Sudan Journal of Medical Sciences
Volume 12, Issue no. 4, DOI 10.18502/sjms.v12i4.1354
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Research Article

The Level of Ischemic Modified Albumin (IMA)
as Risk Marker for Cardio Vascular Disease
(CVD) among some diabetic patients (type II)
in Khartoum State-Sudan
Sadik I.1, Yagoub Z.2, Sayed N.3, El Nour A.1, Abide El Hameed M.1, and Satee B.
Abid1
1Faculty of medical laboratory science, Omdurman Islamic university
2Faculty of medical laboratory science, Sharq Al Nile College
3Pediatric Department, turkey hospital Khartoum

Abstract
Background: Recent literature reports show large interest in ischemic modified
albumin (IMA) biochemical marker for detection of myocardial injury. Special
attention is focused in estimation of IMA test for the diagnosis and evaluation
of myocardial ischemia as well as others acute coronary syndrome in emergency
patients. Objective: evaluation of ischemia-modified albumin (IMA) in well controlled
and uncontrolled patients with type 2 diabetes mellitus and estimation of its
connection with cardiovascular disease.Measurement the levelof IMA as risk marker
for cardio vascular disease (CVD) in diabetic patients that arrived to emergency
department with signs and symptoms of CVD. Methodology: 140 subjects enrolled
in this study ,70 diabetes mellitus patients with signs and symptoms of CVD, and
other 70 apparently non diabetic healthy subjects’ as controls, , the levels of
biomarker IMA was measured as the risk marker of CVDin controlled and uncontrolled
diabeticpatients with type2,the Diagnostic potential was evaluated by receiver
operating characteristic analysis and their relationships were analyzed. This study
was done in Shab Hospital, Khartoum. Period from 1st of February 2015 to October
2015. Results: The results showed that CVD were predominant among diabetic female
57 % and peaked at age 75.5 years among 40-75 year old. The IMA was significantly
increase in diabetic patients when compare with normal healthy group with cut off
value ( 0.97 IU/L ), and there is also significantly increase in IMA level in uncontrolled
diabetic patients (Mean ± SD; 14.70 + 10.66) that presented with acute chest pain
and havea signs and symptoms of cardiac ischemia when compared with the well-
controlled diabetic patients(Mean ± SD; 3.74 ± 3.68). controlled and uncontrolled
diabetic patients were determined by the level of their HBA1c and comparison with
the means of IMA level in their serum. Conclusions: increase IMA level in poor control
and long stand diabetic patients could help to identify the higher risk for develop to
CVD, and The most common complication such as suffering from local or systemic
hypoxic conditions, as acute ischemic stroke, peripheral vascular disease.

Keywords: Ischemia, Type 2 diabetes mellitus, cardiovascular disease, Ischemic
Modified Albumin

How to cite this article: Sadik I., Yagoub Z., sayed N., El nour A., Abide El Hameed M., and Satee B. Abid, (2017) “The Level of Ischemic Modified
Albumin (IMA) as Risk Marker for Cardio Vascular Disease (CVD) among some diabetic patients (type II) in Khartoum State-Sudan,” Sudan Journal
of Medical Sciences, vol. 12 (2017), issue no. 4, 231–239. DOI 10.18502/sjms.v12i4.1354

Page 231

Corresponding Author: Isam

sadik; email:

isnaalah@outlook.com

Received 10 October 2017

Accepted 18 December 2017

Published 28 December 2017

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Isam Sadik et al. This

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Sudan Journal of Medical Sciences Isam Sadik et al

1. Introduction

Recent literature reports show large interest in new biochemical marker- ischemic
modified albumin (IMA) for detection of myocardial injury. Special attention is focused
in estimation of IMA test for the diagnosis and evaluation of myocardial ischemia as
well as others acute coronary syndrome in emergency patients [1]. Because ischemia,
and the resulting biochemical changes, can occur in any vessel, the specificity of IMA
for cardiac ischemia is unclear [1]. Myocardial ischemia and accompanying hypoxia
induced the structural modification of human serum albumin (HAS)[2]. HAS performs
many essential functions in organism, among the others direct protective oxidative
stress. This molecule represents one of the circulating antioxidant in plasma and plays
a vital role in the efficient antioxidant defense of the organism [2, 3].

There are several data on IMA in patients with different states with ischemia
of non-cardiac origin such as systemic sclerosis [4, 5] peripheral vascular disease,
skeletal muscle ischemia during arthroscopic knee surgery and exercise induce, but no
one concerns diabetes [6]. Hyperglycemia and oxidative stress can induce chronic
ischemia in diabetic patients. It could lead to necrosis of different tissues [7, 8].
Diabetes mellitus is a group of metabolic diseases characterized by hyperglycemia
resulting from defects in insulin secretion and insulin action or both. The chronic
hyperglycemia is associated with long-term damage, dysfunction, and failure of
normal functioning of various organs, especially the eyes, kidneys, nerves, heart,
and blood vessels [9]. The prevalence of diabetes mellitus is rising all over the world
and have been increasing rapidly recently in Sudan reach 1.4 million cases in 2015
[10]. Uncontrolled state of hyperglycemia leads to a variety of complications including
peripheral vascular diseases, nephropathy, neuropathy, retinopathy, morbidity, and/or
mortality. Type 2 diabetes and their related complications of hypertension, hyperlipi-
demia and atherosclerotic vascular disease and also demonstrated an association
of metabolic syndrome with the development of cardiovascular disease (CVD), and
more confirmation related to mortality rate increment was given by Type 2 diabetes
and their related complications cardiovascular disease remains the leading cause of
death, and myocardial infraction (MI) tend to be more extensive and have poorly
survival rate than in age, weight and sex matched in individuals without diabetes
[11].

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2. Material and Methods

Study design

This quantitively exploratory descriptive research study was done Al shab’s Hospital
for Cardiology and Chest in Khartoum during 1st of February 2015 to October 2015.

Inclusion criteria:

Test group: Standardized clinical data were collected for each patient, which included
time of presentation at the emergency department, approximate duration of symp-
toms of the acute chest pain.

Exclusion criteria:

Patients with liver disorders, autoimmune disorders, pregnant women, patients with
symptoms and signs suggestive of acute mesenteric ischemia, acute renal failure,
peripheral vascular disease, or brain ischemia were not enrolled in the study.

Study population

Patient Selection

Seventy patients with type 2 diabetes mellitus, arriving to Emergency unit in hospi-
tal. suffering from acute chest pain with manifestations suggestive of acute myocardial
ischemia, including those such as chest pain, shortness of breath, lower jaw pain, left
arm pain, epigastric pain, new or increasing lower extremity edema, palpitations, and
other symptoms suggestive of an anginal equivalent. The ECG measured in the ED as
part of the standard of care at the AL Shab Hospital. ‘

Control group selection

Seventy healthy volunteers’ individuals’ age and sex matched whom didn’t have any
evidence of diabetes and coronary artery disease were taken as the control group.

Samples processing

Demographic dates(sex, age), an ECG and Biochemical dates were collected .Blood
for IMA and HbA1C levels were collected within two hours of arrival, IMA riskmarker
testing were performed before any heparin/thrombolytic treatment was started. Blood
samples collected in tubes containing lithium heparin at the time of the patient’s pre-
sentation to the emergency department, centrifuge for 5 minutes and preserve at -70
C.

Technique of use:

Ischemic Modified Albumin (IMA): that assayed in intervals at 2 - 4 hours and 6 - 8
hours. The microtiter plate provided in this kit has been pre-coated with an antibody
specific to IMA. Standards or samples are then added to the appropriate microtiter

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plate wells with a biotin-conjugated antibody preparation specific for IMA and Avidin
conjugated to Horseradish Peroxidase (HRP) is added to each microplate well and
incubated.Then a TMB (3,3’,5,5’ tetramethyl-benzidine) substrate solution is added to
each well. Only those wells that contain IMA, biotin-conjugated antibody and enzyme-
conjugated Avidin will exhibit a change in color. The enzyme-substrate reaction is ter-
minated by the addition of a sulphuric acid solution and the color change is measured
spectrophotometrically at a wavelength of 450 nm ± 2 nm. The 3 concentration of
IMA in the samples is then determined by comparing the O.D. of the samples to the
standard: reference values reported by the manufacturer (0.21+ 0.65)by EISA themicro
titer plate provided kit has been pre-coated with an antibody specific to IMA.

HbA1c assay: was done by method based on boronate affinity chromatography using
NYCOCARD READER II.

Ethical consideration

The study protocol was approved by ethical committee for medical and health
research at Omdurman Islamic University and local ethics committee of Medical
Director of AL Shab Hospital- Khartoum. Data analysis was done using statistical
package SPSS version Parametric values were analyzed using one-way analysis of
variance (ANOVA), followed by T. test and Pearson’s correlation analysis, used for
statistical analysis of the data; p < 0.05 was considered to be statistically significant‘

3. RESULTS

This study was conducted on 70 Known diabetic patients (type 2) arrived to the emer-
gency department of AlShab Hospital, Khartoum state, with acute chest pain, as case
group, and 70 apparently non diabetic healthy subjects’ volunteers whom didn’t have
any evidence of coronary artery disease. Age and sex for both groups were matched.

Table 1 shows that demographics dates 30 male (43%) and 40 female (57%) and
the 70 healthy control group 30 male (43%) and 40 female (43%). And age means in
2 groups

was (57.5 ±17.6) versus (59.4±18.5) years (p =0.992). There was no significant
difference Table:2 shows that means level of IMA in both diabetic patients ( case
group) and in the normal healthy non diabetic control group. means ± SD (10.78±10.25),
(3.21±10.73) respectively , (P.Value 0.003), There was significant difference
Figure 1 shows that The diagnostic performance of IMA obtained from Receiver

operating characteristic, area under curve (ROC , AUC=0.84.) have a sensitivity (81.4%
)and specificity (80%) at cut off value =0.97

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Group Frequency Percent Meanof Age
±SD

P.value

case Female 40 57.0% 57.5 ±17.6 0.992
Male 30 43.0%

Total 70 100.0%

control Female 40 57.0% 59.4±18.5
Male 30 43.0%

Total 70 100.0%

T 1: Baseline demographic (Sex & age) characterizations in case and the control group.

Group Number Mean Std.
Deviation

P.value

AMI case 70 10.78 10.25 0.03

control 70 3.21 10.73

T 2: Comparison means of plasma (IMA) in case group and control group.

HBA1c % level in DM N Mean Std.
Deviation

P.value

AMI IU\mL ≤ 7%
HBA1c

25 3.74 3.68 0.0001

>7%
HBA1c

45 14.70 8.66

T 3: IMA means level within Diabetic Groups (Controlled Group = ≤ 7% HBA1c with HBA1c level,
Uncontrolled > 7% HBA1c)

Table 3. shows that Serum levels of IMA were high significant different when com-
pare the poor controlled diabetic group (45 patients , HbA1c > 7%) with signs and
symptoms of ischemic heart disease ,and good controlled diabetic group (25 patients
HbA1c < 7%) , Mean± SD; (14.70±8.66), (3.74± 3.68), respectively P. Value 0.0001.
Figure 2 shows that Uncontrolled diabetic patients (HbA1c > 7 % ) with long during

have high frequency level of IMA ,whereas controlled patients(HbA1c < 7 % ) have
a lower frequency , Figure 2 shows that the female have high frequency to D.M than
male.

4. Discussion

The IMA measurement as a marker of myocardial ischemia without myocardial necro-
sis and/or preceding myocardial necrosis has introduced the hope for improved diag-
nosis in patients with IHD without or with non-specific ECG changes [12]. IMA has been
proven to be an early biochemical marker to detect ischemia in patients of myocardial

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Sudan Journal of Medical Sciences Isam Sadik et al

Figure 1: Diagnostic performance of IMA as risk marker in diabetic patients, AUC=0.84. Sensitivity=81.4%
and specificity=80% at cut off value =0.97.

infarction. The lack of oxygen modifies albumin at N-terminus residues, thus decreas-
ing its affinity to Co (II) [13].

Increased IMA levels have been found in a number of conditions with an ischemic
element in their pathophysiology. Only one preliminary study has been reported so
far in diabetes mellitus with vascular complications, which showed increased levels
of IMA and its positive correlation with glycated haemoglobin (HbA1C), therefore this
study was planned to analyze IMA levels in type 2 diabetes mellitus patients devoid
of renal and cardiovascular complications [14, 15].

The levels of IMA were expressed as IU/ml units, in study population use it as risk
marker for cardiovascular disease. We found that the Serum levels of IMA were signif-
icantly higher in diabetic patients when compared with normal healthy non diabetic (p
value = 0.003)this agree with previous study show that the IMA is a novel marker of
tissue ischemia and accepted as a marker of oxidative stress in type 2 diabetes patients
[15] and others study report that definite and precise mechanisms for IMA production
in vivo, it appears to be related to the generation of reactive oxygen species (ROS)
due to ischemia-reperfusion that modifies metal binding domains of albumin molecule
[16]. Diabetic complications are due to various micro and macroangio-pathic events
producing increased oxidative stress and decreased levels of antioxidants, which can
lead to modification of albumin molecule of IMA than patients with less than 5 years

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Figure 2: Histogram shows long–stand diabetes patients AMI levels frequency accordance to gender. (1
represent female, 2 represent males).

duration of diabetes(long-stand diabetes) have a lower than the other one [18, 17]. In
this current study there was significantly difference increase in IMA level among poor
controlled (HBA1c > 7%) diabetic patients ( mean; 14.70 ± 8.66)when compared with
the good controlled(HBA1c < 7%), diabetic (mean; 3.74 ± 3.68), the patients(long-
stand diabetes) duration more than 5 years have high frequency level of IMA than
patients with less than 5 years duration .By referring to the gender (Figure 2) show
that the female have high frequency of IMA Ul/ml level rather than male.

5. Conclusion

Ischemic Modified Albumin level was elevated significantly within long duration and
uncontrolled diabetic patient whom have sign of early myocardial ischemia, As cardiac
biomarkers IMA show as highly sensitive for early diagnostic of acute chest pain.

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	Introduction
	Material and Methods 
	RESULTS
	Discussion
	Conclusion
	References