Creatine Kinase (CK), Total Plus Isoenzymes, Serum
Creatine Kinase (CK), Total Plus Isoenzymes, Serum | | | |
| Number | | 002154 |
| CPT | | 82550 (total); 82552 (isoenzymes) |
| Synonyms | | CK Fractionation ; CK Isoenzymes ; CPK Isoenzymes ; Creatine Phosphokinase Isoenzymes |
| Test Includes | | Total CK and relative percentage of BB (CK-1), MB (CK-2), and MM (CK-3); percentage of macro CK, if present |
| Special Instructions | | State patient's sex on the request form. |
| Specimen | | Serum |
| Volume | | 1 mL |
| Minimum Volume | | 0.5 mL |
| Container | | Red-top tube or gel-barrier tube |
| Collection | | To avoid delays in turnaround time when requesting multiple tests on frozen samples, please submit separate frozen specimens for each test requested. |
| Storage Instructions | | Refrigerate up to 48 hours. Freeze (-20°C) up to 2 weeks. |
| Patient Preparation | | CK is most commonly elevated in acute myocardial infarction (AMI) in which it has its greatest usefulness. Collection of specimen at onset of symptoms to establish baseline values is needed. A patient at onset of AMI will have normal results, but some patients reach medical attention at or beyond CK peak. To support the diagnosis of AMI, three CK isoenzyme determinations have classically been recommended, one on admission, a second 12 hours after admission, a third 24 hours after admission. Another at 48 hours may be needed. CK-MB usually peaks between 15 and 20 hours after the onset of a myocardial infarction. Pappas summarizes current literature regarding timing as follows. In non-Q wave, incomplete occlusion, nontransmural MI, CK-MB peaks on the average 15 hours from onset. In Q wave (complete occlusion) (transmural) infarction, CK-MB average peak is 17-20 hours after onset of symptoms. He emphasizes the importance of a sample for CK-MB drawn 16 hours after onset.1 When increased CK-MB values have returned to normal, CK isoenzyme determinations are usually no longer required. |
| Causes for Rejection | | Moderate or excessive hemolysis |
| Reference Interval | |
| Total CK | |
| Male | 24-204 U/L |
| Female | 24-173 U/L |
| Macro Type 2 | Not Observed |
| CK-MM | 97%-100% |
| Macro Type 1 | Not Observed |
| Ck-MB | 0%-3% |
| CK-BB | 0% |
|
| Use | | Diagnose myocardial infarction (MI). Three fractions normally may be found, each an isoenzyme: - MM is found in normal serum.
- MB is the myocardial fraction associated with MI and occurs in certain other states. MB can be used in estimation of infarct size.
MB increases have been reported with entities which cause damage to the myocardium, such as myocarditis, some instances of cardiomyopathy, and with extensive rhabdomyolysis, Duchenne muscular dystrophy, malignant hyperthermia, polymyositis, dermatomyositis, mixed connective tissue disease, myoglobinemia, Rocky Mountain spotted fever, Reye syndrome and rarely in rheumatoid arthritis with high titer RF.2 CK-MB does not generally abruptly rise and fall in such nonacute MI settings, as it does in acute myocardial infarct (AMI). - BB is rarely present. BB has been described as a marker for adenocarcinoma of the prostate, breast, ovary, colon, adenocarcinomas of gastrointestinal tract, and for small cell anaplastic carcinoma of lung. BB has been reported with severe shock and/or hypothermia, infarction of bowel,3 brain injury, stroke, as a genetic marker in some families with malignant pyrexia, and with MB in alcoholic myopathy.
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| Limitations | | Exercise, intramuscular injections, myxedema, grand mal seizures, prior trauma or surgery, and acute MI very early or late lead to the combination of increased total CK but usually normal CK-MB. Increased CK-MB has been described in marathon runners without MI.4 CK isoenzyme analysis is not usually practical when the total CK is very low, although in elderly people with low muscle mass, the use of sensitive mass concentration assays may be useful. A single CK isoenzyme examination may be misleading. One should look for a pattern in serial CK isoenzyme analyses and seek confirmation with the isoenzymes of LD (LDH), ideally beginning with onset to establish the baseline. LD isoenzyme 1:2 flip is most consistently found about 2 days after onset of acute infarction of myocardium. The diagnosis of myocardial injury should not be based solely on MB isoenzyme, but rather should be supported by clinical findings, ECG, and often other laboratory parameters (ie, confirmation by LD isoenzymes).1 |
| Methodology | | Total: kinetic; isoenzymes: agarose gel electrophoresis with densitometry |
| Additional Information | | CK-MB is found in much higher concentrations in cardiac
muscle than in ordinary skeletal muscle.
CK-MB is usually not elevated in exercise (total CK
elevated); myxedema (total CK elevated in about half of
cases); injections into muscle (total CK elevated);
strokes, CVA, and other brain disorders in which total CK
may be increased; pericarditis; pneumonias or other lung
diseases; pulmonary embolus; seizures (CK may be very high
but no great MB increase, if any). Although CK-MB is not
usually increased in angina, some CK-MB elevations are
recognized in angina patients, depending partly on
laboratory methodology.
Atypical forms of CK occur. Macro CK Type 1 is usually a
complex of CK-BB and IgG (or rarely CK-MM with IgA) and
created via an antigen-antibody reaction. It can lead to
the false-positive diagnosis of acute myocardial infarction
by CK-MB interference in some immunoassay techniques. In
quantitative total CK assays, Macro CK is indistinguishable
from normal CK and can cause an elevation of the total CK,
although total CK may also be normal. Macroenzymes should
be suspected when enzymes levels are persistently raised
with relatively constant levels and there is no obvious
clinical explanation or other laboratory abnormality. The
clinical relevance of Macro CK Type 1 is not clearly
established. It is not associated with a particular type of
disease and has been observed in patients with various
diseases, as well as in apparently healthy individuals.
Occurring more often in women than men and in patients
older than 70 years than in the 20-69 year age group, it is
likely a marker or consequence of cellular damage in a
minority of predisposed individuals, predominately women
and elderly people. There are several reported disease
associations, including hypothyroidism, neoplasia,
auto-immune disease, myositis, and cardiovascular disease.
The last two have the strongest reported associations and
may support the diagnosis of an autoimmune process, but
this may in part be explained by a higher frequency of
requests for CK levels in these groups of
patients.5 Myositis,
including autoimmune myositis, polymyositis, malignancy-
associated dermatomyositis, and drug-induced myositis, has
been diagnosed in >50% of the patients with Macro CK
Type 1.6
Macro CK Type 2 is an oligomeric mitochondrial CK complex
that migrates cathodically, or close to CK-MM. It is found
primarily in adults who are severely ill with malignancies
or liver disease or in children who have myocardial
disease. It occurs transiently in about 1% of hospitalized
patients and indicates a poor prognosis, except in
children. Total CK is always
elevated.7 |
| Footnotes | |
- Pappas NJ Jr, "Enhanced Cardiac Enzyme
Profile," Clin Lab Med, 1989, 9:689-716.
- Wolf PL, "Common Causes of False-Positive
CK-MB Test for Acute Myocardial Infarction," Clin Lab
Med, 1986, 6(3):577-581.
- Fried MW, Murthy UK, Hassig SR, et
al, "Creatine Kinase Isoenzymes in the Diagnosis of
Intestinal Infarction," Dig Dis Sci, 1991,
36(11):1589-1593.
- Seigel AJ, Silverman LM, and Evans
WJ, "Elevated Skeletal Muscle Creatine Kinase MB Isoenzyme
Levels in Marathon Runners," JAMA, 1983,
250(20):2835-2837.
- Laureys M, et al, "Macromolecular Creatine
Kinase Type 1: a Serum Marker Associated with Disease,"
Clin. Chem, 1991, 37(3), 430-434.
- Lee KN, et al, "Relevance of Macro Creatine
Kinase Type 1 and Type 2 Isoenzymes to Laboratory and
Clinical Data," Clin. Chem, 1994, 40(7),
1278-1283.
- Stein Wolfgang, et al, "Macro Creatine Kinase
Type 2: Results of a Prospective Study in Hospitalized
Patients," Clin. Chem, 1985,
31(121959-121964).
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