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Query: UMLS:C0008031 (
chest pain
)
17,248
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We measured total creatine kinase (CK), CK-MB isoenzyme, and the MB isoforms in 202 serum and plasma samples from nine groups of patients and normal individuals: 39 with acute myocardial infarction (MI), divided according to time between the onset of
chest pain
and blood collection (1-6 h, 7-12 h, and 13-48 h); 26 with
chest pain
for whom an MI was ruled out, sampled at admission; 17 undergoing bypass surgery or cardiac catheterization, sampled within 6 h after either procedure; 17 with acute skeletal muscle injury, sampled within 8 h after injury; 30 marathon runners immediately after a race; 17 runners and other athletes > 12 h after training or a race; 12 with cerebral injury or seizures, sampled at admission; 8 with closed head injury, sampled at admission; and 38 normal subjects. CK-MB (relative index) and MB isoforms (MB2/
MB1
) were respectively increased in 15% and 75% of MI patients 1-6 h after onset, 94% and 94% after 7-12 h, and 88% and 8% after 12 h, and in 87% and 82% of cardiac surgery patients. MB isoforms were increased in most patients with acute skeletal muscle trauma and in subjects examined after exercise, but were within normal limits in patients for whom MI was ruled out, patients with cerebral trauma, and normal individuals. The relative index of MB/total CK was normal in essentially all individuals in the last groups, including those with acute skeletal muscle trauma. We concluded that the CK-MB isoform ratio is increased in both acute skeletal muscle injury and MI. The isoform ratio is most useful for distinguishing recent from old (> 12 h) injury.
...
PMID:Creatine kinase MB isoforms in patients with skeletal muscle injury: ramifications for early detection of acute myocardial infarction. 145 74
We studied a electrophoretic method for creatine kinase (CK, EC 2.7.3.2) MB sub-bands using a discontinuous buffer system on cellulose acetate membrane. The sub-bands (CK-
MB1
and MB2) were clearly separated using a discontinuous buffer consisting of 0.22 mol/1 tris aminomethane-glycine buffer on the anode side and 0.033 mol/l sodium barbital-boric acid buffer on the cathode side at 250 V for 30 minutes. We also examined CK-MB sub-bands in myocardial extracts that showed only a broad MB2. When the extract was incubated with normal serum havings low CK activity at 37 degrees C at MB 1 sub-band appeared within a few hours. We examined the serial changes in these sub-bands in the serum of eight patients with acute myocardial infarction (AMI). The MB2 reached a peak 7-25 hours after onset of
chest pain
, and MB 1 reached a peak 0-12 hours later. The ratio of MB 2 to MB 1 was high at early phase of AMI. (about 7 hours after onset of
chest pain
, mean 1.7 S.D. 0.78) These results indicate that a high MB 2/MB 1 ratio is a more sensitive indicator of enzyme release from necrotic myocardium, and is useful for early diagnosis of AMI.
...
PMID:[Studies on method for electrophoresis of creatine kinase (CK) MB sub-bands and its clinical application]. 260 Oct 72
Following acute myocardial infarction, total CK and CK-MB levels begin to rise 5 to 6 hours after the onset of
chest pain
. The serial profile of the rise and fall of both activities is nearly always indicative of AMI. The recent increase in the use of thrombolytic agents in an attempt to attain reperfusion of occluded coronary arteries alters the enzyme profiles observed in blood after AMI. After successful reperfusion a washout phenomenon occurs in which early restoration of blood flow to damaged myocardium causes an early rise in total CK and MB levels above the normal range 2 to 4 hours after AMI, with earlier and higher peak enzyme values. Recently reports have appeared describing numerous serum and plasma CK-MM and CK-MB isoform patterns after AMI. Following release from injured myocardium CK-MM3 and CK-MB2 (designated the tissue isoforms) are converted in the circulation to post-translation products (MM2, MM1,
MB1
, respectively). Studies have now shown that CK-MM isoform patterns provide a unique means of assessing the time of onset of necrosis and a monitor of the duration of enzyme release from the site of injury. Following AMI, MM3, the MM3/MM1 ratio, or both rises and peaks earlier than either total CK or CK-MB levels. During successful reperfusion, the rate of rise of CK-MM3 is more rapid and the MM3/MM1 ratio peaks earlier than without reperfusion. However, any concomitant release of CK-MM3 from skeletal muscle would decrease the clinical utility of MM isoforms in detecting myocardial damage. Recent advances in technology have shown that CK-MB2 rise parallels the CK-MM increase and also rises earlier than total CK and total MB levels and provides increased specificity for the myocardium. The full potential of the diagnostic utility of MM and MB isoforms will not be realized until a reliable, sensitive, simple, and rapid quantitative assay becomes available.
...
PMID:Diagnostic use of CK-MM and CK-MB isoforms for detecting myocardial infarction. 268 6
Using an electrophoretic method, the changes in the catalytic activities of three CK-MM isoforms (MM1, MM2, MM3) and two CK-MB isoforms (
MB1
, MB2) in the serum of 13 patients with acute myocardial infarction (AMI) have been monitored for 3 days after the onset of
chest pain
. In post-AMI period, MM3 reaches a peak first, 17 h after infarction (394 U/l), followed by MB2 (17.3 h, 190 U/l),
MB1
(20.6 h, 82 U/l), MM2 (28.7 h, 637 U/l), and MM1 (32 h, 780 U/l). According to their faster decay from circulation, MB2 and MM3 have higher fractional disappearance rates (-0.035 and -0.026 per hour, respectively). The MM3/MM1 activity ratio rises beyond the upper limit found in healthy subjects within about 3 h after onset of symptoms and peaks 9.3 h after AMI, even earlier than peaks of isoforms. These characteristics make the ratio an earlier and more sensitive indicator of acute enzyme release from necrotic myocardium.
...
PMID:Serum isoforms of creatine kinase MM and MB in myocardial infarction. An appraisal of quantitative, clinical and pathophysiological information. 360 11
Serum creatine kinase (CK, EC 2.7.3.2) isoenzymes MM and MB were resolved, respectively, into three (MM1, MM2, MM3) and two (
MB1
, MB2) isoforms (subforms derived from the same isoenzyme) by electrophoresis and the isoform patterns were determined in multiple sequential serum samples, timed from the onset of
chest pain
, from 58 patients with acute myocardial infarction (AMI). During the first 3 h after the onset of
chest pain
, the serum isoform activity resembled the pattern seen in normal volunteers. Specimens obtained 6 h after AMI showed predominantly MM3 and MB2 (45% and 11% of the total CK activity, respectively). Between 10 and 72 h, there was a gradual shift in which MM3, MM2 and MB2 decreased, while MM1 and
MB1
increased. MB2 and
MB1
disappeared from the pattern for samples collected after 24-48 h, while MM1 was always the most prominent band at the end of the observation period (66%, range 41-77%, at 48 h). These data suggest that a single determination of CK isoform pattern, drawn between 6 and 48 h after AMI, may provide an effective means of predicting the time of onset of necrosis. There were no significant differences in the CK isoform patterns according to infarct location and functional status of patients.
...
PMID:Isoforms of creatine kinase MM and MB in acute myocardial infarction: a clinical evaluation. 369 4
The diagnostic efficacy of creatine kinase (CK) isoforms (CK-3 and CK-2) was compared with measurement of CK-2 mass concentrations for the early diagnosis of myocardial infarction (MI). Serial serum samples drawn from 76 patients with confirmed MI and 55 non-MI patients were used for determining CK-2 mass concentrations and the MM3/MM1 (CK-3 isoforms) and MB2/
MB1
(CK-2 isoforms) ratios. We compared the diagnostic utility of each by receiver-operating-characteristic (ROC) curve and likelihood ratio analyses. Our results indicate that all three tests were ineffective within the first 4 h after the onset of
chest pain
. All three were most effective at 4-18 h after onset, but both CK-3 and CK-2 isoform ratios were less effective than CK-2 mass concentrations in the next 6-h period (18-24 h). In the critical time between 3 and 6 h, the diagnostic performance of all three was comparable.
...
PMID:Diagnostic evaluation of creatine kinase-2 mass and creatine kinase-3 and -2 isoform ratios in early diagnosis of acute myocardial infarction. 844 62
We evaluated a new analyzer (Cardio REP) specifically designed for cardiac CK-MB isoenzyme and isoforms activity, with a performance time of 24 minutes. Ten AMI patients, with times elapsed between the onset of
chest pain
and admission to hospital ranging from 30 minutes to 4 hours, were monitored every 3-4 hours until the 16th hour of hospitalization. In each serum sample, in addition to total CK-MB and CK-MB isoforms measured by the Cardio REP analyzer, we also assayed total CK activity, CK-MB activity by immunoinhibition method, CK-MB mass concentration, CK-MB isoforms by REP method, troponin T, and myoglobin. The precision study demonstrated acceptable within assay and between assay CVs% for total CK-MB (8.1 and 10.4),
MB1
(9.1 and 14.2), and MB2 (9.1 and 8.2) isoforms. The method was found to be linear up to 371 U/L for MB2 isoform fraction and up to 516 U/L for total CK-MB. Results for CK-MB obtained with the Cardio REP correlated well with those for CK-MB activity obtained with the immunoinhibition method (r = 0.869) and those of CK-MB mass concentration (r = 0.923). The sensitivity of the Cardio REP CK isoforms method was found to be greater than that of the REP CK isoforms method. Time to first increased value of MB2/
MB1
ratio and MB2 isoform was earlier in comparison to that for CK-MB mass concentration and similar to that for myoglobin, a marker that, however, lacks specificity. The diagnostic efficiency of CK-MB isoforms and the availability of a real-time, fully automated method for their measurement suggest that utilization of this biochemical marker in emergency for the early diagnosis of AMI.
...
PMID:Evaluation of a new automated system for the determination of CK-MB isoforms. 858 3
Measurement of creatine kinase (CK) isoforms enables the clinician to detect myocardial tissue damage at an early stage after myocardial infarction. According to the manufacturer's specifications, it should be possible to perform CK isoform analysis automatically using the new Cardio Rep analyser. In order to investigate the suitability of this new analyser we measured the CK MM1-3, and CK
MB1
and 2 isoform patterns, firstly in 30 patients with acute myocardial infarction (AMI), for whom total CK and CK-MB levels were ordered, and secondly in 23 patients with
chest pain
suspected as having AMI (n = 11) or with unstable angina pectoris (UAP) (n = 12). The total time for analysis, including 5 min pre- and 10 min post-analyser run time, was found to be 40 min. For elevated MB2/
MB1
ratios there is a discrepancy between the MB2/
MB1
ratios determined from the densitometric scans concerning the surface and the peak height ratios. The MB2/
MB1
ratios of the studied AMI patients exceeded the upper reference limits approximately 2 h after the onset of symptoms, whereas the CK-MB and total CK levels increased after about 6 h. The MB2/
MB1
ratios from the patients with UAP were either below the detection limit or these patients could be discriminated from patients with AMI when low CK-MB and total CK levels were considered in conjunction. From our results we conclude that assessment of CK isoforms can be performed relatively simply with the new analyser within 40 min. However, for reliable calculation of the MB2/
MB1
ratios, the curve monitoring of the MB2-
MB1
densitometric scans should be improved. The CK isoforms are useful as an early marker for AMI as their reference interval is already exceeded approximately 2 h after an AMI. Moreover, CK isoform analysis might prove to be useful in discriminating at an early stage between AMI and other causes of
chest pain
. This could decrease the number of patients with a false-positive diagnosis admitted to coronary care units, resulting in a reduction of costs.
...
PMID:Implications of automated creatine kinase (CK)-MM1,2,3/CK-MB1,2 isoform analysis as an early marker for the detection of myocardial tissue damage. 898 58
The aims of our study were to evaluate the plasma carboxypeptidase N activity in normal subjects and in patients with acute myocardial infarction and to delineate its relationship with creatine kinase-MB isoforms in monitoring of acute myocardial infarction, carboxypeptidase N being the major determinant of creatine kinase isoform conversion in plasma. The study was carried out in 34 healthy subjects and 19 patients with acute myocardial infarction diagnosed according to the World Health Organization (WHO) criteria in which the blood samples were collected immediately upon admission to the coronary care unit (median time 3.5 hours), every 4 to 6 hours for 24 hours, and every 12 hours until the third day post admission. Carboxypeptidase N activity, total creatine kinase, creatine kinase-MB mass concentration and creatine kinase-MB isoforms were determined in each sample from acute myocardial infarction patients, whereas only carboxypeptidase N and total creatine kinase activities were assayed in samples from healthy subjects. The results showed a high variability in carboxypeptidase N values among healthy subjects (median = 200 U/l; interquartile range = 190-247 U/l) and in the first available samples from acute myocardial infarction patients (median = 213 U/l; interquartile range = 234 U/l) without significant differences between groups and without a correlation between carboxypeptidase N and creatine activities either in healthy subjects or in acute myocardial infarction patients; in the latter group, however, a significant correlation (p < 0.01) with creatine kinase-MB calculated on all samples, was observed. In acute myocardial infarction patients carboxypeptidase N showed time-related variations, reaching the highest levels about 48 h after onset of
chest pain
. A statistically significant difference in carboxypeptidase N values (p = 0.0001) was found before and after creatine kinase-MB peak values as well as before and after MB2/
MB1
normalization. Worthy of note is the finding that in two acute myocardial infarction patients presenting MB2/
MB1
ratios lower than the cutoff value (1.5) throughout the period of observation, the baseline values for carboxypeptidase N were higher than in other patients studied. Our results suggest that the increase of carboxypeptidase N activity after infarction could be induced by an increase in endogenous substrate concentrations, in particular creatine kinase-MB released from damaged myocardium. Furthermore, high baseline levels of carboxypeptidase N will reduce the diagnosis efficiency of creatine kinase-MB isoforms in the diagnosis of acute myocardial infarction.
...
PMID:Carboxypeptidase N and creatine kinase-MB isoforms in acute myocardial infarction. 916 72
Measurement of CK-MB and its isoforms by high-voltage electrophoresis has been proposed as a sensitive test for early detection of myocardial infarction (MI). We performed a prospective study of this test in 231 patients presenting to the Emergency Department with symptoms consistent with ischemic
chest pain
. Blood specimens were obtained at 0, 1, and 3 h following presentation, and plasma was immediately frozen and analyzed within 1 week by high-voltage electrophoresis for total CK-MB and isoforms. The test was considered positive whenever total CK-MB was elevated (>6 U/L) or the cardiac isoform MB2 was relatively increased (MB2 > 2 U/L and MB2/
MB1
> 1.7). This test had a sensitivity of 68% overall and 55% for specimens collected within 3 h of symptom onset. It was positive within 3 h of presentation in 36/39 (92%) of patients with confirmed MI. Specificity was 92% overall and did not vary with time after symptoms. The CK-MB alone, at the cutoff of 6 U/L, had lower sensitivity overall (56%; p = 0.01) and within 3 h of onset (39%; p = 0.03), and higher specificity overall (98%; p < 0.001). Lowering the cutoff for CK-MB alone to match the sensitivity of the isoform test caused a greater loss of specificity. It is concluded that analysis of CK-MB by high-voltage electrophoresis is an effective method for rapid diagnosis of MI, with the isoform analysis enhancing early sensitivity.
...
PMID:Evaluation of CK-MB isoform analysis for early diagnosis of myocardial infarction. 995 Mar 92
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