Sudan Journal of Medical Sciences
Volume 14, Issue no. 1, DOI 10.18502/sjms.v14i1.4381
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Research Article

Clinical and Biochemical Manifestations of
Severe Sickle Cell Anemia in Adult Patients in
Steady State in Ile-Ife, Nigeria
Oguntoye Oluwatosin Oluwagbenga1, Ndububa Dennis A.2, Yusuf Musah.1,
Bolarinwa Rahman A.3, and Ayoola Oluwagbemiga O.4

1Department of Internal Medicine, Afe Babalola University Ado-Ekiti/Federal Teaching Hospital,
Ido-Ekiti, Ekiti State, Nigeria
2Department of Medicine, Obafemi Awolowo University, Ile-Ife/Obafemi Awolowo University
Teaching Hospitals Complex, Ile-Ife, Osun State, Nigeria
3Department of Hematology, Obafemi Awolowo University, Ile-Ife/Obafemi Awolowo University
Teaching Hospitals Complex, Ile-Ife, Osun State, Nigeria
4Department of Radiology, Obafemi Awolowo University, Ile-Ife/Obafemi Awolowo University
Teaching Hospitals Complex, Ile-Ife, Osun State, Nigeria

Abstract
Background: There are documented established markers (indices) of disease severity
in patients with sickle cell anemia (SCA) and they determine the course of the disease.
This study investigated the pattern and prevalence of some of these markers of disease
severity in adult patients with SCA in steady state attending the hematology clinic of
a federal tertiary teaching hospital in Ile-Ife, Nigeria.
Materials and Methods: This was a descriptive study. Basic demographic data and
relevant clinical information was obtained using a well-structured questionnaire and
the case files (hospital records) of 50 consecutive SCA (HbSS) patients.
Results: The study group comprised of 21(42%) males and 29(58%) females. The age
range was 18–45years with a mean(±SD) of 27.6±7.607. Hepatomegaly(64%), frequent
episodes of vaso-occlusive crisis, that is, ≥ 3 episodes per year(30%) and Dactylitis in
infanthood(26%) were the most common clinical parameters identified in these patients
while a high serum total bilirubin of > 51µmol/L(26%) was the most common laboratory
parameter seen in these patients.
Conclusion: Markers of disease severity were identified in the patients with SCA in
this study. The presence of these markers in an SCA patient connotes severe disease
and they determine the course of the disease. Therefore, there is a need to pay more
attention to these patients by following them up more closely.

Keywords: disease severity, markers, sickle cell anemia, steady state, adults, patients

How to cite this article: Oguntoye Oluwatosin Oluwagbenga, Ndububa Dennis A., Yusuf Musah., Bolarinwa Rahman A., and Ayoola Oluwagbemiga
O. (2019) “Clinical and Biochemical Manifestations of Severe Sickle Cell Anemia in Adult Patients in Steady State in Ile-Ife, Nigeria,” Sudan Journal
of Medical Sciences, vol. 14, issue no. 1, pages 52–63. DOI 10.18502/sjms.v14i1.4381

Page 52

Corresponding Author:

Oguntoye Oluwatosin

Oluwagbenga;

email: proflast@yahoo.com

Received 9 February 2019

Accepted 26 March 2019

Published 31 March 2019

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Oguntoye Oluwatosin

Oluwagbenga et al. This

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Sudan Journal of Medical Sciences Oguntoye Oluwatosin Oluwagbenga et al

1. Introduction

Sickle cell anemia (SCA) is an autosomal recessive genetic disorder caused by a defect
in the HBB gene which codes for hemoglobin ß chain [1, 2]. This leads to the production
of abnormal hemoglobin chains within the red blood cell, which causes rigidity and
sickling of the cell, leading to vascular occlusion and ischemia in multiple organs [3,
4]. The normal human hemoglobin molecule is a heterotetramer composed of four
hemoglobin chains (two α and two β) and the normal adult hemoglobin is Hemoglobin
AA [3]. The abnormal genes occur as a result of glutamic acid-to-valine substitution at
the sixth base position in the β hemoglobin gene on chromosome 11 [3]. Sickle cell
anemia results from the inheritance of two sickle β hemoglobin genes as HbSS [4].

Sickle cell anemia is particularly common among people whose ancestors come
from sub-Saharan Africa, India, Saudi Arabia, and Mediterranean countries. Each year
about 300,000 infants are born with major hemoglobin disorders – including more than
200,000 cases of sickle-cell anemia in Africa [5, 6]. In Nigeria, by far the most populous
country in the sub-region, 24% of the population are the carriers of the mutant gene
(HbAS) and the prevalence of sickle-cell anemia (HbSS) is about 2% [5, 7–9].

The resultant changes in the red blood cells causes chronic intermittent vaso-
occlusive events resulting in tissue ischemia; chronic hemolytic anemia resulting in
varying degrees of anemia; and multiple organ damage from microinfarcts that can
affect any organ in the body, including the bones, lungs, liver, kidneys, brain, eyes,
heart, skin, and joints [2]. Episodes of crisis also occur and these include hemolytic
crisis, aplastic crisis, acute sequestration crisis, and vaso-occlusive crisis [4].

There are documented established markers (indices) of disease severity in patients
with SCA in the literature (Item 1) and they determine the course of the disease. These
markers include both clinical and laboratory parameters [10, 11]. Identification of these
markers of disease severity among adult SCA patients in steady state affords us the
opportunity to know the course of the disease in these patients over the past years
as well as to predict the likely course of the disease in the years to come. This would
enable physicians to tailor management plans for the patients and also aid prompt
intervention as the need arises, thereby preventing or reducing the complications that
otherwise would have resulted. This would reduce the overall morbidity and mortality
associated with SCA.

Presently, there is paucity of data in Nigeria on this topic. This study determined the
pattern and the prevalence of the markers of disease severity in adult SCA patients in
steady state in Ile-Ife, Nigeria, which now provides the much needed information for

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holistic management of these patients as well as scientific data for further research on
this topic.

2. Materials and Methods

2.1. Selection of study subjects

This was a descriptive study that was carried out at the Hematology Clinic of a federal
tertiary teaching hospital in Ile-Ife, Osun state in the South Western geopolitical zone of
Nigeria between June 2014 and April 2015. The inclusion criteria for this study consisted
of patients ≥18 years of age with SCA [Hemoglobin SS (HbSS) genotype], who must be
in steady state and have given written informed consent to be recruited.

The following categories of patients were excluded from the study; patients less than
18 years of age, patients with other hemoglobinopathies such as HbSC, HbCC, HbS B
thalassemia etc., patients in sickle cell crisis and patients who were pregnant. A total
of 50 study subjects (patients) were recruited for the study. Selection of patients for
the study was done by consecutive selection of 50 consenting SCA patients. Ethical
approval was obtained from the Ethics and Research Committee of the institution.

2.2. Evaluation of study subjects

The patients were interviewed to elicit important relevant history and to ensure that they
fulfill the set inclusion criteria for the study. A structured questionnaire was designed
for the study which was used to collect demographic and relevant clinical information.
The following information was obtained from the patients’ case files (hospital records):
frequency of crisis, last episode of crisis, nature of crisis, complications, previous hospi-
talizations, total units of blood transfusion ever received, steady state hemoglobin level,
co-morbidities, drug history, family history of hemoglobinopathies and relevant social
history.

The objective of the patient evaluation performed in this study was to identify the
presence of the well-documented and established markers of disease severity in SCA
patients. It was impossible to assess for all these markers in this study, thus some were
selected. A physical examination was conducted on the study subjects including the
measurement of anthropometric parameters (height and weight to calculate body mass
index). Blood samples were collected to ascertain the hemoglobin genotype of the
study subjects as well as for full blood count and serum bilirubin.

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Hepatic ultrasonographic evaluation was also performed for all the study subjects in
order to assess for hepatomegaly which is one of the markers of disease severity and
this was done in the ultrasound room of the Radiology Department of the institution. The
hepatic ultrasound scan was done by the same Consultant Radiologist in order to avoid
inter-observer variations and differences. A Mindray Real-Time Ultrasound machine
model DC-7 was used. The liver span was taken as the liver length measured at the
level of the mid-clavicular line along the long axis of the right lobe of the liver. In adults,
hepatomegaly is defined as the long axis of the liver, longer than 155 mm and this
cut-off was used in this study.

2.3. Data analysis

The data obtained was analyzed using the Statistical Package for the Social Sciences
(SPSS) version 17.0 computer software package (SPSS Chicago Inc. IL U.S.A). Descriptive
statistics used included frequency tables, percentages, means, and standard deviations.

2.4. Study definitions

Sickle cell anemia: Persons with Hemoglobin genotype SS (HbSS).

Normal individuals: Persons with Hemoglobin genotype AA (HbAA).

Steady state: A patient with SCA is said to be in steady state when there is no recent
drop in the hemoglobin level and there is absence of infection, pain, acute complicating
factors or acute clinical symptoms or crisis for at least three months established by a
careful history and complete physical examination [12].

Sickle cell crisis: Crisis in patients with SCA refers to the episodes of acute illness
attributable to the sickling phenomenon in which there is a sudden exacerbation of
symptoms and signs of patients who had hitherto been in stable condition. This could
be in the form of Pain or vaso-occlusive crisis, aplastic crisis, acute sequestration crisis,
or hemolytic crisis [12].

3. Results

The study group (HbSS patients) comprised of 21 (42%) males and 29 (58%) females.
The ages ranged from 18 to 45 years with a mean(±SD) of 27.6±7.607.

The BMI of the patients ranged from 15.10 to 26.50 kg/m² with a mean(±SD) of
19.36±2.185. The mean BMI for the patients was within the normal range. Twenty-four

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(48%) of the patients were underweight, one (2 %) was overweight, and none was obese.
Amongst the underweight patients, none fulfilled the criteria for failure to thrive (Table
1).

Table 1: The established markers (indices) of disease severity in sickle cell anemia [10, 11].

Clinical Parameters

History of frequent Vaso-occlusive/Pain crisis (≥ 3 pain episodes per year)
History of Stroke

History of Priapism

Evidence of Avascular Osteonecrosis

Presence of Pulmonary Hypertension

History of Acute Chest Syndrome

Hepatomegaly

Evidence of Renal Insufficiency

Frequent Blood Transfusions (≥ 3 transfusions per year to treat the complications of sickle cell
anemia)

Dactylitis in early childhood (occurring before the age of one year)

Frequent hospitalizations related to sickle cell crisis— Sequestration, Aplastic (≥ 3 hospital
admissions per year)

Chronic leg ulceration

Failure to thrive (Weight or Body Mass Index for age less than the 5𝑡ℎ percentile)

Use of Hydroxyurea (to treat the complications of sickle cell anemia)

Laboratory Parameters

Leukocytosis in the absence of infection (> 15,000/mm3)

Chronic severe anemia (Hemoglobin concentration < 6.6g/dl)

High Packed cell volume (PCV > 30%)/High Hemoglobin concentration (>10g/dl)

Low Fetal Hemoglobin level (HbF < 3%)

High Serum Total Bilirubin level (> 51µmol/L)

High Lactate Dehydrogenase level (LDH > 700 IU/L)

High Serum Ferritin level (>2500mg/L)

The mean(±SD) age at first diagnosis of SCA in the patients was 6.46±4.827 with a
range of 3 months – 19 years. All of them had had one form of sickle cell crisis or the
other in the past as shown in Table 2. All the patients had had vaso-occlusive crisis
(VOC) in the past. Nineteen (38%) patients experienced one episode of VOC per year
while 15 (30%) and 13 (26%) experienced two and three episodes per year, respectively.
Only 25 (50%) of the patients had had hemolytic crisis in the past. Out of these 25
patients, 20 (80%) and 3 (12%) had one and two episodes per year, respectively. Only
one patient (2%) had hepatic sequestration crises in the past and only two (4%) had ever
had a splenic sequestration crisis in the past. None had aplastic crisis. Forty (80 %) of
the patients had had blood transfusion in the past. The units of blood received by the
patients ranged from 1 to 30 units with a mean(±SD) of 4.69±5.445. One patient had

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had exchange blood transfusions done four times on account of complications of SCA;
mainly repeated episodes of priapism. Six (12%) patients had had ≥ 3 units of blood
transfused per year to treat the complications of SCA.

Thirteen (26%) of the patients had dactylitis within the first year life. A 19-year old male
patient (2%) had two past episodes of left ischemic stroke. Two (4%) patients had history
of acute chest syndrome while four (8%) had had priapism in the past. Four (8%) patients
had a past history of avascular necrosis of the femur, six (12%) had chronic leg ulcer, two
(4%) had septic arthritis, and six (12 %) had a past history of chronic osteomyelitis (Table
2).

Table 2: History of sickle cell crisis and complications.

Sickle Cell Crisis

CRISIS PRESENT ABSENT

NUMBER/(%) NUMBER/(%)

VASO-OCCLUSIVE 50 (100) 0 (0)

HEMOLYTIC 25 (50) 25 (50)

APLASTIC 0 (0) 50 (100)

SEQUESTRATION

HEPATIC 1 (2) 49 (98)

SPLENIC 2 (4) 48 (96)

Complications

COMPLICATION PRESENT ABSENT

NUMBER/(%) NUMBER/(%)

DACTYLITIS 13 (26) 37 (74)

STROKE 1 (2) 49 (98)

ACS 2 (4) 48 (96)

PRIAPISM 4 (8) 46 (92)

AVN 4 (8) 46 (92)

SEPTIC ARTHRITIS 2 (4) 48 (96)

CHRONIC LEG ULCER 6 (12) 44 (88)

CHRONIC OSTEOMYELITIS 6 (12) 44 (88)

Note: ACS = Acute Chest Syndrome; AVN = Avascular Necrosis.

The full blood count and serum bilirubin results of the patients were as shown in
Table 3. The range of the steady state hemoglobin concentration (g/dl) of the patients
from their hospital records was 6.3–11.3g/dl with a mean(±SD) of 8.52±1.114. The range
of the newly analyzed hemoglobin concentration of the patients was 5–12g/dl with a
mean(±SD) of 8.52±1.329. Thirteen (26%) of the patients had a serum total bilirubin
value greater than 51 µmol/L.

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The ultrasonographic liver span measurement of the patients ranged from 12.30 to
25.57 cm with a mean(±SD) of 16.56±2.357. The patients had a significantly long liver
span (see Figure 1). Thirty-two (64%) of the patients had a liver span longer than 15.5
cm.

Table 3: Hematologic and biochemical investigation results.

Parameters

Reference Values Range Mean±SD

SS Hb. Conc. (g/dl) 5–9 6.3–11.3 8.52±1.114

SS PCV (%) 15–27 19–34 25.54±3.406

Hb. Conc. (g/dl) 11.5–17.5 5–12 8.52±1.329

PCV (%) 36–52 17–36 25.85±3.924

WBC (/mm³) 3000–9000 3300–17500 10236.00±3448.277

PLT (x10³/mm³) 100–300 71–568 293.920±139.342

B1 (µmol/l) < 20 8.6–93.0 40.51±20.871

B2 (µmol/l) < 5 0.5–44.0 7.81±8.382

Note: SS Hb. Conc. = Steady State Hemoglobin Concentration; SS PCV = Steady State
Packed Cell Volume; WBC = White Cell Count; PLT = Platelet Count; B1=Total Bilirubin; B2 =
Conjugated Bilirubin; and NA = Not Applicable.

Figure 1: Sonogram showing massive hepatomegaly in a patient with sickle cell anemia (SCA). The lower
lobe of the liver extends well below the lower pole of right kidney and the liver measures 22.3 cm in span
exceeding the normal limit of 15.5 cm.

Table 4 shows the markers of disease severity identified in the patients with SCA.
Hepatomegaly (64%), frequent episodes of vaso-occlusive crisis, that is, ≥ 3 episodes
per year (30%), and dactylitis in infanthood (26%) were the most common clinical
parameters identified in these patients in that order, while a high serum total bilirubin of
> 51µmol/L (26%) was the most common laboratory parameter seen in these patients.

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Table 5 shows the total number of markers of SCA disease severity identified in the
patients. Four (8%) of the patients had no identified marker of disease severity while
43 (86%) patients had between 1 and 4 identified markers of disease severity. Two (4%)
patients had five identified markers of disease severity and only one patient (2%) had
up to seven identified markers of disease severity. As shown in Table 6, more patients
had clinical parameters than laboratory parameters; 43 (86%) patients versus 23 (46%)
patients.

Table 4: Frequency of the indices of disease severity identified in the sickle cell anemia patients.

Clinical Parameters Number of
Patients (%)

History of frequent Vaso-occlusive/Pain crisis (≥ 3 pain episodes per year) 15 (30)
History of Stroke 1 (2)

History of Priapism 4 (8)

Evidence of Avascular Osteonecrosis 4 (8)

History of Acute Chest Syndrome 2 (4)

Hepatomegaly 32 (64)

Evidence of Renal Insufficiency 1 (2)

Dactylitis in Early Childhood (occurring before the age of one year) 13 (26)

Chronic Leg Ulceration 6 (12)

Use of Hydroxyurea (to treat the complications of sickle cell anemia) 1 (2)

Frequent Blood Transfusions (≥ 3 transfusions per year to treat the
complications of sickle cell anemia)

6 (12)

Laboratory Parameters Number of
Patients (%)

Leukocytosis in the absence of infection (> 15,000/mm³) 5 (10)

Chronic severe anemia (Hemoglobin concentration < 6.6g/dl) 2 (4)

High Serum Total Bilirubin level (> 51µmol/L) 13 (26)

High Packed cell volume (PCV > 30%)/High Hemoglobin concentration (>10g/dl) 5 (10)

4. Discussion

Xandra et al. [13] defined the concept of severity as “the rate and extent of reversible and
irreversible damage to organs brought on by the sickle cell disease process, resulting in
impairment requiring medical intervention.” Several attempts have been made till date
by researchers to develop a universally accepted system for assessing disease severity
in SCA patients and these include the Cooperative Study of Sickle Cell Disease (CSSCD)
and the Bayesian Network Modeling (developed by Boston Medical Centre) [10].

Presently, there is no consensus scoring system for assessing the severity of disease
in patients with SCA but a large number of indices have been used by researchers as

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Table 5: Total number of the indices of disease severity identified in the sickle cell anemia patients.

Clinical
Parameters

Laboratory Parameters Total Number of Parameters

Number Number of
Patients (%)

Number Number of
Patients (%)

Number Number of
Patients (%)

0 7 (14) 0 27 (54) 0 4 (8)

1 18 (36) 1 21 (42) 1 13 (26)

2 13 (26) 2 2 (4) 2 16 (32)

3 8 (16) TOTAL 50 (100) 3 8 (16)

4 3 (6) 4 6 (12)

5 0 (0) 5 2 (4)

6 1 (2) 6 0 (0)

TOTAL 50 (100) 7 1 (2)

TOTAL 50 (100)

markers of disease severity in SCA, and these markers include clinical and laboratory
parameters (Table 1) [10, 11]. The presence of any of these markers in a patient with SCA
connotes severe disease, and the severity of the disease increases with an increasing
number of these markers present in an individual patient.

A high serum total bilirubin (>51µmol/L) was the most common laboratory parameter
observed in this study with a prevalence of 26%. Elevated serum bilirubin levels,
predominantly the unconjugated fraction, are universal in sickle cell patients even in
steady state due to chronic hemolysis but a persistently high total bilirubin suggests
chronic significant hemolysis in these patients signifying a severe disease course and
there is a need to follow them up very closely.

Hepatomegaly (64%) was the most common clinical parameter identified in this
study. Frequent episodes of vaso-occlusive crisis (≥3 episodes per year) and Dactylitis
(occurring before the age of one year) were the other common clinical parameters
identified in this study. Hepatomegaly is a common finding in SCA, and it is largely
due to the extramedullary hematopoiesis in response to the chronic anemia in this
condition [3, 4]. Hepatomegaly can also be due to transfusional hemosiderosis and
chronic viral hepatitis [14, 15]. However, in Nigeria, which is a malaria endemic area,
frequent episodes of malaria is also a major cause of the hepatomegaly seen in these
patients [15]. In this study, the most common indication for hospital admission in the
SCA patients apart from a sickle cell crisis was malaria; this could have contributed to
the development of the hepatomegaly seen in these patients.

Olaniyi et al. found a prevalence of hepatomegaly of 62.2% among SCA patients in
Ibadan, Nigeria [15]. Balci et al. found a prevalence of 72.6% among SCA patients in
Turkey [16], and Papadaki et al. found a prevalence of 70.5% among sickle cell disease

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patients in Greece [17]. In this study, hepatic ultrasonographic evaluation of the patients
revealed hepatomegaly with a prevalence of 64% (32 patients).

Persistent hepatomegaly is one of the established markers of disease severity in
SCA patients [10, 11]. Olatunji et al. in Ilorin, Nigeria, also established that persistent
hepatomegaly is an index of disease severity in patients with SCA [18]. Persistent
hepatomegaly in patients with SCA implies that such patients have the tendency to
run a more severe clinical course than those without and there is a need to pay more
attention to them [18].

4.1. Limitations of the study

The findings from this study should be considered in line with some limitations that
include absence of long-term patient follow-up in order to reassess these markers of
disease severity for the long-term effect on the course of the disease. Also, this study
selectively investigated some of the established markers of disease severity due to
limited resources, thus the pattern of the other markers in these patients is not known.
Future research should be geared towards developing a consensus scoring system for
assessing disease severity in patients with SCA.

5. Conclusion

Hepatomegaly, frequent episodes of vaso-occlusive crisis, dactylitis in infanthood, and a
high total bilirubin were the most common markers of disease severity identified in this
study. A significantly larger number of patients had the clinical parameters compared
to the laboratory parameters. Previous research had shown that the presence of any
of these markers in an SCA patient connotes severe disease and the severity of the
disease increases with increasing number of these markers present in an individual
patient. Patients with more markers of disease severity have the tendency to run a
more severe clinical course than those without or less markers and there is a need to
pay more attention to these patients by following them up more closely.

Therefore, efforts should be stepped-up to maintain SCA patients in steady state
as much as possible as this would prevent or limit complications or additional severity
markers from arising, which could occur as a result of frequent crisis. Such efforts would
reduce the overall morbidity and mortality associated with SCA.

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Acknowledgement

The authors would like to thank the members of the staff of Hematology and Radiol-
ogy departments of Obafemi Awolowo University Teaching Hospitals Complex, Ile-Ife,
Nigeria, for their support towards making this research a success.

Funding

The authors bore the entire cost of the research and did not receive any financial
support from any organization.

Conflict of Interest

The authors declared no conflicts of interest.

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DOI 10.18502/sjms.v14i1.4381 Page 63


	Introduction
	Materials and Methods
	Selection of study subjects
	Evaluation of study subjects
	Data analysis
	Study definitions

	Results
	Discussion
	Limitations of the study

	Conclusion
	Acknowledgement
	Funding
	Conflict of Interest
	References