APACHE II

Last updated
APACHE II
Calculator MDCalc
MeSH D018806
LOINC 9264-3

APACHE II ("Acute Physiology and Chronic Health Evaluation II") is a severity-of-disease classification system, [1] one of several ICU scoring systems. It is applied within 24 hours of admission of a patient to an intensive care unit (ICU): an integer score from 0 to 71 is computed based on several measurements; higher scores correspond to more severe disease and a higher risk of death. The first APACHE model was presented by Knaus et al. in 1981. [2]

Contents

Application

APACHE II was designed to measure the severity of disease for adult patients admitted to intensive care units. It has not been validated for use in children or young people aged under 16.

This scoring system is used in many ways which include:

  1. Some procedures or some medicine is only given to patients with a certain APACHE II score
  2. APACHE II score can be used to describe the morbidity of a patient when comparing the outcome with other patients.
  3. Predicted mortalities are averaged for groups of patients in order to specify the group's morbidity.

Even though newer scoring systems, such as APACHE III, have replaced APACHE II in many places, APACHE II continues to be used extensively because so much documentation is based on it.[ citation needed ]

Calculation

The point score is calculated from 12 admission physiologic variables comprising the Acute Physiology Score, the patient's age, and chronic health status:

A. Acute Physiology Score (measured within 24 hours of admission)
  1. AaDO2 or PaO2 (for FiO2≥0.5 or <0.5, respectively)
  2. body temperature (rectal)
  3. mean arterial pressure
  4. blood pH
  5. heart rate
  6. respiratory rate
  7. serum sodium
  8. serum potassium
  9. creatinine (Double point score for acute renal failure)
  10. hematocrit
  11. white blood cell count
  12. Glasgow Coma Scale (15 minus actual GCS)
B. Age points
AGE (yrs)Points
≤440
45-542
55-643
65-745
≥756
C. Chronic health points

If the patient has a history of severe organ system insufficiency (i.e. liver cirrhosis, portal hypertension, NYHA class IV heart failure, severe respiratory disease, dialysis dependent) or is immunocompromised (i.e. due to chemotherapy, radiation, high dose steroid therapy, or advanced leukemia, lymphoma or AIDS) assign points as follows:

a. for nonoperative or emergency postoperative patients: 5 points
b. for elective postoperative patients: 2 points

The method is optimized for manual calculation, by using integer values and limiting the number of options so that data fits on a single-sheet paper form.

The score is not recalculated during the stay. It is by definition an admission score. If a patient is discharged from the ICU and subsequently readmitted, a new APACHE II score is calculated.

In the original research paper that described the APACHE II score, patient prognosis (specifically, predicted mortality) was computed based on the patient's APACHE II score in combination with the principal diagnosis at admission. [1]

APACHE III

A method to compute a refined score known as APACHE III was published in 1991. [3]

The score was validated on the dataset from 17,440 adult medical/surgical intensive care unit (ICU) admissions at 40 US hospitals.

The prognostic system of APACHE III has two options:

Provides an initial risk classification of severely ill hospitalized patients in defined groups.
Adds additional variables to the APACHE III Score including the primary reason for ICU admission (from a reference list of 212 conditions classified according to etiology, major organ involved, and distinction between surgical/medical categories); age, sex, race and preexisting comorbidities; and location prior to ICU admission (operating room, recovery or emergency department, transfer or readmission from another hospital or ICU).

When possible, the time between the patient's arrival at the hospital and their ICU admission is recorded.

To evaluate the severity of disease 20 physiologic variables are measured, compared to 12 variables for APACHE II.

APACHE III scores range from 0 to 299. [3]

APACHE IV

APACHE IV, published in 2006, is the latest version. [4] The model was developed using data from 104 intensive care units (ICUs) in 45 U.S. hospitals and could be recommended to use in U.S. ICUs.

See also

Related Research Articles

Delirium is a specific state of acute confusion attributable to the direct physiological consequence of a medical condition, effects of a psychoactive substance, or multiple causes, which usually develops over the course of hours to days. As a syndrome, delirium presents with disturbances in attention, awareness, and higher-order cognition. People with delirium may experience other neuropsychiatric disturbances, including changes in psychomotor activity, disrupted sleep-wake cycle, emotional disturbances, and perceptual disturbances, although these features are not required for diagnosis.

<span class="mw-page-title-main">Intensive care medicine</span> Medical care subspecialty, treating critically ill

Intensive care medicine, also called critical care medicine, is a medical specialty that deals with seriously or critically ill patients who have, are at risk of, or are recovering from conditions that may be life-threatening. It includes providing life support, invasive monitoring techniques, resuscitation, and end-of-life care. Doctors in this specialty are often called intensive care physicians, critical care physicians, or intensivists.

<span class="mw-page-title-main">Acute respiratory distress syndrome</span> Human disease

Acute respiratory distress syndrome (ARDS) is a type of respiratory failure characterized by rapid onset of widespread inflammation in the lungs. Symptoms include shortness of breath (dyspnea), rapid breathing (tachypnea), and bluish skin coloration (cyanosis). For those who survive, a decreased quality of life is common.

<span class="mw-page-title-main">Acute pancreatitis</span> Medical condition

Acute pancreatitis (AP) is a sudden inflammation of the pancreas. Causes, in order of frequency, include: a gallstone impacted in the common bile duct beyond the point where the pancreatic duct joins it; heavy alcohol use; systemic disease; trauma; and, in minors, mumps. Acute pancreatitis may be a single event; it may be recurrent; or it may progress to chronic pancreatitis.

There are several scoring systems in intensive care units (ICUs) today.

SAPS II is a severity of disease classification system. Its name stands for "Simplified Acute Physiology Score", and is one of several ICU scoring systems.

The Simplified Acute Physiology Score III is a system for predicting mortality, one of several ICU scoring systems. It is a supplement to the SAPS II scoring system. It has been designed to provide a real-life predicted mortality for a patient by following a well defined procedure, based on a mathematical model that needs calibration. Predicted mortalities are good when comparing groups of patients, and having near-real-life mortalities means, that this scoring system can answer questions like "if the patients from hospital A had been in hospital B, what would their mortality have been?".

PIM2 is a scoring system for rating the severity of medical illness for children, one of several ICU scoring systems. Its name stands for "Paediatric Index of Mortality". It has been designed to provide a predicted mortality for a patient by following a well-defined procedure. Predicted mortalities are good when dealing with several patients, because the average predicted mortality for a group of patients is an indicator for the morbidity of these patients.

The sequential organ failure assessment score, previously known as the sepsis-related organ failure assessment score, is used to track a person's status during the stay in an intensive care unit (ICU) to determine the extent of a person's organ function or rate of failure. The score is based on six different scores, one each for the respiratory, cardiovascular, hepatic, coagulation, renal and neurological systems.

<span class="mw-page-title-main">Intensive care unit</span> Hospital ward that provides intensive care medicine

An intensive care unit (ICU), also known as an intensive therapy unit or intensive treatment unit (ITU) or critical care unit (CCU), is a special department of a hospital or health care facility that provides intensive care medicine.

The King's College Criteria or the King's College Hospital criteria were devised in 1989 to determine if there were any early indices of poor prognosis in patients with acute liver failure. Acute liver failure is defined as the onset of encephalopathy or coagulopathy within 26 weeks of a patient diagnosed with liver disease. Patients with hepatitis B acquired at birth, Wilson's disease and autoimmune hepatitis are included if their disease was identified within the past 26 weeks. These patients are very ill, and have a very high risk of dying of their illness without adequate treatment which may include liver transplantation. It is important that physicians find ways of identifying patients with acute liver failure early in their course who will do poorly, and may require liver transplantation. The King's College Criteria have consistently shown excellent operating characteristics for determining prognosis in these patients. As liver transplantation becomes a more accessible option for patients with acute liver failure, the King's College Criteria serve a role in determining which patients may require transplantation.

An early warning score (EWS) is a guide used by medical services to quickly determine the degree of illness of a patient. It is based on the vital signs. Scores were developed in the late 1990s when studies showed that in-hospital deterioration and cardiac arrest were often preceded by a period of increasing abnormalities in the vital signs.

Critical illness–related corticosteroid insufficiency is a form of adrenal insufficiency in critically ill patients who have blood corticosteroid levels which are inadequate for the severe stress response they experience. Combined with decreased glucocorticoid receptor sensitivity and tissue response to corticosteroids, this adrenal insufficiency constitutes a negative prognostic factor for intensive care patients.

The intensive care unit (ICU) is one of the major components of the current health care system. The advances in supportive care and monitoring resulted in significant improvements in the care of surgical and clinical patients. Nowadays aggressive surgical therapies as well as transplantation are made safer by the monitoring in a closed environment, the surgical ICU, in the post-operative period. Moreover, the care and full recovery of many severely ill clinical patients as those with life-threatening infections occurs as a result of medical intensive care unit.

The Pediatric Risk of Mortality (PRISM) score was developed from the Physiologic Stability Index (PSI) to reduce the number of physiologic variables required for pediatric intensive-care unit (PICU) mortality risk assessment, from 34 to 14, and to obtain an objective weighting of the remaining variables.

<span class="mw-page-title-main">Trauma in children</span> Medical condition

Trauma in children, also known as pediatric trauma, refers to a traumatic injury that happens to an infant, child or adolescent. Because of anatomical and physiological differences between children and adults the care and management of this population differs.

Fraction of inspired oxygen (FIO2), correctly denoted with a capital I, is the molar or volumetric fraction of oxygen in the inhaled gas. Medical patients experiencing difficulty breathing are provided with oxygen-enriched air, which means a higher-than-atmospheric FIO2. Natural air includes 21% oxygen, which is equivalent to FIO2 of 0.21. Oxygen-enriched air has a higher FIO2 than 0.21; up to 1.00 which means 100% oxygen. FIO2 is typically maintained below 0.5 even with mechanical ventilation, to avoid oxygen toxicity, but there are applications when up to 100% is routinely used.

Renal angina is a clinical methodology to risk stratify patients for the development of persistent and severe acute kidney injury (AKI). The composite of risk factors and early signs of injury for AKI, renal angina is used as a clinical adjunct to help optimize the use of novel AKI biomarker testing. The term angina from Latin and from the Greek ankhone ("strangling") are utilized in the context of AKI to denote the development of injury and the choking off of kidney function. Unlike angina pectoris, commonly caused due to ischemia of the heart muscle secondary to coronary artery occlusion or vasospasm, renal angina carries no obvious physical symptomatology. Renal angina was derived as a conceptual framework to identify evolving AKI. Like acute coronary syndrome which precedes or is a sign of a heart attack, renal angina is used as a herald sign for a kidney attack. Detection of renal angina is performed by calculating the renal angina index.

In healthcare, the weekend effect is the finding of a difference in mortality rate for patients admitted to hospital for treatment at the weekend compared to those admitted on a weekday. The effects of the weekend on patient outcomes has been a concern since the late 1970s, and a 'weekend effect' is now well documented. Although this is a controversial area, the balance of opinion is that the weekend have a deleterious effect on patient care —based on the larger studies that have been carried out. Variations in the outcomes for patients treated for many acute and chronic conditions have been studied.

Tertiary peritonitis is the inflammation of the peritoneum which persists for 48 hours after a surgery that has been successfully carried out in adequate surgical conditions. Tertiary peritonitis is usually the most delayed and severe consequence of nosocomial intra-abdominal infection. Patients who acquire tertiary peritonitis are usually admitted to ICU due to the critical, life-threatening nature of the condition which can lead to multi-organ failure despite treatment and has a high mortality rate of 60%. Signs and symptoms of tertiary peritonitis include fever, hypotension and abdominal pain. Diagnosis of the condition is often difficult and treatment intervention should be as early as possible.

References

  1. 1 2 Knaus WA, Draper EA, Wagner DP, Zimmerman JE (1985). "APACHE II: a severity of disease classification system". Critical Care Medicine. 13 (10): 818–29. doi:10.1097/00003246-198510000-00009. PMID   3928249. (This is the first published description of the APACHE II scoring system)
  2. Knaus WA, Zimmerman JE, Wagner DP, Draper EA, Lawrence DE (1981). "APACHE-acute physiology and chronic health evaluation: a physiologically based classification system". Critical Care Medicine. 9 (8): 591–7. doi:10.1097/00003246-198108000-00008. PMID   7261642. S2CID   44301003.
  3. 1 2 Knaus WA, Wagner DP, Draper EA, Zimmerman JE, Bergner M, Bastos PG, Sirio CA, Murphy DJ, Lotring T, Damiano A, et al. (1991). "The APACHE III prognostic system. Risk prediction of hospital mortality for critically ill hospitalized adults". Chest. 100 (6): 1619–36. doi:10.1378/chest.100.6.1619. PMID   1959406. S2CID   1848227..
  4. Zimmerman JE, Kramer AA, McNair DS, Malila FM, et al. (2006). "Acute Physiology and Chronic Health Evaluation (APACHE) IV: hospital mortality assessment for today's critically ill patients". Critical Care Medicine. 34 (5): 1297–310. doi:10.1097/01.CCM.0000215112.84523.F0. PMID   16540951. S2CID   34985998..
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.