Thursday, March 19, 2020
Association of Human papillomavirus and Breast Tumours The WritePass Journal
Association of Human papillomavirus and Breast Tumours Abstract: Association of Human papillomavirus and Breast Tumours Abstract:1.à Introduction:1.1.à Breast cancer:1.2.à Epidemiology:1.3 . Breast cancer Pathophysiology: 1.3.1à à Aetiology:1.4.à à Human papillomavirus and Cancer:1.4.1. à High risk and low risk HPV types:1.5. à Signs and Symptoms:1.4. à Different types of Breast cancers:1.4. à Diagnostic tests:1.5. à Aims and Objectives:2.à Methodology:2.1. Method and Materials:2.2. DNA purification method from tissue:3.à à Result:3.1. DNA Extraction:3.2. PCR:4.à Health and Safety:5. à à Ethical Issues:6.à à Literature search:7.à à Statistical analysis:8.à à Treatment:8.1. Drugs:8.2. Trastuzumab: 9.à Cancer prevention:9.1. HPV Vaccines and Cervical Cancer:9.2. Breast Cancer Vaccine:10.à Discussion:References:Related Abstract: Cancer arises due to abnormal changes or mutations, in the genes responsible for regulating the growth of cells. Human papillomavirus (HPV) is considered the aetiological agent for many cancers including cervical cancer. HPV causes disruption and loss of some of the viral genes such as L1 and L2 genes and also increases the expression of the early genes. Several studies have addressed a relationship with HPV and breast cancer, as different HPVs have been identified. Most of the studies were successful in finding evidence in correlation of HPV 6, 11, 16 and 18 in invasive ductal breast carcinoma by using different techniques including DNA extraction and PCR, however other studies achieved low positivity or negative result. The aim of this study was to find out the association of HPV and Breast cancer. DNA was successfully extracted from archived breast tissue samples using DNA extraction method. This DNA sample could be amplified by using PCR to find HPV genome specifically targeting E1 gene. This is an ongoing work by the supervisors of the project to try and detect HPV genome in breast cancer, if successful a vaccine could be developed against various strains of HPVs worldwide and it could save many lives. Keywords:à à Human papillomavirus, DNA Extraction, Breast cancer, Vaccine, PCR, 1.à Introduction: 1.1.à Breast cancer: Breast cancer is a malignant tumour that originates in the breast tissue, mainly from the inner lining of milk ducts or the lobules that supply milk to the ducts, cancers that initiates from ducts are called ductal carcinomas and those originating from lobules are called as lobular carcinomas. Cancer occurs due to abnormal changes or mutations, in the genes responsible for regulating the growth of cells (Sariego, 2010). The change in the genetic information causes a cell to no longer carry out its function properly (Almeida Barry, 2010). The following figures show the two types of cancers Benign and Malignant. (Almeida; Shela, 2010) à à à à à à à à à à à à à à à à à à à Figure: 2 malignant tumours Figure 1 and 2: above shows benign vs. malignant cancers. (a) A benign tumour is a mass of cells that remains within the tissue in which it originally developed. (b) The invasion of cancer cells into surrounding tissues is the hallmark of a malignant tumour. Malignant cells may break free from the tumour and travel to other locations in the body through the process of metastasis (Almeida Barry, 2010). 1.2.à Epidemiology: Breast cancer is one of the main health problems worldwide (Bao, 2011) and which resulted http://en.wikipedia.org/wiki/Breast_cancer cite_note-WHO_WCR-2 458,503 deaths in 2008 worldwide out of which 13.7% à are of cancer deaths in women and it is about 100 times more common in women than in men (Veto, et al., 2009). The table below shows how females are susceptible to breast cancer at different ages for example there is 1 in 8 risk of developing breast cancer in females in the U.K in lifetime. Table 1: Shows estimated risk of developing breast cancer by age, females, UK, 2008 UK, 2008 à Adopted from: www.cancerresearch.uk http://info.cancerresearchuk.org/cancerstats/types/breast/riskfactors/ Date accessed: 20/01/11 The table 2 below shows that more deaths happens in females due to breast cancer than males as it can be seen from the table only 69 males died in 2008 in compare to 12,047 females. Table 2: Shows the number of deaths and mortality rates in the UK in 2008. Adopted from: www.cancerresearch.uk http://info.cancerresearchuk.org/cancerstats/types/breast/mortality/#age Date accessed: 20/01/11 The figure below shows the incidence and mortality rates from female breast cancer in EU countries. As it can be seen from the table Belgium has the highest rates of incidence in female breast cancer. Figure 1 above is a graph of incidence and mortality rates in EU. Adopted from: www.cancerresearch.uk http://info.cancerresearchuk.org/cancerstats/types/breast/incidence/ Date accessed: 20/01/11 1.3 . Breast cancer Pathophysiology: 1.3.1à à Aetiology: Some of the suspected aetiological factors which influence the cases of breast cancer are family history, obesity, age, oral contraceptives and alcohol. Family history: A woman who has a family member with breast cancer increases double the risk of getting breast cancer in compare to a woman with no family history (Lancet, 2001). Obesity: obesity increases the risk of postmenopausal breast cancer by up to 30%, since levels of hormones rises with excess body fat such as oestrogen and insulin these are the common features of cancers. Age: older women are at higher risk. à Particularly women aged 50-69 are most at risk, predominantly those with a late menopause. Oral contraceptives: increases the risk by approximately a quarter but since people who uses are commonly younger women, therefore the risk is fairly low. Alcohol: drinking alcohol as less as one alcoholic drink each day increases the risk of breast cancer by around 12%. (Cancer Research U.K, 2008) Some other factors include: Lesions toà DNAà such as genetic mutations. There is link between mutations that can lead toà breast cancer andà oestrogenà exposure, found out by carrying out experiments. Another factor is when a body fails to carry out immune surveillance; it is a theory in which the immune system gets rid of malignant cells throughout ones life. Other factor is inherited defects inà DNAà repairà genes, such as BRCA1, BRCA2 and TP53 (Adams, et al., 2011). Figure 2 above shows the percentage of different genes with associated risk. Figure adopted from: Wooster and Webber, (2003) Date accessed: 12/04/11 Moreover according to many authors there is a potential link between the HPV and breast cancer. 1.4.à à Human papillomavirus and Cancer: HPV genome is normally found in the cytoplasm of infected tissues however, the DNA of HPV types that cause cancer are integrated into the host genome. HPV causes disruption and loss of some of the viral genes for example (L1 and L2 genes) and also increases the expression of the early genes (Wang, 2007; Mera, 1997). Oncoproteins E5 interacts with MHC I and prevents its transport to the cell surfaceà therefore infected cells escapes the immune system consequently allowing the virus to establish persistent infections and thus progressing to cancer. E6 targets p53 for degradation and therefore prevents apoptosis of abnormal cells, whereas E7 inactivates Rb (retinoblastoma) function, which results in abnormal cell proliferation and disturbs the normal cell cycle regulation (Wang, 2007; WHO, 2006; Mera, 1997). P53 and Rb are tumour suppressor genes which stop tumours from developing (Mera, 1997). Incorporation of virus into host cell increases and sustains the growth of both virus and the host cell, thus resulting in the alteration of infected host cells into malignant cells (Mera, 1997; Wang, 2007) and ultimately invasive cancer. Figure 3 above shows different genes in HPV. Adopted from: Symptoms of HPV 2010 symptomsofhpv.net/113/hpv-16/ Date accessed: 07/04/11 Table 9 below shows the function of different genes within the HPV virus: Gene/Region Function E1/E2 Code for proteins which control the function of E6 and E7 genes. E4 Function largely unknown but may control virus release from cell. E5 Codes for a hydrophobic protein which enhances immortalisation of the cell. E6 Codes for proteins which inhibit negative regulators of the cell cycle .E6 products inhibit p53 which is a transcription factor for apoptosis (programmed cell death). E7 Codes for products whichà à bind to the retinoblastoma tumour suppressorà à proteins thereby permitting the cell to progress through the cell cycle in the absenceà à à of normal mitogenic signals. L1/L2 Code forà structural proteinsà and formation of complete virus particles. LCR Necessary for normal virus replication and control of gene expression. Adopted from: Eurocytology eurocytology.eu/static/eurocytology/eng/cervical/LP1ContentMcontA1.html Date accessed: 19/03/11 The HPV (human papillomavirus) is a member of the papillomaviridae family and has a double stranded circular DNA genome (Wang, 2007). These viruses are small in size with 8kbp-long DNA genome and have no envelope (WHO, 2006). HPV genome contains early (E) and the late genes (L) which codes for early proteins (E1-E7), late proteins (L1 and L2) and a non coding long control region (LCR) (WHO, 2006; Mera, 1997; Govan, 2008). 1.4.1. à High risk and low risk HPV types: There are more than one hundred different HPV types that have been discovered (WHO, 2006) and these are divided into high risk and low risk types. HPV 16, 18, 31 and 45 are some high risk HPV types associated with most of the cancer, while HPV 6 and 11 are low risk non-oncogenic HPV types (Brown, et al., 2005; Govan, 2008). Table3: the following table shows some high risk, low risk and potentially risk HPVs. Classification HPV types High-risk 16, 18, 31, 33, 35, 39, 45, 51, 52, 56, 58, 59 Low-risk 82, 6, 11, 40, 42, 43, 44, 54, 61, 70 Potentially high ââ¬ârisk 26, 53 Source: Govan (2008) HPV 6 and 11 are linked with up to 90% genital warts (Von Krogh, 2011), nevertheless after the examination of 55 genital wart samples from Slovenia, using polymerase chain reaction (PCR), the authors concluded that HPV 6 and 11 genotypes were detected in 96.4% of genital warts patients (Potocnik, et al., 2007). 1.5. à Signs and Symptoms: Changes that could arise due to a breast cancer are: A change in the size or shape of a breast A lump or thickening in an area of the breast Dimpling of the skin A change in the shape of the nipple, particularly if it turns in, sinks into the breast or becomes irregular in shape A blood stained discharge from the nipple (Dixon, 2005; Breast cancer, 2008). Figure 3a: above shows the symptoms of breast cancer Source: Healthbase (2008) http://blog.healthbase.com/2008_09_01_archive.html Accessed date: 11/04/2011 Normal anatomy of the breast: Female breast anatomy The structure of female breast is mainly made up of fat and connective tissue, but also contains milk ducts, lymph nodes, blood vessels and structures known as lobes and lobules (Rosen, 2009). Figure 4 above shows normal anatomy of breast tissue. The above figure adopted from: Mayoclinic (2009) mayoclinic.com/health/breast-cancer-early-stage/BC00001 Date accessed: 8 April 2011. Lobules and ducts Every breast has 12 to 20 lobules that protrude from the nipple and holds small alveoli; the lobules are connected together by a network of thin ducts (Rosen, 2009). Figure 5 above shows different parts in the female breast The above figure adopted from: Mayoclinic (2009) mayoclinic.com/health/breast-cancer-early-stage/BC00001 Date accessed: 8 April 2011. Stromata Spaces around the lobules and ducts are filled with fatty tissue, ligaments and connective tissue (stromata). The size of the breast is determined by the amount of fat it contains, the breast tissue is also sensitive to cyclic changes in hormone levels (Rosen, 2009). Figure 6 above shows the position of stromata in female breast. The figure adopted from: Mayoclinic (2009). mayoclinic.com/health/breast-cancer-early-stage/BC00001 Date accessed: 8 April 2011. Muscles Breasts are muscle free tissues, muscles lie beneath the breasts separating them from the ribs (Rosen, 2009). The above figure adopted from: Mayoclinic (2009) mayoclinic.com/health/breast-cancer-early-stage/BC00001 Date accessed: 8 April 2011. Arteries and capillaries Blood supply all the essential nutrients and oxygen to the breast tissue through arteries, capillaries and small blood vessels (Rosen, 2009). Figure 8 above shows the position of capillaries and arteries in and around the breast. Figure adopted from: Mayoclinic, (2009) mayoclinic.com/health/breast-cancer-early-stage/BC00001 Date accessed: 8 April 2011. Lymph nodes and lymph ducts The lymphatic system contains blood vessels, lymph ducts and lymph nodes that helps fight infection, lymph nodes are present behind the breastbone, under the armpit and in other parts of the body engulfs harmful substances that are in the lymphatic system and safely get rid of them (Rosen, 2009; Mayoclinic, 2009). Figure 9 above shows the position of the lymph nodes and lymph ducts. The above figure adopted from: Mayoclinic, 2009 mayoclinic.com/health/breast-cancer-early-stage/BC00001 Date accessed: 8 April 2011. 1.4. à Different types of Breast cancers: There are different types of breast cancer for example ductal and lobular and it depends on the type of tissue that it is derived from. Table 3.1 below shows the list of different types of breast cancer: DCIS ductal carcinoma in situ LCIS lobular carcinoma in situ Invasive ductal breast cancer Invasive lobular breast cancer Inflammatory breast cancer Pagets disease Breast cancer in men The following figures show some of the main types of the cancer that begins in different areas of the breast for example the ducts, the lobules, or in some cases, the tissue in between. These figures also show the different types of breast cancer, including non-invasive, invasive, metastatic and recurrent breast cancers. a. à Ductal Carcinoma in situ (DCIS)à Range of Ductal Carcinoma in situ (DCIS) Figures: 10 and 11 above show normal breast with nonââ¬âinvasive ductal carcinoma in situ (DCIS) in an enlarged crossââ¬âsection of the duct. Adopted from: Breast cancer (2008) breastcancer.org/symptoms/types/dcis/diagnosis.jsp Accessed date: 20/01/2011 Breast profile A B C D E F G Ducts Lobules Dilated section of duct to hold milk Nipple Fat Pectralis major muscle Chest wall/ rib cage Enlargement Ductalà cancer cells Normal lobular cells Basement membrane Lumen ( centre of duct) Table 4: shows the annotation of the above figures (Trentham-Dietz, et al., 2011) b.à à Lobular Carcinoma in situ (LCIS Figure: 12 above shows normal breast with lobular carcinoma in situ (LCIS) in an enlarged crossââ¬âsection of the lobule. Adopted from: Breast cancer (2008) breastcancer.org/symptoms/types/ilc/tests/diagnosing.jsp Accessed date: 20/01/2011 Table 5 shows the annotation of the figure 12. Breast profile A B C D E F G Ducts Lobules Dilated section of duct to hold milk Nipple Fat Pectralis major muscle Chest wall/ rib cage Enlargement Normal Ductal cells Lobular cancer cells Basement membrane (Trentham-Dietz et al., 2011) a.à à à à à Invasive Ductal Carcinoma (IDC) Figure 13 above shows normal breast with invasive ductal carcinoma (IDC) in an enlarged crossââ¬âsection of the duct. Adopted from: Breast cancer (2008) breastcancer.org/symptoms/types/ilc/tests/diagnosing.jsp Accessed date: 20/01/2011 Breast profile A B C D E F G Ducts Lobules Dilated section of duct to hold milk Nipple Fat Pectralis major muscle Chest wall/ rib cage Enlargement Normal duct cells ductal cancer cells breaking through the basement membrane à Basement membrane Table 6 shows the annotation of the figure 13. (Trentham-Dietz, et al., 2011) c.à Invasive Lobular Carcinoma (ILC) The above figure 14 shows normal breast with invasive lobular carcinoma (ILC) in an enlarged crossââ¬âsection of the lobule. Adopted from: Breast cancer (2008) breastcancer.org/symptoms/types/ilc/tests/diagnosing.jsp Accessed date: 20/01/2011 Table 7 shows the annotation of the figure 14. Breast profile A B C D E F G Ducts Lobules Dilated section of duct to hold milk Nipple Fat Pectralis major muscle Chest wall/ rib cage Enlargement Normal cells Lobular cancer cells breaking throughà the basement membrane Basement membrane (Trentham-Dietz, et al., 2011) Following are some examples of non-invasive cell growths: à à d.à Non-Invasive Cell Growth Subtypes Solid Figure: 15 shows A cancer cells B basement membrane Adopted from: Breast cancer (2008) Accessed date: 20/01/2011 e. à à Non-Invasive Cell Growth Subtypes Cribriform Figure: 16 above shows (A) cancer cells (B) basement membrane (C) lumen (centre of duct) Adopted from: Breast cancer (2008) Accessed date: 20/01/2011 à à f.à Non-Invasive Cell Growth Subtypes Papillary Figure: 17 above shows (A) cancer cells (B) basement membrane (C) lumen (centre of duct) Adopted from: Breast cancer (2008) Accessed date: 20/01/2011 g.à à Non-Invasive Cell Growth Subtypes Comedo Figure: 18 above shows (A) living cancer cells (B) dying cancer cells (C) cell debris (necrosis) Adopted from: Breast cancer (2008) Accessed date: 20/01/2011 h. Vascular and Lymphatic Invasion Figure: 20 above shows normal breast with cancer cells invading the lymph channels and blood vessels in the breast tissue Adopted from: Breast cancer (2008) Accessed date: 20/01/2011 Table 8 shows the annotation of the above figure Breast profile A B C D E F Blood vessels Lymphatic channels Enlargement Normal duct cells cancer cells Basement membrane Lymphatic channel Blood vessel Breast tissue à 1.4. à Diagnostic tests: Diagnosis of the breast cancer incorporates x-rays and screening tests and following are some of the important diagnostic tests that can be carried out before and after symptoms of breast cancer. Tests: Mammogram: A mammogram is the main screening test for asymptomatic patients who are over the age of 40 as well as for symptomatic adult patients (Bao, 2011).This test has a high sensitivity and specificity (Banks, 2004). If a mammogram does not find out an abnormality in patients with a clinically detected breast mass, additional imaging ultrasound and/or MRI should be carried out for further evaluation (Bao, 2011). Outcome:à à The results are indicative of malignancy include: an irregular speculated mass, clustered micro-calcifications, and linear branching calcifications (Banks, 2004; breast cancer, 2010). The above figure 21 shows how mammography is carried out. Figure 21 adopted from: Breast cancer (2010) breastcancer.org/symptoms/testing/types/mammograms/ Accessed date: 02/04/2011 Breast Ultrasound: Ultrasound sends high-frequency sound waves through the breast and changes them into images on a screen. The ultrasound technician places a sound-emitting probe on the breast to carry out the test and there is no radiation involved (Matsuzaki, et al., 2010). Outcome:à The results are indicative of malignancy include: a hypo echoic mass, an irregular mass with internal calcifications, and enlarged auxiliary lymph nodes (breast cancer 2010; Moss, 1999). The above figure 22 shows how ultrasound is carried out. adopted from: Breast cancer (2010) breastcancer.org/symptoms/testing/types/ultrasound.jsp Accessed date: 02/04/2011 Breast MRI: MRI uses magnets and radio to produce detailed cross sectional images of the inside of the body. MRI screens high-risk women (breast cancer, 2010). The Sensitivity is 88% to 91%. Specificity is about 67% (Bluemke, 2004). Outcome: The results are indicative of malignancy include: a heterogeneously enhancing area and significant architectural distortion (Bluemke, 2004). The above figure 23 shows how MRI is carried out. adopted from: Breast cancer (2010) breastcancer.org/symptoms/testing/types/mri/ Accessed date: 02/04/2011 Biopsy: There are different types of biopsy techniques and among these techniques Fine needle aspiration (FNA) is the least invasive procedure and has high sensitivity and specificityà (Dayal, et al., 2011). à FNA is good for quick diagnosis of malignancy. Nonetheless, core biopsy is generally favoured, as it effectively differentiates between pre-invasive and invasive disease and is less chance getting inadequate sampling (Dayal, et al., 2011). à Outcome: Invasive ductal carcinoma is responsible for almost 80% of all breast cancers, cords of tumour cells among associated glandular formation, which make varying degrees of fibrotic response. Whereas invasive lobular carcinoma, small tumour cells that invade past the basement membrane of the lobules and form an Indian file between collagen bundles, usually appears as well-differentiated tumour cells that display tubule formation (Dayal, et al., 2011). 1.5. à Aims and Objectives: The aim of this project was to evaluate the association of Human papillomavirus (HPV) and breast cancer, additionally to collect the studies that support the presence of HPV DNA in patients with breast lesions worldwide. The archived samples diagnosed with breast carcinoma, will be used to extract the DNA by DNA Extraction method which could be further used for amplifying this DNA using PCR to detect HPV genome. This will ascertain the role of this virus in the pathogenesis of breast cancer and will also help the scientist for further investigation of this virus on biology of cancer. The following is the methodology of my project as how I carried out the experiment and extracted the DNA. 2.à Methodology: The methodology incorporates materials and method, health and safety, ethical issues and statistical analysis. 2.1. Method and Materials: The following table 9 shows the materials that have been used to extract the DNA. Materials Measurements Universal tubes 20 ml, 5ml Epindorf tube 1.5 ml, 500ul Gilson pipetts 2x 5- 50ul, 2x 0.1 ââ¬â 2.5 ul,2x 100 ââ¬â 1000ul, 1x 20 ââ¬â 200ul Dry heat block ( incubator) Vortex Waterbath ( 37c) Centrifuge and microfuge 70% of alcohol to avoid contamination and spray bottle Ice box 10. Thermometer( to measure the temperature) 11. Spectrophotometer( OD reader) 12. Pipettà tips 13. Tissue and Cell LysisSolutionà à à 600ul (60ml) 14. Proteinase K 4ul ( 200ul) 15. RNase A 2ul (400ul) 16. Protein Precipitation Reagent 300ul (60ml) 17. Isopropanol 1ml (2ml) 18. Ethanol 70% 19. TE Buffer 35ul (8ml) 2.2. DNA purification method from tissue: The following is the method used to extract the DNA from the archived sample of breast tissue. Lysis of Formalin-Fixed, Paraffin-Embedded (FFPE) Tissue à à à à à à à i.à à à à à à à à à à à Placed 10-50 mg of 10- to 35-à µm thick paraffin sections into an appropriate tube. If using a larger amount of tissue, adjust the reagent volumes accordingly. à à à à à ii.à à à à à à à à à à à Diluted 4 à µl of ââ¬Å"Proteinase Kâ⬠into 600 à µl of ââ¬Å"Tissue and Cell Lysis Solutionâ⬠for each sample, and mixed. à à à iii.à à à à à à à à à à à Added 600 à µl of ââ¬Å"Tissue and Cell Lysis Solutionâ⬠containing the ââ¬Å"Proteinase Kâ⬠to the sample and mixed. à à à iv.à à à à à à à à à à à Incubated at 65à °C for 30 minutes; followed by a brief (10 seconds) vortex mix. à à à à à v.à à à à à à à à à à à Cooled the samples to 37à °C and added 2 à µl of ââ¬Å"RNase Aâ⬠to the sample; mixed thoroughly. à à à vi.à à à à à à à à à à à Incubated at 37à °C for 30 minutes. à vii.à à à à à à à à à à à Placed the samples on ice for 3-5 minutes and then preceded with total DNA precipitation (below). Precipitation of Total DNA Added 300 à µl of ââ¬Å"MPC Protein Precipitation Reagentâ⬠to 600 à µl of lysed sample and vortex vigorously for 10 seconds. à à à ix.à à à à à à à à à à à Pellet the debris by centrifugation at 4à °C for 10 minutes at âⰠ¥10,000 x g in a microcentrifuge. If the resultant pellet was clear, small, of loose, added an additional 25 à µl of ââ¬Å"MPC Protein Precipitation Reagentâ⬠, mixed, and pellet the debris again. à à à à à x.à à à à à à à à à à à Transferred the supernatant to a clean microcentrifuge tube and discarded the pellet. à à à xi.à à à à à à à à à à à Added 500 à µl of ââ¬Å"isopropanolâ⬠to the recovered supernatant. Inverted the tube 30-40 times. à xii.à à à à à à à à à à à Pellet the DNA by centrifugation at 4à °C for 10 minutes in a microcentrifuge. Carefully poured off the ââ¬Å"isopropanolâ⬠without dislodging the DNA pellet. Rinsed twice with 70% ââ¬Å"ethanolâ⬠, being careful to not dislodge the pellet. Centrifuged briefly if the pellet was dislodged. Removed all of the residual ethanol with a pipet. à xv.à à à à à à à à à à à Resuspended the DNA in 35 à µl of ââ¬Å"TE Bufferâ⬠. Source: Epicentre Biotechnologies 3.à à Result: DNA is extracted by a DNA histological processing using PCR and DNA extraction techniques. These are techniques used to extract, amplify and copy small segments of DNA. It is fast and inexpensive because significant amounts of a sample of DNA are necessary for molecular and genetic analyses (Mendizabal et al., 2008). 3.1. DNA Extraction: DNA was extracted by using DNA extraction protocol written in the method section. In the DNA extraction different solutions were used for example Proteinase K enzyme is used to digest protein and to remove protein contamination from DNA and to get to the pure DNA (Ebeling, et al., 1974). Also different machines incubators, vortex and centrifuge were used to break down cell walls. Following the DNA extraction PCR is used to amplify the DNA to find HPV genome. 3.2. PCR: Using the PCR to amplify a segment of DNA firstly the sample is heated so that the DNA denatures or divides into two pieces of single-stranded DNA. After that an enzyme called Taq polymerase synthesizes builds two new strands of DNA, using the original strands as templates. This process causes the duplication of the original DNA. Each of the molecules now carries one old and one new strand of DNA. After that each of these strands can be utilized to form two new copies, and the process continues in this manner. More than one billion exact copies of the original DNA segment is achieved by repeating the cycle of denaturing and synthesizing new DNA 35 or 40 times. This whole process of PCR is automated and can be done in just a few hours. A thermocycler machine directs this process and is programmed to change the temperature of the reaction every few minutes to cause DNA denaturing and synthesis. Source: Bruce Foukes lab Accessed date: 20/01/11. There are many different types of PCR for example conventional PCR assays using consensus primers and highly sensitive Real-Time PCR (Hedau, et al., 2011). Following are the result of the DNA extracted using a machine called nanoviewer.à Many concentration of the DNA extracted are within the good range which is 1.8 ââ¬â 2.0. This indicates that the samples have not been contaminated with protein. The following table 10 shows the result of the DNA extracted: Breast Tissue sample number Concentration ng/ul Results 33 101.5 ng/ul A260/280 = 1.990 8 47.5 ng/ul A260/280 = 1.939 77 33 ng/ul A260/280 = 1.886 54 15.9 ng/ul A260/280 = 1.904 76 105.5 ng/ul A260/280 = 1.835 25 93.0 ng/ul A260/280 =à 1.958 12 29.5 ng/ul A260/280 = 1.735 13 26.0 ng/ul A260/280 =à 1.877 7 143.0 ng/ul A260/280 =à 2.014 4.à Health and Safety: The health and safety procedures were followed according to the requirement of the laboratory for this project and a copy of COSSH assessment was given to the laboratory technical staff and to the project supervisor 5. à à Ethical Issues: Approval of UKââ¬â¢S ethical committee regarding the usage of the breast tissue samples has already been granted to the project supervisor and hence there is no need of further ethical approval for this project. 6.à à Literature search: To understand the scope of the HPV and breast cancer very well 15 abstracts have been submitted at the beginning to the project supervisor that were conducted by many journals and research papers. 7.à à Statistical analysis: This project is a laboratory based and therefore does not require any statistical analysis to be carried out. 8.à à Treatment: Breast cancer is treated with surgery, radiotherapy, chemotherapy and drugs. There are many drugs that are used to either treat or reduce the risk of breast cancer and following are some example of these drugs: 8.1. Drugs: Table11 below shows the list of drugs used for breast cancer treatment à Herceptin (chemical name: Trastuzumab ) Tamofen (chemical name: Tamoxifen) Arimidex (chemical name: anastrozole) Aromasin (chemical name: exemestane) Avastin (chemical name: bevacizumab) Carboplatin (brand name: Paraplatin) Cytoxan (chemical name: cyclophosphamide) Daunorubicin (brand names: Cerubidine, DaunoXome) Doxil (chemical name: doxorubicin) Ellence (chemical name: epirubicin) Thiotepa (brand name: Thioplex) Trelstar (chemical name: triptorelin) Tykerb (chemical name: lapatinib) Vincristine (brand names: Oncovin, Vincasar PES, Vincrex) Xeloda (chemical name: capecitabine) Some of the drugs that are used are explained below. Tamoxifen: is a drug that uses SERMs (selective oestrogen receptor modulator) that attaches to the oestrogen receptors in breast cells and blocks the effects of oestrogen (Lacroix, et al., 2010). Uses: to treat men and both pre-menopausal and post-menopausal women, typically is used to: shrink large, hormone-receptor-positive breast cancers before surgery reduce breast cancer risk in undiagnosed women at higher-than-average risk of developing breast cancer However Tamoxifen is very cost effective (Noah-Vanhoucke, et al., 2011) Side effects: irregular menstrual cycles vaginal discharge or bleeding depression endometrial cancer 8.2. Trastuzumab: is a drug that uses HER2 (human epidermal receptor 2) inhibitors that works against HER2-positive breast cancers by blocking the ability of the cancer cells to receive chemical signals that tell the cells to grow. Uses: treat metastatic, HER2-positive breast cancer (Barok, et al., 2011) shrink large, advanced-stage, HER2-positive cancers before surgery Side effects: diarrhea anemia abdominal pain 9.à Cancer prevention: 9.1. HPV Vaccines and Cervical Cancer: Cervical cancer and sexual behaviour of population are directly proportional to each other, recent study shows that in the U.K HPV prevalence and possession increased consistently with increasing numbers of lifetime sexual partners, regular partners, and new partners in the last 5 years (Almonte, 2011). The two prophylactic vaccines Cervarix and Gardasil consist of virus-like particles (VLPS), these are recombinant viral capsids made by expressing HPV 16 and 18 L1 proteins in insect cells through the baculovirous (cervarix) or HPV 6, 11, 16 and 18 L1 proteins in yeast cells (Gardasil) (Kahn 2005; Wang 2007; Kirnbauer et al., 1993). The virus-like particles (VLPS) contains no viral DNA and therefore would not in any case cause an infection or cervical cancer in recipients (Wang, 2007). Cervarix: GlaxoSmithKline (GSK) produces cervarix vaccine; it is a bivalent containing HPV 16 and 18 L1 virus-like particle vaccines that works against HPV 16 and 18 infections and cervical cancer (Bayas et al. 2008; Govan 2008). A phase II study illustrated that Cervarix was 91.6% efficacious against occasional infections and 100% effective against persistent infection (Harper et al. 2004). Cervarix is made up of an ASO4 adjuvant which contains aluminium hydroxide and 3-O-deacylated monophosporyl lipid (MPL), ASO4 helps improve the immune system (Bayas et al., 2008). Gardasil: Gardasil is developed by Merck and Co; it is a quadrivalent vaccine containing HPV 6, 11, 16 and 18 virus-like particles (Adams, et al., 2007; FDA, 2006). A phase II efficacy study of Gardasil results demonstrated that the vaccine has 90% efficacy in preventing incident HPV infection and cervaical cancer (Viller, et al., 2005). In June 2006 Gardasil was licensed by the FDA for use in young and adult females between the ages of 9 to 26 for the prevention of cervical cancer, genital warts and precancerous lesions (FDA, 2006), it was also approved in September 2008 for the prevention of vaginal and vulvar cancers caused by HPV 16 and 18 (FDA, 2008). Both of the above vaccines are given in a series of three 0.5ml immunisations over a time period of six months prior to a young person becomes sexually active (Long III, et al., 2007; WHO, 2007). Figure 24 shows how the HPV DNA is detected in cervical cancer. The above figure adopted from: Global Link (2008) Date accessed 07/04/11 9.2. Breast Cancer Vaccine: Vaccine has been developed firstly against cervical cancer and now the scientists are trying to develop a vaccine against breast cancer, howeverà scientists are trying to develop a vaccine which could be useful against all the different strains of HPV such as 16, 18, 33 worldwide (Armstrong, 2010). Prognosis: Table 14 shows the five year survival rates for colorectal and breast cancer. (Howlader, et al., 2011). There is only 23% survival rate for distant spread in breast cancer this shows that there is a need for more research to develop a vaccine against different strains of breast cancers and to treat these cancers affectively and avoid so many deaths. 10.à Discussion: Breast cancer is a malignant tumour that starts from cells of the breast. Cancer occurs due to mutations in the genes responsible for controlling the growth of cells thus cells are unable to function properly (Sariego, 2010). Human papillomavirus (HPV) is considered as an aetiological agent for many cancers such as cervical cancer, breast cancer etc. High risk HPV types causes cancer by integrating into the host genome and causes disruption and loss of some of the viral genes such as L1 and L2 genes and also increases the expression of the early genes (Wang, 2007; Mera, 1997). The aim of the research was to find out the association of HPV with breast cancer involving DNA extracted from archived breast tissue samples using DNA extraction method. This DNA sample could be amplified using PCR to find HPV genome specifically targeting E1 gene. This is conjunction with other studies in which samples were amplified using consensus primers CpI CpIIG and targeted the E1 gene in a region conserved for 99% of most common HPV subtypes (Mendizabal, et al., 2008). Given that the tissue samples were not fresh but were paraffin embedded which are not as good as fresh tissue samples because formalin fixation could denature the tissue during sectioning and also the DNA extracted from FFPE (formalin fixed paraffin embedded) tissues are usually at low concentration and disjointed (Shi, età al., 2006). Additionally the experiment was carried out very successfully because most of the results that have been obtained were between the ranges of 1.8 to 2.0, which are regarded as pure DNA sample and therefore contains no protein contamination. A positive and negative control should be carried out while amplifying the DNA because a positive control makes sure the technique is working satisfactorily by using a reacting material relatively similar to the test material and negative control tests the specificity of the reaction and ensures there are no false positives (Mendizabal, et al., 2008). Although good results have been achieved however there were some variations in the purity of DNA extracted from the breast tissue samples and that depends on many different factors such as some tissue samples were darker in colour than normal which suggests the samples were not as fresh therefore it gave a lower result than the normal range of 1.8 to 2.0. Additionally the low results also depended on the way the whole experiment was carried out, there had been some mistakes in adding or mixing different solutions and mistakes were constantly recorded in the lab book therefore the same mistakes were not repeated again. Moreover many different techniques have been learnt from this project including the usage of centrifuge, vortex, incubator and nanoviewer. Carrying out this project has provided a full understanding on how to engage in the practical work which is beneficial in future laboratory projects, this is an ongoing work by the supervisors of the project to try and identify the association between the HPV and the breast cancer, if successful then a broader vaccine could be developed against all different strains of HPVs such as HPV16, 18 worldwide andà to cure not only breast cancer but also many different types of cancers such as, cervical cancer, head and neck Squamous cell carcinoma, genital warts etc. This will reduce the amount of vaccination given to each patient and also it will have tremendous effect on the quality of life and will solve many problems and save many lives. Furthermore many studies have been carried out to find out the presence of HPV in breast tissue. Some were successful by getting 86.21% positivity of HPV infection in breast cancer (de Villers et al., 2005) this was in conjunction with other studies that have been successful in obtaining high positive result (Hening, et al., 1999; Gumus, et al., 2006; Kan, et al., 2006, Li, et al., 2002). Additionally according to a largest investigation on breast carcinoma specifically analysing mammoplasty and fibroadenoma specimens as a control group the authors were able to detect HPV DNA in 24.5% of the breast carcinomas but were unable to detect any in benign breast specimens (Damin, et al., 2004). However other authors have either achieved low positivity (Kroupis, et al., 2006; Tsai, et al., 2005) or HPV was totally absent ( Lindel, età al., 2007; Gopalkrishna, et al., 1996). Therefore there are two different views on the association of HPV with breast cancer as it has been indicated by the above studies, which is normal because scientists can have different opinions sometimes. This project was limited because only the DNA has been extracted and the DNA was not amplified by using PCR, in the future if this project were to be continued PCR can be used to amplify the gene from the DNA extracted in this project and the investigation can be expanded and more information can be obtained. References: Adams, S., Greeder, L., Reich, E., Shao, Y., Fosina, D., Hanson, N., Tassello, J.,à Singh, B.,à Spagnoli, G. C., Demaria, S., Jungbluth, A. A. (2011) Expression of cancer testis antigens in human BRCA-associated breast cancers: potential targets for immunoprevention? Cancer Immunol Immunotherà 262 (11) 1005-1007. Akil N, Yasmeen A, Kassab A, Ghabreau L, Darnel AD, Al Moustafa AE. (2008) High risk human papillomavirus infections in breast cancer in Syrian women and their association with Id-1 expression; a tissue microarray study. Br J Cancer. 2008, 99(3), 404-7. Almeida, C. A., Barry, S. A. (1st) 2010, Cancer Basic Science and Clinical Aspects, Willey- Blackwell A John Wiley Sons, Limited, Publication. 4.à à à à à Almonte, M., Silva, I.D., Asare, A., Gilham, C., Sargent, A., Bailey, A., Turner, A., Desai, M., Kitchener, H.C., Peto, J. (2011)à Sexual behavior and HPV infection in British women, by postal questionnaires and telephone interviews. J Med Virol. Armstrong, E. P. (2010) Prophylaxis of Cervical Cancer and Related Cervical Disease: A Review of the Cost-Effectiveness of Vaccination Against Oncogenic HPV Types. J Manag Care Pharm, 16 (3), 217-230. Band, V., Zajchowski, D., Kulesa, V., Sager, R. (1990) Human papilloma virus DNAs immortalize normal human mammary epithelial cells and reduce their growth factor requirements. Proc Natl Acad Sci USA, 87 (1), 463-7. Bao, L. J. (2011) Mammographic I mage Based Breast Tissue Classification with Kernel Self-optimized Fisher Discriminant for Breast Cancer Diagnosis. J Med Syst, 16 (11), 9691-9694. Barok, M., Tanner, M., Kà ¶ninki, K., Isola, J. (2011) Trastuzumab-DM1 is highly effective in preclinical models of HER2-positive gastric cancer. Cancer Letters. 9.à à à à à Bayas, J.M., Costas, L., Muà ±oz, A. (2008) Cervical cancer vaccination indications, efficacy, and side effects. Gynecologic Oncology, 110 (3), S11-S14. 10. Breast Cancer (2010). Breast cancer tests, Screening, Diagnosis and Monitoring. [online] Available at breastcancer.org/symptoms/testing/types/ [Accessed 02 April 2011]. 11. Breast Cancer (2008). Types of Breast cancer. [online] Available at breastcancer.org/symptoms/types/ [Accessed 20 Jan 2011]. 12. Breast Cancer (2008). What are the signs of Breast cancer? [online] (Updated 26 Nov 2008) Available at breastcancer.org/questions/bc_signs.jsp [Accessed 2 April 2011]. 13. Brown, D. R., Shew, M. L., Qadari, B., Neptune, N., Vargas, M., Tu, W., Juliar, B.E., Breen, T.E., Fortenberry, J.D. (2005) A longitudinal study of genital human papillomavirus infection in a cohort of closely followed adolescent women. The Journal of infectious Disease, 191 (2), 182-192 14. Bruce Foukes lab, 2011. Schematic of the Polymerase Chain Reaction (PCR). [online] (Updated 6th of March 2011) Available at http://serc.carleton.edu/microbelife/research_methods/genomics/pcr.html à [Accessed 20 Jan 2011]. 15. Cancer Research UK (2008) Breast cancer risk factors by age. [online] Available at http://info.cancerresearchuk.org/cancerstats/types/breast/riskfactors/ [Accessed 20 Jan 2011]. 16. Cancer Research UK (2008) Breast cancer U.K mortality statistics. [online] Available at http://info.cancerresearchuk.org/cancerstats/types/breast/mortality/#ageà [Accessed 20 Jan 2011]. 17. Cancer Research UK (2008) Breast cancer U.K, EU incidence statistics. [online] Available at http://info.cancerresearchuk.org/cancerstats/types/breast/incidence/ [Accessed 20 Jan 2011]. 18. à à Damin, A. P.S.,à Karam, R., Zettler, C. G., Caleffi, M., Alexandre, C.O.P. (2004)à à à à à Evidence for an association of human papillomavirus and breast carcinomas. Breast Cancer Research and Treatment, 84 (2), 131-137. 19. Dayal, S., Murray, J., Wilson, K., Lannigan, A. ( 2011) Imprint cytology from core biopsies increases the sensitivity of fine needle aspiration (FNA) in breast cancer patients. Magy Seb, 64 (2), 59-62. 20. Deapen, D. Liu, L. Perkins, C., Bernstein, L., Ross, R.K., (2002) à Rapidly rising breast cancer incidence rates among Asian-American women.à Intl J Cancer, 99, 747-797. 21. De Villiers, E.M., Sandstrom, R.E., zur Hausen, H., Buck, C.E. (2005) Presence of papillomavirus sequences in condylomatous lesions of the mamillae and in invasive carcinoma of the breast. Breast Cancer Res, 7-11 22. DIXON, J.M. (2005) ABC of Breast Disease Ed. 3rd, BMJ books, Blackwell Publishing. 23. EBELING, W., HENNRICH, N., KLOCKOW, M., METZ, H., ORTH, H. D., LANG, H., Forschung, E., Darmstadt, M. (1974) Proteinase K from Tritirachium album Limber. Eur. J. Biochem, 47(1) 91-97. 24. Epicenter Biotechnologies. MasterPure complete DNA and RNA kit cat. Nos. MC85200 and MC89010. [online] Available atà epibio.com/pdftechlit/110pl0910.pdf [Accessed on 28 Jan 2011]. 25. à Eurocytology. Association of human papillomavirus in cervical cancer. [online] Available at eurocytology.eu/static/eurocytology/eng/cervical/LP1ContentMcontA1.html [Accessed on 19 March 2011]. 26. Global link (2008) Importance of HPV discovery. [online] Available at http://blogs.globalink.org/uicc/templates/uicc/images/cervical/hpv.jpg [Accessed 07 April 2011]. 27. Gopalkrishna V, Singh UR, Sodhani P, Sharma JK, Hedau ST, Mandal AK, Das BC (1996) Absence of human papillomavirus DNA in breast cancer as revealed by polymerase chain reaction. Breast Cancer Res Treat 39:197ââ¬â202 28. Govan, V.A., Rybicki, E.P., Williamson, A-L. (2008) Therapeutic immunisation of rabbits with cottontail rabbit papillomavirus (CRPV) virus-like particles (VLP) induces regression of established papillomas. Virology Journal, 5:45. 29. Gumus, M., Yumuk, P.F., Salepci, T., Aliustaoglu, M., Dane, F., Ekenel, M., Basaran, G., Kaya, H., Barisik, N., Turhal, N.S. (2006) HPV DNA frequency and subset analysis in human breast cancer patientsââ¬â¢ normal and tumoral tissue samples. J Exp Clin Cancer Res 25, 515ââ¬â521. 30. Health base, 2008. Most common cancers in American women and men.[online] (Updated 22 Sept 2008) Available atà http://blog.healthbase.com/2008_09_01_archive.html [Accessed 11 April 2011]. Hedau, S., Kumar, U., Hussain, S., Shukla, S., Pande, S., Jain, N., Tyagi, A., Deshpande, T., Bhat, D., Mir, M. M., Chakraborty, S., Singh, Y. M., Kumar, R., Somasundaram, K., Bharti, A. C., Das, B. C. (2011) Breast cancer and human. 32. Hennig, E.M., Suo, Z., Thoresen, S., Holm, R., Kvinnsland, S., Nesland, J.M. (1999) Human papillomavirus 16 in breast cancer of women treated for high grade cervical intraepithelial neoplasia (CIN III).à Breast Cancer Res Treat, 53 121ââ¬â135. 33. Howlader, N., Noone, A.M., Krapcho, M., Neyman, N., Aminou, R., Waldron, W., Altekruse, S.F., Kosary, C.L., Ruhl, J., Tatalovich, Z., Cho, H., Mariotto, A., Eisner, M.P., Lewis, D.R., Chen, H.S., Feuer, E.J., Cronin, K.A., Edwards, B.K. (2011). SEER Cancer Statistics Review, 1975-2008. National Cancer Institute. Bethesda, MD. 34. Kahn, J. A. (2005) Vaccination as a prevention strategy for human papillomavirus related diseases. Journal of Adolescent Health, 37 (6), S10-S16. 35. Kan, C.Y., Iacopetta, B.J., Lawson, J.S., Whitaker, N.J. (2005) Identification of human papillomavirus DNA gene sequences in human breast cancer. Br J Cancer, 93, 946ââ¬â 948 36. Kirnbauer, R., Booy, F., Cheng, N., Lowy, D.R., Schiller, J.T. Papillomavirus L1 major capsid protein self-assembles into virus-like particles that are highly immunogenic. Proc Natl Acad Sci USA, 89 (24), 12180-12184. 37. Kroupis, C., Markou, A., Vourlidis, N., Dionyssiou-Asteriou, A., Lianidou, E.S. (2006) Presence of high-risk human papillomavirus sequences in breast cancer tissues and association with histopathological characteristics. Clinical Biochem 39, 727ââ¬â731. 38. Lacroix, A. Z., Powles, T.,à Osborne, C. K., Wolter, K., Thompson, J. R.,à Thompson, D. D., Allred, D. C., Armstrong, R., Cummings, S. R., Eastell, R.,à Ensrud, K. E., Goss, P.,à Lee, A., Neven, P., Reid, D. M., Curto, M.,à Vukicevic, M. (2010) à Breast Cancer Incidence in the Randomized PEARL Trial of Lasofoxifene in Postmenopausal Osteoporotic Women. National Cancer Institute, 305 (13), 1305-1314. Lancet, (2001) Familial breast cancer: collaborative reanalysis of individual data from 52 epidemiological studies including 58,209 women with breast cancer and 101,986 without the disease. 358 (9291), 1389-99. 40. Liang, W., Tian, H. (2008). Hypothetic association between human papillomavirus infection and breast carcinoma. Med Hypothesis. 70(2), 305-7. 41. Lindel, K., Forster, A., Altermatt, H.J., Greiner, R., Gruber, G. (2007) Breast cancer and human papillomavirus (HPV) infection: no evidence of a viral etiology in a group of Swiss women. Breast (Edinburgh, Scotland) 16, 172ââ¬â177. 42. Li, T., Lu, Z.M., Guo, M., Wu, Q.J., Chen, K.N., Xing, H.P., Mei, Q., Ke, Y. (2002) p53 codon 72 polymorphism (C/G) and the risk of human papillomavirus-associated carcinomas in China. Cancer 95, 2571ââ¬â2576. 43. Long III, H. J., Laack, N.N.I., Gostout, B.S. (2007) Prevention, diagnosis, and treatment of cervical cancer. Mayo Clinic Proceedings, 82 (12), 1566-1574. 44. Matsuzaki, M., Nomizu, T., Katagata, N., Sakuma, T., Momma, T., Tachibana, K., Andoh, J., Watanabe, F., Yamaguchi, Y., Nihei, M. (2010) A case of primary malignant lymphoma of the breast with an unusual ultrasound image. Fukushima J Med Sci, 56 (2), 145-150. 45. Mayoclinic (2009). Female breast anatomy. [online]à Available at mayoclinic.com/health/breast-cancer-early-stage/BC00001 [Accessed 8 April 2011]. 46. Mendizabal-Ruiz, A. P., Morales, J. A., Ramirez-Jirano, L. J., Padilla-Rosas, M., Moran-Moguel, M. C., Montoya-Fuentes, H. (2008) Low frequency of human papillomavirus DNA in breast cancer tissue. Breast Cancer Research and Treatment, 114 (1), 189-194. 47. Mera, S.L. (1997) Cervical Cancer. Pathology and Understanding Disease Prevention. London: Stanley Thornes Publishers Ltd., 489-526 48. Noah-Vanhoucke, J., Green, L. E., Dinh, T. A., Alperin, P., Smith, R. A., Cost-Effectiveness of Chemoprevention of Breast Cancer Using Tamoxifen in a Postmenopausal US Population. Cancer, 117. 49. Potocnik, M., Kocjan, B.J., Seme, K., Poljak, M. (2007) Distribution of human papillomavirus (HPV) genotypes in genital warts from males in Slovenia. Acta Dermatoven APA, 16 (3), 91-98. 50. Rosen, P.P. (2009) Rosens Breast Pathology. Ed. 3rd Philadelphia, Pa. Lippincott Williams Wilkins, (1), 1-28. 51. Sariego, J. (2010) Breast cancer in the young patient. The American Surgeon; Dec 2010, 76 (12,) 1397. 52. Sasieni, P.D., Shelton, J., Ormiston-Smith, N.J., Thomson, C.S., Silcocks, P.B. (2011) What is the lifetime risk of developing cancer? The effect of adjusting for multiple primaries. 53. Schorge, J.O., et al. Williams Gynecology. New York, N.Y.: McGraw-Hill Companies; 2008:1. Shi, S. R., Liu, C., Balgley, B. M., Lee, C., Taylor, C. R. (2006) Protein Extraction from Formalin-fixed, Paraffin-embedded Tissue Sections: Quality Evaluation by Mass Spectrometry. J Histochem Cytochem, 54 (6), 739- 743. 55. Symptoms of HPV (2010) HPV 16. [online] Available at http://symptomsofhpv.net/113/hpv-16/à [Accessed 07 April 2011]. 56. Trentham-Dietz, A., Sprague, B., Alagoz, O., Reaidi, P., Rosenberg, M., Gangnon, R., Stout, N. (2011) The impact of detection and treatment of carcinoma in situ on breast cancer mortality. Cancer Epidemiol Biomarkers Prev, 20 (4), 720. 57. Tsai, J.H., Tsai, C.H., Cheng, M.H., Lin, S.J., Xu, F.L., Yang, C.C., (2005) Association of viral factors with non-familial breast cancer in Taiwan by comparison with non-cancerous, fibroadenoma, and thyroid tumor tissues. J Med Virol, 75, 276ââ¬â281. 58. Von Krogh, G. (2001) Management of anogenital warts (condylomata acuminate). European Journal of Dermatology, 11 (6), 598-604. 59. Wang, K. (2007) Human Papillomavirus and Vaccination in Cervical Cancer. Taiwan J Obstet Gynecol, 46 (4), 352-362 60. Widschwendter, A., Brunhuber, T., Wiedemair, A., Mueller-Holzner, E., Marth, C. (2004) Detection of human papillomavirus DNA in breast cancer of patients with cervical cancer history. J Clin Virol 31, 292ââ¬â297. 61. World Health Organisation (2008) Globocan Fast Stats. [online] Available at http://globocan.iarc.fr/factsheets/populations/factsheet.asp?uno=900à [Accessed 2 Jan 2011]. 62. World Health Organisation (2006) State of the art new vaccines: Research and Development. [online] Available at: who.int/vaccines-documents/DocsPDF06/814.pdf [Accessed 29th March 2011]. 63. Wooster, R., Weber, B.L. (2003) Breast and Ovarian cancer. N Engl J Med, 348 2339-2347. 64. Xiaofeng, Bi. NiLi., Zhang, Y., Zhao. P., Zheng, T., Dai, Min., (2010) Human papillomavirus infection and sporadic breast carcinoma risk: a meta-analysis. Breast Cancer Res Treat, 126 (2), 515- 520.
Monday, March 2, 2020
How to Use Dashes
How to Use Dashes How to Use Dashes How to Use Dashes By Jacquelyn Landis Writers have three different dashes at their disposal: the hyphen, the en dash, and the em dash. Most of us are familiar with hyphens and their uses. Theyââ¬â¢re used to form compound modifiers (such as in ââ¬Å"a well-attended eventâ⬠). We also use them to break a word that falls at the end of a line. This usage is becoming less common, however, because word processing and layout software programs typically have automatic end-of-line hyphenation features. En and em dashes are less understood. The en dash is the width of a capital N (hence, its name). Itââ¬â¢s used to indicate a range, as in the following examples: For your homework, please read pages 162ââ¬â195. The meeting will be on Thursday, 4:00 p.m.ââ¬â6:00 p.m. The artistââ¬â¢s blue period, 1948ââ¬â1952, was his most productive. En dashes are also used to connect a prefix with an open compound: postââ¬âWorld War II exââ¬âvice president The reason for using an en dash with such compounds is to send a subtle signal to the reader that the prefix belongs to the entire compound, not just the first word of it. Em dashes are the width of (you guessed it) a capital M. Most often, theyââ¬â¢re used in pairs to emphasize an element or elements within a sentence: Cruciferous vegetables- broccoli, cabbage, and cauliflower, for instance- are said to lower the risk of cancer. Em dashes can also show an abrupt change in thought: I thought I had time- more than enough time- to catch the train. Or they can show interrupted dialogue: ââ¬Å"I told you I canââ¬â¢t- â⬠ââ¬Å"You mean you wonââ¬â¢t, not canââ¬â¢t,â⬠she said. Many writers use a double hyphen in place of an em dash, and you might have noticed that your word processor sometimes will automatically turn them into an em dash. Most word processors have shortcuts for creating en and em dashes. It would be worth your while to search your help menu to find out what they are. Want to improve your English in five minutes a day? Get a subscription and start receiving our writing tips and exercises daily! Keep learning! Browse the Punctuation category, check our popular posts, or choose a related post below:Yours faithfully or Yours sincerely?Taser or Tazer? Tazing or Tasering?40 Synonyms for Praise
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