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ACUTE KIDNEY INJURY AND CHRONIC KIDNEY DISEASE Dr. Hamed Shakhatreh consultant nephrologist, Head of nephrology department, Al-basher hospital, M.O.H. AKI Definition AKI is defined as any of the following : - increase in SCr by >0.3 mg/dl (>26.5lmol/l) within 48 hours; or -Increase in SCr to>1.5 times baseline, which is known or presumed to have occurred within the prior 7 days; or -Urine volume <0.5 ml/kg/h for 6 hours. Stage of AKI: Stage 1— 1.5-1.9 times baseline OR ≥0.3 mg/dl (≥26.5 micromol/l) increase in the serum creatinine, OR urine output <0.5 ml/kg per hour for 6 to 12 hours. Stage 2 — 2.0-2.9 times baseline increase in the serum creatinine OR urine output <0.5 ml/kg per hour for ≥12 hours. Stage 3 — 3.0 times baseline increase in the serum creatinine OR increase in serum creatinine to ≥4.0mg/dl (≥353.6 micromol/l) OR urine output of <0.3 ml/kg per hour for ≥24 hours, OR anuria for ≥12 hours OR the initiation of renal replacement therapy OR, in patients <18 years, decrease in estimated GFR to <35 ml/min per 1.73m2 types of acute kidney injury I. Pre-renal injury In pre-renal failure, the renal tissue is intact and kidney biopsy shows normal renal histology. Oliguria and high serum creatinine are due to functional impairment; since there is no sufficient blood reaching the kidney to be cleared of these toxins. Combination of hypotension, hypovolaemia resulting in diminished renal perfusion is the most common cause of acute renal failure in hospitalized patients. When renal hypoperfusion (due to hypotension and/or hypovolaemia) is not severe enough to cause renal tubular damage, it will manifest as pre-renal failure in the form of oliguria and a rise in serum creatinine and blood urea. Since there is no structural renal damage, early diagnosis and correction of renal hypoperfusion results in immediate diuresis and rapid drop in serum creatinine and blood urea levels. If hypoperfusion is severe or neglected, renal compensatory mechanisms will fail and acute tubular necrosis occurs. In this new situation, correction of hypoperfusion will not be followed by diuresis or drop in serum creatinine. Few days or weeks (mean 2-3 weeks) are needed for tubular regeneration and recovery of kidney function to occur. II.Acute Intrinsic Renal injury This includes acute tubular necrosis (ATN), acute interstitial nephritis and acute glomerulonephritis. At this presentation we well discuss ATN as the other entity will be discussed separately in other lectures. Acute Tubular Necrosis Acute tubular necrosis can be induced by : renal hypoperfusion (ischemia). exposure to nephrotoxins (exogenous or endogenous toxins). and frequently by a combination of both. Causes of Ischaemic ATN: A- Blood Loss • Haemorrhage (post partum, surgical or gastrointestinal). • Major trauma B- Fluid Loss • Gastrointestinal (vomiting or diarrhoea) • Renal (aggressive diuresis or polyuria) C- Third Space • Haematoma • Illius • Peritonitis Severe vasodilatation as in septicaemia, rapid oedema formation, liver cell failure. E- Renovascular disease D- • Renal artery occlusion by stenosis, embolism or compression. • Renal vein thrombosis or compression. Causes of Toxic ATN (A) Exogenous nephrotoxins include: Antibiotics: Aminoglycosides ,Amphotericin ,Cephalosporin, Acyclovir, Sulfonamide, Tetracyclines Bacitracin. Anaesthetic agents: Methoxy fluorane Contrast Media: Analgesics: Metals: as Mercury, lead, arsenic, bismuth, cadmium, antimony, organic solvents: Glycols Poisons: snake bite, stings, bacterial toxins. Causes of Toxic ATN (B) Endogenous nephrotoxins include Pigments: Crystals: Myoglobin Uric acid Hemoglobin Calcium Methemoglobin Oxalate Post –renal injury In post-renal failure, the obstruction of the urinary tract results in increasing the pressure above the level of the obstruction up to the nephron including the urinary space of the renal glomeruli. When this back pressure exceeds that of the filtration pressure in the renal glomeruli, the process of urine formation will stop with progressive accumulation of wastes and increase of serum creatinine and blood urea. Clinical features of AKI: 1- Usually, the patient gives history of the etiologic cause such as trauma, shock, haemolysis, drug intake, infection, or stone disease. 2- Patient may notice a change in urine volume and character, oliguria is common, but in 10-50% of cases urine volume will be normal or even higher (as in toxic ATN) this is called polyuric ATN. Absolute anuria is highly suggestive of obstructive ARF (post-renal) or very severe form of ATN (cortical necrosis). 3- Manifestation of salt and water retention (oedema, puffiness, hypertension and even heart failure). 4- By time, manifestations of uraemia appear as acidotic breathing, dyspnea, nausea, vomiting, headache, muscle twitches and even frank encephalopathy and coma. 5- Patient may present as well with any of the following complications: Complications Of AKI: Cardiovascular • pulmonary odema • arrhythmias • hypertension • pericardial effusion • myocardial infarction • pulmonary embolism Metabolic • hyponatremia • hyperkalemia • acidosis • hypocalcemia • hyperphosphatemia Neurologic: • coma • seizures Gastrointestinal: • gastritis • gastroduodenal ulcers Haematologic: • anaemia • hemorrhagic diathesis Infections • pneumonia • septicemia • UTI Investigations of AKI: A-Urinary indices:May be helpful in the differentiation between pre-renal failure and acute tubular necrosis. Diuretics should not be given at least during the preceeding 48 hours for these parameters to be valid. B- Urinary sediment: Centrifugation of fresh urine sample and examination of the urinary sediment may be helpful in diagnosing different causes of ARF C- Renal Imaging D-Renal bx. TREATMENT OF AKI: A- Treatment of the cause e.g. any condition causing renal hypoperfusion, exposure to toxic drug or chemical or systemic disease. B- Prevention of AKI: The timing of intervention to prevent ATN is important. Protective agents must be administered at the time of, or immediately following potential renal insult. This intervention may prevent or at least blunt the severity of ATN. The intervention could be through the following approaches. In different combinations according to the clinical situation: • Volume expansion by saline loading. • Diuretic as mannitol and furosemide. • Calcium channel blockers as verapamil and nifedipine. • Vasodilating agents as dopamine in renal dose 1-2 ug/kg/min • ATP-magnesium chloride. In case of contrast media, the following additional points should be adopted, these are:- • Avoid unnecessary contrast procedures. • Avoid multiple contrast exposure within a few days. • Avoid contrast exposure in high risk patient. • Use the smallest dose possible. • Use of non-ionic contrast is to somewhat safer. • In high risk patient with renal impairment we can manage to wash the contrast out immediately after the technique (e.g. coronary angiography) by haemodialysis. CHRONIC KIDNEY DISEASE What is CKD? Presence of markers of kidney damage for three months, as defined by structural or functional abnormalities of the kidney with or without decreased GFR, manifest by either pathological abnormalities or other markers of kidney damage, including abnormalities in the composition of blood or urine, or abnormalities in imaging tests. The presence of GFR <60 mL/min/1.73 m2 for three months, with or without other signs of kidney damage as described above. Epidemiology 19 million Americans have CKD Approx 435,000 have ESRD/HD Annual mortality rate for ESRD: 24% CAUSE OF CKD: The most common causes of CKD are DM,HTN and glomerulonephritis. Together, these cause approximately 75% of all adult cases Diabetes. It causes about 35% of all chronic kidney disease. High blood sugar levels caused by DM damage blood vessels in the kidneys. If the blood sugar level remains high, this damage gradually reduces the function of the kidneys. hypertension. It causes another 30% of all kidney disease. Because HTN often rises with chronic kidney disease, high blood pressure may further damage kidney function even when another medical condition initially caused the disease. Other etiologies Renovascular disease Nephrotic syndrome Hypercalcemia Multiple myeloma Chronic UTI Signs & Symptoms General Fatigue & malaise Edema Ophthalmologic AV nicking HTN Heart failure Pericarditis CAD Anorexia Nausea/vomiting Skin Cardiac GI Pruritis Pallor Neurological MS changes Seizures GFR Calculations Cockcroft-Gault Men: CrCl (mL/min) = (140 - age) x wt (kg) SCr x 0.81 Women: multiply by 0.85 MDRD: USUALLY WE USE COMPUTARISED FORMULA TO CALCULAT IT : GFR (mL/min per 1.73 m2) = 186 x (SCr x 0.0113)-1.154 x (age)-0.203 x (0.742 if female) x (1.12 if African-American) Stages of CKD Stage 1*: GFR >= 90 mL/min/1.73 m2 Normal or elevated GFR Stage 2*: GFR 60-89 (mild) Stage 3: GFR 30-59 (moderate) Stage 4: GFR 15-29 (severe; pre-HD) Stage 5: GFR < 15 (kidney failure) Management Identify and treat factors associated with progression of CKD HTN Proteinuria Glucose control Hypertension Target BP <130/80 mm Hg <125/75 mm Hg pts with proteinuria (> 1 g/d) Consider several anti-HTN medications with different mechanisms of activity ACEs/ARBs Diuretics CCBs HCTZ (less effective when GFR < 20) Proteinuria Single best predictor of disease progression Normal albumin excretion Microalbuminuria 20-200 g/min or 30-300 mg/24 hours Macroalbuminuria <30 mg/24 hours >300 mg/24 hours Nephrotic range proteinuria >3 g/24 hours Metabolic changes with CKD Hemoglobin/hematocrit Bicarbonate Calcium Phosphate PTH Triglycerides Metabolic changes… Monitor and treat biochemical abnormalities Anemia Metabolic acidosis Mineral metabolism Dyslipidemia Nutrition Anemia Common in CKD HD pts have increased rates of: Hospital admission CAD/LVH Reduced quality of life Managing anemia Can improve energy levels, sleep, cognitive function, and quality of life in HD pts Metabolic acidosis Muscle catabolism Metabolic bone disease Sodium bicarbonate Maintain serum bicarbonate > 22 meq/L 0.5-1.0 meq/kg per day Watch for sodium loading Volume expansion HTN Mineral metabolism Calcium and phosphate metabolism abnormalities associated with: Renal osteodystrophy Calciphylaxis and vascular calcification 14 of 16 ESRD/HD pts (20-30 yrs) had calcification on CT scan 3 of 60 in the control group Dyslipidemia Abnormalities in the lipid profile Triglycerides Total cholesterol NCEP recommends reducing lipid levels in high-risk populations Targets for lipid-lowering therapy considered the same as those for the secondary prevention of CV disease Nutrition Think about uremia Catabolic state Anorexia Decreased protein intake CV disease 70% of HD patients have concomitant CV disease Heart disease leading cause of death in HD patients LVH can be a risk factor Evaluation for CKD Blood CBC with diff SMA-7 with Ca2+ and phosphorous PTH HBA1c LFTs and FLP Uric acid and Fe2+ studies Urine Urinalysis with microscopy Spot urine for microalbumin 24-urine collection for protein and creatinine Ultrasound Key points The serum creatinine level is not enough! Target BP for CKD <130/80 mm Hg <125/75 mm Hg in proteinuria HTN and proteinuria are the two most important modifiable risk factors for progressive CKD