Frailty and Sarcopenia in Older Patients Receiving Kidney Transplantation

Kidney transplantation is the treatment of choice for most of the patients with end-stage renal disease (ESRD). It improves quality of life, life expectancy, and has a lower financial burden to the healthcare system in comparison to dialysis. Every year more and more older patients are included in the kidney transplant waitlist. Within this patient population, transplanted subjects have better survival and quality of life as compared to those on dialysis. It is therefore crucial to select older patients who may benefit from renal transplantation, as well as those particularly at risk for post-transplant complications. Sarcopenia and frailty are frequently neglected in the evaluation of kidney transplant candidates. Both conditions are interrelated complex geriatric syndromes that are linked to disability, aging, comorbidities, increased mortality, and graft failure post-transplantation. Chronic kidney disease (CKD) and more importantly ESRD are characterized by multiple metabolic complications that contribute for the development of sarcopenia and frailty. In particular, anorexia, metabolic acidosis and chronic low-grade inflammation are the main contributors to the development of sarcopenia, a key component in frail transplant candidates and recipients. Both frailty and sarcopenia are considered to be reversible. Frail patients respond well to multiprofessional interventions that focus on the patients' positive frailty criteria, while physical rehabilitation and oral supplementation may improve sarcopenia. Prospective studies are still needed to evaluate the utility of formally measuring frailty and sarcopenia in the older candidates to renal transplantation as part of the transplant evaluation process

Barriers to Physical Activity in Chronic Hemodialysis Patients: A Single-Center Pilot Study in an Italian Dialysis Facility

Background/Aims: In patients on chronic dialysis a sedentary lifestyle is a strong, yet potentially modifiable, predictor of mortality. The present single-center pilot study evaluated social, psychological and clinical barriers that may hinder physical activity in this population. Methods: We explored the association between barriers to physical activity and sedentarism in adult patients at a chronic dialysis facility in Parma, Italy. We used different questionnaries exploring participation in physical activity, physical functioning, patient attitudes and preferences, and barriers to physical activity perceived by either patients or dialysis doctors and nurses. Results: We enrolled 104 patients, (67 males, 65%), mean age 69 years (79% of patients older than 60 years); median dialysis vintage 60 months (range 8-440); mean Charlson score 5.55, ADL (Activities of Daily Living) score 5.5. Ninety-two participants (88.5%) reported at least one barrier to physical activity. At multivariable analysis, after adjusting for age and sex, feeling to have too many medical problems (OR 2.99, 95% CI 1.27 to 7.07; P=0.012), chest pain (OR 10.78, 95% CI 1.28 to 90.28; P=0.029) and sadness (OR 2.59, 95% CI 1.10 to 6.09; P=0.030) were independently associated with physical inactivity. Lack of time for exercise counseling and the firm belief about low compliance/interest by the patients toward exercise were the most frequent barriers reported by doctors and nurses. Conclusion: We identified a number of patient-related and health personnel-related barriers to physical activity in patients on chronic dialysis. Solutions for these barriers should be addressed in future studies aimed at increasing the level of physical activity in this population

Preventing Continuous Renal Replacement Therapy-Induced Hypophosphatemia: An Extended Clinical Experience with a Phosphate-Containing Solution in the Setting of Regional Citrate Anticoagulation

Aims: To evaluate the efficacy and safety of a commercially available phosphate-containing solution for continuous renal replacement therapy (CRRT) in preventing CRRT-related hypophosphatemia. Methods: In heart surgery patients undergoing continuous veno-venous haemodiafiltration (CVVHDF) with regional citrate anticoagulation (RCA), we combined an 18 mmol/l citrate solution with a phosphate-containing (1.2 mmol/l) dialysate/replacement fluid evaluating the incidence of hypophosphatemia and the need for parenteral phosphorus supplementation. Results: In 75 patients on RCA-CVVHDF, the mean filter life was 53.9 ± 33.6 h. Regardless of baseline levels, phosphoremia was progressively corrected and maintained in a narrow normality range throughout RCA-CRRT days (after 72 h: 1.14 ± 0.25 mmol/l). Considering the whole CRRT period, 45 out of 975 (4.6%) serum phosphorus determinations met the criteria for mild (<0.81 mmol/l) or moderate (<0.61 mmol/l) hypophosphatemia; severe hypophosphatemia (<0.32 mmol/l) never occurred. After 72 h 88% of the patients were normophosphatemic, 9% hyperphosphatemic and 3% hypophosphatemic. Conclusions: RCA-CVVHDF with a phosphate-containing solution enabled the maintenance of phosphorus levels within normophosphatemic range in most of the patients, minimizing the occurrence of CRRT-related hypophosphatemia

[Disglycemia in patients with acute kidney injury in the ICU]

Derangements of glucose metabolism are common among critically ill patients. Critical illness- associated hyperglycemia (CIAH) is characterized by raised blood glucose levels in association with an acute event that is reversible after resolution of the underlying disease. CIAH has many causes, such as changes in counter-regulatory hormone status, release of sepsis mediators, insulin resistance, drugs and nutritional factors. It is associated with increased mortality risk. This association appears to be strongly influenced by diabetes mellitus as a comorbidity, suggesting the need for an accurate individualization of glycemic targets according to baseline glycemic status. Hypoglycemia is also very common in this clinical context and it has a negative prognostic impact. Many studies based on intensive insulin treatment protocols targeting normal blood glucose values have in fact documented both an increased incidence of hypoglycemia and an increased mortality risk. Finally, glycemic control in the ICU is made even more complex in the presence of acute kidney injury. On one hand, there is in fact a reduction of both the renal clearance of insulin and of gluconeogenesis by the kidney. On the other hand, the frequent need for renal replacement therapy (dialysis / hemofiltration) may result in an energy intake excess, under the form of citrate, lactate and glucose in the dialysate/reinfusion fluids. With regard to the possible renal protective effects afforded by intensive glycemic control protocols, the presently available evidence does not support a reduction in the incidence of AKI and/or the need for RRT with this approach, when compared with standard glucose control. Thus, the most recent guidelines now suggest higher blood glucose targets (<180 mg/dl or 140-180 mg/dl) than in the past (80-110 mg/dl). Albeit with limited evidence, it seems reasonable to extend these indications also to patients with AKI in the intensive care unit. Further studies are needed in order to better ascertain the effects of dysglycemia on the outcome of patients with AKI

Kidney biopsy findings in a critically ill COVID-19 patient with dialysis-dependent. acute kidney injury: a case against \u201cSARS-CoV-2 nephropathy

NO abstract available- Case repor

[The CARRESS study].

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Electrolytes and COVID-19: challenges and caveats in clinical research studies

Background The prognostic impact of electrolyte disorders in hospitalized COVID-19 patients is unclear. Methods The study included all adult patients hospitalized for COVID-19 in four hospitals in Northern Italy between January 2020 and May 2021 with at least one serum potassium and sodium measurement performed within 3 days since admission. Primary outcome was in-hospital death; secondary outcome was Intensive Care Unit (ICU) admission. A cause-specific Cox proportional-hazards regression model was used for investigating the association between potassium and sodium (as either categorical or continuous variables) and mortality or admission to ICU. Results Analyses included 3,418 adult hospitalized COVID-19 patients. At multivariable analysis, both hyperkalemia (Hazard Ratio, [HR] 1.833, 95% Confidence Interval [CI] 1.371–2.450) and sK above the median (K 5.1 vs 4.1 mmol/L: HR 1.523, 95% CI 1.295–1.798), and hypernatremia (HR 2.313, 95%CI 1.772–3.018) and sNa above the median (Na 149 vs 139 mmol/L: HR 1.442, 95% CI 1.234–1.686), were associated with in-hospital death, whereas hypokalemia and hyponatremia were not. Hyponatremia was associated with increased hazard of ICU admission (HR 1.884, 95%CI 1.389–2.556). Conclusions Electrolyte disorders detected at hospital admission may allow early identification of COVID-19 patients at increased risk of adverse outcomes

[Hyponatremia: from guidelines to clinical practice]

The publication, within a short time interval, of a consensus statement on the pathophysiology, diagnosis and treatment of hyponatremia by a panel of experts mainly from the US and of the European Guidelines on the same topic has marked an important step towards reducing the differences in the treatment of this frequent, and potentially fatal, electrolyte disorder. Within this framework, the European Society of Intensive Care Medicine (ESICM), the European Society of Endocrinology (ESE), and the European Dialysis and Transplantation Association-European Renal Association, represented by the European Renal Best Practice (ERBP), have developed these Guidelines for clinical practice, that are focused mainly on the diagnosis and the treatment of hyponatremia. In fact, they are the result of a tight collaboration between the three scientific societies involving those specialists with an elective interest for this electrolyte disorder. In addition to a rigorous methodological approach, a choice was made to provide a document focused on clinically relevant outcomes and useful for everyday practice. With respect to the original paper, this version of the Guidelines has been shortened and translated with a special view to the recommendations concerning the diagnosis and treatment of hyponatremia. It is preceded by an introduction underscoring the main targets of non-pharmacological treatment in acute severely symptomatic cases, specifically as regards the rate of correction of hyponatremia; subsequently, potential explanations for the discrepancies between the European Guidelines and the consensus statement by US experts concerning the use of vaptans are briefly discussed; the rationale and practical limitations in the clinical use of urea are analyzed in more detail

Protein/Energy Debt in Critically Ill Children in the Pediatric Intensive Care Unit: Acute Kidney Injury As a Major Risk Factor

Acute kidney injury (AKI) is common in pediatric intensive care unit (PICU) patients. In this clinical setting, the risk of protein-energy wasting is high because of the metabolic derangements of the uremic syndrome, the difficulties in nutrient needs estimation, and the possible negative effects of renal replacement therapy itself on nutrient balance. No specific guidelines on nutritional support in PICU patients with AKI are currently available. The present review is aimed at evaluating the role of AKI as a risk condition for inadequate protein/energy intake in these patients, on the basis of literature data on quantitative aspects of nutritional support in PICU. Current evidence suggests that a relevant protein/energy debt, a widely accepted concept in the literature on adult intensive care unit patients with its negative implications for patients' major outcomes, is also likely to develop in pediatric critically ill patients, and that AKI represents a key factor for its development

Body cell mass evaluation in critically ill patients: Killing two birds with one stone

Body cell mass (BCM) is the metabolically active cell mass involved in O₂ consumption, CO₂ production and energy expenditure. BCM measurement has been suggested as a tool for the evaluation of nutritional status. Since BCM is closely related to energy expenditure, it could also represent a good reference value for the calculation of nutrient needs. In a recent issue of Critical Care, Ismael and colleagues used bioelectrical impedance analysis parameters and anthropometric variables to evaluate BCM in patients with acute kidney injury, before and after a hemodialysis session. The results of this study suggest that BCM is relatively insensitive to major body fluid shifts, a well known factor interfering with nutritional evaluation/monitoring and energy need calculations in the ICU. Thus, BCM seems to be a more 'stable' nutritional variable, as it is apparently less influenced by non-nutritional factors. The results of this paper emphasize the need to identify biologically sound parameters for nutritional status evaluation and energy need calculation in critically ill patients; in this regard, BCM could fulfill these expectations