Explain The Pathophysiology Of Acute Renal Failure

Injury to the glomerulus and the tubules presents the onset of Intra-renal failure (Matzke, 2011). Some of the frequent causes for Intra-renal failure are glomerulonephritis; pyelonephritis; and tubular injury. Post-renal failure develops from things like ureteroliths, tumors, or anatomic impediments. Opposite of the acute form, the chronic form has a slow onset that has no early stage symptoms. It is important to know that following an acute episode a chronic renal episode often follows, and at this juncture the damage is irreversible. Glomerulonephritis and pyelonephritis combined, has been reported to be the forerunner in as much as half the cases from acute to chronic renal failure. Diabetes mellitus, renal vascular disease, such as atherosclerosis, hypertension, polycystic kidney disease, drug damage, and nephrolith are all examples of other causes of CKD (Pradeep, 2014). Biopsies of kidneys that suffered with CKD reveal smaller kidneys with scarring on the tubules.

Intrarenal acute renal failure- accounts for 30% to 40% of the cases of ARF- generally results from acute tubular necrosis due to disturbances within the glomerulus or renal tubules. ATN most often occurs after surgery but is also associated with sepsis, severe trauma, including severe burns,

Differentiate between the causes, signs and symptoms, and diagnostic findings in pre- renal, intra-renal, and post-renal failure.

This is sudden injury to the kidneys which stops them working instantly or nearly instantly, AKI can range from the kidneys only to stop functioning slightly or to completely stop working. Due to the name of it some people think that it is physical injury or blow to the kidneys however it is a result in complications of other conditions. It is usually seen in older people who are very unwell and get admitted to hospital, it’s vital that AKI is detected quickly as if AKI

As previously stated Rhabdomyolysis can be caused from numerous injuries but it is ultimately the breakdown of muscle tissue that leads to life threatening conditions such as Acute Renal Failure. The process of muscle breakdown leads to depletion of Adenosine Triphosphate, which is where muscles receive their energy, and increased levels of potassium, creatine kinase, urate and myoglobin (Sauret, 2002). In addition to electrolyte disturbances causing toxicity leading to the breakdown of muscle tissue, the increase number of neutrophils from the inflammatory process amplifies muscle damage (Muscal, 2013). Acute Kidney Failure occurs because the increased levels of myoglobin, a large protein, that precipitates in the kidney tubules leading to obstruction that eventually leads to necrosis (Sauret, 2002).

Both of our kidneys functions to filter and excrete waste products and toxins by regulating fluids, electrolytes, and acid based balance. If the Renal blood flow is altered then the glomerular filtration rate will be altered as well. A decrease in systemic pressure stimulates the sympathetic nervous system to constrict the renal artery and decreases filtration and secretion in the kidney. In addition, a tubular obstruction can lead to the reduction of Glomerular filtration rate. An elevated intracellular calcium level due to tubular damage may alter cellular level that increases tubuloglomerular feedback and diminishes GFR. This may be prerenal, intrarenal, or postrenal. The prerenal will result from any condition outside of the kidney that disables the blood to flow to the renal vasculature causing a decrease in perfusion in the glomerulus leading to oliguria. However, both of the kidneys can still return to its full normal function on this stage. Second of the three is intrarenal, where anything can cause a direct damage to both of the kidneys such as infections, toxins, reduce blood supply, hypertension, diabetes, and even glomerulonephritis. The most common intrarenal condition is Acute Tubular Necrosis, where the epithelial layer of the nephrons are damaged causing a change in the concentration of urine, waste filtration, and an imbalance in electrolytes and acid

Lily was a 65 year old lady with stage 5 CKD, she had recently begun hemodialysis treatment three times a week as an inpatient and had been responding well to treatment. During dialysis treatment on the morning of the first day, Lily’s observations showed that she was: tachycardic, hypotensive, tachypnoeaic, had an oxygen saturation level of 88% and was becoming confused and drowsy. It became apparent that Lily had become hypovolaemic. The hypovolaemic shock seen in this patient was of a particular critical nature due to the fact that her dialysis treatment had moved her rapidly through the first two stages of shock with her compensatory mechanisms failing very quickly (Tait, 2012). It was also much harder to identify the early signs of

Acute renal failure is when the kidneys suddenly are unable to filter the blood of the waste products. Acute renal failure is alternatively called acute kidney failure or acute kidney injury. The causes of acute renal failure are divided into three categories based on their point of origin: prerenal, intrarenal, and post renal. The most common type of acute renal failure is prerenal, which can be described as a sudden drop in blood pressure or an interruption in blood flow to the kidneys. The common causes of prerenal AFR include hypovolemia, reduced renal perfusion, and septic shock. "Prerenal AFR is generally reversible when renal perfusion pressure is restored" (Liu, pg.98). Intrarenal, or intrinsic, acute renal failure is caused by acute tubular necrosis, renal artery obstruction, renal vein obstruction, interstitial nephritis, and glomerulonephritis. Postrenal occurs between the kidney and the urethral meatus. The major causes to postrenal AFR are tubular precipitation, urethral obstruction and bladder obstruction. Acute renal failure has four phases: onset, oliguria, diuresis and recovery. Onset begins with onset of the event and lasts for hours to days. The oliguria stage doesn't always occur in certain patients; however it lasts for 8-15 days. Oliguria deals with multiple acid-base balance diseases. The diuresis stage begins when the kidneys start to recover

pain. The second stage is the chronic renal failure, which is accompanied by feelings of

In patients with heart failure, hypovolemia, cirrhosis, nephrotic syndrome, or hypoalbuminemia, renal function may be further compromised. BUN, creatinine clearance, and urine output should be monitored closely (Lexi-Comp, 2016).

Nephrotoxins, acute interstitial nephritis, glomerular damage, and vascular damage also correlate with intrarenal acute renal failure (Singh, Levy, & Pusey, 2013). Postrenal acute renal failure is usually a result of a urinary tract obstruction that affects the kidneys bilaterally, which causes the intraluminal pressure upstream from the site of the obstruction to increase with a progressive decrease in the glomerular filtration rate (McCance, Huether, Brashers, & Rote, 2014). A pattern consisting of several hours of anuria with flank pain followed by polyuria is typically found in individuals with postrenal acute renal failure (McCance, Huether, Brashers, & Rote, 2014).

High blood pressure which is called hypertension is another common disease which can cause chronic renal failure. This

At the end of our 2 weeks of data gathering and completing the study, the group aims to accomplish the following:

As soon as (GRF) becomes less than 15 %, the symptoms of kidney failure clearly

To understand what renal failure is, it is important to know how the kidneys work and what the main functions are. The body has two kidneys on either side of the spine and the kidneys work to remove toxic waste and excess water by producing urine. The kidneys also help with controlling blood pressure and produce erythropoietin as well as aiding in keeping bones strong by producing calcetrol hormones. When the kidneys are unable to perform these functions it causes the kidneys to fail.