Jika kita terasa gembira kita harus bersyukur,
Jika Kita terasa sedih kita harus bersyukur,
Jika kita terasa marah kita harus bersyukur,
Jika Kita terasa cinta kita harus bersyukur,
Kerana Allah memberikan satu nikmat yang besar, iaitu mempuanyai perasaan
Young Geneticist
Islamic Calendar
Sunday, June 26, 2011
Saturday, June 25, 2011
Second week - Histopathology and Cytology Lab
6 June- 10 June 2011 : The second week of industrial training. During this period, I have learned something new. I learn what exactly histopathology and cytology is? Histopathology is the microscopic examination of tissue in order to study manifestation of disease. Cytology or more correct terminology using for this lab is cytopathology which is the study of cellular disease and use of the cellular change for diagnosis of diseases. Before I explain more about my experiences, I would to divide this article to several part which; general steps of histopatholgy and cytopatholgy, Histopatholgy( H and E staining), Cytopatholgy (Papanicalou staining and Wright staining), How to distinguish benign, and metastic tumour in breast cancer (histopatholgy).
General steps of Histopatholgy and Cytopatholgy
General steps of Histopatholgy and Cytopatholgy
The figure below shows the general steps of histopathology and cytopathology. First step is the sample fixation. This step is crucial to get good microscopic slides. Second steps, is only for histopathology which is sample processing. The next step is sample staining. This steps basically to distinguish which part of cell are nucleus or cytoplasm. Last but not least is microscopic examination.
Histopathology
The histology samples from patients have several steps in order to diagnose their cells. It is involved several steps which; 1- sample fixation with formalin, 2- sample processing, 3- sample staining. and 4- Microscopic examination.
1: Sample Fixation
Sample fixation is a crucial step in histology studies. Fixation is a chemical process by which biological tissues are preserved from decay, either through autolysis or putrefaction. Fixation terminates any ongoing biochemical reactions, and may also increase the mechanical strength or stability of the treated tissues. Fixation of tissue is done for several reasons. One reason is to kill the tissue so that postmortem decay (autolysis and putrefaction) is prevented. Fixation preserves a sample of biological material (tissue or cells) as close to its natural state as possible in the process of preparing tissue for examination. To achieve this, several conditions usually must be met:
First, a fixative usually acts to disable intrinsic biomolecules – particularly proteolytic enzymes—which otherwise digests or damages the sample.Second, a fixative typically protects a sample from extrinsic damage. Fixatives are toxic to most common microorganisms (bacteria in particular) that might exist in a tissue sample or which might otherwise colonise the fixed tissue. In addition, many fixatives chemically alter the fixed material to make it less palatable (either indigestible or toxic) to opportunistic microorganisms.
Finally, fixatives often alter the cells or tissues on a molecular level to increase their mechanical strength or stability. This increased strength and rigidity can help preserve the morphology (shape and structure) of the sample as it is processed for further analysis. In this cases, the sample from patient is immersed in 10% formalin.
2: Sample processing
To provide slides for microscopic examination, the sample must be process first. This step involved another several steps. First is sample grossing- Is the process referred to as grossing a specimen, where tissue specimens taken from routine surgical cases, autopsies, or other scientific investigations are examined, described and trimmed to proper size. The grossing method is vary from hospital to hospital. From this lab, the sample that fixed by 10% formalin is cut. The part of sample that being cut is depend on pathologist. Pathologist may choose the tumour part or healthy part as control.
Next step is sample dehydration by tissue processor which is automated or can be done manually. The aim of Tissue Processing is to remove water from tissues and replace with a medium that solidifies to allow thin sections to be cut. Biological tissue must be supported in a hard matrix to allow sufficiently thin sections to be cut. For light microscopy, paraffin wax is most frequently used. Since it is immiscible with water, the main constituent of biological tissue, water must first be removed in the process of dehydration. Samples are transferred through baths of progressively more concentrated ethanol to remove the water. This is followed by a hydrophobic clearing agent (such as xylene) to remove the alcohol, and finally molten paraffin wax, the infiltration agent, which replaces the xylene.The sample processing firstly immersed in formalin for 30 minutes twice, after that in Alcohol solution for 1 hour six times, next in xylene for 1 hour 3 times and in wax also 1hour 3 times.
Next is the embedding step. After the tissues have been dehydrated, cleared, and infiltrated with the embedding material, they are ready for external embedding. During this process the tissue samples are placed into molds along with liquid embedding material (such as agar, gelatine, or wax) which is then hardened. This is achieved by cooling in the case of paraffin wax and heating (curing) in the case of the epoxy resins. The acrylic resins are polymerised by heat, ultraviolet light, or chemical catalysts. The hardened blocks containing the tissue samples are then ready to be sectioned.
Because Formalin-fixed, paraffin-embedded (FFPE) tissues may be stored indefinitely at room temperature, and nucleic acids (both DNA and RNA) may be recovered from them decades after fixation, FFPE tissues are an important resource for historical studies in medicine. The last step for sample processing is the sample sectioning by microtome. This step can be divide by 2 which are trimming and sectioning. This step provide thin slide for microscopic examination.
3: Sample staining
Before we observed the morphology of cell/sample under microscope, first we must stained the sample. In histopathology studies, the routine stain is Haematoxylin and Eosin stain (H &E). The purpose of H & E staining is to distinguish the nucleus and cytoplasm. Haematoxylin which stains blue or purple on nuclei. Haematoxylin is oxidative agent that positively charged and bind to negatively charged phosphate on nuclear-DNA. Eosin which stains pink to red blood cell or connective tissue in cytoplasm. Eosin is acidic colourant that mainly bind to protein.Besides routine H & E staining, it is also has another type of staining which histochemistry staining and Immunohistochemistry staining. The need to do the staining is depend on the patient cases and diseases.
4: Microscopic examination
Under the light microscopes, the pathologist can observed the morphology of the cell to determine the type of tumour whether benign or malignant, the level of certain cancer and whether the tumour are metastatic or not.
Cytopathology
Cytology laboratory test can be divide by two which “Gynecological Cytology” and “non-gynecological cytology”. This is the test that everyone known by as “Pap Smear”. It name comes from the Papanicolau test for cancer cells, developed in the 1940’s. Smears are made from cells collected from the cervix of the uterus, stained, and then examined microscopically for evidence of any abnormal cells. Non-gynecological cytology can be body fluid such as sputum,urine and spinal fluid and also fine needle aspiration.
Cytology samples are fixed in 95% alcohol at least for 30 minutes. After that, the samples are stained by Papanicalou stain. After staining, observed the morphology under light microscope.
Principle of Papanicolou staining
It is involves five dyes in three solutions, A nuclear stain, haematoxylin, is used to stain cell nuclei. The unmordanted haematein may be responsible for the yellow color imparted to glycogen.First OG-6 counterstain (-6 denotes the used concentration of phosphotungstic acid; other variants are OG-5 and OG-8). Orange G is used. It stains keratin. Its original role was to stain the small cells of keratinizing squamous cell carcinoma present in sputum.
Second EA (Eosin Azure) counterstain, comprising three dyes; the number denotes the proportion of the dyes, eg. EA-36, EA-50, EA-65. Eosin Y stains the superficial epithelial squamous cells, nucleoli, cilia, and red blood cells. Light Green SF yellowish stains the cytoplasm of all other cells. This dye is now quite expensive and difficult to obtain, therefore some manufacturers are switching to Fast Green FCF, and however it produces visually different results and is not considered satisfactory by some. Bismarck brown Y stains nothing and in contemporary formulations it is often omitted.
How to distinguish the benign tumour and malignant tumour in the cases of breast cancer
From this lab, what interesting that I can learn is how to distinguish benign tumour and malignant tumour specific to breast cancer. During practical here, I try to compare between various slides of breast cancer patients and observed the doctor comment on the patients. By H & E staining, we know that Haematoxyline stain purple on nuclei, so that under microscopic observation I try to observed nuclei morphology on benign tumour and malignant tumour.
From microscopic observation, the nuclei in benign tumour cell are big, and clump together in one place but in malignant tumour, nuclei very small and disperse in all cytoplasm or tissues. The presence of nuclei in all tissues indicates that the tumour is invasive (malignant tumour).
Malignant Breast Tumour |
Monday, June 13, 2011
Diagnostic Microbiology Lab
30 May - 3 June 2011- First week of industrial training!! My first rotation at diagnostic microbiology lab. Here the very interesting things that learned from here was how to translate the knowledge of microbiology for diagnostic purposes. In order to explain what exactly I learned from this lab, I divide to 2 part which ; The principle of Gram staining and Identification hierarchy.
Principle of Gram staining
Gram staining was introduced by Danish scientist called Hans Christian Gram (1853-1938) in 1884 to distinguish between Pneumococci and Klebsella pneumonia bacteria. Until now, no others staining can replaced the Gram staining as major tools to detection of bacteria. The purposes of gram staining is to distinguish between Gram positive and Gram negative bacteria.
Gram staining has 4 basic steps; First the application of primary stain (crystal violet) to a heat-fixed smear of bacterial culture, followed by the addition of a mordant (iodine), after that rapid decolourisation of alcohol or acetone and lastly counterstain with safranin or basic fuchsin.
How gram staining can distinguish between gram positive and gram negative bacteria. Gram positive bacteria have a thick mesh cell wall made of peptidoglican and gram negative bacteria have thin layer of peptidoglican with additional outer membrane layer made of lipid. Crystal violet (CV) dissociate in aqueous solution to form CV+ ion and Cl- ion. These ion penetrate through the peptidoglican cell wall and cell membrane of both gram positive and gram negative bacteria. The CV+ ion interact with negatively charged components of bacterial cells and stain cells purple.
Iodine (I- or I3-) interact with CV+ and form large complex of crystal violet and iodine ( CV-I). When decolourization with alcohol is added, it interact with the lipids of cell membrane. A gram negative bacteria will lose its outer membrane and the peptidoglican layer is left exposed. The CV-I complexes are washed from the membrane. In contrast, a Gram-positive cell becomes dehydrated from ethanol treatment. The large CV-I complexes become trapped within Gram-positive cell due to the multilayer nature its peptidoglican. After the decolourisation step, the Gram-positive bacteria remains purple and the Gram-negatives loss its purple colour. Counterstain, which is usually postively charged safranin is applied last to give decolorised Gram-negative bacteria a pink or red colour.
In clinical diagnostic purpose, it is important to distinguish between Gram-positive and Gram negative bacteria is to screen the pathogen. Most Gram-negative bacteria are pathogenic but not in Gram-positive bacteria. Gram-positive bacteria depend on species of bacteria, type of samples, and also how they colonized part of the body. If certain bacteria colonized to much in one area of the body, it may due to immunodeficiency that cause recurrent bacteria infection. After we identify whether it Gram-positive or Gram negative bacteria, to identify the specific species of bacteria we followed the identification hierarchy.
Bacteria Identification Hierarchy
After we stain bacteria via Gram staining and observe under the microscope, we can distinguish whether this is Gram positive bacteria or Gram negative bacteria. After that we followed the bacteria identification hierarchy to screen which specific bacteria species whether its pathogenic or not? Bacteria identification hierarchy can be divided by two which Gram positive bacteria identification and gram negatives identification hierarchy:
The figure above shows the identification hierarchy for gram-positive bacteria. By observing the gram-staining of bacteria culture under microscope, if the bacteria cultured stained purple, we observed its morphologwhether it shape cocci or bacilli, if cocci we can further down the hierarchy whether its Staphylococcus or Streptrococcus. So Catalase test must be done to both of them. The principle of catalase test is all the Staphylococcus bacteria have catalase enzyme with act on hydrogen peroxide to release oxygen. In this test, we can observed the immediate bubbles.
After we know the bacteria is Staphylococcus, we further down the hierarchy, at this point this is very important. Because we must do Coagulase test to distinguish whether the bacteria culture is the Staphylococcus aureus or not. S.aureus is well known dangerous pathogenic bacteria. Because the bacteria culture from patient sample, this is important to know whether the patient have S.aureus or not. The principle of coagulase tests is to know whether the bacteria have coagulase enzyme or not? S.aureus contain coagulase enzyme which catalyze the formation of fibrin clot in plasma. In this test we can observed the clotting/ clumping formation
The figure below is the gram negative bacteria identification hierarchy. As mentioned above, most of gram negatives bacteria are pathogenic. To identify the specific gram neagtive bacteria, just follow the identification hierarchy.
Both Gram-staining and Identification Hierarchy is the basic knowledge of diagnostic microbiology. Actually that has more diagnosis. For example, biochemical test and also sensitivity test. Right now, the more fast and accurate in bacteria identification that available in kit such as API test kit. As conclusion, what I learned from the industrial training in diagnostic microbiology laboratory is how I see the very simple Gram staining principle is very useful in diagnosis of diseases. Furthermore, in analysis what exactly bacteria infect the patient, besides we analyse what the type of bacteria in patient's samples, we must know the medical history of patient and also we must observed whether the bacteria is colonized enough in patient body to be considered its pathogenic.
Bacteria Identification Hierarchy
After we stain bacteria via Gram staining and observe under the microscope, we can distinguish whether this is Gram positive bacteria or Gram negative bacteria. After that we followed the bacteria identification hierarchy to screen which specific bacteria species whether its pathogenic or not? Bacteria identification hierarchy can be divided by two which Gram positive bacteria identification and gram negatives identification hierarchy:
The figure above shows the identification hierarchy for gram-positive bacteria. By observing the gram-staining of bacteria culture under microscope, if the bacteria cultured stained purple, we observed its morphologwhether it shape cocci or bacilli, if cocci we can further down the hierarchy whether its Staphylococcus or Streptrococcus. So Catalase test must be done to both of them. The principle of catalase test is all the Staphylococcus bacteria have catalase enzyme with act on hydrogen peroxide to release oxygen. In this test, we can observed the immediate bubbles.
After we know the bacteria is Staphylococcus, we further down the hierarchy, at this point this is very important. Because we must do Coagulase test to distinguish whether the bacteria culture is the Staphylococcus aureus or not. S.aureus is well known dangerous pathogenic bacteria. Because the bacteria culture from patient sample, this is important to know whether the patient have S.aureus or not. The principle of coagulase tests is to know whether the bacteria have coagulase enzyme or not? S.aureus contain coagulase enzyme which catalyze the formation of fibrin clot in plasma. In this test we can observed the clotting/ clumping formation
The figure below is the gram negative bacteria identification hierarchy. As mentioned above, most of gram negatives bacteria are pathogenic. To identify the specific gram neagtive bacteria, just follow the identification hierarchy.
Both Gram-staining and Identification Hierarchy is the basic knowledge of diagnostic microbiology. Actually that has more diagnosis. For example, biochemical test and also sensitivity test. Right now, the more fast and accurate in bacteria identification that available in kit such as API test kit. As conclusion, what I learned from the industrial training in diagnostic microbiology laboratory is how I see the very simple Gram staining principle is very useful in diagnosis of diseases. Furthermore, in analysis what exactly bacteria infect the patient, besides we analyse what the type of bacteria in patient's samples, we must know the medical history of patient and also we must observed whether the bacteria is colonized enough in patient body to be considered its pathogenic.
Thursday, June 9, 2011
Clinical Diagnostic
It time for Industrial training !! One of elective course in Genetic and Molecular Biology Bsc. program of University of Malaya. I choose this course for completing my degree because perhaps I learn something that can increase my knowledge and experience.
Its true!! This industrial training like an oasis of knowledge.From 30 May 2011- 22 July 2011, my industrial training begin at Advanced Medical And Dental Institutes (AMDI) . Generally my industrial training all about clinical diagnostic. Within 8 weeks, my task is to do lab rotation per week which diagnostic microbiology lab, histopathology and cytology lab, haematology lab, chemical pathology lab and lastly at genetic lab. from 6-8 weeks, this duration for mini-project.
The exposure to the clinical diagnostic give me an excitement. From the beginning, my education style always about theory. In University of Malaya, it has different approach, they related knowledge with research. But the exposure to clinical diagnostic makes me see the science world bigger. It make me feel every second in my routine life is about science.Besides that clinical diagnostic makes me more appreciate about how important to keep our body in good health!!!
Its true!! This industrial training like an oasis of knowledge.From 30 May 2011- 22 July 2011, my industrial training begin at Advanced Medical And Dental Institutes (AMDI) . Generally my industrial training all about clinical diagnostic. Within 8 weeks, my task is to do lab rotation per week which diagnostic microbiology lab, histopathology and cytology lab, haematology lab, chemical pathology lab and lastly at genetic lab. from 6-8 weeks, this duration for mini-project.
The exposure to the clinical diagnostic give me an excitement. From the beginning, my education style always about theory. In University of Malaya, it has different approach, they related knowledge with research. But the exposure to clinical diagnostic makes me see the science world bigger. It make me feel every second in my routine life is about science.Besides that clinical diagnostic makes me more appreciate about how important to keep our body in good health!!!
Sunday, February 27, 2011
Education and correlation with cancer survival.
An interesting data that I get from American Cancer Society , which is the risk factor of prostate cancer can be divide by 3 categories; ages, ethnicity and socioeconomic among the American. In summary, the men with ages 50 years and above and African American are more likely to get prostate cancer.
In the socioeconomic, the study of death rates vary among the years of education especially, African American men. In the range of 25- 64 years of education, American Cancer Society found that the death rate of African American men with 12 or fewer years of education was twice from the men more that 12 years education. In the white men, the rates with 12 years and fewer with more than 12 years is 1.5 times.
By the data, its look like longer a person have education, more change to survive for prostate cancer. What exactly its means. In my opinion, longer they have education, they have increase their awareness in preventing cancer such as their food, lifestyle with smoking and alcohol free, early cancer diagnosed with frequently medical check up and also have more understanding how the cancer cause, and the best treatment.
In the socioeconomic, the study of death rates vary among the years of education especially, African American men. In the range of 25- 64 years of education, American Cancer Society found that the death rate of African American men with 12 or fewer years of education was twice from the men more that 12 years education. In the white men, the rates with 12 years and fewer with more than 12 years is 1.5 times.
By the data, its look like longer a person have education, more change to survive for prostate cancer. What exactly its means. In my opinion, longer they have education, they have increase their awareness in preventing cancer such as their food, lifestyle with smoking and alcohol free, early cancer diagnosed with frequently medical check up and also have more understanding how the cancer cause, and the best treatment.
Saturday, February 26, 2011
" AKU YANG SENTIASA MENYESAL"
Tersebut al-kisah. Iskandar Zulkarnain dan tenteranya terpaksa mengharungi terowong yg panjang dan gelap. Tiada api dan cahaya.Di tengah perjalanan, mereka terpijak batu2 yg begitu banyak bertaburan. Ada org berkata, terowong ini kaya dgn emas dan berlian.Apa lagi. Ada org yg mula mengutip batu2 tersebut hingga penuh tangan. Ada yg guna kan baju utk dijadikan pemegang batu2. Ada juga yg tidak percaya dan tidak mengutip apa.
Setelah sekian lama berjalan dlm gelap, ada di antara mereka merasa letih lalu melepaskan batu2 yg mereka bawa.Akhirnya mereka mula nampak di hujung terowong. Dlm samar2 mereka telah lihat, batu2 yg mereka bawa adalah betul2 emas dan berlian.Ada yg minta kebenaran dari Iskandar utk berpatah balik ke tengah terowong. Tapi tak dibenarkan.
Bila mereka keluar dari terowong, maka penyesalan yg amat hebat terasa oleh tentera2 Iskandar
Semua menyesal. Tiada yg tak menyesal.
1. Paling menyesal ialah yg tidak percaya langsung. Tiada langsung emas berlian yg dibawa walaupun mempunyai peluang.
2. Yg bawa sikit pun menyesal. "Kenapa lah aku bawa penuh tangan saja. Aku patut gunakan baju, kain dsb utk angkut emas dan berlian"
3. Yg bawa penuh baju pun menyesal. Aku patut pinjam kain2 dari org lain. Aku patut gunakan mulut utk angkut emas berlian dsb dsb.
4. Yg paling menyesal juga yg mula2nya percaya. Tapi half way lepaskan batu2 kerana tidak yakin dan kerana letih dan malas
Begitu lah gambaran penyesalan kita bila sampai ke alam AKHIRAT. Semua menyesal. Tiada yg terkecuali.. Ketika sakaratul maut, kita akan dinampakkan gambaran di mana nasib kita di akhirat. Ketika tu roh kita meronta2 tidak mahu meninggalkan dunia jikalau gambaran yg tidak baik ditunjukkan. Spt mereka yg meronta2 utk balik ke tengah terowong dan minta kebenaran utk balik semula. Tapi bila roh di halqom sudah terlambat.
Bila sampai di akhirat, semua org akan menyesal. Yg soleh dan solehah menyesal kerana masa yg berlalu tanpa dimanafaatkan untuk meningkatkan amal ibadat supaya dapat darjat yang lebih tinggi. Yang kadang2 soleh, kadang2 perangai mcm KAFFIR Laknatullah lagi lah menyesal. Ada amalan. Tapi sikit. Dosa menimbun.
Org2 kafir lah yg paling menyesal. Terutama mereka yg dah sampai seru, faham pasal Islam, tapi pilih utk tidak beriman kerana ego, pangkat dan harta dsb. Orang yg asal nya Islam tapi meninggalkan agama lagi lah menyesal. Spt mereka yg mula2 kutip batu, tapi lepaskan. Di akhirat nanti mereka lah yg paling menyesal.
Itu lah gambaran penyesalan di Akhirat. Diceritakan penyesalan mereka dlm Surah Sajadah.
Ahli Neraka merayu pada Allah. 'Wahai Tuhanku, sesungguhnya kami telah lihat dan dengar kedahsyatan akhirat, kembali lah kami ke dunia utk beramal soleh, sesungguhnya kami telah benar2 yakin.
Ditulis oleh pak cik saya Azhan Ali melalui status facebooknya : sebagai seorang mahasiswa juga menyesal selepas exam:
1- budak rajin dan genius merasa menyesal kerana masa yang dibuang untuk perkara-perkara lagha tidak digunakan untuk memahami ilmu dengan lebih supaya dapat first class degree atau 4.00 cgpa dan boleh dapat scholar penuh tuk sambung Phd
2- yang kadang-kadang belajar, kadang-kadang fly class pun menyesal gak pasal pointer cukup-cukup makan
3- yang asyik nk pi clubbing, terlalu sibuk dengan aktiviti-aktiviti bukan akademik,meniaga MLM selagi x cukup orang bwhn x nmpk btng hidung kt lecture, terlalu extreme bab politik kampus pun menyesal gak pasal member-member dah pesan.. enjoy enjoy jugak, belajar kena la jugak. memang politik tue penting tapi jangan sampai hilang tujuan masuk U... akhir sekali dapat la G.K (gagal keluar)
Demi Masa sesunguhnya manusia dalam kerugian kecuali mereka yang beriman dan beramal soleh, -pesan dengberpesan pesan dengan kebenaran berpesan kesabaran.
SEBAGAI PERINGATAN BUAT DIRI YANG SENTIASA LALAI DAN SENTIASA DALAM PENYELESALAN
Darah Rakyat
Darah rakyat masih berjalan
Menderita sakit dan miskin
Bila datangnya pembalasan
Rakyat menjadilah hakim
Ayuh! Ayuh!
Berjuang sekarang
Kemerdekaan sudah datang
Merah panji-panji kita
Merah warna darah rakyat
Merah warna darah rakyat
Mereka bersumpah pada rakyat
Kemiskinan pasti hilang
Kaum kerja akan membina
Dunia baru pasti datang
Dunia baru pasti datang
Menderita sakit dan miskin
Bila datangnya pembalasan
Rakyat menjadilah hakim
Ayuh! Ayuh!
Berjuang sekarang
Kemerdekaan sudah datang
Merah panji-panji kita
Merah warna darah rakyat
Merah warna darah rakyat
Mereka bersumpah pada rakyat
Kemiskinan pasti hilang
Kaum kerja akan membina
Dunia baru pasti datang
Dunia baru pasti datang
Ayuh! Ayuh!
Berjuang sekarang
Kemerdekaan sudah datang
Merah panji-panji kita
Merah warna darah rakyat
Merah warna darah rakyat
Berjuang sekarang
Kemerdekaan sudah datang
Merah panji-panji kita
Merah warna darah rakyat
Merah warna darah rakyat
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