to confirm the arrest of cerebral circulation were performed in 30 adult subjects (mean age 53.5 years, range 26–75 years) with diagnosed brain death. In addition, a pupillometer was used to measure the change in pupil diameter in response to neck flexion. Intervention: Flexion of the neck and measuring the response in change of the pupil with the use of the pupillometer. Results: The change in the pupil was observed in the examined group of patients. Difference in pupil size ≥ 0.2 mm was observed in 14 cases (46%). In five cases (17%), pupil constriction was found (from 0.2 to 0.7 mm). Measurement error was +/− 0.1 mm. Conclusions: Both pupillary constriction and dilatation may occur due to a ciliospinal reflex in patients with brain death. This phenomenon needs further research in order to establish its pathophysiology

Melatonin and the Brain–Heart Crosstalk in Neurocritically Ill Patients—From Molecular Action to Clinical Practice

Brain injury, especially traumatic brain injury (TBI), may induce severe dysfunction of extracerebral organs. Cardiac dysfunction associated with TBI is common and well known as the brain–heart crosstalk, which broadly refers to different cardiac disorders such as cardiac arrhythmias, ischemia, hemodynamic insufficiency, and sudden cardiac death, which corresponds to acute disorders of brain function. TBI-related cardiac dysfunction can both worsen the brain damage and increase the risk of death. TBI-related cardiac disorders have been mainly treated symptomatically. However, the analysis of pathomechanisms of TBI-related cardiac dysfunction has highlighted an important role of melatonin in the prevention and treatment of such disorders. Melatonin is a neurohormone released by the pineal gland. It plays a crucial role in the coordination of the circadian rhythm. Additionally, melatonin possesses strong anti-inflammatory, antioxidative, and antiapoptotic properties and can modulate sympathetic and parasympathetic activities. Melatonin has a protective effect not only on the brain, by attenuating its injury, but on extracranial organs, including the heart. The aim of this study was to analyze the molecular activity of melatonin in terms of TBI-related cardiac disorders. Our article describes the benefits resulting from using melatonin as an adjuvant in protection and treatment of brain injury-induced cardiac dysfunction

Potentially Detrimental Effects of Hyperosmolality in Patients Treated for Traumatic Brain Injury

Hyperosmotic therapy is commonly used to treat intracranial hypertension in traumatic brain injury patients. Unfortunately, hyperosmolality also affects other organs. An increase in plasma osmolality may impair kidney, cardiac, and immune function, and increase blood–brain barrier permeability. These effects are related not only to the type of hyperosmotic agents, but also to the level of hyperosmolality. The commonly recommended osmolality of 320 mOsm/kg H2O seems to be the maximum level, although an increase in plasma osmolality above 310 mOsm/kg H2O may already induce cardiac and immune system disorders. The present review focuses on the adverse effects of hyperosmolality on the function of various organs

Invitation to participate in a multi-center study for validation of cerebral computed tomography angiography and computed tomography perfusion in the determination of cerebral circulatory arrest during brain death/death by neurological criteria diagnosis procedure in paediatric population below 12 years of age

In recent years commensal microorganisms are not just “passive occupants”, but important element of homeostasis. There are numerous reports documenting the composition and role of the gut, skin or vagina microbiome but the role of commensal organisms living in the lungs is relatively unknown. Pulmonary microbiome impact on the immune response of the host organism and may indicate new therapeutic directions. Lung microbiome, by modulating the expression of innate immunity genes, causes an increase in the concentration of IL-5, IL-10, IFNγ and CCL11, affects the TLR4 dependent response of pulmonary macrophages and modulate the production of antibacterial peptides contained in the mucus. It is documented that disorders of the lung microbiome contribute to asthma or chronic obstructive pulmonary disease. However it is known that pulmonary dysbiosis also occurs in critically ill patients. It is possible, therefore, that microbiota-targeted therapy may constitute the future therapeutic direction in ICU