Kidney Transplant; Complications Clinical Trial
Official title:
Evaluation of s100β, NSE and Glial Fibrillary Acidic Protein Levels in Preoperative and Postoperative Renal Transplantation
Uremic encephalopathy is an organic brain disorder may be frequently seen in patients with acute or chronic renal failure. Certain neurological symptoms can be found under clinical glomerular filtration rate of 15 ml/minutes. The above mentioned neurological disorders can be due to uremic toxins as well as many other reasons such as metabolic and hemodynamic disturbances, inflammation, or oxidative stress. Most frequent symptoms are impaired consciousness, lethargy, cranial nerve involvement, nystagmus, dysarthria, and even coma and death. Brain tissue may receive damage and some secondary biomarkers may appear in case BUN (Blood Urea Nitrogen) level is >175 mg/dl together with neuroinflammation. Although hemodialysis is a temporary solution in terms of treatment, these symptoms may be reversible in the long-run with organ transplantation. A rigorous neurological assessment before transplantation is important for identifying the severity and distribution of the neurological disorder as well as defining the abnormalities that are responding to the current treatments and foreseeing potential postoperative prognosis. S100β is excreted by astrocytes in brain damage cases. S100β level rises when brain damage starts, thus it may be used in the prognosis of brain damage in its early period. Neuron-specific enolase (NSE) functions as intracytoplasmic enzyme and serum level rises in neuron damage. Glial fibrillary acidic protein (GFAP), on the other hand, is the intermediary filament cytoskeleton protein found in astrocytes. It has the same root structure with S100β. The purpose of this study is to assess neurological damage by looking at the levels of S100β, NSE and GFAP in patients who underwent kidney transplantation and to analyze the impacts on the prognosis.
Encephalopathy, thiamine deficiency, uremia, hypertension, electrolyte imbalance after dialysis are clinical pictures with high incidences in case of renal failure. There are multifactor reasons in its pathophysiology such as hormonal imbalance, oxidative stress, accumulation of metabolites in time, disorders in excitatory and inhibitory transmitters and intermediary metabolisms. Neurological disorders that affect renal transplant patients during the waiting list period do not only significantly affect preoperative morbidity and even mortality, but also show important predictive factors for neurological symptoms after the transplantation. A rigorous neurological assessment before transplantation is important for identifying the severity and distribution of the neurological disorder as well as defining the abnormalities that are responding to the current treatments and foreseeing potential postoperative prognosis. Specific indexes preferred for neurological assessment before the transplant may vary depending on the clinic; however, correct and differential diagnosis of various symptoms may be difficult despite the use of various diagnostic tools such as biochemical, neurophysiologic, neuropsychological and neuroimaging tools. S100β is a 10.4 kDa protein. S100β is synthesized in the brain through endfeet processes of astrocytes and it belongs to the superfamily of low molecular weight EF-hand type acidic calcium-binding proteins. This protein is metabolized in the kidneys first and foremost and then discharged through urine. It has been shown that S100β does not differ depending on ethnic groups and genders and is not affected by circadian rhythm. Even though S100β may be found in other tissues, it may be used as an early marker for brain damage since it is found in higher concentration in the brain. Astrocytes are the key agents for homeostasis regulation in the central nervous system (CNS) and they secrete S100β after brain damage. Certain studies show that increased levels of S100β may be used as an early marker of intracerebral changes in the brains of patients with acute or chronic liver failure and hepatic encephalopathy (HE) before the development of cerebral edema. Moreover, some studies suggest that increased levels of S100β in serum concentrations may predict HE. However, there are few pieces of evidence that prove the correlation between S100β levels and HE's presence. NSE (neuron-specific enolase) is a CNS protein found in neurons and neuroendocrine tissues. NSE functions in the glycolytic path of neurons as an intracytoplasmic enzyme and its serum levels increase in case of neuron damage. S100β is a marker of astroglial dysfunction while NSE is a marker of neuronal dysfunction. And Glial fibrillary acidic protein (GFAP) is reported to be more specific to brain tissue compared to S100β. There are studies showing that prognosis is worse when both GFAP and S100β levels are seen to increase in the assessment of neurological damage, especially in cases of head traumas, thus supporting the use of both proteins for higher prognostic accuracy. GFAP is also a biomarker used for neurodegenerative diseases and ischemic cases other than cases of trauma. The aim of the present study is to analyze neurological damage in renal transplant patients through S100β, NSE and GFAP serum concentrations and assess their impacts on the prognosis. ;
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