Chronic Renal Failure
Prepared by D. Chaplin
�Chronic Renal Failure
Progressive, irreversible damage to the nephrons and glomeruli Causes: recurrent kidney infections, vascular changes (Diabetes/Hypertension) etc. May be diffuse or limited to one kidney Regardless of the cause: Decreased: GFR, tubular function & tubular reabsorption capabilities. Dysfunction fluids & electrolytes, acid base disturbances, & systemic problems develops
Prepared by D. Chaplin
�Chronic Renal Failure End Stage Renal Disease (ESRD)
Protein and waste metabolism accumulates in the blood (azotemia) 90% of kidney function is lost (kidney cannot adequately function)
Hypothesis: Nephrons remains intact, others progressively destroyed.
Adaptive response maintains function until ¾ are destroyed Hypertrophy continues kidneys begin to lose their ability to concentrate the urine adequately
Prepared by D. Chaplin
�ESRD
Polyuria is perhaps early sign of ESRD As the disease progress – unable to rid the body of excess waste products via kidneys –uremia results – eventually other systems affected
When the creatinine clearance falls below 10 ml/min (average), GFR < 5ml/min (average) = dialysis
Other symptoms Nocturia, oliguria/anuria, increased K+, Mg++, PO4 and decrease Ca++, Neurological changes, CV changes, etc.
Prepared by D. Chaplin
�Stages of Chronic Renal Failure
Diminished Renal Reserve Normal BUN, and serum creatinine absence of symptoms Renal Insufficiency GFR is about 25% of normal, BUN Creatinine levels increased
Renal Failure GFR <25% of normal increasing symptoms
ESRD or Uremia GFR < 5-10% normal, creatinine clearance <5-10 ml/min resulting in a cumulative effect
Prepared by D. Chaplin
�Treatment Modalities
Decrease fluid 1000ml/day Decrease protein (.5-1kg body weight) Decrease sodium (1-4gm variable) Decrease potassium Decrease phosphorous (<1000mg/day)
Dialysis (periotoneal, hemodialysis)
RBC, Vitamin D (calcitrol replacement) etc.
Prepared by D. Chaplin
�Dialysis Hemodialyis(Hemo)Peritoneal (PD)
General Principal: Movement of fluid and molecules across a semi permeable membrane from one compartment to another
Hemodialysis – Move substances from blood through a semi permeable membrane and into a dialysis solution (dialysate –bath) (synethetic membrane) Peritoneal – Peritoneal membrane is the semi permeable membrane
Prepared by D. Chaplin
�Osmosis-Diffusion-Ultrafiltration
Osmosis - movement fluid from an area of < to > concentration of solutes (particles)
Diffusion - movement of solutes (particles) from an area of > concentration to area of < concentration [Remove urea, creatinine, uric acid and electrolytes, from the blood to the dialystate bath] RBC, WBC, Large plasma proteins do not go through Ultrafiltration – Water and fluid removed when the pressure gradient across the membrane is created, by increase pressure in the blood compartment & decrease pressure in the dialysate compartment
Prepared by D. Chaplin
�Peritoneal Dialysis
Catheter placement – anterior abdominal wall Tenckoff (25cm length with cuff anchor and migration) Dialysis solution (1-2 liters sometimes smaller) Three phases of PD Inflow (fill) approximately 10 minutes, could be in cycles) Dwell (equilibration) (approximately 20-30 min or 8 hours+) Drain (approximately 15 minutes) These 3 phases are called Exchanges
Prepared by D. Chaplin
�Peritoneal Dialysis
Prepared by D. Chaplin
�Hemodialysis
Vascular access for high blood flow Shunts, (telfon, external) Arteriovenous fistulas and grafts (AV) Anastomosis between an artery and vein Fistulas are native vessels (4-6 wks maturity) Grafts are artificial/synthetic material
Prepared by D. Chaplin
�Hemodialysis
AV Fistula Communication
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AV Graph Access
�Hemodialysis
Hemodialysis Circuit
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Hemodialysis Machine
�PD Advantages and Disadvantages
Advantages Disadvantages
Immediate initiation Less complicated Portable (CAPD) Fewer dietary restrictions Short training time Less cardio stress Choice for diabetics
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Bacterial/chemical periotonitis Protein loss Exit site of catheter Self image Hyperglycemia Surgical placement of catheter Multiple abdominal surgery
�Hemo Advantages & Disadvantages
Advantages Disadvantages
Rapid fluid removal Rapid removal of urea & creatinine Effective K+ removal Less protein loss Lower triglycerides Home dialysis possible Temporary access at the bedside
Prepared by D. Chaplin
Vascular access problems Dietary & fluid restrictions Heparinization Extensive equipment Hypotension Added blood lost Trained specialist
�Disequalibrium Syndrome
Fluid removal and decrease in BUN during hemodilaysis which cause changes in blood osmolarity.These changes trigger a fluid shift from the vascular compartment into the cells. In the brain, this can cause cerebral edema, resulting in increase intracranial pressure and visible signs of decreasing level of consciousness. Symptoms: Sudden onset of headache, nausea and vomiting, nervousness, muscle twitching, palpitation, disorientation and seizures Treatment: Hypertonic saline, Normal saline
Prepared by D. Chaplin
�Nursing Care Pre, Post Dialysis
Weigh before & after Assess site before & after (bruit, thrill, infection, bleeding etc.) Medications (precautions before & after) Vital signs before and after etc.
Prepared by D. Chaplin
�Renal Transplant
Living and Cadaveric donors
Predialysis: obtain a dry weight free of excess fluids and toxins
More preparation time from a living donor vs. cadaveric – transplant within 36 hours of procurement Delay may increase ATN Pre-transplant: Immunotherapy (IV methylprednisolone sodium succinate, (A –methaPred, Solu-Medrol), cyclosporine (Sandimmune and azathioprine ((Imuran)
Prepared by D. Chaplin
�Immunological Compatibility of Donor and Recipient
Done to minimize the destruction (rejection) of the transplanted kidney HUMAN LEUKOCYTE ANTIGEN (HLA) This gives you your genetic identity (twins share identical HLA) HLA compatibility minimizes the recognition of the transplanted kidney as foreign tissues.
Prepared by D. Chaplin
�Immunological Analysis
WHITE CELL CROSS MATCH (the recipient serum is mixed with donor lymphocytes to test for performed cytotoxic (anti-HLA) antibodies to the potential donor kidney A positive cross match indicates that the recipient has cytotoxic antibodies to the donor and is an absolute contraindication to transplantation
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�Immulogical Analysis
MIXED LYMPHOCYTE CULTURE The donor and recipient lymphocytes are mixed. Result = HIGH SENTIVITY, this is contraindicated for renal transplantation. ABO BLOOD GROUPING ABO blood group must be compatible
Prepared by D. Chaplin
�Surgery
LLQ of the abdomen outside of the peritoneal cavity Renal artery and vein anastomosed to the corresponding iliac vessels Donor ureters are tunneled into the recipients’ bladder.
Prepared by D. Chaplin
�Complications Post Transplant
Rejection is a major problem
Hyperacute rejection: occurs within minutes to hours after transplantation Renal vessels thrombosis occurs and the kidney dies
There is no treatment and the transplanted kidney is removed
Prepared by D. Chaplin
�Complications Post Transplant
Acute Rejection: occurs 4 days to 4 months after transplantation
It is not uncommon to have at least one rejection episode Episodes are usually reversible with additional immunosuppressive therapy (Corticosteroids, muromonab-CD3, ALG, or ATG) Signs: increasing serum creatinine, elevated BUN, fever, wt. gain, decrease output, increasing BP, tenderness over the transplanted kidneys
Prepared by D. Chaplin
�Complications Post Transplant
Chronic Rejection: occurs over months or years and is irreversible. The kidney is infiltrated with large numbers of T and B cells characteristic of an ongoing , low grade immunological mediated injury Gradual occlusion renal blood vessels
Signs: proteinuria, HTN, increase serum creatinine levels
Supportive treatment, difficult to manage Replace on transplant list
Prepared by D. Chaplin
�Complications Post Transplant
Infection Hypertension Malignancies (lip, skin, lymphomas, cervical) Recurrence of renal disease Retroperiotneal bleed Arterial stenosis Urine leakage
Prepared by D. Chaplin
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