Cervical human papillomavirus screening among older women.Rates of acquisition and clearance of cervical human papillomavirus human papillomavirus (HPV), any of a family of more than 60 viruses that cause various growths, including plantar warts and genital warts, a sexually transmitted disease. Detectable warts can be or removed, usually by chemicals, freezing, or laser, but often recur. (HPV HPV human papillomavirus. HPV abbr. human papilloma virus Human papilloma virus (HPV) ) during a 3-year period in women 51 years of age were compared with rates in younger women to provide data on cervical screening for women >50 years of age. Paired, cytologically negative, archived cervical smears taken 3 years apart from 710 women in Nottingham, United Kingdom, were retrieved and tested for HPV infection with polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) with GP5+/6+ primers. Seventy-one (21.3%) of 333 women 51 years of age who were HPV negative at baseline were positive 3 years later. This percentage was higher than the corresponding acquisition rates among women 21 (15.2%), 31 (14.1%), and 41 (13.3%) years of age, although these differences were not significant. This retrospective study retrospective study, a study in which a search is made for a relationship between one phenomenon or condition and another that occurred in the past (e.g. shows that HPV-negative women >50 years of age can acquire HPV and, therefore, require cervical screening. ********** Prospective studies of young women ([less than or equal to] 25 years of age) have reported high rates of cervicai-human papillomavirus (HPV) acquisition; the average duration of these infections is <1 year (1-4). Little evidence shows that the converse is true among older women, considering the decline in HPV prevalence that has been found with age (5,6). In studies from Brazil and Colombia, an incidence of high-risk (carcinogenic carcinogenic having a capacity for carcinogenesis. ) HPV of [approximately equal to] 5% per year was observed among women [greater than or equal to] 35 years of age (7,8); recent data from Costa Rica Costa Rica (kŏs`tə rē`kə), officially Republic of Costa Rica, republic (2005 est. pop. 4,016,000), 19,575 sq mi (50,700 sq km), Central America. showed that the rate of high-risk HPV acquisition during a 5-year interval decreased slightly with increasing age (9). All these studies were conducted in areas where the risk of cervical cancer Cervical Cancer Definition Cervical cancer is a disease in which the cells of the cervix become abnormal and start to grow uncontrollably, forming tumors. is considered to be high. In a small study from Canada, 7.7% of women 45-49 years of age who were negative for high-risk HPV at baseline tested positive 1 year later, similar to the rate in women 20-25 years of age (10). From studies of women in adulthood, estimates of the percentage of HPV infections (high and low risk) that persist >12 months range from 25% to 50% (10-13); HPV persistence after 5 years increased with age in the study from Costa Rica (9). Data on acquisition and clearance of HPV in women 50-64 years of age in the United Kingdom and other Western nations are needed. The presence of HPV is a requisite to develop invasive cancer of the cervix cervix /cer·vix/ (ser´viks) pl. cer´vices [L.] 1. neck. 2. the front portion of the neck. 3. cervix uteri. (14). Therefore, women within this age range with cytologically negative specimens, tested with a sensitive testing method such as the polymerase chain reaction (PCR), should have a virtually zero lifetime risk of developing cervical cancer, unless they acquire a new HPV infection. A mathematic modeling study based on the UK screening population estimated that not providing screening for HPV-negative women at age 50 would save as much as 25% of resources for smear tests and 18% for colposcopies; however, the savings would be accompanied by an increase in the incidence of invasive cancers of [approximately equal to] 2/100,000 women annually (15). These estimates would be more accurate if the risk of acquiring high-risk HPV infection at these ages was known. In this study, archived cervical smears were used to compare rates of HPV acquisition during a 3-year period (1 screening interval in the United Kingdom) between women of different ages. This approach also allowed us to estimate rates of HPV persistence and clearance during the same 3-year interval for women whose baseline smears were HPV positive. Methods Anonymous data were provided by the Nottingham Cervical Screening Laboratory, which holds computerized details of all cytology cytology (sītŏl`əjē), in biology, the study of the structure of all normal and abnormal components of cells and the changes, movements, and transformations of such components. smears of women who have lived in Nottingham since 1987. This laboratory also stores all specimens from women for whom routine cervical screenings were conducted by general practitioners in this area. All specimens used for this study were cytologically normal and had been stored for [greater than or equal to] 10 years (in accordance with UK legal requirements) but were scheduled for routine destruction. Women eligible for this study were 21, 31, 41, or 51 years of age when a normal baseline smear was taken in 1988. We intended to select a sample of 400 women 51 years of age and 100 women from each of the other age groups to participate in the study. The main entry criterion was a normal cervical smear taken in 1988, followed by a technically adequate subsequent smear (of any cytologic cytological, cytologic pertaining to cytology. cytological examination examination of material for purposes of cytology. Carried out on cerebrospinal fluid, joint fluid, aspirates of body cavities and cystic lesions. grade) taken from October 1990 to December 1991. The sample for women 51 years of age was supplemented by including women whose baseline smear was obtained in 1989 and who had a subsequent smear taken before July 1992; all eligible women of this age were selected. Women 21, 31, or 41 years of age were selected randomly from the list of participants who met the main entry criteria. For all participants, results from subsequent cytology examinations conducted through December 2002 were provided by the Nottingham Cervical Screening Laboratory, including any cervical biopsy cervical biopsy A biopsy of the uterine cervix usually performed days to wks after a pap smear reveals changes–especially epithelial cell abnormalities, warranting further evaluation Complications Discomfort, bleeding; the tissue obtained is placed in results from which histologic confirmation of cervical intraepithelial neoplasia cervical in·tra·ep·i·the·li·al neoplasia n. Dysplastic changes beginning at the squamocolumnar junction in the uterine cervix that may be precursor to squamous cell carcinoma. (CIN CIN cervical intraepithelial neoplasia. Cervical intraepithelial neoplasia (CIN) A term used to categorize degrees of dysplasia arising in the epithelium, or outer layer, of the cervix. , grades 1-3) or cervical cancer was obtained. When cytology slides were retrieved for HPV testing, all identifiers (name, date of birth, and cytology number) were replaced with a unique study number. Only investigators based at the cytology laboratory (P.V., J.J.) had access to clinical data. These investigators did not have access to HPV testing results for specific patients. Another investigator (M.G.) was responsible for linking HPV test results from the same patient with subsequent cytology results and had access to data on screening histories but not information through which patients could be identified. The study was approved by the Nottingham City Hospital Nottingham City Hospital is a large hospital located in Nottingham, UK. With Queen's Medical Centre, it forms the Nottingham University Hospitals NHS Trust. The City Hospital is the oldest of Nottingham's two hospitals, founded in 1903. ethics committee ethics committee A multidisciplinary hospital body composed of a broad spectrum of personnel–eg, physicians, nurses, social workers, priests, and others, which addresses the moral and ethical issues within the hospital. See DNR, Institutional review board. . Cytology slides were immersed in xylene xylene (zī`lēn) or dimethylbenzene (dī'mĕthəlbĕn`zēn), C6H4(CH3)2 (40 mL) for 2-3 days to remove coverslips. Cells were then scraped with a sterile scalpel blade into an Eppendorf tube containing ethanol (1 mL) and centrifuged to remove any trace of xylene. DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. was extracted by using Qiagen (Crawley, West Sussex West Sussex, nonmetropolitan county (1991 pop. 692,800), 768 sq mi (1,990 sq km), S England. A chalk ridge runs from the county's east to west edge. In the south the land flattens into a gentle plain. After early Roman invasions, the Saxons moved across Sussex. , United Kingdom) DNA extraction DNA extraction is a routine procedure to collect DNA for subsequent molecular or forensic analysis. Outline of a DNA extraction There are three basic steps in a DNA extraction, the details of which may vary depending on the type of sample and any substances that may kits (16). HPV DNA was amplified by using real time PCR with Mx4000 (Stratagene, La Jolla La Jolla (lə hoi`yə), on the Pacific Ocean, S Calif., an uninc. district within the confines of San Diego; founded 1869. The beautiful ocean beaches, in particular La Jolla shores and Black's Beach, and sea-washed caves attract visitors and , CA, USA) (17). The GP5+ and GP6+ consensus primer pairs in the L1 region of the HPV genome identified infection with any genital HPV type (18). The PCR master mix Quantitect (Qiagen) (19) contained optimized amounts of SYBR green SYBR Green I (SG) is an asymmetrical cyanine dye used as a nucleic acid stain in molecular biology. SYBR Green I binds to double-stranded DNA. The resulting DNA-dye-complex absorbs blue light (λmax = 498 nm) and emits green light (λmax dye (Molecular Probes Molecular Probes is a biotechnology company located in Eugene, Oregon specializing in fluorescence. The company was founded in 1975 by Richard and Rosaria Haugland in their kitchen in Minnesota, then moved briefly to Texas and finally to Oregon in the early 1980s. , Inc., Eugene, OR, USA) to which primers (5 pmoL/tube) and DNA template (5 BL) were added. Positive controls containing tubes of HPV 16 DNA diluted at various strengths (0.01-10 pg/tube) and negative controls containing the PCR master mix but no DNA template were included in all assays. Forty amplification cycles were performed. Samples that were HPV positive with the GP5+/6+ primer sequence were tested with type-specific HPV16 and HPV18 primers located in the E7 667-686 and 753-774 regions of the genome, respectively (Sequences: HPV16 forward primer, 5'-GAT GAA GAA Goals Against Average (Hockey) GAA Gaelic Athletic Association GAA Gravure Association of America (Rochester, NY) GAA German Agro Action GAA Global Aquaculture Alliance GAA Gay Activists Alliance ATA (1) (AT Attachment) The specification for IDE drives. See IDE. (2) See analog telephone adapter. ATA - Advanced Technology Attachment GAT GGT GGT ?-glutamyl transferase. GGT Gammaglutamyltransferase, see there CCAGC-3'; HPV 16 reverse primer, 5'-GCT TTG tTG Tissue Transglutaminase TTG Telltale Games (website) TTG TiVo To Go TTG Time-To-Go TTG Tonalite-Trondhjemite-Granodiorite TTG Tea Tree Gully (South Australia) TTG Tom Tom Go TAC 1. TAC - Translator Assembler-Compiler. For Philco 2000. 2. TAC - Terminal Access Controller. GCA GCA, ground-controlled approach: see instrument-landing system. CAA Caa See CCC. CCG CCG Chicago CCG Collectible Card Game CCG Canadian Coast Guard CCG Country Commercial Guide CCG Children's Cancer Group CCG Commission Canadienne des Grains (Canadian Grain Commission) AAG AAG Association of American Geographers (Washington, DC) AAG Assistant Attorney General AAG Asociación Argentina de Golf AAG Anti-Aircraft Gun AAG Assistant Adjutant General AAG Australian Association of Gerontology C-3'; HPV18 forward primer, 5'-TGA AAT Alpha-1-antitrypsin (AAT) A blood component that breaks down infection-fighting enzymes such as elastase. Mentioned in: Chronic Obstructive Lung Disease TCC TCC The Car Connection (web site) TCC Tidewater Community College TCC Tallahassee Community College TCC Temporary Continuation of Coverage TCC Tucson Convention Center (Tucson, AZ, USA) GGT TGA See TARGA. TGA - Targa Graphics Adaptor ACC See adaptive cruise control. TTC-3'; and HPV 18 reverse primer, 5'GGT CGT CGT Capital Gains Tax CGT Confédération Générale du Travail (French Labor Union) CGT Confederación General del Trabajo (Spanish: Federation of Trade Unions) CTG CTG Cartridge CTG Center for Technology in Government (SUNY, Albany, New York) CTG Center for Technology in Government CTG Computer Task Group (IT consulting company; Buffalo, NY, USA) CTG AGC AGC Automatic Gain Control AGC Automotive Glass Cartridge (fuse) AGC Associated General Contractors AGC Associated General Contractors of America AGC Atypical Glandular Cells AGC Attorney-General's Chambers TTT "Thought that too." See digispeak. CT-3'). A total of 471 cervical DNA samples collected for related studies (although not from women in this study) were tested for the [beta]-globin gene to assess the integrity of the DNA extraction process; 456 (96.8%) tested [beta]-globin positive. HPV acquisition was calculated as the percentage of women who were HPV negative at baseline but HPV positive on follow-up (and the converse applied for HPV clearance). Clearance of baseline infections was assumed if the equivalent test at follow-up was negative. Nonsymmetric confidence intervals were calculated to measure acquisition and clearance, as these are more appropriate when observed percentages are low (20). Rates of HPV acquisition in women of different ages were compared with the [chi square chi square (kī), n a nonparametric statistic used with discrete data in the form of frequency count (nominal data) or percentages or proportions that can be reduced to frequencies. ] test; Fisher exact test was used as a consequence of small numbers for HPV clearance. Rates of HPV prevalence (at baseline and follow-up), acquisition, and clearance across the 4 ages were compared by using the [chi square] test for trend. Results Cervical smears were retrieved for HPV testing for 710 women (104 were 21 years of age, 105 were 31 years of age, 105 were 41 years of age, and 396 were 51 years of age). Of the study sample (N = 710), 11 were subsequently excluded because of a cervical abnormality before their baseline smear. Follow-up smears could not be retrieved for 27 women; the smear was cytologically abnormal in 20 cases, and the follow-up smear could not be retrieved in the 7 remaining cases. Sixteen women were excluded because an HPV result could not be ascertained at either time because of insufficient DNA. The final sample was 656 women. The mean length of time between the baseline and follow-up smear was 3.08 years (range 1.98-3.84 years). For 76% of the sample (n = 499), the time gap was 2.75-3.25 years. The average time gap between the smears did not vary substantially between age groups. Rates of HPV infection in this sample are shown in Table 1. In 1988, rates of HPV infection declined with age; the lowest rate was seen in women 51 years of age (10.5%). Three years later, the trend was reversed with the highest rate of HPV in women who were 51 years of age at baseline. A test to determine HPV infection trend with age was significant at baseline and borderline significant at follow-up (Table 1). Age-specific rates of HPV acquisition and clearance (any genital type amplified by the GP5+/6+ primer pair) are shown in Table 2. The HPV acquisition rate was highest for women who were 51 years of age at baseline, although this rate was not significantly higher than the corresponding rate for any of the other ages. A test for trend in the acquisition rates across the 4 ages reached borderline significance ([chi square] trend = 3.18, p = 0.07). Clearance of HPV infection was lowest for women 51 years of age, although again, no substantial differences were observed between this rate and those for the other 3 ages, and the trend in clearance rates across the 4 ages was not significant ([chi square] trend = 0.72, p = 0.40). When analyses for overall HPV acquisition and clearance were conducted again and included the 20 women with abnormal cytology at follow-up, assuming that these were HPV positive, the results for both HPV acquisition and clearance remained similar. Type-specific HPV acquisition and clearance rates are shown in Table 3. Twenty (11 in women 51 years of age) new HPV16 infections were found in this sample; 24 (14 in women 51 years of age) new HPV18 infections were found. The low number of new HPV16 and HPV18 infections meant that the confidence intervals for the estimated rates of acquisition of these types were wide. Linear trends to assess rates of acquisition across age were not significant for either HPV16 ([chi square] trend 0.08, p = 0.77) or HPV18 ([chi square] trend 0.02, p = 0.89). Three women (21, 31, and 51 years of age, respectively) acquired both HPV16 and HPV18 infections at follow-up, after testing negative for both at baseline. Of the 27 HPV16 or HPV18 infections that were found at baseline over all 4 ages, only 3 were still present at the time of follow-up. This finding indicated overall clearance rates were close to 90% for both HPV16 and HPV18 (Table 3). Abnormal findings, including symptoms of mild severity in 10 women and moderate severity in 6 women, developed in 38 women in this study during a follow-up period of 11 years; severe dyskaryosis developed in 5 women. CIN or cancer was histologically confirmed in 8 women; CIN grade 1 was diagnosed in 4 women, CIN 3 was diagnosed in 3, and invasive squamous squamous /squa·mous/ (skwah´mus) scaly or platelike. squa·mous or squa·mose adj. 1. Covered with or formed of scales; scaly. 2. carcinoma was diagnosed in 1. Cytologic and histologic results stratified stratified /strat·i·fied/ (strat´i-fid) formed or arranged in layers. strat·i·fied adj. Arranged in the form of layers or strata. by HPV status in 1988 and 1991 are summarized in Table 4. Rates of cervical abnormality during follow-up were slightly higher for women who were HPV positive at baseline, although HPV status at either time was not significantly associated with subsequent abnormal cytologic results (Table 5). Two of the 5 women with severe dyskaryosis, however, had acquired HPV at the time of the second smear (Table 4). Both of these women were 51 years of age at baseline. Squamous carcinoma was diagnosed in 1 of these women in 1998 (7 years after HPV was detected). This woman was negative for HPV types 16 and 18. The other woman also had the cytologic diagnosis in 1998; however, no biopsy result was recorded on this occasion. This woman was positive for both HPV16 and HPV18 at baseline. Discussion Our study found a high 3-year rate of HPV acquisition rate in women 51 years of age at baseline. Although differences in HPV acquisition with age were not statistically significant, this rate was at least as high as that observed among younger women. This rate is equivalent to the 1-year acquisition rate for high-risk HPV in a Canadian study of a sample of 39 women 45-49 years of age (10). Our estimated incidence among 51-year-old women was slightly higher than the rate of high-risk HPV (6.1/100) found in 50- to 54-year-old women in a study from Colombia (8), a country with a high rate of cervical cancer. The combined acquisition rate for HPV types 16 and 18 in this study was [approximately or equal to] 7%. Only type-specific PCR was conducted for these types, a limitation of this study. Further research is, therefore, required to estimate the combined acquisition rate for all high-risk HPV among older women (and, conversely, to determine whether a substantial proportion of incident infections are with low-risk HPV). A selection criterion for this study was a cytologically normal cervical smear taken during 1988. In the United Kingdom, changes to the cervical screening program had just been implemented at that time, and coverage rates of the UK screening population were [approximately or equal to] 50% (21). Whether this change could have caused selection bias remains speculative; women who received cervical screening may have been at higher risk than all eligible women. Another criterion was that all women in the study have cytologically normal results at both phases of the study. As stated earlier, only a small number of women (n = 20) had abnormal cytologic findings at follow-up, and when analyses that indicated these women were HPV positive were conducted again, no noticeable impact was seen on results. The high rate of HPV acquisition in 51-year-old women may be due to either a higher-than-anticipated rate of new partners among older women or partner infidelity. However, the former supposition is not supported by data from 2 large-scale national surveys of sexual behavior sexual behavior A person's sexual practices–ie, whether he/she engages in heterosexual or homosexual activity. See Sex life, Sexual life. among women in the United Kingdom conducted in 1990 and 2000 (22,23). The second of these surveys found that only 10.9% of women 35-44 years of age reported a new sex partner in the year preceding the survey, compared with 39.2% of women 16-24 years of age (23). Therefore, a 3-year HPV acquisition rate of 21% for women 51 years of age would be higher than expected, based solely on the rate of new partner acquisition among a group of women 35-44 years of age. The 1990 version of this survey, however, reported that 5.4% of men in the 45- to 59-year age group reported [greater than or equal to] 2 sex partners during the previous year (22). While these may not have all been new sex partners, and the rate just among married (or cohabiting) men may be lower (separate data not available), this finding indicates that a small part of the total HPV acquisition rate could be a consequence of partner infidelity. Also, the high rate of HPV acquisition in 51-year-old women may be due to the reemergence of latent HPV infections caused by hormonal changes resulting from menopause or alterations to the cervix caused by hormone replacement therapy Hormone Replacement Therapy Definition Hormone replacement therapy (HRT) is the use of synthetic or natural female hormones to make up for the decline or lack of natural hormones produced in a woman's body. . A latent infection can be defined as one where HPV genomes are established in the basal cells but differentiation of the host cells does not take place (24). If such infections were below detection with increasingly sensitive PCR technology until the point of reactivation reactivation to become active after a period of quiescence or, as in bacterial and viral infections, latency. cross reactivation , then women could possibly become HPV positive in the absence of sexual activity. This possibility could also explain the finding of a second age-related peak in HPV prevalence in some South American populations after 55 years of age (6,25,26). However, less evidence for this second peak in HPV prevalence is seen in the United Kingdom and other countries where the risk of cervical cancer is lower. Additionally, false-negative results occurring during the first phase of testing would cause HPV infections present at baseline and follow-up (i.e., persistent infections) to be misclassified as incident infections, therefore overestimating rates of HPV acquisition. This study relied on archived cervical smears taken a decade earlier to detect HPV infection. While studies have validated the use of this type of specimen by showing agreement between results from archived and fresh specimens from the same women (27), concerns exist that the quality of extracted DNA may be poorer for older specimens because of changes in the methods of sampling and fixation (28). A less understood but still plausible reason for these results also relates to the use of archived cervical smears; the possibility of cross-contamination of samples at the time of collection could have accounted for false-positive results at the second phase of testing. This contamination could have occurred either where cervical smears were taken or at the screening laboratory during fixation and staining. In a study from Sweden, this risk of cross-contamination was largely excluded when smears with registration numbers adjacent to the HPV-positive study smears were also tested for HPV (29). Results from this study are difficult to generalize to the present setting, where the risk of such cross-contamination could only be assessed if the quality of procedures conducted in doctors' offices and screening laboratories between 1988 and 1991 could be examined. This report also contains details of HPV infection 3-year clearance rates for women who tested positive in the first phase of the study. As baseline rates of HPV infection in this sample were 10%-25%, depending on age (Table 1), few smears were included for comparison in the analysis of HPV clearance, which resulted in insufficient statistical power for clearance rates between women of different ages to be compared. Among women 51 years of age, a 74% HPV 3-year clearance rate was observed. The potential for false-negative results at the second phase of testing means that these HPV clearance rates are likely overestimated. In the United Kingdom, screening intervals were recently lengthened to 5 years for women 50-64 years of age, after an analysis of UK screening data showed that the protective effect after a negative cervical smear persisted longer for older women (30). Whether cervical screening could be discontinued after 50 years of age for low-risk women has also been debated (31-33). Whether HPV testing could identify low-risk women would depend on the natural history of the virus in older women and the personal and social implications of introducing a test for a sexually transmitted disease sexually transmitted disease (STD) or venereal disease, term for infections acquired mainly through sexual contact. Five diseases were traditionally known as venereal diseases: gonorrhea, syphilis, and the less common granuloma inguinale, into a national screening program (34). Our findings do not support discontinuing cervical screening for HPV-negative women at age 50 because of the high risk of HPV acquisition observed in women 51 years of age during a 3-year interval. By conducting a prospective study in which follow-up is ensured over a period of time at 4- to 6-month intervals, many of the limitations of this study could be circumvented. The probability of viral persistence and progression of incident HPV infections among older women in the United Kingdom and other western countries also should be recognized, as only persistent HPV infections lead to cervical cancer (35). Outcome data from this study are limited; further data are required from larger prospective studies to determine more precisely the positive and negative predictive values The negative predictive value is the proportion of patients with negative test results who are correctly diagnosed. Worked example
Condition (as determined by "Gold standard") True False (for high-grade CIN and cancer) of incident HPV infections that develop in middle age. These issues require consideration before the true impact of discontinuing cervical screening programs worldwide for HPV-negative women [greater than or equal to] 50 years of age can be accurately ascertained. This study was funded by a grant from the National Health Service Cervical Screening Programme. References (1.) Ho GY, Bierman R, Beardsley L, Chang CJ, Burk RD. Natural history of cervicovaginal papillomavirus infection in young women. N Engl J Med. 1998;338:423-8. (2.) Moscicki AB, Shiboski S, Broering J, Powell K, Clayton L, Jay N, et al. The natural history of human papillomavirus infection as measured by repeated DNA testing DNA testing Analysis of DNA (the genetic component of cells) in order to determine changes in genes that may indicate a specific disorder. Mentioned in: Acoustic Neuroma, Retinoblastoma, Von Willebrand Disease in adolescent and young women. J Pediatr. 1998;132:277-84. (3.) Winer RL, Lee SK, Hughes JP, Adam DE, Kiviat NB, Koutsky LA. Genital human papillomavirus infection: incidence and risk factors in a cohort of female university students. Am J Epidemiol. 2003;157:218-26. (4.) Woodman CB, Collins S, Winter H, Bailey A, Ellis J, Prior P, et al. Natural history of cervical human papillomavirus infection in young women: a longitudinal cohort study A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute . Lancet. 2001;357:1831-6. (5.) Burk RD, Kelly P, Feldham J, Bromberg J, Vermund SH, DeHovitz JA, et al. Declining prevalence of cervicovaginal human papillomavirus infection with age is independent of other risk factors. Sex Transm Dis. 1996;23:333-41. (6.) Molano M, Posso H, Weiderpass E, van den Brule AJC AJC Atlanta Journal & Constitution AJC American Jewish Committee AJC Arabian Jockey Club AJC American Jewish Congress AJC Australian Jockey Club (Sydney, Australia) AJC Anderson Junior College (Singapore) , Ronderos M, Franceschi S, et al. Prevalence and determinants of HPV infection among Colombian women with normal cytology. Br J Cancer. 2002;87:324-33. (7.) Franco EL, Villa LL, Sobrinho JP, Prado JM, Rousseau M-C, Desy M, et al. Epidemiology of acquisition and clearance of cervical human papillomavirus infection in women from a high risk area for cervical cancer. J Infect Dis. 1999;180:1415-23. (8.) Munoz N, Mendez F, Posso H, Molano M, van den Brule A J, Ronderos M, et al. 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Determinants of clearance of human papillomavirus infections in Colombian women with normal cytology: a population based 5-year follow-up study. Am J Epidemiol. 2003;158:486-94. (14.) Walboomers JMM JMM John Mark Ministries JMM Journal of Medical Microbiology JMM Jharkhand Mukti Morcha (India) JMM J-M Manufacturing (plastic pipe producer) JMM Malmo, Sweden - Malmo Harbour Heliport , Jacobs MV, Manos MM, Bosch FX, Kummer JA, Shah KV, et al. Human papillomavirus is a necessary cause of invasive cervical cancer worldwide. J Pathol. 1999;189:12-9. (15.) Sherlaw-Johnson C, Gallivan S, Jenkins D. Withdrawing low risk women from cervical screening programmes: mathematical modelling study. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift . 1999;318:356-60. (16.) Qiagen UK. DNEasy tissue kit handbook [monograph on the Internet]. 2004 Mar [cited 2005 Apr 1]. 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Sexual life-styles and HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. risk. Nature. 1992;360:410-2. (23.) Johnson AM, Mercer CH, Erens B, Copas AJ, McManus S, Wellings K, et al. Sexual behaviour in Britain: partnerships, practices, and HIV risk behaviours. Lancet. 2001;358:1835-42. (24.) Stubenranch F, Laimins LA. Human papillomavirus life cycle: active and latent phases. Semin Cancer Biol. 1999;9:379-86. (25.) Herrero R, Hildesheim A, Bratti C, Sherman ME, Hutchinson M, Morales J, et al. Population-based study of human papillomavirus infection and cervical neoplasia neoplasia /neo·pla·sia/ (-pla´zhah) the formation of a neoplasm. cervical intraepithelial neoplasia in rural Costa Rica. J Natl Cancer Inst. 2000;92:464-74. (26.) Lazcano-Ponce E, Herrero R, Munoz N, Cruz A, Shah KV, Alonso P, et al. Epidemiology of HPV infection among Mexican women with normal cervical cytology. Int J Cancer. 2001;91:412-20. (27.) Jacobs MV, Zielinski D, Meijer CJLM, Pol RP, Voorhorst FJ, de Schipper FA, et al. A simplified and reliable HPV testing of archival Papanicolaou-stained cervical smears: application to cervical smears from cancer patients starting with cytologically normal smears. Br J Cancer. 2000;82:1421-6. (28.) de Roda Husman AM, Snijders PJ, Stel HV, van den Brule AJ, Meijer CJ, Walboomers JM. Processing of long-stored archival cervical smears for human papillomavirus detection by the polymerase chain reaction. Br J Cancer. 1995;72:412-7. (29.) Chua KL, Hjerpe A. Polymerase chain reaction analysis of human papillomavirus in archival cervical cytologic smears. Anal Quant Quant A person with numerical and computer skills who carries out quantitative analyses of companies. quant A person who has strong skills in mathematics, engineering, or computer science, and who applies those skills to the securities Cytol Histol. 1995;17:221-9. (30.) Sasieni P, Adams J, Cuzick J. Benefit of cervical screening at different ages: evidence from the UK audit of screening histories. Br J Cancer. 2003;89:88-93. (31.) Baay MFD (MultiFunction Device) Hardware that combines several functions in one unit. See all-in-one. , Smits E, Tjalma WAA (Wide Area Adapter) Any of a variety of ports or adapters that connect to a wide area network (WAN), including RS-232, RS-422 and V.35. , Lardon Lar´don n. 1. A bit of fat pork or bacon used in larding. F, Weyler J, Van Royen P, et al. Can cervical cancer screening be stopped at 50.? The prevalence of HPV in elderly women. Int J Cancer. 2004; 108:258-61. (32.) Flannelly G, Monaghan J, Cruickshank M, Duncan I Duncan I (died Aug. 1, 1040, near Elgin, Moray, Scot.) King of the Scots (1034–40). The grandson of King Malcolm II, his accession to the throne violated the system in which kingship alternated between two branches of the royal family. , Johnson J, Jordan J, et al. Cervical screening in women over the age of 50: results of a population-based multicentre study. B JOG 2004;111:362-8. (33.) Van Wijngaarden WJ, Duncan ID. Rationale for stopping cervical screening in women over 50. BMJ. 1993;306:967-71. (34.) McCaffery K, Forrest S, Waller J, Desai M, Szarewski A, Wardle J. Attitudes towards HPV testing: a qualitative study of beliefs among Indian, Pakistani, African-Caribbean and white British women in the UK. Br J Cancer. 2003;88:42-6. (35.) Schiffman M, Kjaer SK. Chapter 2: Natural history of anogenital a·no·gen·i·tal adj. Relating to the anus and the genitals. anogenital relating to the region of the anus and the genitalia, especially the external genitalia. human papillomavirus infection and neoplasia. J Natl Cancer Inst (Monograph). 2003;31:14-9. Matthew J. Grainge, * Rashmi Seth, * Li Guo, * Keith R. Neal, * Carol Coupland, * Paul Vryenhoef, ([dagger]) Jane Johnson Jane Johnson may refer to:
* University of Nottingham Medical School The University of Nottingham Medical School is a medical school in the city of Nottingham, UK. It was the first new medical school to be set up in the 20th century in the country, with the first intake of 48 students graduating in 1975. , Nottingham, United Kingdom; and ([dagger]) Nottingham City Hospital, Nottingham, United Kingdom Dr Grainge is a medical statistician and lecturer in the School of Community Health Sciences, University of Nottingham The University of Nottingham is a leading research and teaching university in the city of Nottingham, in the East Midlands of England. It is a member of the Russell Group, and of Universitas 21, an international network of research-led universities. , United Kingdom. His research interests are the epidemiology of human papillomavirus (HPV) infection and how testing for this virus can be used to enhance cervical screening programs. Address for correspondence: Matthew J. Grange, Division of Epidemiology and Public Health, School of Community Health Sciences, University of Nottingham Medical School, Queen's Medical Centre The Queen's Medical Centre (popularly known as QMC or Queen's Med) situated in Nottingham, England, is the largest hospital in the United Kingdom. It was officially opened by the Queen on 28 July 1977, and admitted its first patient in 1978. , Nottingham, United Kingdom, NG7 2UH; fax: 44(0)115-970-9316; email: matthew.grainge@nottingham.ac.uk
Table 1. Human papillomavirus (HPV) positivity rates in baseline
and follow-up samples
Baseline, 1988; Follow-up, 1991;
Age (baseline) no. HPV positive (%) no. HPV positive (%)
21 (n = 86) 20 (23.3) 13 (15.1)
31 (n = 98) 13 (13.3) 15 (15.3)
41 (n = 100) 17 (17.0) 14 (14.0)
51 (n = 372) 39 (10.5) 81 (21.8)
[chi square] (trend): [chi square] (trend):
p = 0.004 p = 0.059
Table 2. Numbers of women infected with human papillomavirus (HPV) at
baseline and follow-up and HPV acquisition and clearance rates by age
HPV status--(1988) HPV status+(1988)
Age (baseline) -(1991) +(1991) -(1991) +(1991)
21 56 10 17 3
31 73 12 10 3
41 72 11 14 3
51 262 71 29 10
Total 463 104 70 19
HPV acquisition in 3 y
Age (baseline) (95% CI) *
21 15.2 ([dagger]) (8.4-25.7)
31 14.1 ([dagger]) (8.3-23.1)
41 13.3 ([dagger]) (7.6-22.0)
51 21.3 (17.3-26.0)
Total 18.3 (15.4-21.7)
% HPV clearance in 3 y
Age (baseline) (95% CI)
21 85.0 ([double dagger]) (64.0-94.8)
31 76.9 ([double dagger]) (49.7-91.8)
41 82.4 ([double dagger]) (59.0-85.4)
51 74.4 (58.9-85.4)
Total 78.7 (69 0-85 9)
* CI, confidence interval.
([dagger]) Not significantly different from acquisition rate in women
51 years of age when using [chi square] test (p>0.05).
([double dagger]) Not significantly different from clearance rate
in women 51 years of age when using Fisher exact test (p>0.05).
Table 3. Numbers of women infected with human papillomavirus (HPV)
16 and 18 at baseline and follow-up and HPV16 and HPV18 acquisition
and clearance rates by age
HPV status--(1988) HPV status +(1991)
Age (y, baseline) -(1991) +(1991) -(1991) +(1991)
HPV16
21 79 3 3 1
31 94 3 1 0
41 94 3 3 0
51 360 11 1 0
Total 627 20 8 1
HPV18
21 77 2 6 1
31 89 5 3 1
41 95 3 2 0
51 352 14 5 0
Total 613 24 16 2
% HPV acquisition in % HPV clearance in
Age (y, baseline) 3 y (95% CI) 3 y (95% CI) *
HPV16
21 3.7 (1.3-10.2) --
31 3.1 (1.1-8.7) --
41 3.1 (1.1-8.7) --
51 3.0 (1.7-5.2) --
Total 3.1 (2.0-4.7) 88.9 (56.5-98.0)
HPV18
21 2.5 (0.7-8.8) --
31 5.3 (2.3-11.9) --
41 3.1 (1.0-8.6) --
51 3.8 (2.3-6.3) --
Total 3.8 (2.5-5.5) 88.9 (67.1-96.9)
* Clearance rates of HPV 16/18 were not calculated for individual ages
because of insufficient numbers; CI, confidence interval.
Table 4. Association between human papillomavirus (HPV) infection in
1988 and 1991 and subsequent cytologic and histologic outcomes
HPV status - (1998) HPV status + (1988)
Grade * -(1991) +(1991) -(1991) +(1991)
Normal 440 97 62 19
Borderline 11 2 4 0
Mild 6 2 2 0
Moderate 3 1 2 0
Severe 3 2 0 0
Any abnormal cytologic
results 23 7 8 0
* Worst grade of dyskaryosis diagnosed during 11 years of cytologic
follow-up.
Table 5. Human papillomavirus (HPV) status and cytologic outcome
summarizing results presented in Table 4
Cytologic outcome
HPV status Normal, n (%) Abnormal, n (%) Total P *
1988
HPV- 537 (94.7) 30 (5.3) 567 0.22
HPV+ 81 (91.0) 8 (9.0) 89
1991
HPV- 502 (94.2) 31 (5.8) 533 1.0
HPV+ 116 (94.3) 7 (5.7) 123
* Comparing rates of subsequent abnormality between HPV + and - women
by using Fisher exact test.
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