Your search keyword '"Dialysis Solutions adverse effects"' showing total 615 results

1. Aryl Hydrocarbon Receptor Pathway Augments Peritoneal Fibrosis in a Murine CKD Model Exposed to Peritoneal Dialysate.

Author

Lotfollahzadeh S, Vazirani A, Sellinger IE, Clovie J, Hoekstra I, Patel A, Malloum AB, Yin W, Paul H, Yadati P, Siracus J, Malikova M, Pernar LI, Francis J, Stern L, and Chitalia VC

Subjects

Animals, Mice, Dialysis Solutions chemistry, Dialysis Solutions adverse effects, Disease Models, Animal, Peritoneal Dialysis adverse effects, Signal Transduction drug effects, Peritoneal Fibrosis etiology, Peritoneal Fibrosis pathology, Peritoneal Fibrosis metabolism, Receptors, Aryl Hydrocarbon metabolism, Renal Insufficiency, Chronic pathology

Published

2024

2. Icodextrin-induced acute generalized exanthematous pustulosis in a patient with peritoneal dialysis.

Author

Liu CH, Chen CC, and Sung CC

Subjects

Humans, Female, Adult, Treatment Outcome, Glucans adverse effects, Kidney Failure, Chronic therapy, Kidney Failure, Chronic complications, Glucose, Biopsy, Skin pathology, Skin drug effects, Icodextrin, Acute Generalized Exanthematous Pustulosis etiology, Acute Generalized Exanthematous Pustulosis diagnosis, Dialysis Solutions adverse effects, Peritoneal Dialysis

Abstract

Icodextrin has been widely prescribed for peritoneal dialysis (PD) patients with inadequate ultrafiltration, but icodextrin induced acute generalized exanthematous pustulosis (AGEP) has been not well recognized in clinical practice. We described a young-aged female with IgA nephropathy and end stage kidney disease under continuous automated peritoneal dialysis. She developed skin erythema with exfoliation over the groin 7th day after initiation of icodextrin based PD dialysate. Initially, her scaling skin lesion with pinhead-sized pustules affected the bilateral inguinal folds, and then it extended to general trunk accompanied by pruritus. She was admitted because of deterioration of skin lesion on 14th day of icodextrin exposure. She was afebrile and physical examination was notable for widespread erythematous papules with pruritus extending over her groins and trunk. Pertinent laboratory examination showed leukocytosis of 18 970 cells/μL with neutrophile count of 17 642 cells/μL (92.3%), and c-reactive-protein: 3.39 mg/dL. Skin biopsy revealed multifocal sub corneal abscess with papillary dermal edema, and upper-dermal neutrophilia with perivascular accentuation, consistent with the diagnosis of AGEP. After discontinuation of PD, she underwent temporary high-flux haemodialysis with treatment of steroid and antihistamine. Her dermatologic lesion resolved without any skin sequalae completely within 4 days, and she underwent icodextrin-free peritoneal dialysis at 17th day. This case highlighted the fact that icodextrin-induced AGEP should be early recognized to avoid inappropriate management., (© 2024 Asian Pacific Society of Nephrology.)

Published

2024

3. Complications of Peritoneal Dialysis Part I: Mechanical Complications.

Author

Cheng XBJ and Bargman J

Subjects

Humans, Kidney Failure, Chronic therapy, Kidney Failure, Chronic physiopathology, Dialysis Solutions adverse effects, Respiratory Mechanics, Hernia etiology, Hernia physiopathology, Risk Factors, Peritoneal Dialysis adverse effects, Hydrothorax etiology, Hydrothorax therapy

Abstract

Peritoneal dialysis (PD) is a form of KRT that offers flexibility and autonomy to patients with ESKD. It is associated with lower costs compared with hemodialysis in many countries. However, it can be associated with unexpected interruptions to or discontinuation of therapy. Timely diagnosis and resolution are required to minimize preventable modality change to hemodialysis. This review covers mechanical complications, including leaks, PD hydrothorax, hernias, dialysate flow problems, PD-related pain, and changes in respiratory mechanics. Most mechanical complications occur early, either as a result of PD catheter insertion or the introduction of dialysate and consequent increased intra-abdominal pressure. Late mechanical complications can also occur and may require different treatment., (Copyright © 2024 by the American Society of Nephrology.)

Published

2024

4. Complications of Peritoneal Dialysis Part II: Nonmechanical Complications.

Author

Cheng XBJ and Bargman J

Subjects

Humans, Hemoperitoneum etiology, Chylous Ascites etiology, Chylous Ascites therapy, Peritoneal Dialysis adverse effects, Peritoneal Fibrosis etiology, Kidney Failure, Chronic therapy, Dialysis Solutions adverse effects

Abstract

Peritoneal dialysis (PD) is a form of KRT that offers flexibility and autonomy to patients with ESKD. It is associated with lower costs compared with hemodialysis in many countries. Unlike mechanical complications that typical arise early in the course of treatment, noninfectious, nonmechanical complications often present late in patients who are established on PD. In this review, we first discuss abnormal-appearing drained dialysate, including hemoperitoneum, chyloperitoneum, and noninfectious cloudy dialysate. The underlying cause is frequently unrelated to PD. We then discuss encapsulating peritoneal sclerosis, a rare complication of PD. Finally, we review metabolic changes associated with PD and methods to mitigate its effects., (Copyright © 2024 by the American Society of Nephrology.)

Published

2024

5. Differential effects of biocompatible peritoneal dialysis fluids on human mesothelial and endothelial cells in 2D and 3D phenotypes.

Author

Jagirdar RM, Pitaraki E, Rouka E, Papazoglou ED, Bartosova M, Zebekakis P, Schmitt CP, Zarogiannis SG, and Liakopoulos V

Subjects

Humans, Icodextrin metabolism, Icodextrin pharmacology, Dialysis Solutions adverse effects, Dialysis Solutions metabolism, Peritoneum metabolism, Phenotype, Amino Acids metabolism, Amino Acids pharmacology, Glucose pharmacology, Glucose metabolism, Cells, Cultured, Epithelial Cells, Endothelial Cells, Peritoneal Dialysis

Abstract

Introduction: Peritoneal dialysis (PD) is a life maintaining treatment in patients with end-stage renal disease. Its chronic application leads to peritoneal mesothelial layer denudation and fibrotic transformation along with vascular activation of inflammatory pathways. The impact of different PD fluids (PDF) on mesothelial and endothelial cell function and repair mechanisms are not comprehensively described., Materials and Methods: Mesothelial (MeT-5A) and endothelial cells (EA.hy926) were cultured in 1:1 ratio with cell medium and different PDF (icodextrin-based, amino acid-based, and glucose-based). Cell adhesion, cell migration, and cell proliferation in 2D and spheroid formation and collagen gel contraction assays in 3D cell cultures were performed., Results: Cell proliferation and cell-mediated gel contraction were both significantly decreased in all conditions. 3D spheroid formation was significantly reduced with icodextrin and amino acid PDF, but unchanged with glucose PDF. Adhesion was significantly increased by amino acid PDF in mesothelial cells and decreased by icodextrin and amino acid PDF in endothelial cells. Migration capacity was significantly decreased in mesothelial cells by all three PDF, while endothelial cells remained unaffected., Conclusions: In 3D phenotypes the effects of PDF are more uniform in both mesothelial and endothelial cells, mitigating spheroid formation and gel contraction. On the contrary, effects on 2D phenotypes are more uniform in the icodextrin and amino acid PDF as opposed to glucose ones and affect mesothelial cells more variably. 2D and 3D comparative assessments of PDF effects on the main peritoneal membrane cell barriers, the mesothelial and endothelial, could provide useful translational information for PD studies., (© 2023 The Authors. Artificial Organs published by International Center for Artificial Organ and Transplantation (ICAOT) and Wiley Periodicals LLC.)

Published

2024

6. 'Leak from the lap': A case of peritoneal dialysate leak from laparoscopic port site.

Author

Manjari SV, Parthasarathy R, Selvanathan DK, Dhakshinamoorthy S, Parthasarathy S, Jaikumar S, and Nair S

Subjects

Humans, Male, Kidney Failure, Chronic therapy, Aged, Dialysis Solutions adverse effects, Laparoscopy, Peritoneal Dialysis adverse effects

Abstract

Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship and/or publication of this article.

Published

2024

7. Coupling Osmotic Efficacy with Biocompatibility in Peritoneal Dialysis: A Stiff Challenge.

Author

Bonomini M, Masola V, Monaco MP, Sirolli V, Di Liberato L, Prosdocimi T, and Arduini A

Subjects

Animals, Humans, Dialysis Solutions adverse effects, Peritoneum, Glucose therapeutic use, Renal Dialysis, Peritoneal Dialysis adverse effects

Abstract

Peritoneal dialysis (PD) is a home-based efficacious modality for the replacement of renal function in end-stage kidney failure patients, but it is still under-prescribed. A major limitation is the durability of the dialytic technique. Continuous exposure of the peritoneum to bioincompatible conventional glucose-based solutions is thought to be the main cause of the long-term morpho-functional peritoneal changes that eventually result in ultrafiltration failure. Poor PD solution biocompatibility is primarily related to the high glucose content, which is not only detrimental to the peritoneal membrane but has many potential metabolic side effects. To improve the clinical outcome and prolong the survival of the treatment, PD-related bioincompatibility urgently needs to be overcome. However, combining dialytic and osmotic efficacy with a satisfactory biocompatible profile is proving to be quite difficult. New approaches targeting the composition of the PD solution include the replacement of glucose with other osmotic agents, and the addition of cytoprotective or osmo-metabolic compounds. Other strategies include the infusion of mesenchymal cells or the administration of orally active agents. In the present article, we review the current evidence on efforts to improve the biocompatible and functional performance of PD, focusing on studies performed in vivo (animal models of PD, human subjects on PD).

Published

2024

8. Online hemodiafiltration without calcium replacement using citrate as an anticoagulant and dialysis fluid with 3.5 mEq of post dilutional calcium in patients with heparin-induced thrombocytopenia: Report of 2 cases.

Author

Ramos L, Luxardo R, Crucelegui MS, Satera N, Jordán Ordoñez Y, and Rosa-Diez G

Subjects

Humans, Dialysis Solutions adverse effects, Anticoagulants adverse effects, Calcium blood, Citric Acid adverse effects, Citric Acid therapeutic use, Hemodiafiltration methods, Heparin adverse effects, Thrombocytopenia chemically induced

Published

2024

9. Partial replacement of d-glucose with d-allose ameliorates peritoneal injury and hyperglycaemia induced by peritoneal dialysis fluid in rats.

Author

Ozaki T, Fu HY, Onishi K, Yokoyama S, Fujita T, Tobiume A, Sofue T, Akimitsu K, and Minamino T

Subjects

Humans, Rats, Animals, Rats, Sprague-Dawley, Dialysis Solutions adverse effects, Peritoneum pathology, Glucose, Cytokines, Peritoneal Dialysis adverse effects, Peritoneal Dialysis methods, Hyperglycemia pathology

Abstract

Background: Peritoneal dialysis (PD) is a crucial dialysis method for treating end-stage kidney disease. However, its use is restricted due to high glucose-induced peritoneal injury and hyperglycaemia, particularly in patients with diabetes mellitus. In this study, we investigated whether partially replacing d-glucose with the rare sugar d-allose could ameliorate peritoneal injury and hyperglycaemia induced by peritoneal dialysis fluid (PDF)., Methods: Rat peritoneal mesothelial cells (RPMCs) were exposed to a medium containing d-glucose or d-glucose partially replaced with different concentrations of d-allose. Cell viability, oxidative stress and cytokine production were evaluated. Sprague-Dawley (SD) rats were administrated saline, a PDF containing 4% d-glucose (PDF-G4.0%) or a PDF containing 3.6% d-glucose and 0.4% d-allose (PDF-G3.6%/A0.4%) once a day for 4 weeks. Peritoneal injury and PD efficiency were assessed using immuno-histological staining and peritoneal equilibration test, respectively. Blood glucose levels were measured over 120 min following a single injection of saline or PDFs to 24-h fasted SD rats., Results: In RPMCs, the partial replacement of d-glucose with d-allose increased cell viability and decreased oxidative stress and cytokine production compared to d-glucose alone. Despite the PDF-G3.6%/A0.4% having a lower d-glucose concentration compared to PDF-G4.0%, there were no significant changes in osmolality. When administered to SD rats, the PDF-G3.6%/A0.4% suppressed the elevation of peritoneal thickness and blood d-glucose levels induced by PDF-G4.0%, without impacting PD efficiency., Conclusions: Partial replacement of d-glucose with d-allose ameliorated peritoneal injury and hyperglycaemia induced by high concentration of d-glucose in PDF, indicating that d-allose could be a potential treatment option in PD., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

10. Effect of Dialysate and Plasma Sodium on Mortality in a Global Historical Hemodialysis Cohort.

Author

Pinter J, Smyth B, Stuard S, Jardine M, Wanner C, Rossignol P, Wheeler DC, Marshall MR, Canaud B, and Genser B

Subjects

Humans, Retrospective Studies, Renal Dialysis methods, Sodium, Dialysis Solutions adverse effects, Kidney Failure, Chronic complications

Abstract

Significance Statement: This large observational cohort study aimed to investigate the relationship between dialysate and plasma sodium concentrations and mortality among maintenance hemodialysis patients. Using a large multinational cohort of 68,196 patients, we found that lower dialysate sodium concentrations (≤138 mmol/L) were independently associated with higher mortality compared with higher dialysate sodium concentrations (>138 mmol/L). The risk of death was lower among patients exposed to higher dialysate sodium concentrations, regardless of plasma sodium levels. These results challenge the prevailing assumption that lower dialysate sodium concentrations improve outcomes in hemodialysis patients. The study confirms that until robust evidence from randomized trials that are underway is available, nephrologists should remain cautious in reconsideration of dialysate sodium prescribing practices to optimize cardiovascular outcomes and reduce mortality in this population., Background: Excess mortality in hemodialysis (HD) patients is largely due to cardiovascular disease and is associated with abnormal fluid status and plasma sodium concentrations. Ultrafiltration facilitates the removal of fluid and sodium, whereas diffusive exchange of sodium plays a pivotal role in sodium removal and tonicity adjustment. Lower dialysate sodium may increase sodium removal at the expense of hypotonicity, reduced blood volume refilling, and intradialytic hypotension risk. Higher dialysate sodium preserves blood volume and hemodynamic stability but reduces sodium removal. In this retrospective cohort, we aimed to assess whether prescribing a dialysate sodium ≤138 mmol/L has an effect on survival outcomes compared with dialysate sodium >138 mmol/L after adjusting for plasma sodium concentration., Methods: The study population included incident HD patients from 875 Fresenius Medical Care Nephrocare clinics in 25 countries between 2010 and 2019. Baseline dialysate sodium (≤138 or >138 mmol/L) and plasma sodium (<135, 135-142, >142 mmol/L) concentrations defined exposure status. We used multivariable Cox regression model stratified by country to model the association between time-varying dialysate and plasma sodium exposure and all-cause mortality, adjusted for demographic and treatment variables, including bioimpedance measures of fluid status., Results: In 2,123,957 patient-months from 68,196 incident HD patients with on average three HD sessions per week dialysate sodium of 138 mmol/L was prescribed in 63.2%, 139 mmol/L in 15.8%, 140 mmol/L in 20.7%, and other concentrations in 0.4% of patients. Most clinical centers (78.6%) used a standardized concentration. During a median follow-up of 40 months, one third of patients ( n =21,644) died. Dialysate sodium ≤138 mmol/L was associated with higher mortality (multivariate hazard ratio for the total population (1.57, 95% confidence interval, 1.25 to 1.98), adjusted for plasma sodium concentrations and other confounding variables. Subgroup analysis did not show any evidence of effect modification by plasma sodium concentrations or other patient-specific variables., Conclusions: These observational findings stress the need for randomized evidence to reliably define optimal standard dialysate sodium prescribing practices., (Copyright © 2023 by the American Society of Nephrology.)

Published

2024

11. Associations of neutral pH, low-GDP peritoneal dialysis solutions with patient survival, transfer to haemodialysis and peritonitis.

Author

Chen JHC, Johnson DW, Cho Y, Cheetham M, Sud K, Hayat A, Stallard B, Clayton P, Davies CE, Borlace M, and Boudville N

Subjects

Adult, Humans, Renal Dialysis adverse effects, Dialysis Solutions adverse effects, Hydrogen-Ion Concentration, Peritoneal Dialysis adverse effects, Peritonitis etiology, Peritonitis chemically induced

Abstract

Background: Peritoneal dialysis (PD) solutions containing low levels of glucose degradation products (GDPs) are associated with attenuation of peritoneal membrane injury and vascular complications. However, clinical benefits associated with neutral-pH, low-GDP (N-pH/L-GDP) solutions remain unclear., Methods: Using data from the Australia and New Zealand Dialysis and Transplant Registry, we examined the associations between N-pH/L-GDP solutions and all-cause mortality, cause-specific mortality, transfer to haemodialysis (HD) for ≥30 days and PD peritonitis in adult incident PD patients in Australia and New Zealand between 1 January 2005 and 31 December 2020 using adjusted Cox regression analyses., Results: Of 12 814 incident PD patients, 2282 (18%) were on N-pH/L-GDP solutions. The proportion of patients on N-pH/L-GDP solutions each year increased from 11% in 2005 to 33% in 2017. During the study period, 5330 (42%) patients died, 4977 (39%) experienced transfer to HD and 5502 (43%) experienced PD peritonitis. Compared with the use of conventional solutions only, the use of any form of N-pH/L-GDP solution was associated with reduced risks of all-cause mortality {adjusted hazard ratio [aHR] 0.67 [95% confidence interval (CI) 0.61-0.74]}, cardiovascular mortality [aHR 0.65 (95% CI 0.56-0.77)], infection-related mortality [aHR 0.62 (95% CI 0.47-0.83)] and transfer to HD [aHR 0.79 (95% CI 0.72-0.86)] but an increased risk of PD peritonitis [aHR 1.16 (95% CI 1.07-1.26)]., Conclusions: Patients who received N-pH/L-GDP solutions had decreased risks of all-cause and cause-specific mortality despite an increased risk of PD peritonitis. Studies assessing the causal relationships are warranted to determine the clinical benefits of N-pH/L-GDP solutions., (© The Author(s) 2023. Published by Oxford University Press on behalf of the ERA.)

Published

2024

12. High Osmol Gap Hyponatremia Caused by Icodextrin: A Case Series Report.

Author

de Fijter CWH, Stachowska-Pietka J, Waniewski J, and Lindholm B

Subjects

Humans, Icodextrin adverse effects, Glucans adverse effects, Glucans metabolism, Dialysis Solutions adverse effects, Glucose adverse effects, Glucose metabolism, Hyponatremia chemically induced, Hyponatremia drug therapy, Peritoneal Dialysis adverse effects, Peritoneal Dialysis methods, Water-Electrolyte Imbalance drug therapy

Abstract

Recently, hyperosmolar hyponatremia following excessive off-label use of two exchanges of 2 L icodextrin daily during peritoneal dialysis (PD) was reported. We encountered a cluster of 3 cases of PD patients who developed hyperosmolar hyponatremia during on-label use of icodextrin. This appeared to be due to absorption of icodextrin since after stopping icodextrin, the serum sodium level and osmol gap returned to normal, while a rechallenge again resulted in hyperosmolar hyponatremia. We excluded higher than usual concentrations of specific fractions of dextrins in fresh icodextrin dialysis fluid (lot numbers of used batches were checked by manufacturer). We speculate that in our patients, either an exaggerated degradation of polysaccharide chains by α-amylase activity in dialysate, lymph, and interstitium and/or rapid hydrolysis of the absorbed larger degradation products in the circulation may have contributed to the hyperosmolality observed, with the concentration of oligosaccharides exceeding the capacity of intracellular enzymes (in particular maltase) to metabolize these products to glucose. Both hyponatremia and hyperosmolality are risk factors for poor outcomes in PD patients. Less conventional PD prescriptions such as off-label use of two exchanges of 2 L icodextrin might raise the risk of this threatening side effect. This brief report is intended to create awareness of a rare complication of on-label icodextrin use in a subset of PD patients and/or PD prescriptions., (© 2023 S. Karger AG, Basel.)

Published

2024

13. Glucose-induced pseudohypoxia and advanced glycosylation end products explain peritoneal damage in long-term peritoneal dialysis.

Author

Krediet RT and Parikova A

Subjects

Humans, Glucose adverse effects, Glucose metabolism, Glycosylation, Peritoneum metabolism, Dialysis Solutions adverse effects, Dialysis Solutions metabolism, Water metabolism, Ultrafiltration, Peritoneal Dialysis adverse effects

Abstract

Long-term peritoneal dialysis is associated with the development of peritoneal membrane alterations, both in morphology and function. Impaired ultrafiltration (UF) is the most important functional change, and peritoneal fibrosis is the major morphological alteration. Both are caused by the continuous exposure to dialysis solutions that are different from plasma water with regard to the buffer substance and the extremely high-glucose concentrations. Glucose has been incriminated as the major cause of long-term peritoneal membrane changes, but the precise mechanism has not been identified. We argue that glucose causes the membrane alterations by peritoneal pseudohypoxia and by the formation of advanced glycosylation end products (AGEs). After a summary of UF kinetics including the role of glucose transporters (GLUT), and a discussion on morphologic alterations, relationships between function and morphology and a survey of the pathogenesis of UF failure (UFF), it will be argued that impaired UF is partly caused by a reduction in small pore fluid transport as a consequence of AGE-related vasculopathy and - more importantly - in diminished free water transport due to pseudohypoxia, caused by increased peritoneal cellular expression of GLUT-1. The metabolism of intracellular glucose will be reviewed. This occurs in the glycolysis and in the polyol/sorbitol pathway, the latter is activated in case of a large supply. In both pathways the ratio between the reduced and oxidised form of nicotinamide dinucleotide (NADH/NAD + ratio) will increase, especially because normal compensatory mechanisms may be impaired, and activate expression of hypoxia-inducible factor-1 (HIF-1). The latter gene activates various profibrotic factors and GLUT-1. Besides replacement of glucose as an osmotic agent, medical treatment/prevention is currently limited to tamoxifen and possibly Renin/angiotensis/aldosteron (RAA) inhibitors., Competing Interests: Declaration of conflicting interestsThe author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

14. Water quality and adverse health effects on the hemodialysis patients: An overview.

Author

Raimundo R, Preciado L, Belchior R, and Almeida CMM

Subjects

Humans, Renal Dialysis adverse effects, Dialysis Solutions adverse effects, Ultrafiltration, Hemodialysis Solutions adverse effects, Water Quality, Continuous Renal Replacement Therapy

Abstract

Hemodialysis is considered a treatment of choice for patients with renal failure worldwide, allowing the replacement of some kidney functions by diffusion and ultrafiltration processes. Over 4 million people require some form of renal replacement therapy, with hemodialysis being the most common. During the procedure, contaminants in the water and the resulting dialysate may pass into the patient's blood and lead to toxicity. Thus, the quality of the associated dialysis solutions is a critical issue. Accordingly, the discussion of the importance of a dialysis water delivery system controlled by current standards and recommendations, with efficient monitoring methods, disinfection systems, and chemical and microbiological analysis, is crucial for improving the health outcomes of these patients. The importance of treatment, monitoring, and regulation is emphasized by presenting several case studies concerning the contamination of hemodialysis water and the adverse effects on the respective patients., (© 2023 International Society for Apheresis and Japanese Society for Apheresis.)

Published

2023

15. Effect of low-calcium and standard-calcium dialysate on serum calcium, phosphorus and full-segment parathyroid hormone in patients on peritoneal dialysis: A retrospective observational study.

Author

An N, Zhou H, Li X, Yu X, Yang H, Zhai L, Huang Y, and Yao C

Subjects

Humans, Calcium, Parathyroid Hormone, Dialysis Solutions adverse effects, Phosphorus, Antihypertensive Agents, Renal Dialysis, Phosphates, Peritoneal Dialysis adverse effects, Vascular Calcification etiology

Abstract

Objective: To investigate the effects of low-calcium and standard-calcium dialysate in patients with chronic kidney disease on peritoneal dialysis, and find out which dialysate has less vascular calcification effect., Methods: A total of 141 patients who had undergone peritoneal dialysis (PD) for 2 years in the PD centre from January 2012 to December 2017 were included and divided into two groups according to the calcium concentration of the PD fluid used. There were 79 cases in the low-calcium group, with a dialysate calcium concentration of 1.25 mmol/L and 62 cases in the standard-calcium group, with a dialysate calcium concentration of 1.75 mmol/L. The demographic characteristics and clinical information before initiation of PD were collected and compared between the two groups. Information on the serum calcium, phosphorus and PTH, systolic and diastolic blood pressures and the use of antihypertensive and phosphate-lowering drugs in the second year of dialysis was also collected and compared between the two groups. Vascular calcification was assessed in patients on PD treatment., Results: The mean serum calcium concentrations before initiation of PD in the low- and standard-calcium groups were 1.94 ± 0.27 and 1.89 ± 0.28 mmol/L, respectively. The serum calcium concentrations after PD were 2.30 ± 0.21 and 2.41 ± 0.23 mmol/L, respectively. After PD, the serum calcium concentration in both groups was significantly increased ( p  < 0.05). The serum calcium concentration in the low-calcium group after PD treatment was lower than that in the standard-calcium group, and the difference was statistically significant ( p  < 0.05). Compared with the standard-calcium group, patients in the low-calcium group had significantly higher parathyroid hormone concentrations ( p  < 0.05). More types of phosphate-lowering drugs were used (59.49%) in the low-calcium group than that in the standard-calcium group (35.48%; p  < 0.05). The number of antihypertensive drug usage were also higher in the low-calcium group, and the difference was statistically significant ( p  < 0.05). As for the vascular calcification effect, the two groups have shown no statistical difference in abdominal aortic calcification rate, carotid arteriosclerosis rate and aortic arch calcification rate ( p  < 0.05)., Conclusion: We found that low-calcium PD fluid may increase the PTH level and the proportion of CKD patients using antihypertensive drug and phosphorus-lowering drug, but the vascular calcification effect of the low and standard calcium PD fluid needs further exploration. This paper provides new evidence for the choice of dialysate for PD, low-calcium dialysate has no outstanding advantages for long term dialysis., Competing Interests: Declaration of conflicting interestsThe authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2023

16. High glucose dialysate-induced peritoneal fibrosis: Pathophysiology, underlying mechanisms and potential therapeutic strategies.

Author

Zhao H, Zhang HL, and Jia L

Subjects

Humans, Dialysis Solutions adverse effects, Dialysis Solutions metabolism, Transforming Growth Factor beta1 metabolism, Peritoneum metabolism, Fibrosis, Inflammation metabolism, Glucose metabolism, Peritoneal Fibrosis chemically induced, Peritoneal Fibrosis therapy

Abstract

Peritoneal dialysis is an efficient renal replacement therapy for patients with end-stage kidney disease. However, continuous exposure of the peritoneal membrane to dialysate frequently leads to peritoneal fibrosis, which alters the function of the peritoneal membrane and results in withdrawal from peritoneal dialysis in patients. Among others, high glucose dialysate is considered as a predisposing factor for peritoneal fibrosis in patients on peritoneal dialysis. Glucose-induced inflammation, metabolism disturbance, activation of the renin-angiotensin-aldosterone system, angiogenesis and noninflammation-induced reactive oxygen species are implicated in the pathogenesis of high glucose dialysate-induced peritoneal fibrosis. Specifically, high glucose causes chronic inflammation and recurrent peritonitis, which could cause migration and polarization of inflammatory cells, as well as release of cytokines and fibrosis. High glucose also interferes with lipid metabolism and glycolysis by activating the sterol-regulatory element-binding protein-2/cleavage-activating protein pathway and increasing hypoxia inducible factor-1α expression, leading to angiogenesis and peritoneal fibrosis. Activation of the renin-angiotensin-aldosterone system and Ras-mitogen activated protein kinase signaling pathway is another contributing factor in high glucose dialysate-induced fibrosis. Ultimately, activation of the transforming growth factor-β1/Smad pathway is involved in mesothelial-mesenchymal transition or epithelial-mesenchymal transition, which leads to the development of fibrosis. Although possible intervention strategies for peritoneal dialysate-induced fibrosis by targeting the transforming growth factor-β1/Smad pathway have occasionally been proposed, lack of laboratory evidence renders clinical decision-making difficult. We therefore aim to revisit the upstream pathways of transforming growth factor-beta1/Smad and propose potential therapeutic targets for high glucose-induced peritoneal fibrosis., Competing Interests: Declaration of Competing Interest Please declare any financial or personal interests that might be potentially viewed to influence the work presented. Interests could include consultancies, honoraria, patent ownership or other. If there are none state ‘there are none’., (Copyright © 2023 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2023

17. Risk factors for early dialysate leakage around the exit site after catheter placement in pediatric peritoneal dialysis: a single-center experience.

Author

Nada T, Kamei K, Sato M, Nishi K, Ogura M, and Ito S

Subjects

Infant, Infant, Newborn, Humans, Child, Dialysis Solutions adverse effects, Retrospective Studies, Catheters, Indwelling adverse effects, Risk Factors, Body Weight, Peritoneal Dialysis adverse effects, Peritonitis epidemiology, Peritonitis etiology, Peritonitis prevention & control

Abstract

Background: Dialysate leakage, a major complication in peritoneal dialysis (PD), causes difficulty in continuing PD. However, literature evaluating risk factors for leakage in detail and the appropriate break-in period to avoid leakage in pediatric patients is scarce., Methods: We conducted a retrospective study on children aged < 20 years who underwent Tenckhoff catheter placement between April 1, 2002, and December 31, 2021, at our institution. We compared clinical factors between patients with and without leakage within 30 days of catheter insertion., Results: Dialysate leakage occurred in 8 of 102 (7.8%) PD catheters placed in 78 patients. All leaks occurred in children with a break-in period of < 14 days. Leaks were significantly more frequent in patients with low body weight at the catheter insertion, single-cuffed catheter insertion, a break-in period ≤ 7 days, and a long PD treatment time per day. Only one patient who had leakage with a break-in period > 7 days was neonate. PD was suspended in four of the eight patients with leakage and continued in the others. Two of the latter had secondary peritonitis, one of whom required catheter removal, and leakage improved in the remaining patients. Three infants had serious complications from bridge hemodialysis., Conclusions: A break-in period of > 7 days and if possible 14 days is recommended to avoid leakage in pediatric patients. Whereas infants with low body weight are at high risk of leakage, their difficulty in inserting double-cuffed catheter, hemodialysis complications, and possible leakage even under long break-in period make prevention of leakage challenging., (© 2023. The Author(s), under exclusive licence to The Japanese Society of Nephrology.)

Published

2023

18. Pathophysiology of encapsulating peritoneal sclerosis: lessons from findings of the past three decades in Japan.

Author

Nakayama M, Miyazaki M, Hamada C, Ito Y, and Honda K

Subjects

Humans, Japan epidemiology, Peritoneum pathology, Dialysis Solutions adverse effects, Sclerosis complications, Sclerosis pathology, Peritoneal Fibrosis diagnosis, Peritoneal Fibrosis etiology, Peritoneal Dialysis adverse effects

Abstract

Encapsulating peritoneal sclerosis (EPS), a condition with a high mortality rate, is a serious complication of peritoneal dialysis (PD). In Japan, EPS became a central issue in the clinical setting during the mid-90s and the beginning of this century. However, following the introduction of biocompatible neutral PD solutions containing lower levels of glucose degradation products, the incidence and clinical severity of EPS has been greatly lessened. During the past three decades, the etiology of EPS has been elucidated by findings obtained by peritoneal biopsy, laparoscopy, and surgical intervention. Accumulating findings suggest the need for a paradigm change on the nature of EPS pathophysiology; notably, EPS appears not to reflect peritoneal sclerosis per se, but rather the formation of a neo-membrane as a biological reaction to peritoneal injury. This narrative review looks back on the history of EPS in Japan, and discusses EPS pathophysiology, the impact of neutral PD solution on peritoneal protection, and a future novel diagnostic approach, ultra-fine endoscope, for the identification of patients at high risk of EPS., (© 2023. The Author(s).)

Published

2023

19. [Intervention of modified Shenling Baizhu San on peritoneal fibrosis induced by peritoneal dialysate with different sugar concentration in rats].

Author

Lyu Y, Chen X, Zhang L, Shang L, and Wang Y

Subjects

Male, Rats, Animals, Actins, Matrix Metalloproteinase 9, Tissue Inhibitor of Metalloproteinase-1, Transforming Growth Factor beta1, Vimentin, Saline Solution, Rats, Sprague-Dawley, Dialysis Solutions adverse effects, Collagen, Sugars, Peritoneal Fibrosis

Abstract

Objective: To investigate the effect of modified Shenling Baizhu San on the pathological changes and extracellular matrix (ECM) in rats with peritoneal fibrosis induced by peritoneal dialysate fluid (PDF) with different sugar concentration and its mechanism., Methods: Seventy male Sprague-Dawley (SD) rats were randomly divided into control group, different sugar content PDF model groups and corresponding traditional Chinese medicine intervention groups, with 10 rats in each group. Peritoneal fibrosis model was reproduced by intraperitoneal injection of 100 mL×kg -1 ×d -1 PDF containing 1.5%, 2.5% and 4.25% sugar once a day for 8 weeks. The rats in the control group were given the same amount of normal saline. The rats in the traditional Chinese medicine intervention groups were treated with gavage of 10 mL/kg of modified Shenling Baizhu San (containing 2.014 g crude drug per liter) immediately after modeling. The PDF model groups and the control group were given the same amount of normal saline by gavage. After 8 weeks, the peritoneal ultrafiltration volume of rats in each group was measured. The peritoneal tissues were collected and stained with hematoxylin-eosin (HE), and the structural changes and thickness of the parietal peritoneum were observed under a light microscope. After Masson staining, the deposition of collagen fibers was observed under a light microscope. Western blotting was used to detect the protein expressions of E-cadherin, α-smooth muscle actin (α-SMA) and Vimentin, the main components of ECM in parietal peritoneum. The positive expressions of matrix metalloproteinase-9 (MMP-9), tissue inhibitor of metalloproteinase-1 (TIMP-1), and transforming growth factor-β1 (TGF-β1) were detected by immunohistochemical staining., Results: Compared with the control group, PDF with different sugar contents could induce peritoneal fibrosis in rats, and the degree of fibrosis was gradually aggravated with the increase of sugar content, which was manifested as peritoneal thickening, increased collagen fiber deposition, decreased peritoneal ultrafiltration volume, down-regulated expressions of E-cadherin and MMP-9 in peritoneal tissue, and up-regulated expressions of α-SMA, Vimentin, TIMP-1 and TGF-β1, and the pathological changes and ECM accumulation in peritoneal tissues were more serious in 4.25% PDF model group. After the intervention of modified Shenling Baizhu San, compared with the corresponding PDF model groups, the peritoneal fibrosis of rats was improved to varying degrees, and the effect of the 4.25% PDF+traditional Chinese medicine intervention group was more significant, the parietal peritoneum was significantly thinner (μm: 101.86±16.01 vs. 140.65±10.13, P < 0.05), collagen fiber deposition was significantly reduced, peritoneal ultrafiltration volume was significantly increased (mL: -0.01±3.45 vs. -3.53±1.84, P < 0.05), the expressions of E-cadherin and MMP-9 in peritoneal tissues were significantly up-regulated [E-cadherin protein (E-cadherin/β-actin): 0.84±0.08 vs. 0.28±0.05, MMP-9 (A value): 0.60±0.15 vs. 0.37±0.01, both P < 0.05], and the expressions of α-SMA, Vimentin, TIMP-1 and TGF-β1 were significantly down-regulated [α-SMA protein (α-SMA/β-actin): 0.36±0.08 vs. 1.05±0.09, Vimentin protein (Vimentin/β-actin): 0.53±0.07 vs. 1.19±0.04, TIMP-1 (A value): 0.49±0.06 vs. 0.87±0.02, TGF-β1 (A value): 0.67±0.04 vs. 0.89±0.10, all P < 0.05]., Conclusions: The degree of peritoneal fibrosis gradually increased with the increase of PDF sugar content in rats. Modified Shenling Baizhu San can improve peritoneal fibrosis induced by PDF with different sugar contents in rats, and the mechanism is related to the changes in the expression of fibrosis markers and ECM accumulation.

Published

2023

20. Sodium flux during hemodialysis and hemodiafiltration treatment of acute kidney injury: Effects of dialysate and infusate sodium concentration at 140 and 145 mmol/L.

Author

Buzancais A, Brunot V, Larcher R, Tudesq JJ, Platon L, Besnard N, Amalric M, Daubin D, Corne P, Moulaire V, Jung B, Canaud B, Cristol JP, and Klouche K

Subjects

Humans, Dialysis Solutions adverse effects, Sodium, Renal Dialysis adverse effects, Hemodiafiltration adverse effects, Acute Kidney Injury therapy, Kidney Failure, Chronic therapy

Abstract

Background: A higher sodium (Na) dialysate concentration is recommended during renal replacement therapy (RRT) of acute kidney injury (AKI) to improve intradialytic hemodynamic tolerance, but it may lead to Na loading to the patient. We aimed to evaluate Na flux according to Na dialysate and infusate concentrations at 140 and 145 mmol/L during hemodialysis (HD) and hemodiafiltration (HDF)., Methods: Fourteen AKI patients that underwent consecutive HD or HDF sessions with Na dialysate/infusate at 140 and 145 mmol/L were included. Per-dialytic flux of Na was estimated using mean sodium logarithmic concentration including diffusive and convective influx. We compared the flux of sodium between HD140 and 145, and between HDF140 and 145., Results: Nine HD140, ten HDF140, nine HD145, and 11 HDF145 sessions were analyzed. A Na gradient from the dialysate/replacement fluid to the patient was observed with dialysate/infusate Na at 145 mmol/L in both HD and HDF (p = 0.01). The comparison of HD145 to HD140 showed that higher Na dialysate induced a diffusive Na gradient to the patient (163 mmol vs. -25 mmol, p = 0.004) and that of HDF145 to -140 (211 vs. 36 mmol, p = 0.03) as well. Intradialytic hemodynamic tolerance was similar across all RRT sessions., Conclusions: During both HD and HDF, a substantial Na loading occurred with a Na dialysate and infusate at 145 mmol/L. This Na loading is smaller in HDF with Na dialysate and infusate concentration at 140 mmol/L and inversed with HD140. Clinical and intradialytic hemodynamic tolerance was fair regardless of Na dialysate and infusate., (© 2022 The Authors. Artificial Organs published by International Center for Artificial Organ and Transplantation (ICAOT) and Wiley Periodicals LLC.)

Published

2023

21. Novel Aspects of the Immune Response Involved in the Peritoneal Damage in Chronic Kidney Disease Patients under Dialysis.

Author

Trionfetti F, Marchant V, González-Mateo GT, Kawka E, Márquez-Expósito L, Ortiz A, López-Cabrera M, Ruiz-Ortega M, and Strippoli R

Subjects

Humans, Peritoneum, Renal Dialysis adverse effects, Dialysis Solutions adverse effects, Inflammation complications, Immunity, COVID-19 complications, Peritonitis chemically induced, Renal Insufficiency, Chronic complications, Kidney Failure, Chronic therapy, Kidney Failure, Chronic complications

Abstract

Chronic kidney disease (CKD) incidence is growing worldwide, with a significant percentage of CKD patients reaching end-stage renal disease (ESRD) and requiring kidney replacement therapies (KRT). Peritoneal dialysis (PD) is a convenient KRT presenting benefices as home therapy. In PD patients, the peritoneum is chronically exposed to PD fluids containing supraphysiologic concentrations of glucose or other osmotic agents, leading to the activation of cellular and molecular processes of damage, including inflammation and fibrosis. Importantly, peritonitis episodes enhance peritoneum inflammation status and accelerate peritoneal injury. Here, we review the role of immune cells in the damage of the peritoneal membrane (PM) by repeated exposure to PD fluids during KRT as well as by bacterial or viral infections. We also discuss the anti-inflammatory properties of current clinical treatments of CKD patients in KRT and their potential effect on preserving PM integrity. Finally, given the current importance of coronavirus disease 2019 (COVID-19) disease, we also analyze here the implications of this disease in CKD and KRT.

Published

2023

22. Elevation of Interleukin-6 (IL-6) in a case of icodextrin-associated peritonitis.

Author

Alfano G, Fontana F, and Varani M

Subjects

Humans, Icodextrin adverse effects, Dialysis Solutions adverse effects, Glucose, Interleukin-6, Peritonitis chemically induced

Published

2023

23. Peritoneal dialysis related eosinophilic peritonitis: a case report and review of the literature.

Author

Qingyan Z, Yangyang X, Miao Z, and Chunming J

Subjects

Male, Humans, Adult, Anti-Bacterial Agents therapeutic use, Dialysis Solutions adverse effects, Peritoneal Dialysis adverse effects, Peritonitis diagnosis, Peritonitis drug therapy, Peritonitis etiology, Eosinophilia complications

Abstract

Background: Overt eosinophilic peritonitis (EP) is a relatively uncommon complication of peritoneal dialysis (PD), although not rare. Here we reported a case of EP relieved after changing dialysate.  CASE PRESENTATION: A 28-year old male patient developed cloudy PD effluents within the first month after PD started. Cytological study of PD effluents showed elevated white blood cells and polynuclear cells. Bacteria culture of PD effluents repeated for several times were all negative, and no pathogen was found by metagenomics next generation sequencing (mNGS). Antibiotic therapy for 28-day was ineffective. Based on these and increased eosinophils in peritoneal fluid, he was finally diagnosed as EP. PD dialysate was changed (consists of the same buffer agent and electrolytes, but is packed in bags that do not contain PVC), and the patient's PD effluent became clear. Of note, EP did not relapse 5 months later when the patient started to use the former PD solution again., Conclusion: Although PD effluent turbidity almost always represents infectious peritonitis, there are other differential diagnoses including EP. For patients with cloudy fluid accompanied by mild symptoms who do not response to antibiotic therapy, it is reasonable to consider the possibility of this disease. EP tends to heal spontaneously, however, antihistamines or glucocorticoids are required sometimes to avoid catheter obstruction. For patients with no obvious incentives, replacement of dialysate may be useful., (© 2023. The Author(s).)

Published

2023

24. Peri-dialytic hypoglycemia with hemodialysis and online post-dilutional hemodiafiltration.

Author

Davenport A

Subjects

Humans, Male, Middle Aged, Aged, Aged, 80 and over, Female, Renal Dialysis adverse effects, Blood Glucose, Glycated Hemoglobin, Dialysis Solutions adverse effects, Glucose adverse effects, Hemodiafiltration adverse effects, Kidney Failure, Chronic, Hypoglycemia epidemiology, Hypoglycemia etiology, Diabetes Mellitus

Abstract

Introduction: We wished to determine whether peri-dialytic hypoglycemia is a clinical risk in contemporary dialysis patients using glucose containing dialysate., Methods: We measured blood glucose pre- and post-hemodialysis or hemodiafiltration, using 5.5 mmol/L glucose dialysate, and body composition by bioimpedance., Results: Two hundred and thirty nine patients were studied, mean age 65 ± 15.4 years, 59.4% male, 46.4% diabetes, 81.6% treated by hemodiafiltration, five hemodiafiltration patients (2.1%) had hypoglycemia, with 82 (33%) a blood glucose < 5.5 mmol/L, with fewer diabetics (19.8 vs. 74.7%, p = 0.001), and %body fat (27.7 [20.6-32.6] vs. 34.7 [26.6-42.8]%, p = 0.001). Low post-dialysis blood glucose was negatively associated with glycated hemoglobin (OR 0.94 [0.84-0.97], p = 0.004), weight (OR 0.94 [0.89-0.98], p = 0.009), and %body fat (OR 0.92 [0.86-0.98], p = 0.013)., Conclusions: Although hypoglycemia occurred in 2%, 33% had a blood glucose below dialysate glucose. Low post-dialysis glucose was associated with lower glycated hemoglobin and body fat, suggesting nutritional status is important in determining the risk of peri-dialytic hypoglycemia., (© 2022 International Society for Apheresis and Japanese Society for Apheresis.)

Published

2022

25. Secretory activity of the coronary artery endothelial cells in conditions of the peritoneal dialysis.

Author

Misian M, Baum E, and Bręborowicz A

Subjects

Adult, Anticoagulants pharmacology, Female, Glycosaminoglycans pharmacology, Humans, Interleukin-6 metabolism, Male, Middle Aged, Plasminogen Activator Inhibitor 1 metabolism, Tissue Plasminogen Activator metabolism, von Willebrand Factor metabolism, Coronary Vessels cytology, Dialysis Solutions adverse effects, Endothelial Cells metabolism, Peritoneal Dialysis, Continuous Ambulatory methods

Abstract

Introduction: Endothelial dysfunction is frequent in patients treated with peritoneal dialysis and may lead to cardiac complications. We evaluated the effect of effluent dialysates and serum on the function of coronary artery endothelial cells (CAEC)., Methods: Human CAEC in in vitro culture were exposed to serum and dialysates from 24 patients treated with continuous ambulatory peritoneal dialysis (CAPD) and secretion of interleukin-6 (IL6), von Willebrand factor (vWF), tissue plasminogen activator (t-PA) and plasminogen activator inhibitor-1 (PAI-1) were measured. Modulation of the secretory activity of CAEC by Sulodexide, mixture of glycosaminoglycans: heparin sulfate and dermatan sulfate, was studied., Results: Serum from CAPD patients stimulated synthesis of IL6 (+93%), vWF (+18%), and PAI-1 (+20%) and did not change t-PA secretion in CAEC. Dialysates stimulated secretion of IL6 (+89%), vWF (+29%), and PAI-1 (+31%) and did not change t-PA synthesis. Dialysates collected in 12 patients after 6 months more strongly stimulated synthesis of IL6 (+37%) and PAI-1 (+7%). Sulodexide suppressed the secretory activity of CAEC stimulated by the studied sera: IL6 (-38%), vWF (-19%), t-PA (-13%), and PAI-1 (-12%)., Conclusions: Serum and the dialysate from CAPD patients induce inflammatory and prothrombotic reaction in coronary arterial endothelial cells. The general pattern of the observed effects for serum and dialysates was similar but the intensity of the effects was not identical. Sulodexide reduced these effects.

Published

2022

26. Personalised cooler dialysate for patients receiving maintenance haemodialysis (MyTEMP): a pragmatic, cluster-randomised trial.

Subjects

Humans, Ontario, Treatment Outcome, Cold Temperature adverse effects, Dialysis Solutions adverse effects, Renal Dialysis methods

Abstract

Background: Haemodialysis centres have conventionally provided maintenance haemodialysis using a standard dialysate temperature (eg, 36·5°C) for all patients. Many centres now use cooler dialysate (eg, 36·0°C or lower) for potential cardiovascular benefits. We aimed to assess whether personalised cooler dialysate, implemented as centre-wide policy, reduced the risk of cardiovascular-related death or hospital admission compared with standard temperature dialysate., Methods: MyTEMP was a pragmatic, two-arm, parallel-group, registry-based, open-label, cluster-randomised, superiority trial done at haemodialysis centres in Ontario, Canada. Eligible centres provided maintenance haemodialysis to at least 15 patients a week, and the medical director of each centre had to confirm that their centre would deliver the assigned intervention. Using covariate-constrained randomisation, we allocated 84 centres (1:1) to use either personalised cooler dialysate (nurses set the dialysate temperature 0·5-0·9°C below each patient's measured pre-dialysis body temperature, with a lowest recommended dialysate temperature of 35·5°C), or standard temperature dialysate (36·5°C for all patients and treatments). Patients and health-care providers were not masked to the group assignment; however, the primary outcome was recorded in provincial databases by medical coders who were unaware of the trial or the centres' group assignment. The primary composite outcome was cardiovascular-related death or hospital admission with myocardial infarction, ischaemic stroke, or congestive heart failure during the 4-year trial period. Analysis was by intention to treat. The study is registered at ClinicalTrials.gov, NCT02628366., Findings: We assessed all of Ontario's 97 centres for inclusion into the study. Nine centres had less than 15 patients and one director requested that four of their seven centres not participate. 84 centres were recruited and on Feb 1, 2017, these centres were randomly assigned to administer personalised cooler dialysate (42 centres) or standard temperature dialysate (42 centres). The intervention period was from April 3, 2017, to March 31, 2021, and during this time the trial centres provided outpatient maintenance haemodialysis to 15 413 patients (about 4·3 million haemodialysis treatments). The mean dialysate temperature was 35·8°C in the cooler dialysate group and 36·4°C in the standard temperature group. The primary outcome occurred in 1711 (21·4%) of 8000 patients in the cooler dialysate group versus 1658 (22·4%) of 7413 patients in the standard temperature group (adjusted hazard ratio 1·00, 96% CI 0·89 to 1·11; p=0·93). The mean drop in intradialytic systolic blood pressure was 26·6 mm Hg in the cooler dialysate group and 27·1 mm Hg in the standard temperature group (mean difference -0·5 mm Hg, 99% CI -1·4 to 0·4; p=0·14)., Interpretation: Centre-wide delivery of personalised cooler dialysate did not significantly reduce the risk of major cardiovascular events compared with standard temperature dialysate. The rising popularity of cooler dialysate is called into question by this study, and the risks and benefits of cooler dialysate in some patient populations should be clarified in future trials., Funding: Canadian Institutes of Health Research, Heart and Stroke Foundation of Canada, Ontario Renal Network, Ontario Strategy for Patient-Oriented Research Support Unit, Dialysis Clinic, Inc., ICES (formerly known as the Institute for Clinical Evaluative Sciences), Lawson Health Research Institute, and Western University., Competing Interests: Declaration of interests PJD has received consulting fees from Trimedic Canada and speaking honoraria from Roche, has served on advisory boards for Quidel Corporation and Bayer, and has received monitoring devices from CloudDX and Philips Healthcare. AKJ has received consulting fees from AWAK Technologies. MJO is owner of Oliver Medical Management, which licenses Dialysis Management Analysis and Reporting System software. He has received honoraria for speaking from Baxter Healthcare and participated on Advisory Boards for Janssen and Amgen. MMS has received speaker fees from AstraZeneca. AWS has received consulting fees from AstraZeneca, Bayer, GlaxoSmithKline, Pfizer, and Otsuka and honoraria from AstraZeneca, Bayer, BI/Lilly Alliance, GlaxoSmithKline, Janssen, NovoNordisk, Otsuka, and Pfizer. MW has received consulting fees from Bayer; has served on advisory boards for Bayer, Hansa, CSL, and Novo Nordisk; and has received materials from Abbott Diagnostics. PZG works in the quality management division of Dialysis Clinic, Inc. a not-for-profit dialysis provider in the USA. CWM has received consulting fees from Baxter Healthcare, Sequana, and Vascular Dynamics and honoraria from Baxter Healthcare. The other authors declare no conflicts of interest., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

27. Impact of Acetate versus Citrate Dialysates on Intermediary Metabolism-A Targeted Metabolomics Approach.

Author

Broseta JJ, Roca M, Rodríguez-Espinosa D, López-Romero LC, Gómez-Bori A, Cuadrado-Payán E, Devesa-Such R, Soldevila A, Bea-Granell S, Sánchez-Pérez P, and Hernández-Jaras J

Subjects

Acetates pharmacology, Acetylcarnitine, Bicarbonates pharmacology, Citrates pharmacology, Citric Acid Cycle, Glutamates, Glutarates, Glycerol, Humans, Inositol, Ketone Bodies, Lactates, Prospective Studies, Pyruvic Acid, Renal Dialysis adverse effects, Salts, Triglycerides, Citric Acid, Dialysis Solutions adverse effects

Abstract

Acetate is widely used as a dialysate buffer to avoid the precipitation of bicarbonate salts. However, even at low concentrations that wouldn't surpass the metabolic capacity of the Krebs tricarboxylic acid (TCA) cycle, other metabolic routes are activated, leading to undesirable clinical consequences by poorly understood mechanisms. This study aims to add information that could biologically explain the clinical improvements found in patients using citrate dialysate. A unicentric, cross-over, prospective targeted metabolomics study was designed to analyze the differences between two dialysates, one containing 4 mmol/L of acetate (AD) and the other 1 mmol/L of citrate (CD). Fifteen metabolites were studied to investigate changes induced in the TCA cycle, glycolysis, anaerobic metabolism, ketone bodies, and triglyceride and aminoacidic metabolism. Twenty-one patients completed the study. Citrate increased during the dialysis sessions when CD was used, without surpassing normal values. Other differences found in the next TCA cycle steps showed an increased substrate accumulation when using AD. While lactate decreased, pyruvate remained stable, and ketogenesis was boosted during dialysis. Acetylcarnitine and myo-inositol were reduced during dialysis, while glycerol remained constant. Lastly, glutamate and glutarate decreased due to the inhibition of amino acidic degradation. This study raises new hypotheses that need further investigation to understand better the biochemical processes that dialysis and the different dialysate buffers induce in the patient's metabolism.

Published

2022

28. Lipidic profiles of patients starting peritoneal dialysis suggest an increased cardiovascular risk beyond classical dyslipidemia biomarkers.

Author

Lluesa JH, López-Romero LC, Monzó JJB, Marugán MR, Boyano IV, Rodríguez-Espinosa D, Gómez-Bori A, Orient AS, Such RD, Perez PS, and Jaras JH

Subjects

Adult, Aged, Biomarkers, Ceramides, Cholesterol Esters, Dialysis Solutions adverse effects, Fatty Acids, Nonesterified, Glucose, Heart Disease Risk Factors, Humans, Lysophosphatidylcholines, Middle Aged, Phosphatidylcholines, Phosphatidylethanolamines, Risk Factors, Sphingomyelins, Sphingosine, Cardiovascular Diseases complications, Dyslipidemias complications, Kidney Failure, Chronic therapy, Peritoneal Dialysis adverse effects

Abstract

Patients on peritoneal dialysis (PD) have an increased risk of cardiovascular disease (CVD) and an atherogenic lipid profile generated by exposure to high glucose dialysis solutions. In the general population, the reduction of classic lipids biomarkers is associated with improved clinical outcomes; however, the same results have not been seen in PD population, a lack of data this study aims to fulfill. Single-center prospective observational study of a cohort of CKD patients who started renal replacement therapy with continuous ambulatory peritoneal dialysis. The differences in the lipid profile and analytical variables before and 6 months after the start of peritoneal dialysis were analyzed. Samples were analyzed on an Ultra-Performance Liquid Chromatography system. Thirty-nine patients were enrolled in this study. Their mean age was 57.9 ± 16.3 years. A total of 157 endogenous lipid species of 11 lipid subclasses were identified. There were significant increases in total free fatty acids (p < 0.05), diacylglycerides (p < 0.01), triacylglycerides, (p < 0.01), phosphatidylcholines (p < 0.01), phosphatidylethanolamines (p < 0.01), ceramides (p < 0.01), sphingomyelins (p < 0.01), and cholesterol esters (p < 0.01) from baseline to 6 months. However, there were no differences in the classical lipid markers, neither lysophosphatidylcholines, monoacylglycerides, and sphingosine levels. 6 months after the start of the technique, PD patients present changes in the lipidomic profile beyond the classic markers of dyslipidemia., (© 2022. The Author(s).)

Published

2022

29. Relative Contributions of Pseudohypoxia and Inflammation to Peritoneal Alterations with Long-Term Peritoneal Dialysis Patients.

Author

Krediet RT and Parikova A

Subjects

Dialysis Solutions adverse effects, Dialysis Solutions metabolism, Glucose adverse effects, Glucose metabolism, Humans, Hypoxia, Inflammation, Peritoneum metabolism, Vascular Endothelial Growth Factor A metabolism, NAD metabolism, Peritoneal Dialysis adverse effects

Abstract

Long-term peritoneal dialysis is associated with alterations in peritoneal function, like the development of high small solute transfer rates and impaired ultrafiltration. Also, morphologic changes can develop, the most prominent being loss of mesothelium, vasculopathy, and interstitial fibrosis. Current research suggests peritoneal inflammation as the driving force for these alterations. In this review, the available evidence for inflammation is examined and a new hypothesis is put forward consisting of high glucose-induced pseudohypoxia. Hypoxia of cells is characterized by a high (oxidized-reduced nicotinamide dinucleotide ratio) NADH-NAD + ratio in their cytosol. Pseudohypoxia is similar but occurs when excessive amounts of glucose are metabolized, as is the case for peritoneal interstitial cells in peritoneal dialysis. The glucose-induced high NADH-NAD + ratio upregulates the hypoxia-inducible factor-1 gene, which stimulates not only the glucose transporter-1 gene but also many profibrotic genes like TGF β , vascular endothelial growth factor, plasminogen activator inhibitor-1, and connective tissue growth factor, all known to be involved in the development of peritoneal fibrosis. This review discusses the causes and consequences of pseudohypoxia in peritoneal dialysis and the available options for treatment and prevention. Reducing peritoneal exposure to the excessively high dialysate glucose load is the cornerstone to avoid the pseudohypoxia-induced alterations. This can partly be done by the use of icodextrin or by combinations of low molecular mass osmotic agents, all in a low dose. The addition of alanyl-glutamine to the dialysis solution needs further clinical investigation., (Copyright © 2022 by the American Society of Nephrology.)

Published

2022

30. Effects of Standard and Individualized Dialysate Sodium in Chronic Hemodialysis Patients Upon Echocardiography Parameters.

Author

Eftimovska-Otovikj N, Stojceva-Taneva O, and Petkovikj N

Subjects

Blood Pressure, Echocardiography, Humans, Renal Dialysis adverse effects, Renal Dialysis methods, Sodium analysis, Sodium pharmacology, Weight Gain, Dialysis Solutions adverse effects, Kidney Failure, Chronic complications, Kidney Failure, Chronic therapy

Abstract

Aims : This study assessed the effects of individualized dialysis sodium prescription on changes of echo-cardiography in hemodialysis (HD) patients. Methods : 77 chronic hemodialysis patients were analysed. In the first phase all patients underwent dialysis with standard dialysate sodium of 138 mmol/L followed by the second phase where dialysis was performed with individualized dialysate sodium concentration according to average pre HD serum sodium concentration. After the first phase, the subjects were divided into 3 groups: normotensive, hypertensive and hypotensive based on the average pre-HD systolic BP during the first phase. In all patients echocardiography was performed at the end of the first and second phase. Results : Patients had no statistical significant change in blood pressure compared with standard dialysate sodium, only statistical significant change in interdialytic weight gain (IDWG). By dividing the patients, sodium individualization resulted in significantly lower blood pressure and IDWG (p=0.018) in hyper-tensive patients, whereas normotensive patients showed only significant decrease in IDWG (p=0,004). Hypertensive patients had significant highest sodium gradient compared to other patients (p<0.05), followed by significant increase of 0,6% IDWG confirmed with univariate regression analysis. In all patients, echocardiography analysis showed an increase of 2.04 mm of LVDD by increasing the sodium gradient for 1 mmol/L and significantly increased LVM of 35.69 gr by 1 kg increase in IDWG. Conclusions : A reduction of the dialysate sodium concentration based on the pre HD serum sodium level of the patient, reduced the SBP, DBP and IDWG and decreased the volume overload upon the heart and consequently heart hypertrophy assessed by echocardiography., (© 2022 Natasha Eftimovska-Otovikj et al., published by Sciendo.)

Published

2022

31. Establishment of a novel mouse peritoneal dialysis-associated peritoneal injury model.

Author

Yu F, Chen J, Wang X, Cai Q, Luo J, Wang L, Chen K, and He Y

Subjects

Animals, Dialysis Solutions adverse effects, Disease Models, Animal, Humans, Inflammation complications, Lipopolysaccharides, Male, Mice, Mice, Inbred C57BL, Peritoneum metabolism, Peritoneal Dialysis adverse effects, Peritoneal Fibrosis metabolism, Peritonitis etiology

Abstract

Background: Peritoneal fibrosis induced by various factors during peritoneal dialysis (PD) can eventually lead to ultrafiltration failure and termination of PD treatment. The existing animal models are caused by a single stimulus, and cannot accurately simulate complex pathogenesis of peritoneal injury and fibrosis. We aim to develop an efficient and realistic mouse model of PD-associated peritoneal injury using daily intraperitoneal injection (I.P.) of human peritonitis PD effluent., Methods: Eight-week-old male C57BL/6 mice were classified into six groups: saline control; 2.5% PD fluid; 2.5% PD fluid + lipopolysaccharide (LPS); 4.25% PD fluid; 4.25% PD fluid + LPS; and peritonitis effluent. Mice received daily I.P. for 6 weeks, and were sacrificed to determine peritoneal structural and functional damage, inflammation, and fibrosis., Results: Mice in the peritonitis effluent group had low mortality. The submesothelial thickness in the peritonitis effluent group was significantly greater than that in the 2.5% PD fluid group. The peritonitis effluent group had increased expression of fibrosis markers (α-SMA, Collagen I, etc.), neutrophil granulocytes (MPO), and macrophages (CD68, F4/80) in the peritoneum based on immunohistochemical staining; and significantly higher expression of inflammation markers (IL-1β, IL-6, etc.) and fibrosis markers (TGF-β1, α-SMA, etc.) based on real-time qPCR. Modified peritoneal equilibration tests (PET) demonstrated that I.P. of peritonitis effluent reduced peritoneal ultrafiltration., Conclusion: Our novel animal model of PD-associated peritoneal injury faithfully simulates the clinical pathophysiological process. This animal model may be useful for study of the pathogenesis of PD-associated peritoneal injury and identification of novel treatments., (© 2022. The Author(s), under exclusive licence to The Japanese Society of Nephrology.)

Published

2022

32. Assessing mechanical catheter dysfunction in automated tidal peritoneal dialysis using cycler software: a case control, proof-of-concept study.

Author

Oviedo Flores K, Kaltenegger L, Eibensteiner F, Unterwurzacher M, Kratochwill K, Aufricht C, König F, and Vychytil A

Subjects

Catheters, Glucose metabolism, Humans, Retrospective Studies, Software, Dialysis Solutions adverse effects, Peritoneal Dialysis adverse effects

Abstract

New recommendations on evaluation of peritoneal membrane function suggest ruling out catheter dysfunction when evaluating patients with low ultrafiltration capacity. We introduce the use of a combination of parameters obtained from the cycler software PD Link with HomeChoicePro (Baxter International Inc., Illinois, United States) cyclers for predicting catheter dysfunction in automated peritoneal dialysis patients (APD). Out of 117 patients treated at the Medical University of Vienna between 2015 and 2021, we retrospectively identified all patients with verified catheter dysfunction (n = 14) and compared them to controls without clinical evidence of mechanical catheter problems and a recent X-ray confirming PD catheter tip in the rectovesical/rectouterine space (n = 19). All patients had a coiled single-cuff PD catheter, performed tidal PD, and received neutral pH bicarbonate/lactate-buffered PD fluids with low-glucose degradation products on APD. Icodextrin-containing PD fluids were used for daytime dwells. We retrieved cycler data for seven days each and tested parameters' predictive capability of catheter dysfunction. Total number of alarms/week > 7 as single predictive parameter of catheter dislocation identified 85.7% (sensitivity) of patients with dislocated catheter, whereas 31.6% (1-specificity) of control patients were false positive. A combination of parameters (number of alarms/week > 7, total drain time > 22 min, ultrafiltration of last fill < 150 mL) where at least two of three parameters appeared identified the same proportion of patients with catheter dislocation, but was more accurate in identifying controls (21.1% false positive). In contrast to yearly PET measurements, an easily applicable combination of daily cycler readout parameters, also available in new APD systems connected to remote monitoring platforms shows potential for diagnosis of catheter dysfunction during routine follow-up., (© 2022. The Author(s).)

Published

2022

33. Hyaluronan reduces colitis-induced intraperitoneal inflammation during peritoneal dialysis.

Author

Tomasz J and Andrzej B

Subjects

Animals, Dialysis Solutions adverse effects, Humans, Hyaluronic Acid pharmacology, Inflammation etiology, Inflammation pathology, Peritoneum, Rats, Rats, Wistar, Colitis chemically induced, Colitis pathology, Peritoneal Dialysis adverse effects, Peritonitis

Abstract

Background: Peritoneal dialysis induces the inflammatory response within the peritoneal cavity, which contributes to the progressive damage of the peritoneum. Due to close contact of the peritoneal cavity and the intestines, there is the possibility that the visceral disorders can affect the intraperitoneal inflammation during peritoneal dialysis., Objectives: Study of the effect of acute colitis on the intraperitoneal inflammation in conditions of peritoneal dialysis and evaluation of the protective effect of hyaluronan in that scenario., Methods: In rats with the dextran sulphate-induced colitis, 6-h peritoneal dialysis was performed with dianeal 2.5% +/- hyaluronan 10 mg/dL. In the control group, rats without colitis were studied. Peritoneal permeability and dialysate inflammation were studied at the end of the dialysate exchange., Results: In rats with colitis, intraperitoneal inflammatory reaction was increased as compared with the control group and reflected by the following studied parameters: dialysate cell count (+26%, p < 0.01), number of neutrophils (+75%, p < 0.01), generation of free radicals in the leukocytes (+70%, p < 0.05), dialysate level of elastase (+102%, p < 0.01), tumor necrosis factor α (+48%, p < 0.01) and monocyte chemoattractant protein-1 (+42%, p < 0.01). Drained dialysate volume was lower (-21%, p < 0.01) and peritoneal permeability increased in rats with colitis (+55%, p < 0.01). In animals with the hyaluronan supplemented dialysis fluids, the intensity of the intraperitoneal inflammation was reduced., Conclusions: Visceral inflammation during colitis induces the inflammatory reaction within the peritoneal cavity that may accelerate damage to the peritoneum. Supplementation of the dialysis fluid with hyaluronan reduces the intensity of that effect.

Published

2022

34. Volume-Independent Sodium Toxicity in Peritoneal Dialysis: New Insights from Bench to Bed.

Author

Borrelli S, De Nicola L, De Gregorio I, Polese L, Pennino L, Elefante C, Carbone A, Rappa T, Minutolo R, and Garofalo C

Subjects

Animals, Humans, Dialysis Solutions adverse effects, Kidney Failure, Chronic therapy, Peritoneal Dialysis adverse effects, Peritoneum pathology, Sodium toxicity

Abstract

Sodium overload is common in end-stage kidney disease (ESKD) and is associated with increased cardiovascular mortality that is traditionally considered a result of extracellular volume expansion. Recently, sodium storage was detected by Na23 magnetic resonance imaging in the interstitial tissue of the skin and other tissues. This amount of sodium is osmotically active, regulated by immune cells and the lymphatic system, escapes renal control, and, more importantly, is associated with salt-sensitive hypertension. In chronic kidney disease, the interstitial sodium storage increases as the glomerular filtration rate declines and is related to cardiovascular damage, regardless of the fluid overload. This sodium accumulation in the interstitial tissues becomes more significant in ESKD, especially in older and African American patients. The possible negative effects of interstitial sodium are still under study, though a higher sodium intake might induce abnormal structural and functional changes in the peritoneal wall. Interestingly, sodium stored in the interstial tissue is not unmodifiable, since it is removable by dialysis. Nevertheless, the sodium removal by peritoneal dialysis (PD) remains challenging, and new PD solutions are desirable. In this narrative review, we carried out an update on the pathophysiological mechanisms of volume-independent sodium toxicity and possible future strategies to improve sodium removal by PD.

Published

2021

35. Acquired Decline in Ultrafiltration in Peritoneal Dialysis: The Role of Glucose.

Author

Krediet RT

Subjects

Biological Transport, Cell Hypoxia physiology, Dialysis Solutions chemistry, Fibrosis, Glucose analysis, Humans, Myofibroblasts metabolism, Osmotic Pressure, Peritoneal Dialysis, Peritoneum pathology, Dialysis Solutions adverse effects, Glucose adverse effects, Glucose metabolism, Glucose Transporter Type 1 metabolism, Hemodiafiltration, Peritoneum metabolism

Abstract

Ultrafiltration is essential in peritoneal dialysis (PD) for maintenance of euvolemia, making ultrafiltration insufficiency-preferably called ultrafiltration failure-an important complication. The mechanisms of ultrafiltration and ultrafiltration failure are more complex than generally assumed, especially after long-term treatment. Initially, ultrafiltration failure is mainly explained by a large number of perfused peritoneal microvessels, leading to a rapid decline of the crystalloid osmotic gradient, thereby decreasing aquaporin-mediated free water transport. The contribution of peritoneal interstitial tissue to ultrafiltration failure is limited during the first few years of PD, but becomes more important in long-term PD due to the development of interstitial fibrosis, which mainly consists of myofibroblasts. A dual hypothesis has been developed to explain why the continuous exposure of peritoneal tissues to the extremely high dialysate glucose concentrations causes progressive ultrafiltration decline. First, glucose absorption causes an increase of the intracellular NADH/NAD + ratio, also called pseudohypoxia. Intracellular hypoxia stimulates myofibroblasts to produce profibrotic and angiogenetic factors, and the glucose transporter GLUT-1. Second, the increased GLUT-1 expression by myofibroblasts increases glucose uptake in these cells, leading to a reduction of the osmotic gradient for ultrafiltration. Reduction of peritoneal glucose exposure to prevent this vicious circle is essential for high-quality, long-term PD., (Copyright © 2021 by the American Society of Nephrology.)

Published

2021

36. Low-GDP, pH-neutral solutions preserve peritoneal endothelial glycocalyx during long-term peritoneal dialysis.

Author

Sugiyama N, Tawada M, Sun T, Suzuki Y, Kinashi H, Yamaguchi M, Katsuno T, Aten J, Vlahu CA, van Kuppevelt TH, Takei Y, Ishimoto T, Maruyama S, Mizuno M, and Ito Y

Subjects

Adult, Aged, Biopsy, Capillaries metabolism, Dialysis Solutions chemistry, Endothelial Cells pathology, Female, Glucose metabolism, Glycocalyx pathology, Heparitin Sulfate metabolism, Humans, Hydrogen-Ion Concentration, Male, Middle Aged, Peritoneum blood supply, Peritoneum pathology, Plant Lectins metabolism, Platelet Endothelial Cell Adhesion Molecule-1 metabolism, Capillaries pathology, Dialysis Solutions adverse effects, Endothelial Cells metabolism, Glycocalyx metabolism, Peritoneal Dialysis, Peritoneum metabolism

Abstract

Background: During peritoneal dialysis (PD), solute transport and ultrafiltration are mainly achieved by the peritoneal blood vasculature. Glycocalyx lies on the surface of endothelial cells and plays a role in vascular permeability. Low-glucose degradation product (GDP), pH-neutral PD solutions reportedly offer higher biocompatibility and lead to less peritoneal injury. However, the effects on the vasculature have not been clarified., Methods: Peritoneal tissues from 11 patients treated with conventional acidic solutions (acidic group) and 11 patients treated with low-GDP, pH-neutral solutions (neutral group) were examined. Control tissues were acquired from 5 healthy donors of kidney transplants (control group). CD31 and ratio of luminal diameter to vessel diameter (L/V ratio) were evaluated to identify endothelial cells and vasculopathy, respectively. Immunostaining for heparan sulfate (HS) domains and Ulex europaeus agglutinin-1 (UEA-1) binding was performed to assess sulfated glycosaminoglycans and the fucose-containing sugar chain of glycocalyx., Results: Compared with the acidic group, the neutral group showed higher CD31 positivity. L/V ratio was significantly higher in the neutral group, suggesting less progression of vasculopathy. Both HS expression and UEA-1 binding were higher in the neutral group, whereas HS expression was markedly more preserved than UEA-1 binding in the acidic group. In vessels with low L/V ratio, which were found only in the acidic group, HS expression and UEA-1 binding were diminished, suggesting a loss of glycocalyx., Conclusion: Peritoneal endothelial glycocalyx was more preserved in patients treated with low-GDP, pH-neutral solution. The use of low-GDP, pH-neutral solutions could help to protect peritoneal vascular structures and functions., (© 2021. Japanese Society of Nephrology.)

Published

2021

37. Bilious peritoneal dialysate in a peritoneal dialysis patient.

Author

Fung WWS, Chow KM, and Szeto CC

Subjects

Humans, Peritoneum, Dialysis Solutions adverse effects, Peritoneal Dialysis adverse effects

Published

2021

38. How to Improve the Biocompatibility of Peritoneal Dialysis Solutions (without Jeopardizing the Patient's Health).

Author

Bonomini M, Masola V, Procino G, Zammit V, Divino-Filho JC, Arduini A, and Gambaro G

Subjects

Dialysis Solutions adverse effects, Glucose adverse effects, Glucose therapeutic use, Humans, Peritoneum, Diabetes Mellitus therapy, Dialysis Solutions therapeutic use, Glucose Intolerance therapy, Insulin Resistance, Kidney Failure, Chronic therapy, Peritoneal Dialysis

Abstract

Peritoneal dialysis (PD) is an important, if underprescribed, modality for the treatment of patients with end-stage kidney disease. Among the barriers to its wider use are the deleterious effects of currently commercially available glucose-based PD solutions on the morphological integrity and function of the peritoneal membrane due to fibrosis. This is primarily driven by hyperglycaemia due to its effects, through multiple cytokine and transcription factor signalling-and their metabolic sequelae-on the synthesis of collagen and other extracellular membrane components. In this review, we outline these interactions and explore how novel PD solution formulations are aimed at utilizing this knowledge to minimise the complications associated with fibrosis, while maintaining adequate rates of ultrafiltration across the peritoneal membrane and preservation of patient urinary volumes. We discuss the development of a new generation of reduced-glucose PD solutions that employ a variety of osmotically active constituents and highlight the biochemical rationale underlying optimization of oxidative metabolism within the peritoneal membrane. They are aimed at achieving optimal clinical outcomes and improving the whole-body metabolic profile of patients, particularly those who are glucose-intolerant, insulin-resistant, or diabetic, and for whom daily exposure to high doses of glucose is contraindicated.

Published

2021

39. Exposition to glucose-based peritoneal dialysis fluids exacerbates adipocyte lipolysis and glycogen storage in rat adipose cells.

Author

Soulage CO and Egziabher FG

Subjects

Adipocytes metabolism, Animals, Dialysis Solutions adverse effects, Glucose, Glycogen metabolism, Humans, Lipolysis, Rats, Peritoneal Dialysis adverse effects

Abstract

Glucose absorption during peritoneal dialysis (PD) is suspected to promote visceral fat accretion and weight gain in PD patients. The current study was designed to test the impact of glucose-based PD fluids on adipose cell lipolysis and glycogen content. Rat adipose cells, isolated from epididymal fat pad, were exposed to a 30 vol./70 vol. mixture of glucose-based dialysis solutions (containing 1.36% and 3.86% glucose, Physioneal 35®; Baxter) or Krebs-Henseleit buffer for 4 h. Adipose cells were further incubated with laboratory-made solutions containing 1.36% and 3.86% glucose or mannitol as an osmotic control. Baseline and noradrenaline-stimulated lipolysis was measured, and glycogen content assayed. The glucose-based commercial PD fluids as well as the laboratory-manufactured high glucose solutions exacerbated lipolysis in baseline and noradrenaline conditions and increased glycogen stores in adipose cells. Mannitol solutions (1.36% and 3.86%) used as an osmotic control did not produce such effects. This study provides the first evidence that glucose-based dialysis solutions increase basal as well as stimulated lipolysis in adipocytes, an effect that is directly attributable to high concentrations of glucose per se.

Published

2021

40. Delayed bowel perforation after instilling over warmed peritoneal dialysate.

Author

Lai X, Nie M, Xu X, Chen Y, and Guo Z

Subjects

Abdominal Pain etiology, Fatal Outcome, Humans, Intestinal Perforation pathology, Male, Middle Aged, Necrosis etiology, Shock, Septic etiology, Time Factors, Dialysis Solutions adverse effects, Hot Temperature, Intestinal Perforation etiology, Kidney Failure, Chronic therapy, Peritoneal Dialysis adverse effects

Abstract

Background: Peritoneal dialysis (PD) is a safe and home-based treatment for end-stage renal disease (ESRD) patients. The direct thermal damage of abdominal organs is very rare., Case Presentation: We report a peritoneal dialysis patient presented abdominal pain and feculent effluent 3 weeks after he instilled hot dialysis solution. In spite of emergency exploratory laparotomy and active treatment, the patient died of septic shock. Biopsy revealed necrosis and perforation of the intestines., Conclusions: Delayed bowel perforation by hot fluid is very rare. Standardized performance is of the first importance for peritoneal dialysis patients.

Published

2021

41. The osmo-metabolic approach: a novel and tantalizing glucose-sparing strategy in peritoneal dialysis.

Author

Bonomini M, Zammit V, Divino-Filho JC, Davies SJ, Di Liberato L, Arduini A, and Lambie M

Subjects

Dialysis Solutions adverse effects, Humans, Icodextrin, Peritoneum, Glucose, Peritoneal Dialysis adverse effects

Abstract

Peritoneal dialysis (PD) is a viable but under-prescribed treatment for uremic patients. Concerns about its use include the bio-incompatibility of PD fluids, due to their potential for altering the functional and anatomical integrity of the peritoneal membrane. Many of these effects are thought to be due to the high glucose content of these solutions, with attendant issues of products generated during heat treatment of glucose-containing solutions. Moreover, excessive intraperitoneal absorption of glucose from the dialysate has many potential systemic metabolic effects. This article reviews the efforts to develop alternative PD solutions that obviate some of these side effects, through the replacement of part of their glucose content with other osmolytes which are at least as efficient in removing fluids as glucose, but less impactful on patient metabolism. In particular, we will summarize clinical studies on the use of alternative osmotic ingredients that are commercially available (icodextrin and amino acids) and preclinical studies on alternative solutions under development (taurine, polyglycerol, carnitine and xylitol). In addition to the expected benefit of a glucose-sparing approach, we describe an 'osmo-metabolic' approach in formulating novel PD solutions, in which there is the possibility of exploiting the pharmaco-metabolic properties of some of the osmolytes to attenuate the systemic side effects due to glucose. This approach has the potential to ameliorate pre-existing co-morbidities, including insulin resistance and type-2 diabetes, which have a high prevalence in the dialysis population, including in PD patients.

Published

2021

42. The effect of increasing dialysate magnesium on calciprotein particles, inflammation and bone markers: post hoc analysis from a randomized controlled clinical trial.

Author

Bressendorff I, Hansen D, Pasch A, Holt SG, Schou M, Brandi L, and Smith ER

Subjects

Aged, Aged, 80 and over, Alkaline Phosphatase blood, Calcium blood, Cytokines metabolism, Double-Blind Method, Female, Humans, Inflammation etiology, Inflammation metabolism, Inflammation Mediators metabolism, Interleukin-6 blood, Male, Middle Aged, Renal Dialysis adverse effects, Biomarkers blood, Bone and Bones metabolism, Calcium Phosphates metabolism, Dialysis Solutions adverse effects, Inflammation pathology, Kidney Failure, Chronic therapy, Magnesium adverse effects

Abstract

Background: The formation of calciprotein particles (CPPs) may be an important component of the humoral defences against ectopic calcification. Although magnesium (Mg) has been shown to delay the transition of amorphous calcium-/phosphate-containing primary CPP (CPP-1) to crystalline apatite-containing secondary CPP (CPP-2) ex vivo, effects on the endogenous CPP pool are unknown., Methods: We used post hoc analyses from a randomized double-blind parallel-group controlled clinical trial of 28 days treatment with high dialysate Mg of 2.0 mEq/L versus standard dialysate Mg of 1.0 mEq/L in 57 subjects undergoing maintenance hemodialysis for end-stage kidney disease. CPP load, markers of systemic inflammation and bone turnover were measured at baseline and follow-up., Results: After 28 days of treatment with high dialysate Mg, serum total CPP (-52%), CPP-1 (-42%) and CPP-2 (-68%) were lower in the high Mg group (all P < 0.001) but were unchanged in the standard dialysate Mg group. Tumour necrosis factor-α (-20%) and interleukin-6 (-22%) were also reduced with high dialysate Mg treatment (both P < 0.01). High dialysate Mg resulted in higher levels of bone-specific alkaline phosphatase (a marker of bone formation) (+17%) but lower levels of tartrate-resistant acid phosphatase 5 b (a marker of bone resorption; -33%) (both P < 0.01). Inflammatory cytokines and bone turnover markers were unchanged in the standard dialysate Mg group over the same period., Conclusions: In this exploratory analysis, increasing dialysate Mg was associated with reduced CPP load and systemic inflammation and divergent changes in markers of bone formation and resorption., (© The Author(s) 2019. Published by Oxford University Press on behalf of ERA-EDTA. All rights reserved.)

Published

2021

43. A New Peritoneal Dialysis Solution Containing L-Carnitine and Xylitol for Patients on Continuous Ambulatory Peritoneal Dialysis: First Clinical Experience.

Author

Rago C, Lombardi T, Di Fulvio G, Di Liberato L, Arduini A, Divino-Filho JC, and Bonomini M

Subjects

Adult, Aged, Carnitine adverse effects, Dialysis Solutions adverse effects, Female, Glucose therapeutic use, Humans, Italy, Kidney Failure, Chronic diagnosis, Male, Middle Aged, Prospective Studies, Time Factors, Treatment Outcome, Xylitol adverse effects, Carnitine therapeutic use, Dialysis Solutions therapeutic use, Kidney Failure, Chronic therapy, Peritoneal Dialysis, Continuous Ambulatory, Xylitol therapeutic use

Abstract

Peritoneal dialysis (PD) is a feasible and effective renal replacement therapy (RRT) thanks to the dialytic properties of the peritoneal membrane (PM). Preservation of PM integrity and transport function is the key to the success of PD therapy, particularly in the long term, since the prolonged exposure to unphysiological hypertonic glucose-based PD solutions in current use is detrimental to the PM, with progressive loss of peritoneal ultrafiltration capacity causing technique failure. Moreover, absorbing too much glucose intraperitoneally from the dialysate may give rise to a number of systemic metabolic effects. Here we report the preliminary results of the first clinical experience based on the use in continuous ambulatory PD (CAPD) patients of novel PD solutions obtained through partly replacing the glucose load with other osmotically active metabolites, such as L-carnitine and xylitol. Ten CAPD patients were treated for four weeks with the new solutions. There was good tolerance to the experimental PD solutions, and no adverse safety signals were observed. Parameters of dialysis efficiency including creatinine clearance and urea Kt/V proved to be stable as well as fluid status, diuresis, and total peritoneal ultrafiltration. The promising tolerance and local/systemic advantages of using L-carnitine and xylitol in the PD solution merit further research.

Published

2021

44. Dialysate calcium concentration during calcimimetic treatment: a neglected issue.

Author

Locatelli F, Rotondi S, Del Vecchio L, and Mazzaferro S

Subjects

Cinacalcet, Dialysis Solutions adverse effects, Humans, Renal Dialysis, Calcium, Hypocalcemia

Published

2021

45. Recent Understanding of Peritoneal Pathology in Peritoneal Dialysis Patients in Japan.

Author

Hamada C and Tomino Y

Subjects

Activities of Daily Living, Dialysis Solutions adverse effects, Humans, Incidence, Japan epidemiology, Peritoneal Fibrosis diagnosis, Peritoneal Fibrosis pathology, Peritoneal Fibrosis therapy, Peritoneal Dialysis adverse effects, Peritoneal Fibrosis etiology, Peritoneum pathology

Abstract

The thin peritoneum covering the peritoneal cavity has been used as a dialysis membrane for peritoneal dialysis (PD) because it is highly vascularized and has a large body surface area. However, it has been reported that peritoneal membranes affected by peritonitis, as well as those exposed to the nonphysiological high glucose levels containing PD dialysate, may undergo histological and functional changes. Patients undergoing PD may experience encapsulating peritoneal sclerosis (EPS), which is a life-threatening serious complication of PD that can significantly impair activities of daily living. The incidence of EPS was 1.4-7.3% of maintenance PD patients in the 1980s. The incidence has improved to 1.0% after a neutral dialysate became the standard PD treatment in Japan. Furthermore, the pathogenesis of EPS is uncertain although its onset may be explained by the "two-hit theory," in which some factors leading to impairment had an additive effect on simple peritoneal sclerosis. The evaluation of histopathological findings has shown the impact of the neutral dialysate on peritoneal deterioration as well as its role in the development of functional changes. In the present report, we discuss the advances in the understanding of peritoneal deterioration based on histological and macroscopic evaluations of the peritoneum of patients undergoing PD. We also discuss the recent treatment for PD patients., (© 2021 The Author(s) Published by S. Karger AG, Basel.)

Published

2021

46. Comparison between standard single chamber versus dual chamber low glucose degradation product peritoneal dialysis fluids.

Author

Vareesangthip K, Vongsanim S, Fan S, and Davenport A

Subjects

Adult, Aged, Cross-Sectional Studies, Dialysis Solutions metabolism, Female, Glomerular Filtration Rate physiology, Glucose metabolism, Glycation End Products, Advanced metabolism, Hand Strength physiology, Humans, Kidney physiopathology, Kidney Failure, Chronic physiopathology, Male, Middle Aged, Peritoneal Dialysis adverse effects, Treatment Outcome, Dialysis Solutions adverse effects, Glucose adverse effects, Glycation End Products, Advanced adverse effects, Kidney Failure, Chronic therapy, Peritoneal Dialysis instrumentation

Abstract

Dual chamber (DC) peritoneal dialysis (PD) dialysates contain fewer glucose degradation products (GDPs), so potentially reducing advanced glycosylation end products (AGEs), which have been reported to increase inflammation and cardiovascular risk. We wished to determine whether use of DC dialysates resulted in demonstrable patient benefits. Biochemical profiles, body composition, muscle strength, and skin autofluorescence measurements of tissue AGEs (SAF) were compared in patients using DC and standard single chamber dialysates. We studied 263 prevalent PD patients from 2 units, 62.4% male, mean age 61.8 ± 16.1 years, 78 (29.7%) used DC dialysates. DC patients were younger (55.9 ± 16.4 vs. 64.2 ± 15.4 years), and more had lower Davies comorbidity score (median 1 (0-1) vs. 1 (0, 2)), slower peritoneal transport (D/P creatinine 0.67 ± 0.12 vs. 0.73 ± 0.13), greater extracellular water-to-total body water (ECW/TBW) ratio (0.46 ± 0.05 vs. 0.42 ± 0.06), all P < .001, whereas there were no differences in the duration of PD (median (IQR) 19 (8-32) vs. 14 (8-23) months), residual renal function (Kt/V urea 0.71 ± 0.71 vs. 0.87 ± 0.82), urine volume (642 (175-1200) vs. 648 (300-1200) mL/day), hand grip strength (26.9 ± 10.5 vs. 24.9 ± 10.7 kg), C-reactive protein (4(1-10) vs. 4(2-12) mg/L), and SAF (median 3.60 (3.02, 4.40) vs. 3.50 (3.00, 4.23)) AU. In our cross-sectional observational study, we were not able to show a demonstrable advantage for using low GDP dialysates over conventional glucose dialysates, in terms of biochemical profiles, residual renal function, muscle strength, or tissue AGE deposition. More patients using low GDP dialysates were slower peritoneal transporters with higher ECW/TBW ratios., (© 2020 International Center for Artificial Organs and Transplantation and Wiley Periodicals LLC.)

Published

2021

47. Peritoneal Dialysis Fluid Supplementation with Alanyl-Glutamine Attenuates Conventional Dialysis Fluid-Mediated Endothelial Cell Injury by Restoring Perturbed Cytoprotective Responses.

Author

Herzog R, Bartosova M, Tarantino S, Wagner A, Unterwurzacher M, Sacnun JM, Lichtenauer AM, Kuster L, Schaefer B, Alper SL, Aufricht C, Schmitt CP, and Kratochwill K

Subjects

Arterioles drug effects, Child, Human Umbilical Vein Endothelial Cells drug effects, Humans, Models, Biological, Proteomics, Cytoprotection drug effects, Dialysis Solutions adverse effects, Dipeptides pharmacology, Human Umbilical Vein Endothelial Cells pathology, Peritoneal Dialysis

Abstract

Long-term clinical outcome of peritoneal dialysis (PD) depends on adequate removal of small solutes and water. The peritoneal endothelium represents the key barrier and peritoneal transport dysfunction is associated with vascular changes. Alanyl-glutamine (AlaGln) has been shown to counteract PD-induced deteriorations but the effect on vascular changes has not yet been elucidated. Using multiplexed proteomic and bioinformatic analyses we investigated the molecular mechanisms of vascular pathology in-vitro (primary human umbilical vein endothelial cells, HUVEC) and ex-vivo (arterioles of patients undergoing PD) following exposure to PD-fluid. An overlap of 1813 proteins (40%) of over 3100 proteins was identified in both sample types. PD-fluid treatment significantly altered 378 in endothelial cells and 192 in arterioles. The HUVEC proteome resembles the arteriolar proteome with expected sample specific differences of mainly immune system processes only present in arterioles and extracellular region proteins primarily found in HUVEC. AlaGln-addition to PD-fluid revealed 359 differentially abundant proteins and restored the molecular process landscape altered by PD fluid. This study provides evidence on validity and inherent limitations of studying endothelial pathomechanisms in-vitro compared to vascular ex-vivo findings. AlaGln could reduce PD-associated vasculopathy by reducing endothelial cellular damage, restoring perturbed abundances of pathologically important proteins and enriching protective processes.

Published

2020

48. Consequences of Supraphysiological Dialysate Magnesium on Arterial Stiffness, Hemodynamic Profile, and Endothelial Function in Hemodialysis: A Randomized Crossover Study Followed by a Non-Controlled Follow-Up Phase.

Author

Del Giorno R, Lavorato Hadjeres S, Stefanelli K, Allegra G, Zapparoli C, Predrag L, Berwert L, and Gabutti L

Subjects

Administration, Oral, Adult, Aged, Biomarkers blood, Blood Pressure drug effects, Calcium blood, Cross-Over Studies, Dialysis Solutions adverse effects, Female, Follow-Up Studies, Hemodynamics drug effects, Humans, Magnesium Hydroxide adverse effects, Male, Middle Aged, Pulse Wave Analysis, Renal Dialysis, Dialysis Solutions therapeutic use, Kidney Failure, Chronic drug therapy, Magnesium Hydroxide therapeutic use, Vascular Stiffness drug effects

Abstract

Introduction: Increasing dialysate magnesium (D-Mg 2+ ) appears to be an intriguing strategy to obtain cardiovascular benefits in subjects with end-stage kidney disease (ESKD) on hemodialysis. To date, however, hemodialysis guidelines do not suggest to increase D-Mg 2+ routinely set at 0.50 mmol/L., Methods: A randomized 4-week crossover study aimed at investigating the consequences of increasing D-Mg 2+ from 0.50 to 0.75 mmol/L on arterial stiffness, hemodynamic profile, and endothelial function in subjects undergoing hemodialysis. The long-term effect of higher D-Mg 2+ on mineral metabolism markers was investigated in a 6-month follow-up. Data were analyzed by linear mixed models for repeated measures., Results: Data of 39 patients were analyzed. Pulse wave velocity and pulse pressure significantly decreased on the higher D-Mg 2+ compared with the standard one by - 0.91 m/s (95% confidence interval - 1.52 to - 0.29; p = 0.01) and - 9.61 mmHg (- 18.89 to - 0.33, p = 0.04), respectively. A significant reduction in systolic blood pressure of - 12.96 mmHg (- 24.71 to - 1.22, p = 0.03) was also observed. No period or carryover effects were observed. During the long-term follow-up phase the higher D-Mg 2+ significantly increased ionized and total serum Mg (respectively from 0.54 to 0.64 and from 0.84 to 1.07 mmol/L; mean percentage change from baseline to follow-up + 21% and + 27%; p ≤ 0.001), while parathormone (PTH) decreased significantly (from 36.6 to 34.4 pmol/L; % change - 11%, p = 0.03)., Conclusions: Increasing dialysate magnesium improves vascular stiffness in subjects undergoing maintenance hemodialysis. The present findings merit a larger trial to evaluate the effects of 0.75 mmol/L D-Mg 2+ on major clinical outcomes., Trial Registration: The study was retrospectively registered on the ISRCTN registry (ISRCTN 74139255) on 18 June 2020.

Published

2020

49. Impact of Perfusate Glucose Concentration on Perioperative Outcomes in Patients Undergoing Cytoreductive Surgery and Hyperthermic Intraperitoneal Chemotherapy.

Author

Lindsey PT, Martin RCG 2nd, Scoggins CR, Philips P, Marshall BM, Carter TS, and Egger ME

Subjects

Antineoplastic Agents administration & dosage, Blood Glucose analysis, Chemotherapy, Cancer, Regional Perfusion methods, Dialysis Solutions adverse effects, Dialysis Solutions chemistry, Female, Humans, Hyperthermic Intraperitoneal Chemotherapy methods, Male, Middle Aged, Peritoneal Neoplasms mortality, Postoperative Complications blood, Postoperative Complications etiology, Prospective Studies, Retrospective Studies, Treatment Outcome, Chemotherapy, Cancer, Regional Perfusion adverse effects, Cytoreduction Surgical Procedures adverse effects, Glucose adverse effects, Hyperthermic Intraperitoneal Chemotherapy adverse effects, Peritoneal Neoplasms therapy, Postoperative Complications epidemiology

Abstract

Background: Cytoreductive surgery and hyperthermic intraperitoneal chemotherapy (CRS/HIPEC) is a common treatment for peritoneal surface malignancies but no standard carrier solution currently exists for the procedure. This study compared a standard low-dextrose perfusate to a higher-dextrose dialysate that has previously shown favorable impact on perioperative patient outcomes in trauma settings., Materials and Methods: A single-center retrospective study identified patients undergoing CRS/HIPEC from 2008 to 2019 with recorded dextrose concentration of administered perfusate. An institutional shift to a higher-dextrose solution was made in late 2015. Comparisons of preoperative factors, intraoperative and postoperative glucose levels, and postoperative outcomes were made using the chi-square test, Fisher's exact test, Wilcoxon rank sum test, or repeated measures analysis of variance., Results: There were 97 patients in the study, 73 (75%) in the low-dextrose group and 24 (25%) in the high-dextrose group. There was no significant difference in peak intraoperative blood glucose levels between the 1.5% (mean 230 mg/dL) and the 2.5% group (mean 199 mg/dL, P = 0.15). Daily postoperative glucose values were also not statistically different (repeated measures analysis of variance, P = 0.18). Median length of stay was slightly lower for the high-dextrose group (10 d, interquartile range 8-15) than that for the low-dextrose group (12 d, interquartile range 9-17), but was not statistically significant (P = 0.29). Return of bowel function and resumption of diet were similar between the groups. The high-dextrose group had a lower rate of overall complications (20.8%) than the low-dextrose group (49.3%, P = 0.0143). Ninety-day mortality was equivalent between the two groups (2.7% low-dextrose, 4.2% high-dextrose, P = 1.0)., Conclusions: Use of 2.5% dextrose-containing perfusate appears safe for CRS/HIPEC operations, does not negatively impact intraoperative or postoperative glucose levels, and may be associated with a decreased risk of complications., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

50. High magnesium dialysate does not improve intradialytic hemodynamics or abrogate myocardial stunning.

Author

Jefferies HJ, Lemoine S, and McIntyre CW

Subjects

Adult, Aged, Cross-Over Studies, Female, Hemodynamics, Humans, Male, Middle Aged, Myocardial Stunning physiopathology, Dialysis Solutions adverse effects, Hypotension etiology, Magnesium blood, Renal Dialysis adverse effects

Abstract

Background: Hemodialysis (HD) induces myocardial stunning and is associated with adverse cardiovascular outcomes. Intradialytic hypotension is a modifiable determinant of myocardial stunning. Magnesium (Mg) is reported to be valuable in maintaining intradialytic blood pressure, which potentially would protect against demand myocardial ischemia. This study aimed to compare high vs. low dialysate Mg effects on intradialytic hemodynamics and HD-induced myocardial stunning., Methods: Twenty stable prevalent HD patients entered a randomized cross-over trial of low (0.5 mmol/L) vs. high (1.0 mmol/L) dialysate Mg. Patients were studied after 2 weeks of standard HD with each Mg concentration. Serial echocardiography assessed myocardial stunning, measured by left ventricular regional wall motion abnormalities (RWMAs). Continuous intradialytic hemodynamics were measured noninvasively using thoracic bioimpedance., Findings: Median predialysis serum Mg was higher with high dialysate Mg (1.45[1.29-1.55] vs. 1.03[0.98-1.1] mmol/L, P < 0.0001). There was no significant difference in maximum intradialytic reduction in systolic BP. There was no significant difference in stroke volume, total peripheral resistance, and cardiac output. Overall ventricular global longitudinal strain (GLS) (as a sensitive marker of contractile function) was higher before dialysis in high Mg group, but there was no difference in GLS at peak stress. However, we showed a significant correlation between Mg changes and GLS changes, r = -0.47, P = 0.02. There was no difference in mean number of peak stress RWMAs per patient (4.0 ± 2.2 vs. 4.3 ± 2.9, P = 0.5). Ultrafiltration volume, a critical determinant of stunning, was not different between high and low dialysate Mg studies (1.35[0-3.3] vs. 1.5[0-2.8], P = 0.49)., Discussion: Manipulation of magnesium by altering dialysate magnesium concentration does not influence intradialytic hemodynamic response or HD-induced myocardial stunning in the short term. However, decreasing Mg changes appears to decrease GLS changes., (© 2020 International Society for Hemodialysis.)

Published

2020