ABSTRACT
INTRODUCTION: Recent studies indicate that the survival benefit with post-dilution on line hemodiafiltration (OL-HDF-post) are achieved if the infusion volume (Vinf) is greater than 20L per session, a goal that is not easily achieved due to hemoconcentration problems. Today we have automated techniques to achieve higher performance minimizing the number of alarms as Ultracontrol® (Ultrac). The objective in the first part of study was to evaluate the UltraC performance (expressed as the filtration fraction (FF) and Vinf) and which problems it presents, and in the second part, to study its performance with four different dialyzers. MATERIAL AND METHODS: 1st period. Nine patients were transferred to OL-HDF-post with UltraC. The first 3 months on OL-HDF all sessions were recorded and compared with hemodialysis sessions in the previous month. 2nd part: 18 patients on chronic OL-HDF-post were dialyzed for a week with each of these dialyser: FX1000, FX800, Elisio210H and Polyflux210. RESULTS: 1st period: In 3 patients, problems associated with inappropriate pressures emerged. In 3 patients there were problems associated with inadequate PTM and Psist that resolved changing to pressure control. Mean values were: maximum Qb 441 (21) (range 350-490) ml/min, Vinf 26.3 (3.3) l/session, FF 30.6 (2.5)%, KT 59.9 (5) l/session. KT increase of 12% compared to HD. 2nd part: Polyflux210 required less UltraC withdrawals than the others. Different PTM or Psist were found and determined the need for removal of the system. The KT was adequate. a) The UltraC system reaches FF of 30% with minimal alarms and Vinf higher than 20 l. b) Structural characteristics of dialysers can limit their use with UltraC although they managed to desirable KT and Vinf in a manual way.
Subject(s)
Hemodiafiltration/instrumentation , Kidney Failure, Chronic/therapy , Renal Dialysis/instrumentation , Aged , Automation , Clinical Alarms , Equipment Design , Female , Hemodialysis Solutions/pharmacokinetics , Humans , Male , Manometry/instrumentation , Middle Aged , Rheology , Survival RateABSTRACT
Introducción: Estudios recientes indican que los beneficios en la supervivencia con hemodiafiltración en línea posdilucional (HDFOL-post) se logran si el volumen de infusión (Vinf) es superior a 20 l por sesión, cifra que no es fácil lograr por los problemas que genera la hemoconcentración. Hoy día contamos con técnicas automáticas que logran un mayor rendimiento minimizando el número de alarmas como el Ultracontrol® (UltraC). Objetivo: El objetivo ha sido, en una primera parte, evaluar el UltraC para conocer qué rendimiento logra (expresado como la fracción de filtración [FF] y el Vinf) y los problemas que presenta y, en una segunda parte, estudiar su funcionamiento con cuatro dializadores diferentes. Material y métodos: Primera parte. Nueve pacientes fueron transferidos a HDFOL-post con UltraC. Se recogieron todas las sesiones correspondientes a los tres primeros meses con HDF-OL y al mes previo en HD. Segunda parte. 18 pacientes en tratamiento crónico con HDFOL-post fueron sometidos a diálisis una semana con cada uno de estos dializadores: FX1000, FX800, Polyflux210 y Elisio 210H. Resultados: Primera parte. En 3 pacientes surgieron problemas asociados a PTM y Psist inadecuadas que se (..) (AU)
Introduction: Recent studies indicate that the survival benefit with post-dilution on line hemodiafiltration (OL-HDF-post) are achieved if the infusion volume (Vinf) is greater than 20L per session, a goal that is not easily achieved due to hemoconcentration problems. Today we have automated techniques to achieve higher performance minimizing the number of alarms as Ultracontrol® (Ultrac). The objective in the first part of study was to evaluate the UltraC performance (expressed as the filtration fraction (FF) and Vinf) and which problems it presents, and in the second part, to study its performance with four different dialyzers. Material and methods: 1st period. Nine patients were transferred to OL-HDF-post with UltraC. The first 3 months on OL-HDF all sessions were recorded and compared with hemodialysis sessions in the previous month. 2nd part: 18 patients on chronic OL-HDF-post were dialyzed for a week with each of these dialyser: FX1000, FX800, Elisio210H and Polyflux210. Results: 1st period: In 3 patients, problems associated with inappropriate pressures emerged. In 3 patients there (..) (AU)
Subject(s)
Humans , Hemofiltration , Renal Replacement Therapy/methods , Dialysis/instrumentation , Renal Dialysis , Peritoneal Dialysis , Renal Insufficiency, Chronic/therapyABSTRACT
La Enfermedad Renal Crónica (ERC) representa, al igual que otras enfermedades crónicas, un importante problema de salud pública, tanto por su elevada incidencia y prevalencia, como por su importante morbi-mortalidad y coste socioeconómico. La Enfermedad Renal Crónica Avanzada (ERCA) incluye los estadios 4 y 5 de la clasificación de la ERC. Se define por tanto como la enfermedad renal crónica que cursa con descenso grave del filtrado glomerular (FG < 30ml/min) Los objetivos terapéuticos están dirigidos a disminuir y tratar las complicaciones asociadas a la insuficiencia renal, y preparar de forma adecuada y con suficiente antelación el tratamiento sustitutivo de la función renal. La prevalencia de la ERCA es del 0,2-0,6% de la población adulta. Esta prevalencia aumenta con la edad, siendo en (..) (AU)
Chronic kidney disease (CKD), like other chronic diseases, is a serious public health problem because of both its high incidence and prevalence and its significant morbidity and mortality and socioeconomic cost. Advanced chronic kidney disease (ACKD)includes stages 4 and 5 of the CKD classification. It is defined as chronic kidney disease in which there is a severe reduction inglomerular filtration rate (GFR < 30 ml/min). The treatment goals are to reduce and treat the complications associated with chronickidney failure and to prepare the patient adequately and sufficiently in advance for kidney replacement therapy. The prevalence of ACKD is 0.2-0.6% of the adult population. This prevalence increases with age and in Spain is 1.6% in persons (..) (AU)
Subject(s)
Humans , Renal Insufficiency, Chronic/epidemiology , Severity of Illness Index , Early Diagnosis , Hypertension/epidemiology , Diabetes Mellitus/epidemiology , Risk Factors , Clinical ProtocolsABSTRACT
1. Los riñones representan los órganos clave para mantener el balance de los diferentes electrolitos corporales y del equilibrio ácido-base. La pérdida progresiva de función renal se traduce en una serie de modificaciones adaptativas y compensatorias renales y extrarrenales que permiten mantener la homeostasis con filtrados glomerulares hasta cifras en torno a 10-25ml/min. Con filtrados glomerulares inferiores a 10ml/min, casi siempre existirán anomalías del medio interno con repercusiones clínicas.2. Alteraciones del balance de Agua. En la Enfermedad Renal Crónica (ERC) avanzada, el rango de osmolalidad urinaria se aproxima progresivamente a la plasmática, haciéndose isostenúrica. La traducción clínica son los síntomas de nicturia y poliuria, especialmente en nefropatías tubulointersticiales. La sobrecarga de agua se (..)(AU)
1. The kidneys are the key organs to maintain the balance of the different electrolytes in the body and the acid-base balance. Progressive loss of kidney function results in a number of adaptive and compensatory renal and extrarenal changes that allow homeostasis to be maintained with glomerular filtration rates in the range of 10-25 ml/min. With glomerular filtration rates below 10 ml/min, there are almost always abnormalites in the bodys internal environment with clinical repercussions.2. Water Balance Disorders: In advanced chronic kidney disease(CKD), the range of urine osmolality progressively approaches plasma osmolality and becomes isostenuric. This manifests clinically as symptoms of nocturia and polyuria, especially intubulointerstitial kidney diseases. Water overload will result in (..) (AU)
Subject(s)
Humans , Water-Electrolyte Imbalance/physiopathology , Renal Insufficiency, Chronic/physiopathology , Acid-Base Imbalance/physiopathology , Alkalosis/physiopathology , Sodium Bicarbonate/administration & dosage , Chelating Agents/administration & dosageABSTRACT
Chronic kidney disease (CKD), like other chronic diseases, is a serious public health problem because of both its high incidence and prevalence and its significant morbidity and mortality and socioeconomic cost. Advanced chronic kidney disease (ACKD) includes stages 4 and 5 of the CKD classification. It is defined as chronic kidney disease in which there is a severe reduction in glomerular filtration rate (GFR < 30 ml/min). The treatment goals are to reduce and treat the complications associated with chronic kidney failure and to prepare the patient adequately and sufficiently in advance for kidney replacement therapy. The prevalence of ACKD is 0.2-0.6% of the adult population. This prevalence increases with age and in Spain is 1.6% in persons older than 64 years. - CKD is easily detected in clinical practice with simple tests (GFR estimated by equations based on serum creatinine, albuminuria and urine sediment) (Strength of Recommendation B). - It is recommended to detect the presence of CKD in all persons older than 60 years or with hypertension, diabetes or cardiovascular disease (Strength of Recommendation B). - Early detection and appropriate referral to the nephrology of patients with ACKD improves long-term morbidity and reduces costs for both the patient and the health care system (Strength of Recommendation B). Adequate communication and coordination between the primary care and nephrology is essential for this early detection: - Referral to nephrology should be made based on the stage of CKD, age of the patient, rate of progression of kidney failure, degree of albuminuria and presence or appearance of early warning signs.All patients with CKD stages 4-5 should be referred to nephrology (Strength of Recommendation C). - A protocol should be established in each health area for joint follow-up between primary care and nephrology (Strength of Recommendation C). - The creation of multidisciplinary ACKD units including a nephrologist, nephrology nurse, dietitian and social worker allows an integrated approach to the different aspects of management of patients with ACKD and is cost-effective (Strength of Recommendation B).
Subject(s)
Kidney Diseases/diagnosis , Kidney Diseases/therapy , Chronic Disease , Disease Progression , Early Diagnosis , Humans , Kidney Diseases/epidemiology , Nephrology , Primary Health Care , Referral and Consultation , Renal DialysisABSTRACT
1. The kidneys are the key organs to maintain the balance of the different electrolytes in the body and the acid-base balance. Progressive loss of kidney function results in a number of adaptive and compensatory renal and extrarenal changes that allow homeostasis to be maintained with glomerular filtration rates in the range of 10-25 ml/min. With glomerular filtration rates below 10 ml/min, there are almost always abnormalites in the body's internal environment with clinical repercussions. 2. Water Balance Disorders: In advanced chronic kidney disease (CKD), the range of urine osmolality progressively approaches plasma osmolality and becomes isostenuric. This manifests clinically as symptoms of nocturia and polyuria, especially in tubulointerstitial kidney diseases. Water overload will result in hyponatremia and a decrease in water intake will lead to hypernatremia. Routine analyses of serum Na levels should be performed in all patients with advanced CKD (Strength of Recommendation C). Except in edematous states, a daily fluid intake of 1.5-2 liters should be recommended (Strength of Recommendation C). Hyponatremia does not usually occur with glomerular filtration rates above 10 ml/min (Strength of Recommendation B). If it occurs, an excessive intake of free water should be considered or nonosmotic release of vasopressin by stimuli such as pain, anesthetics, hypoxemia or hypovolemia, or the use of diuretics. Hypernatremia is less frequent than hyponatremia in CKD. It can occur because of the provision of hypertonic parenteral solutions, or more frequently as a consequence of osmotic diuresis due to inadequate water intake during intercurrent disease, or in some circumstance that limits access to water (obtundation, immobility). 3. Sodium Balance Disorders: In CKD, fractional excretion of sodium increases so that absolute sodium excretion is not modified until glomerular filtration rates below 15 ml/min (Strength of Recommendation B). Total body content of sodium is the main determinant of extracellular volume and therefore disturbances in sodium balance will lead to clinical situations of volume depletion or overload: Volume depletion due to renal sodium loss occurs in abrupt restrictions of salt intake in advanced CKD. It occurs more frequently in certain tubulointerstitial kidney diseases (salt losing nephropathies). Volume overload due to sodium retention can occur with glomerular filtration rates below 25 ml/min and leads to edema, arterial hypertension and heart failure. The use of diuretics in volume overload in CKD is useful to force natriuresis (Strength of Recommendation B). Thiazides have little effect in advanced CKD. Loop diuretics are effective and should be used in higher than normal doses (Strength of Recommendation B). The combination of thiazides and loop diuretics can be useful in refractory cases (Strength of Recommendation B). Weight and volume should be monitored regularly in the hospitalized patient with CKD (Strength of Recommendation C). 4. Potassium Balance Disorders: In CKD, the ability of the kidneys to excrete potassium decreases proportionally to the loss of glomerular filtration. Stimulation of aldosterone and the increase in intestinal excretion of potassium are the main adaptive mechanisms to maintain potassium homeostasis until glomerular filtration rates of 10 ml/min. The main causes of hyperkalemia in CKD are the following: Use of drugs that alter the ability of the kidneys to excrete potassium: ACEIs, ARBs, NSAIDs, aldosterone antagonists, nonselective beta-blockers, heparin, trimetoprim, calcineurin inhibitors. Determination of serum potassium two weeks after the initiation of treatment with ACEIs/ARBs is recommended (Strength of Recommendation C). Routine use of aldosterone antagonists in advanced CKD is not recommended (Strength of Recommendation C). Abrupt reduction in glomerular filtration rate: Constipation. Prolonged fasting. Metabolic acidosis. A low-potassium diet is recommended with GFR less than 20 ml/min, or GFR less than 50 ml/min if drugs that raise serum potassium are taken (Strength of Recommendation C). In the absence of symptoms or electrocardiographic abnormalities, review of medications, restriction of dietary potassium and use of oral ion exchange resins are usually sufficient therapeutic measures (Strength of Recommendation C). If symptoms and/or electrocardiographic abnormalities are present, the usual parenteral pharmacological measures should be used (10% calcium gluconate, insulin and glucose, salbutamol, resins, diuretics) (Strength of Recommendation A). Parenteral bicarbonate and ion exchange resins in enemas are not recommended as first-line treatment (Strength of Recommendation C). Hemodialysis should be considered in patients with glomerular filtration rates below 10 ml/min (Strength of Recommendation C). 5. Acid-Base Disorders in CKD: Moderate metabolic acidosis (Bic 16-20) mEq/L is common with glomerular filtration rates below 20 ml/min, and favors bone demineralization due to the release of calcium and phosphate from the bone, chronic hyperventilation, and muscular weakness and atrophy. Its treatment consists of administration of sodium bicarbonate, usually orally (0.5-1 mEq/kg/day), with the goal of achieving a serum bicarbonate level of 22-24 mmol/L (Strength of Recommendation C). Limitation of daily protein intake to less than 1 g/kg/day is also useful (Strength of Recommendation C). Use of sevelamer as a phosphate binder aggravates metabolic acidosis since it favors endogenous acid production and therefore acidosis should be monitored and corrected if it occurs (Strength of Recommendation C). Hypocalcemia should always be corrected before metabolic acidosis in CKD (Strength of Recommendation B). Metabolic acidosis is an infrequent disorder and requires exogenous alkali administration (bicarbonate, phosphate binders) or vomiting.
Subject(s)
Acid-Base Imbalance/drug therapy , Acid-Base Imbalance/etiology , Kidney Diseases/complications , Water-Electrolyte Imbalance/drug therapy , Water-Electrolyte Imbalance/etiology , Chronic Disease , Disease Progression , Humans , Metabolic Diseases/drug therapy , Metabolic Diseases/etiology , Potassium/metabolismABSTRACT
No disponible
No disponible
Subject(s)
Humans , Fluid Therapy/methods , Water-Electrolyte Balance/physiology , Hypotonic Solutions , Hyponatremia/prevention & control , Postoperative Care/methods , Postoperative Complications/prevention & controlSubject(s)
Interdisciplinary Communication , Medical Informatics/trends , Medicine/organization & administration , Primary Health Care/organization & administration , Specialization , Computer Systems , Disease Management , Education, Medical, Continuing , Electronic Mail , Forecasting , Humans , Kidney Failure, Chronic/therapy , Medical Informatics/methods , Medical Informatics/statistics & numerical data , Medical Records Systems, Computerized , Nephrology/education , Nephrology/organization & administration , Patient Care Team , Research , VideoconferencingABSTRACT
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