Leukemia is one of the many types of cancers. Leukemia is caused in the white blood cells near the bone marrow region of our body. In this the WBCs which get infected turns blue. Like any other cancer in this also the cell divides itself at the faster pace. Most human cancers are characterized by the aberrant expression of normal and/or mutated genes, and natural selection acts on cancer cells to cause a loss of growth control, angiogenesis, invasion, and metastasis. Even when it is not required they multiply causing a tumor. Detected and treated at an early stage of leukemia saves a lot of lives. The aim of this research is to automate the detection of leukemia cells. In the scientific language, the leukemia cells are known as the blast cells. There are two types of acute leukemia, Acute Lymphoblastic Leukemia (ALL) and Acute Myeloid Leukemia (AML). This thesis focuses on Acute Lymphoblastic Leukemia (ALL). Generally, the process of detection and classification is done manually taking up to five days. The motivation behind this research is to improve the diagnostic process by automating it and reducing its time span to five days to few hours. Nowadays, medical imaging is one of the fastest growing fields in medicine, clinical settings and research and development (R&D).
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Image processing in medical field is becoming a subject of prime focus due to its tremendous potential for the public health sector and the scientific community in general. In particular, imaging applications are emerging as a new opportunity as an innovation at the meeting point between medicine and the computer science. Many software and research groups focus on the development of image processing applications for medical images, for example to improve low resolution photographic images and produce effective – high quality images.
There is no terrifying disease than cancer nowadays. It is often seen as untreatable, un curable and a very painful disease.
Leukemia detection helps in detecting blood cancer using two basic modules of image processing i.e. Image segmentation and feature extraction. After these two modules, we use two techniques of neural network i.e. feed forward network and RBFNN for the detection purposes. We compare the accuracy percentage in both of them. The technique with best accuracy percentage is recorded as the more efficient technique. More than 310,000 Americans are living with leukemia. Every day 143 Americansare detectedwith leukemia and 66 lose the fight. [23]
A brief overview of leukemia and a conceptual analysis of the main methods used for the detection and classification of leukemia cells facilitating Artificial Intelligence, Cellular Automata and Neural Networks are discussed below.
Cancer has become a data-intensive range of investigation, with growing amount of changes in data collection technologies and methodologies. In 1895, Wilhelm Roentgen discovered that X-ray tubes, utilized widely for imaging bones and then for giving a variety of circumstances. The technicians who ran the radiograph machines and many exposed patients were found with skin tumors and leukemia. Accurate diagnosis and sorting of blast cells is an tremendously valuable necessity for the detailed diagnosis of leukemia and has a optimistic impact on treatment and prognosis.
- BLOOD
Blood is important part of human life. An average human body is around 70 liters of liquid from which five liters is blood. Biologically, blood is vital for preserving homeostasis that is keeping the body’s position stable. This discusses to hydration, temperature regulation and ion concentration.
a) Transfer of nutrients from the digestive system to wholly parts of the body.
b) Transportation of oxygen from the lungs to all parts of a body.
c) Transportation of carbon dioxide from all parts of the body to the lungs.
d) Transportation of waste products from cells to the external environment, especially via the kidneys.
e) Keeping an ongoing discussion of it is mechanisms with tissue fluids and keeping electrolyte balance.
f) Defending the body against attack from foreign viruses through the white blood cells and antibodies.
g) Shielding the body against injury or illness using the provocative response.
h) Preventing serious hemorrhage by the clotting process.
Blood has four main fundamentals to ensure it fulfills its functions, shown in Table 1.1
ELEMENTS |
DESCRIPTION |
Red blood cells (RBC’s or erythrocytes)
|
Transportation of oxygen from the lungs to organs and peripheral site. |
White blood cells
|
Protective role in abolishing invading organisms, e.g. bacteria and viruses and assist in the removal of dead or damaged tissue cells. |
Platelets
|
Help in the clotting process. |
Table 1.1 (a): Major elements of Blood (Red blood cells, White blood cells, Platelets).
ELEMENTS |
DESCRIPTION |
Plasma
|
Transmits nutrients, metabolites antibodies and the proteins included in blood clotting. |
Table 1.1(b): Major elements of Blood (Plasma).
1.1.2 WHITE BLOOD CELLS
A white blood cell is superior to a red blood cell. White blood cell arrangement and concentration in the blood gives appreciated information and plays a crucial role in the diagnosis of different diseases. White blood cells fall into five categories: Neutrophil, Eosinophil, Basophil, Monocyte and Lymphocyte, shown in the Table 1.2. These cells afford the greatest defense against infections, and their discrete concentrations can help authorities to distinguish between the presences or not of severe pathologies.
Types of blood cells are discussed in the following table
ELEMENTS |
DESCRIPTION |
Neutrophil
|
This cell has a characteristic nucleus, consisting of between two and five lobes, and a pale cytoplasm. The grains are divided into primary, which appear at the promyelocyte stage, and secondary which perform at the myelocyte stage. The lifespan of neutrophils in the blood is only about 10h. |
Eosinophil
|
These cells are similar to neutrophils, except that the cytoplasmic grains are coarser and more deeply red staining. They enter inflammatory exudates and have a special role in allergic responses. They provide protection against parasites and help the removal of fibrin formed during inflammation. |
Basophil
|
Basophil cells are only seen in normal peripheral blood. They have many dark cytoplasmic granules, which overlie the nucleus and contain heparin and histamine. Size: 9-10 μm in diameter. |
Monocyte
|
These are frequently larger than other peripheral blood leucocytes. The monocyte precursors in the marrow (monoblasts and promonocytes) are difficult to distinguish from myoblasts and monocytes. Monocytes spend only a short time in the marrow and after circulating for 20-40 hours, leave the blood to arrive in the tissues where they mature and carry out their principal functions. Size: 16-20 μm in diameter |
Lymphocyte
|
These are the immunologically competent cells which support the phagocytes in the defense of the body against infection and other foreign invasion. Two unique features characteristic of the immune system are the ability to generate antigenic specificity and the phenomenon of immunological recall. Size: 8-10 μm in diameter. |
Table 1.2 : White Blood Cells (Neutrophil, Eosinophil, Basophil, monocyte, lymphocyte)
1.1.3 TYPES OF LEUKEMIA
Leukemia is a sickness of unidentified cause where the bone marrow produces huge numbers of irregular cells white blood cells that stop increasing before maturity. There are four main types of leukemia, namely Acute Lymphoblastic Leukemia (ALL), Acute Myeloid Leukemia (AML), which is used as a case study in the thesis, Chronic Lymphocytic Leukemia (CLL) and Chronic Myeloid Leukemia (CML). Most commonly, acute leukemia patients are discussed to specialist units for evaluation. Treatment is based on chemotherapy through the veins, lasting four to six months, which also kills normal body cells. Leukemia can be identified by blood tests while a bone marrow test assists to choose on the best choice of treatment. Table 1.3 includes the types of main leukemia.
TYPES |
DESCRIPTIONS |
Acute Lymphoblastic Leukemia (ALL)
|
The most common type of leukemia in young children. This disease also affects adults, especially over the age of 65. |
Acute Myeloid Leukemia (AML)
|
It develops in both adults and children |
Chronic Myeloid Leukemia
|
It occurs mainly in adults. A very small number will infect the children. |
Chronic Lymphocytic Leukemia (CLL)
|
Most commonly it affects adults over the age of 55. It sometimes occurs in younger adults, but it almost never affects children. |
Table 1.3 : Types of Leukemia
Table below shows the UK Leukemia case statistics for males and females in 2007, revealing that the survival rate has increased from 2001 to 2006. The diagnosis and the medical treatment have improved significantly as shown in Figure 2.1. Automated detecting can contribute to the early diagnosis of patients and survival rates are expected to increase in the future.
Table 1.4: Leukemia cases in UK for 2007
Figure 1.1: Leukemia 10-year relative survival rates
1.1.4 FLOW CHART OF THE PEOPLE ADMITTED IN THE HOSPITAL
Figure 1.2 shows the steps that are essential to be taken by a hematologist in order to identify a patient with acute leukemia. Table 1.5 provides a more thorough explanation of the individual steps in Figure 1.2
NO
YES
NOYES
STEPS |
DESCRIPTIONS |
1 |
Patient admitted in hospital. |
2 |
In acute leukemia patients, the White Blood Cell (WBC) count and morphology will be irregular. Doctor will suspect that a patient has leukemia based on: a) Clinical presentation: patient presented with hepatosplenomegaly and/or lymphadenopathy. b) Abnormal blood count: hemoglobin and platelet count is low; WBC is normal, low or high. Blood test will be taken from the patient. In a healthy adult the differential WBC test should show the following results: Neutrophil – 40% – 70% Eosinophil – 5% Basophil – 1% Monocyte – 6% – 10% Lymphocyte – 20% – 50% The blood count will be performed by the Machine. In case of clinically suspicious and abnormal blood count specimens a blood smear is prepared and the slide is referred to a hematologist for examination. |
3 |
The blood smear is scanned through a microscope by a hematologist. |
4 |
If the blood smear test reveals no evidence of leukemia, i.e. normal blood cell count and morphology, other underlying causes need to be investigated |
5 |
If the patient is suspected of suffering from leukemia, bone marrow sample is required to confirm the diagnosis. |
6 |
The marrow smear is scanned under a microscope by a hematologist with 10x, 40x and 100x magnifying power. |
7 |
The hematologist will calculate the WBC differential count manually preferably based on 300-500 cells. |
8 |
Blasts should account for about 20% of cells, based on the WHO classification. Less than 5% is considered normal. |
Table 1.5 : Analytical description of each step in Figure 1.2
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Leukaemia is one of the many types of cancers. Leukaemia is caused in the white blood cells near the bone marrow region of our body. In this the white blood cells which get infected turn blue. Like any other cancer in this also the cell divides itself at the faster pace.
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