Chronic kidney disease (CKD) affects both brain structure and function. Patients with CKD have a higher risk of both ischemic and hemorrhagic strokes. Age, prior disease history, hypertension, diabetes, atrial fibrillation, smoking, diet, obesity, and sedimentary lifestyle are most common risk factors. Renal-specific pathophysiologic derangements, such as oxidative stress, chronic inflammation, endothelial dysfunction, vascular calcification, anemia, gut dysbiosis, and uremic toxins are important mediators. Dialysis initiation constitutes the highest stroke risk period. CKD significantly worsens stroke outcomes. It is essential to understand the risks and benefits of established stroke therapeutics in patients with CKD, especially in those on dialysis. Subclinical cerebrovascular disease, such as of silent brain infarction, white matter lesions, cerebral microbleeds, and cerebral atrophy are more prevalent with declining renal function. This may lead to functional brain damage manifesting as cognitive impairment. Cognitive dysfunction has been linked to poor compliance with medications, and is associated with greater morbidity and mortality. Thus, understanding the interaction between renal impairment and brain is important in to minimize the risk of neurologic injury in patients with CKD. This article reviews the link between chronic kidney disease and brain abnormalities associated with CKD in detail.
The coronavirus (COVID‐19) pandemic is evolving very quickly and has affected healthcare systems worldwide. Many uncertainties remain about transplantation from a SARS‐CoV‐2‐positive donor as only a few cases have been reported. Here, we present the successful transplantation of two kidneys from a 52‐year‐old male donor with active (2 weeks of COVID‐19‐like symptoms and positive nasopharyngeal swab SARS‐CoV‐2 PCR on the day of organ recovery) SARS‐CoV‐2 disease. The immediate postoperative course of both recipients was uneventful. This case emphasizes that patients with SARS‐CoV‐2 may be safe organ donors.
Background: Hydroxychloroquine and Azithromycin use is associated with QT interval prolongation and arrhythmias. Despite ongoing multiple clinical trials for treatment of COVID19 infection, no definite cardiac safety protocols were proposed. The aim of our study was to assess cardiac safety in COVID-19 patients treated with the combination of Hydroxychloroquine and Azithromycin using close monitoring and arrhythmia risk management plan.Methods and results: We retrospectively examined arrhythmia safety of treatment with Hydroxychloroquine and Azithromycin in the setting of pre-defined cardiac arrhythmia risk management plan. 81 patients were included from March 23rd to May 10th 2020. The median age was 59 years, 58.0% were female. The majority of the study population (82.7%) had comorbidities, 98.8% had radiological signs of pneumonia. 7 patients (8.6%) had QTc prolongation of ≥500 ms. The treatment was discontinued in 4 patients (4.9%). 14 patients (17.3%) experienced QTc≥480 ms and 16 patients (19.8%) had an increase of QTc≥60 ms. None of the patients developed ventricular tachycardia. The risk factors significantly associated with QTc≥500 ms were hypokalemia (p = 0.032) and use of diuretics during the treatment (p = 0.020). Three patients had a lethal outcome; none of them associated with ventricular arrhythmias.Conclusion: We recorded a low incidence of QTc prolongation ≥500 ms and no ventricular tachycardia events in COVID-19 patients treated with Hydroxychloroquine and Azithromycin using cardiac arrhythmia risk management plan.
The population of patients with end‐stage renal disease is rapidly growing and hemodialysis remains the most common treatment option. We present a case of a young patient with arteriovenous fistula (AVF)‐related heart failure, and a review of the main hemodynamic changes after AVF formation and ligation procedures.
Aims To assess cardiac safety in COVID-19 patients treated with the combination of Hydroxychloroquine and Azithromycin using arrhythmia risk management plan. Methods and results We retrospectively examined arrhythmia safety of treatment with Hydroxychloroquine and Azithromycin in the setting of pre-defined arrhythmia risk management plan. The data was analyzed using R statistical package version 4.0.0. A two-tailed p-value<0.05 was considered significant. 81 patients were included from March 23rd to May 10th 2020. The median age was 59 years, 58.0% were female. The majority of the study population (82.7%) had comorbidities, 98.8% had radiological signs of pneumonia. Fourteen patients (17.3%) experienced QTc ≥ 480 ms and 16 patients (19.8%) had an increase of QTc ≥ 60 ms. Seven patients (8.6%) had QTc prolongation of ≥ 500 ms. The treatment was discontinued in 4 patients (4.9%). None of the patients developed ventricular tachycardia. The risk factors significantly associated with QTc ≥ 500 ms were hypokalemia (p = 0.032) and use of diuretics during the treatment (p = 0.020). Three patients (3.7%) died, the cause of death was bacterial superinfection with septic shock in two patients, and disseminated intravascular coagulation with multiple organ failure in one patient. None of these deaths were associated with cardiac arrhythmias. Conclusion We recorded a low incidence of QTc prolongation ≥ 500 ms and no ventricular tachycardia events in COVID-19 patients treated with Hydroxychloroquine and Azithromycin using cardiac arrhythmia risk management plan.
Objective: Malignant hypertension (MH) is a form of hypertensive emergency defined by a severe increase in blood pressure (BP) with multiple organ injuries. One possible pathophysiology of MH is an acute activation of the renin-angiotensin system (RAS) driven by the intense stimulation of renin secretion in the juxtaglomerulosa cells. Considering this mechanism, aliskiren, a direct renin inhibitor (DRI), can be a treatment option for MH. However, there is little information on the efficacy and safety of DRI in controlling MH. We herein report four cases with MH that have been successfully controlled by DRI for a long term.Case description: All of the four cases (three male and one female; 34 to 57 years of age) developed advanced retinopathy (III or IV grade on Keith-Wagener classification) and severe hypertension (> 200/120 mmHg) at presentation, meeting the criteria for MH according to the 2020 ISH global hypertension practice guideline. Mean systolic/diastolic BP was 215 ± 5/148 ± 8 mmHg. All developed acute kidney injury, with the mean serum creatinine (sCr) of 4.47 ± 1.13 mg/dl on admission. The ranges of plasma renin activity (PRA) and plasma aldosterone concentration (PAC, as measured by RIA) were 11-33 ng/mL/hr and 371-1370 pg/mL, respectively. Followed by initial treatment with an intra-venous calcium channel blocker, these patients were prescribed aliskiren, starting at 150 mg/day once daily, after confirmation of the elevated PRA levels. In general, aliskiren was well tolerated and BP was successfully controlled in all of the four cases (at discharge, mean systolic/diastolic BP was 123/74 mmHg and mean sCr was 3.84 mg/dL). Patients continued to receive aliskiren (at a dose of 150 or 300 mg/day) after the discharge and mean systolic/diastolic BP and sCr were 131 ± 4/84 ± 3 mmHg and 2.02 ± 0.16 mg/dl at two years of follow-up, respectively. The ranges of PRA and PAC of four cases have fallen to 0.2-0.8 ng/mL/hr and 105-203 pg/ mL, respectively.Literature review: The voltage-dependent K(+) channel responsible for activating delayed K(+) current is composed of pore-forming KCNQ1 and regulatory KCNE1/3 subunits which loss of function predispose to sustained torsade de pointes. Animal models demonstrate that KCNQ1 and KCNE1 mRNAs are expressed in the zona glomerulosa of adrenal glands where potassium channels directly participate in the control of aldosterone production. Although KCNE3 is not expressed in mouse adrenals, its deletion is thought to cause activation of lymphocytes targeting adrenal glands, leading to hyperaldosteronism. Furthermore, administration of spironolactone to KCNE3 knockout mice ameliorates their QT
Background:Posterior reversible encephalopathy syndrome (PRES) describes a disorder of abrupt onset neurological symptoms due to potentially reversible lesions on brain imaging. Case reports of PRES in PD patients are scarce.Case presentation:A 42-year-old male presented to the emergency department (ED) with two weeks of worsening occipital headaches, nausea, vomiting and dizziness. The patient had a background of end-stage renal disease due to primary focal segmental glomerulosclerosis, and resistant hypertension. He had been receiving peritoneal dialysis (PD) for one month; hypertension was treated with torasemide 100 mg/day, perindopril 10 mg/day, amlodipine 10 mg/day, moxonidine 0.6 mg/day, doxazosin 8–16 mg/day. One week earlier, he was brought into ED due to hypertensive crisis (blood pressure (BP) was 190/120 mmHg); intravenous labetolol 20 mg, oral moxonidine 0.4 mg, doxazosin 8 mg were administered; afterwards he was released for outpatient treatment.On admission, BP was 187/114 mmHg, heart rate - 75 beats/minute, oxygen saturation - 98% on room air, and body temperature - 36.5°C. Laboratory tests revealed severe renal dysfunction (serum creatinine: 1478 mcmol/l, serum urea: 29.1 mmol/l) and normal inflammatory indicators (WBC: 4.51 x 109/l, CRP: 0.65 mg/l) (Table). Head CT showed no obvious intracranial hemorrhage, ischemia, or mass lesion; PRES was suspected. Due to hypervolemia, he was temporarily transferred to hemodialysis. On day 12, fundoscopy revealed flame-shaped hemorrhages, microaneurysms, cotton wool patches in the posterior pole surrounding the optic nerve. On day 14, he was transferred to the intensive care unit (ICU) due to uncontrollable hypertension (BP was 202/129 mmHg) and epileptic seizure; MRI showed bilateral subcortical occipital and frontoparietal hyperintensity with vasogenic edema typical of PRES. BP was decreased to approximately 155/90 mmHg using a combination of anti-hypertensive medication and ultrafiltration. Subsequently he was discharged on day 28. Two months later he underwent cadaveric kidney transplantation. After the transplantation, his BP control improved and he was left with bisoprolol 5 mg/day, amlodipine 10 mg/day, and doxazosine 4 mg/day (office BP one month after the transplantation: 124/90 mmHg, after two months: 135/95 mmHg, after three months: 135/95 mmHg).Conclusions:This is to the best of our knowledge the fifth report of PRES in an adult patient undergoing PD, and the first presenting a PD patient with history of PRES whose hypertension control improved after kidney transplantation. It is likely that the cause of described PRES episode was multifactorial, originating from the complications of ESRD, hypertension and poor compliance with PD.
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