Acute kidney injury treatment guidelines
Acute Kidney Damage—Overview
When kidney function abruptly decreases within hours to days, waste products build up in the blood and fluid, leading to disruptions in electrolyte and acid-base equilibrium. Serum creatinine rises rapidly, and urine production decreases from 48 hours to 7 days in AKI. The focus is on nephrology and critical care. Pathophysiology: Kidneys fail to filter blood, making waste elimination and fluid management difficult.
Three main AKI categories exist.
- Dehydration or cardiovascular illness prevents blood from reaching the kidneys, causing prerenal AKI.
- Renal AKI: Kidney injury.
- After renal AKI, the kidney drainage channels are blocked.
Treatments and prognoses vary for these three acute renal damage causes. Direct kidney injury is harder to heal and recover from than blood vessel or urinary system obstructions. The optimum therapy and recovery rate depend on early AKI diagnosis.
Symptoms
- Low urine flow (oliguria or anuria)
- Leg/ankle/eye swelling • Fatigue, disorientation, nausea, or seizures (from toxin buildup)
- Symptoms of fluid overload: shortness of breath
- Symptoms of electrolyte imbalance include chest pain or tightness.
Treatment
- Address underlying causes, such as dehydration, infection, and blockage alleviation.
- Provide support by managing electrolytes (potassium, sodium) and blood pressure.
- Dialysis: Temporary or permanent if the kidneys cannot recover.
- Review medications: Stop nephrotoxic medicines (NSAIDs, aminoglycosides, contrast agents).
Complications:
- CKD or irreversible renal damage
- Fluid overload causes pulmonary edema.
- Electrolyte imbalances could potentially cause arrhythmias.
- Increased mortality risk, especially in hospitalised or critically ill patients.
Long-Term Risks
- AKI raises the likelihood of renal deterioration such as CKD or ESRD, even after apparent recovery.
- Patients with recurrent AKI episodes are more susceptible to repeated insults like dehydration and sepsis.
- AKI is a significant risk factor for long-term cardiovascular disease and mortality.
Complications matter
- AKI complications can lead to high fatality rates, particularly in ICU patients.
- AKI affects the heart, lungs, brain, and immune system, not only the kidneys.
- Early recognition and care of problems (fluid balance, electrolytes, and infection control) are crucial for survival. The focus is on prevention.
Prevention/Monitoring
- Monitoring creatinine, electrolytes, and urine output daily.
- Avoid NSAIDs, aminoglycosides, and contrast dyes as nephrotoxins.
- Ensure fluid control to avoid overburden or dehydration.
- Dialysis started promptly for severe problems.
Diagnosis
Acute Kidney Injury (AKI) is diagnosed clinically as follows:
Diagnostic Criteria (KDIGO)
AKI is diagnosed if:
• Serum creatinine rise ≥ 0.3 mg/dL within 48 hours • Serum creatinine rise > 1.5× baseline within 7 days • Urine output < 0.5 mL/kg/hour for ≥ 6 hours
Diagnosis Steps
1. Clinic Assessment
- History: Recent sickness, dehydration, sepsis, surgery, and medicine use (NSAIDs, antibiotics, contrast dye).
- Symptoms include oliguria/anuria, edema, tiredness, disorientation, and nausea.
- Risk factors: Diabetes, hypertension, CKD, and ageing.
2. Lab Tests
- Elevated serum creatinine and BUN values indicate poor filtration.
- Electrolytes: Hyperkalemia, hyponatremia, and metabolic acidosis.
- Urinalysis: Proteinuria, hematuria, and muddy brown casts (indicating acute tubular necrosis).
- FENa: Identifies prerenal vs intrinsic AKI.
3. Visualizing
- Renal ultrasonography detects blockage (hydronephrosis, stones).
- CT/MRI: Used for ultrasound inconclusiveness.
- Assess renal blood flow with Doppler scans.
4. Additional Diagnostics
- Early identification of developing biomarkers: NGAL, KIM-1, and cystatin C.
- Renal biopsy: Rare but appropriate for suspected intrinsic diseases such as glomerulonephritis.
Diagnosis Difference
- Prerenal AKI is characterized by low perfusion, which can lead to dehydration and shock.
- Intrinsic AKI: Kidney injury brought on by toxins and inflammation.
- Obstructive postrenal AKI is characterized by the presence of stones and prostate enlargement.
Monitoring:
Monitoring should include daily measurements of creatinine, urine output, and electrolytes, as well as the use of fluid balance charts and ECG monitoring for hyperkalemia-related arrhythmias.
The treatment for AKI depends on the underlying etiology.
This makes discovering the cause crucial. Some frequent AKI treatments are:
- Stopping AKI-causing medications
- Giving you fluids (orally or intravenously)
- If AKI is bacterial, antibiotics
- Placing a urinary catheter may help if AKI is caused by a blockage.
- Kidney disease and other organ damage may require dialysis.
- Most dialysis treatments are temporary until the kidneys recover.
- Most individuals with AKI need hospitalization for monitoring and therapy.
Fixing the cause, stabilizing the patient, and preventing complications are the goals of AKI treatment. Management is supportive; no pharmacological cures.
Core AKI Treatment Principles
- Determine and address the cause:
- In prerenal AKI, restore blood flow by IV fluids, sepsis treatment, and heart failure management.
- To treat intrinsic AKI, remove nephrotoxins and cure glomerulonephritis or interstitial nephritis, potentially with steroids.
- Post-renal AKI: Address blockage with catheterization, surgery, or stents.
- Supportive care:
- Ensure fluid balance to prevent dehydration and overburden.
- Address electrolyte imbalances, particularly hyperkalemia.
- Manage metabolic acidosis; manage acid-base imbalance.
- Adjust medications to prevent renal damage.
- Dialysis (Renal Replacement Therapy): • Used to treat severe complications such as refractory hyperkalemia, metabolic acidosis, fluid overload, or uremic symptoms (encephalopathy, pericarditis).
- The dialysis can be temporary during renal recovery or permanent if the damage is irreparable.
During Treatment Prevention
- Track daily weight and urine output.
- Regular blood tests (creatinine, electrolytes).
- Use contrast dyes sparingly but necessarily.
- Adjust medicine dosage for decreased renal clearance.
Challenges, risks
- Delays in recognition negatively impact outcomes.
- Overhydration can lead to pulmonary edema.
- Underhydration might aggravate prerenal AKI.
- Dialysis timing is crucial, as late treatment can increase mortality, and early treatment may not be essential.
Keynote
AKI treatment balances renal perfusion, trigger removal, and body support until kidney function recovers. Early diagnosis and monitoring can help prevent chronic renal disease.
To prevent acute kidney injury
Acute renal injury can't always be prevented due to age or hospitalization. There are techniques to protect the kidneys from long-term damage:
- Annual checkup. Blood testing at an annual physical can check kidney health. It also helps doctors spot AKI-risk factors early.
- Maintain hydration. It's crucial to stay hydrated to avoid AKI. Unless instructed by a doctor, drink 1.5 to 2 liters of water daily. Drink more water on hot days or while sick.
- Diarrhea and vomiting need treatment. Dehydration from these symptoms increases AKI risk. Visit a doctor immediately to avoid AKI.
Care for underlying issues.
- Treating CKD can avoid acute renal damage. CKD management includes avoiding NSAIDs, smoking, and potassium- and salt-rich meals.
- Imaging contrast should be minimized. Discuss the pros and cons of iodine contrast dye with a doctor before specific imaging exams. Doctors may advise against using this dye since it can damage the kidneys.
- Know if you have CKD or diabetes, which can cause acute renal injury. Knowing AKI signs can help you get medical care sooner.
Altering Lifestyle for Acute Kidney Injury
- You can enhance your health and kidney function after acute renal injury by making these changes:
- Regularly check your kidney health with your doctor.
- Apples, carrots, green beans, and white rice are low-potassium. With kidney failure, people may have trouble eliminating extra potassium. Heart issues might result from high amounts.
- There are foods that are limited in phosphorus. It's in cheese, oats, dark drinks, and nuts. Excess phosphorus in your blood can damage your bones and strain your kidneys.
- Trade packaged foods, quick meals, snacks, and processed meats and cheeses for lower salt intake to control blood pressure. Hypertension increases AKI risk.
- Hydrate to avoid renal stress and dehydration.
- Acute Kidney Injury Prognosis
- The source and severity of kidney injury determine AKI prognosis.
Recovery
- Recovering from an AKI increases the chance of acquiring other health issues (e.g., kidney disease, stroke, or heart disease) or having another AKI in the future. AKIs raise the risk of renal disease and failure.
- Follow up with your doctor to monitor kidney function and healing to protect yourself. To reduce kidney damage and preserve renal function, prevent or treat AKI early.
- Many acute kidney damage patients recover completely if the underlying cause is treated promptly. However, repeated AKIs can damage the kidneys.
- In the absence of chronic kidney disease, acute kidney damage may raise the risk. AKI can cause progressive CKD in 50% of patients and end-stage renal disease in 3–15%.
- Managing your kidney health and treating any symptoms immediately will help you recover and repair any damage.
Conclusion
Kidney function drops suddenly in acute kidney injury, a dangerous, often reversible disorder. It has serious consequences for the kidneys, heart, lungs, brain, and immune system, so early detection and treatment are critical.
Systemic emergencies like AKI include the kidneys. Early detection, tailored therapy, and close monitoring can help many patients recover kidney function and prevent long-term complications. Late detection or poor management can cause permanent harm and death.
