What Are The Causes Of Uremic Encephalopathy?
Encephalopathy is a general term and means brain disease, brain damage or malfunction. Physicians often use encephalopathy and altered mental status interchangeably. When coders see this documentation in the healthcare records, they typically need to query the physician for clarification of the diagnosis.
What to know about encephalopathy
What are the four stages of hepatic encephalopathy? Stage 1: mild symptoms, such as loss of sleep and shortened attention span. Stage 2: moderate symptoms, such as memory loss and slurred speech. Stage 3: severe symptoms, including personality changes, confusion, and extreme lethargy. Stage 4: a loss of consciousness and coma.
Whenever “metabolic encephalopathy” is documented, code G93. 41, Metabolic encephalopathy, should be assigned.
ICD-10 code G93. 41 for Metabolic encephalopathy is a medical classification as listed by WHO under the range - Diseases of the nervous system .
G92. 8 is a billable/specific ICD-10-CM code that can be used to indicate a diagnosis for reimbursement purposes.
If you look for metabolic encephalopathy, it has the code G93. 41 with the subcategories of drug induced and toxic, both with G92 codes. On the other hand, it can also be looked at as yes, you can code both. Again, from the Official Guidelines, code G93.
Metabolic encephalopathy is a problem in the brain. It is caused by a chemical imbalance in the blood. The imbalance is caused by an illness or organs that are not working as well as they should. It is not caused by a head injury. When the imbalance affects the brain, it can lead to personality changes.
Classification of the Major Metabolic Encephalopathies. There are two major types of metabolic encephalopathies, namely those due to lack of glucose, oxygen or metabolic cofactors (which are usually vitamin-derived) and those due to peripheral organ dysfunction (Table 38-1).
The admission is five days long and the final diagnosis is encephalopathy due to polypharmacy with a metabolic component due to UTI. If toxic encephalopathy (encephalopathy due to drug) is sequenced as the principal diagnosis, metabolic encephalopathy as a secondary diagnosis will act as an MCC.
Toxic encephalopathy describes acute mental status alteration due to medications, illicit drugs, or toxic chemicals. Metabolic encephalopathy is caused by any of a large number of metabolic disturbances.
ICD-10 code G92 for Toxic encephalopathy is a medical classification as listed by WHO under the range - Diseases of the nervous system .
Metabolic encephalopathy. This happens when another health condition, such as diabetes, liver disease, kidney failure, or heart failure, makes it hard for the brain to work. For example, if blood sugar gets too high in diabetes, it can lead to confusion and even a coma.
Metabolic encephalopathy has been associated with acute insults such as DKA, but importantly, the risk of cerebral injury is also related to chronic hyperglycaemia. Mechanisms of cerebral injury in diabetes mellitus continue to be investigated.
Encephalopathy is not considered inherent in acute cerebrovascular accident/stroke and should be reported as an additional diagnosis when documented and supported. Encephalopathy due to sepsis/septic should be reported as metabolic (see ICD-10-CM Index)
348.31 is a legacy non-billable code used to specify a medical diagnosis of metabolic encephalopathy. This code was replaced on September 30, 2015 by its ICD-10 equivalent.
References found for the code 348.31 in the Index of Diseases and Injuries:
The brain is the control center of the body. It controls thoughts, memory, speech, and movement. It regulates the function of many organs. When the brain is healthy, it works quickly and automatically. However, when problems occur, the results can be devastating.
General Equivalence Map Definitions The ICD-9 and ICD-10 GEMs are used to facilitate linking between the diagnosis codes in ICD-9-CM and the new ICD-10-CM code set. The GEMs are the raw material from which providers, health information vendors and payers can derive specific applied mappings to meet their needs.