Expanding the Boundaries of Combined Renal Replacement Therapy for Non-Renal Indications

Kamboj, Mayanka; Kazory, Amir

doi:10.1159/000493179

Cited by 4 publications

(9 citation statements)

References 21 publications

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“…In patients with chronic liver disease; the rise in serum ammonia is slow and gradual [19]. As mentioned before, this slow rise will allow for compensatory mechanisms to decrease the osmolarity, and also for compensatory increase in the ammonia metabolism by other organs [5,8,19].…”

Section: Liver Diseasementioning

confidence: 94%

Role of RRT in Adult Patients with Hyperammonemia

Dahlan¹,

Alkatheeri²

2024

Updates on Renal Replacement Therapy

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Hyperammonemia is not uncommonly encountered in adult critically ill patients in the intensive care unit (ICU). Although it often occurs in patients with underlying liver disease, it may also occur in patients with no evidence of acute or chronic liver disease. Hyperammonemia can cause serious complications, including acute brain injury (sometimes called hyperammonemia-induced encephalopathy). Hyperammonemia-induced encephalopathy often carries a poor prognosis and may even lead to death. Nephrologists may get involved in the management of hyperammonemic patients (with or without acute kidney injury) for consideration of renal replacement therapy (RRT) as an intervention to lower the ammonia level. This chapter will discuss the role of RRT in adult patients with hyperammonemia.

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Section: Liver Diseasementioning

confidence: 94%

Role of RRT in Adult Patients with Hyperammonemia

Dahlan¹,

Alkatheeri²

2024

Updates on Renal Replacement Therapy

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“…Ammonia is a major regulator of acid-based homeostasis (13), and extracellular pH and plasma potassium concentration play an important role in the regulation of ammonia synthesis and transport (13). Hypokalemia can precipitate encephalopathy by stimulating ammonia-genesis in the tubule ( 14) and bicarbonate-containing fluids induce cerebral vasodilation, facilitate ammonia entry in the brain, and thereby lead to intracranial hypertension (15).…”

Section: Declarationsmentioning

confidence: 99%

“…Ammonia is a 17 g/mol non-protein-bound element with a diffusive clearance similar to urea; both continuous and intermittent modalities of RRT are efficient to remove it from the plasma but with different rates (13,15). The timing to start dialysis in adults with ALF, hyperammonemia, and cerebral edema is still unknown (13,15). Some references recommend dialysis when ammonia levels approach 200 micromol/L (16).…”

Section: Declarationsmentioning

confidence: 99%

“…It has been suggested to consider it when the ammonia level is three times more than the upper limit of normal or when patients are severely encephalopathic, even before the advancement of AKI (13). Continuous RRT (CRRT) used alone or with intermittent hemodialysis is considered the method of choice because it provides uninterrupted clearance for ammonia reducing post-hemodialysis rebound caused by a deferred ammonia shift from extravascular compartments (13,15). It allows a gradual reduction in serum osmolality and less shift of water across the blood-brain barrier to prevent the worsening of cerebral edema in patients with high ICP.…”

Section: Declarationsmentioning

confidence: 99%

“…It allows a gradual reduction in serum osmolality and less shift of water across the blood-brain barrier to prevent the worsening of cerebral edema in patients with high ICP. It also allows temperature control and slow correction of metabolic abnormalities such as hyponatremia (15). However, Cardoso et al demonstrated that there was no statistically significant difference in ammonia reduction between the CRRT and intermittent hemodialysis groups; however, the use of CRRT was associated with a reduction in 21-day transplant-free all-cause mortality, whereas intermittent hemodialysis was associated with an increase in mortality (17).…”

Section: Declarationsmentioning

confidence: 99%

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L-Ornithine-L-Aspartate and Intermittent Renal Replacement Therapy in Fulminant Hepatitis A

Obeid

Soukarieh

Fadel

et al. 2023

jrenhep

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Hepatitis A is a common viral infection worldwide that is transmitted via the fecal-oral route. Since the introduction of an efficient vaccine, the incidence of infection has decreased but the number of cases has risen due to widespread community outbreaks among unimmunized individuals. Classic symptoms include fever, malaise, dark urine, and jaundice, and are more common in older children and adults. People are often most infectious 14 days prior to and 7 days following the onset of jaundice. We will discuss the case of a young male patient, diagnosed with acute hepatitis A, leading to fulminant hepatitis refractory to conventional therapy and the development of subsequent kidney injury. The medical treatment through the course of hospitalization was challenging and included the use of L-ornithine-L-aspartate and prolonged intermittent hemodialysis, leading to a remarkable outcome. Hepatitis A is usually self-limited and vaccine-preventable; supportive care is often sufficient for treatment, and chronic infection or chronic liver disease rarely develops. However, fulminant hepatitis, although rare, can be very challenging to manage as in the case of our patient.

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