Attaollah Ghahiri1, Aidin Moshreffar1, Aida Najafian2, Mojdeh Ghasemi3, Hatav Ghasemi Tehrani1. 1. Department of Obstetrics and Gynecology, Al Zahra Hospital, Isfahan University of Medical Sciences, Isfahan, Iran. 2. Department of Obstetrics and Gynecology, Hormozgan University of Medical Sciences, Bandar Abbas, Iran. 3. Research Office, Shahid Beheshti Hospital, Isfahan University of Medical Sciences, Isfahan, Iran.
Abstract
BACKGROUND: Our goal was to assess the diagnostic value of creatine phosphokinase (CPK) and its isoenzyme CPK- muscle brain (MB) in ectopic pregnancy (EP) in order to locate a simpler diagnostic approach for EP. MATERIALS AND METHODS: This was a prospective study that performed consecutive sampling for 20 months in two major hospitals in Isfahan, Iran. All pregnant patients in their first trimester of gestation that presented with complaints of vaginal bleeding, abdominal pain, or both enrolled in this study. Blood sampling was performed for laboratory analyses (CPK, CPK-MB). After their diagnosis was established, patients were put in either the EP or non-EP group. We used SPSS software version 10 for data analysis, diagnostic parameters were determined, and a relative operating characteristic (ROC) curve was plotted for each biochemical marker. RESULTS: A total of 106 patients, 53 in the EP group and 53 in the non-EP group enrolled in this study. The results for CPK were as follows: sensitivity (69.81%), specificity (64.15%), positive predictive value (PPV; 66.07%), negative predictive value (NPV; 68%), positive likelihood ratio (PLR) (1.95), and negative likelihood ratio (NLR) (0.49). The results for CPK-MB were: sensitivity (71.7%), specificity (56.6%), PPV (62.29%), NPV (66.7%), PLR (1.65), and NLR (0.5). The area under the ROC curve for CPK was 0.692 and for CPK-MB it was 0.647. CONCLUSION: Although we have observed a significant elevation in CPK and CPK-MB serum levels in EP, transvaginal ultrasound (TVS) is still the better diagnostic tool for EP.
BACKGROUND: Our goal was to assess the diagnostic value of creatine phosphokinase (CPK) and its isoenzyme CPK- muscle brain (MB) in ectopic pregnancy (EP) in order to locate a simpler diagnostic approach for EP. MATERIALS AND METHODS: This was a prospective study that performed consecutive sampling for 20 months in two major hospitals in Isfahan, Iran. All pregnant patients in their first trimester of gestation that presented with complaints of vaginal bleeding, abdominal pain, or both enrolled in this study. Blood sampling was performed for laboratory analyses (CPK, CPK-MB). After their diagnosis was established, patients were put in either the EP or non-EP group. We used SPSS software version 10 for data analysis, diagnostic parameters were determined, and a relative operating characteristic (ROC) curve was plotted for each biochemical marker. RESULTS: A total of 106 patients, 53 in the EP group and 53 in the non-EP group enrolled in this study. The results for CPK were as follows: sensitivity (69.81%), specificity (64.15%), positive predictive value (PPV; 66.07%), negative predictive value (NPV; 68%), positive likelihood ratio (PLR) (1.95), and negative likelihood ratio (NLR) (0.49). The results for CPK-MB were: sensitivity (71.7%), specificity (56.6%), PPV (62.29%), NPV (66.7%), PLR (1.65), and NLR (0.5). The area under the ROC curve for CPK was 0.692 and for CPK-MB it was 0.647. CONCLUSION: Although we have observed a significant elevation in CPK and CPK-MB serum levels in EP, transvaginal ultrasound (TVS) is still the better diagnostic tool for EP.
Ectopic pregnancy (EP) occurs when the developing
blastocyst becomes implanted at a site
other than the endometrium of the uterine cavity.
The most common extra-uterine location is
the fallopian tube, which accounts for 98% of
all ectopic gestations. It is important to remember
that hemorrhage from EP is still the leading
cause of pregnancy-related maternal death
in the first trimester and accounts for 4-10% of
all pregnancy-related deaths, despite improved
diagnostic methods that lead to earlier detection
and treatment. The development of a sensitive,
specific radioimmunoassay for human chorionic
gonadotropin (hCG) and the early detection of
intrauterine pregnancy by high resolution transvaginal
ultrasound (TVS) have helped to enable
the timely diagnosis of an extra-uterine pregnancy
(1 -6 ).Prior studies have shown the probability that
creatine phosphokinase (CPK), an intracellular
enzyme that catalyzes the formation of adenosine
triphosphate (ATP) from creatine phosphate
and adenosine diphosphate (ADP) might be practical in detecting an EP (1 -6 ). However,
other investigations have shown that CPK
is not useful in detecting EP (7 -16 ). Only two
studies have evaluated the diagnostic value of
CPK isoenzymes, a study by Kurzel et al. estimated
CPK-MM levels and found a poor difference
(14 ), Katsikis et al. (6 ) demonstrated that
decreased CPK-MB has a relative ratio with the
diagnosis of EP.This research was planned to assess the predictive
capability of CPK and its isoenzyme (CPKMB)
in diagnosing an EP.
Materials and Methods
In this prospective study, pregnant patients between
8-10 weeks of gestation, who presented
to the emergency departments of Al-Zahra and
Shahid Beheshti hospitals in Isfahan with abdominal
pain, vaginal bleeding, or both were
included in this study. The duration of the study
was from February 2007 to September 2008. Exclusion
criteria were: history of injury, muscle
diseases, chronic renal failure, surgery, intramuscular
injections, heart problems, hypothyroidism,
respiratory distress, malignancies,
and consumption of drugs (such as codeine,
carbenoxolone, dexamethasone). General information
was collected from the patients, and
their blood was drawn and sent to the laboratory,
immediately following venipuncture. Informed
consent was signed by all patients. Patients were
followed to determine their diagnoses and then
were placed into either the EP or non-EP group.
The diagnosis was made by either TVS (the
standard test for EP), β-hCG concentration, or
both. Patients were approached until there were
53 patients in the EP group and 53 in the non-EP
group. The estimation of sample size was based
on a study by Katsikis et al. (6 ). that reported
a sensitivity of 82.5%, specificity of 95%, and
PLR of 8.2. SPSS software version 10 was used
for data analysis and determination of sensitivity,
specificity, negative predictive value (NPV),
positive predictive value (PPV), negative likelihood
ratio (NLR) and positive likelihood ratio
(PLR) for both CPK and CPK-MB serum levels.
Relative operating characteristic (ROC) curves
were plotted for both CPK and CPK-MB serum
levels. The areas under the ROC curves (AUC)
were calculated and compared with the AUC
(0.5) of the non-diagnostic test.
Results
The mean maternal age was 28.1 ± 4.76 years;
for the EP group it was 28.62 ± 4.97 years; for the
non-EP group, it was 27.58 ± 4.53 years. Based
on the t test, the mean maternal age in these two
groups have no positive significant diferences
(p=0.263). According to the ROC curve, the cutoff
point for CPK serum concentration for the
diagnosis of EP was 61 IU/L, and for CPK-MB
it was 15.6 IU/L (Table 1). On the basis of a chisquare
test, there was a significant relationship
between CPK level and the type of pregnancy
(p=0.0001), as well as between the CPK-MB
level and pregnancy type (Table 2, p=0.003).
Table 1
CPK serum levels
CPK
<61 IU/L
CPK
>61 IU/L
Total
EP Group (n) within group%
16
37
53
30.2
69.8
100
Non-EP (n) within group %
34
19
53
64.2
35.8
100
Total (n) within group %
50
56
106
47.2
52.8
100
Table 2
CPK-MB serum levels
CPK
<15.6 IU/L
CPK
>15.6 IU/L
Total
EP Group (n)
within group%
15
38
53
28.3
71.7
100
Non-EP (n)
within group%
30
23
53
56.6
43.4
100
Total (n)
within group %
45
61
106
42.5
57.5
100
CPK serum levelsCPK-MB serum levelsIn this study, the CPK concentration of greater
than 61 IU/L as the cutoff point for the diagnosis
of EP had the following results: sensitivity
(69.81%), specificity (64.15%), PPV (66.07%),
NPV (68%), PLR (1.95), and NLR (0.49). The results
for CPK-MB at a concentration greater than
15.6 IU/L as a cutoff point for the diagnosis of
EP were: sensitivity (71.7%), specificity (56.6%),
PPV (62.29%), NPV (66.7%), PLR (1.65), and
NLR (0.5).The ROC curve plotted for CPK showed that
the AUC was 0.692, whereas for CPK-MB the
AUC was 0.647. Based on the Chi-square test
there was no difference between these two
biochemical markers for the diagnosis of EP
(p=0.517).
Discussion
Blastocyst implantation and invasion in the
fallopian tube, where there is no submucosal
layer, results in damage to the muscular layer of
the tube and thus an increase of CPK in the maternal
serum. This mechanism was first thought
to be helpful as an indicator for the early diagnosis
of EP by Lavie et al. (1 ). This conclusion
was further reiterated by other reports (2 -6 ).
However, in contrast to these findings, Vandermolen
and Borzelleca have proven that serum
creatine kinase and its level in maternal serum
cannot significantly predict EP (7 ), which have
also been accepted by other researchers (8 -11 ).
Katsikis et al. (6 ) measured the level of this
enzyme and its isoenzyme and suggested that
CPK-MB could be considered an early indicator
of EP.These controversies emerged us for this recent
trial. TVS and serial β-hCG determination
can be suggestive of EP, particularly when
the gestational sac is not visualized inside the
uterus. However, these tools are not the standard
for diagnosing EP because of their PPV and
NPV. The current study has found a significant
CPK concentration of more than 61 IU/L to
have a sensitivity of 69.81% and a specificity
of 64.15% (with a PPV of 66.07% and an NPV
of 68%). We also found an primary increase at
serum CPK-MB levels greater than 15.6 IU/L
have a 71.7% sensitivity, 56.6% specificity,
PPV of 62.29% and NPV of 66.72%. These data
are similar to the results of the above mentioned
articles (1 -6 ), however better diagnostic tools
are necessary.
Conclusion
Considering the sensitivity and positivity of
CPK and its isoenzyme CPK-M, it appears that
laparoscopy remains the gold standard diagnostic
tool for recognition and confirmation of EP.