Abstract
High-risk human papillomavirus (HPV) genotypes are the major cause of cervical cancer. Hence, HPV genotype detection is a helpful preventive measure to combat cervical cancer. Recently, several HPV detection methods have been developed, each with different sensitivities and specificities. The objective of this study was to compare HPV high risk genotype detection by an electrochemical DNA chip system, a line probe assay (INNO- LiPA) and sequencing of the L1, E1 regions. A total of 361 cervical smears with different cytological findings were subjected to polymerase chain reaction-sequencing and electrochemical DNA chip assessment. Multiple infections were found in 21.9% (79/361) of the specimens, most prevalently in 20-29-year olds while the highest prevalence of HPV infection was found in the 30-39-year age group. The most prevalent genotype was HPV 16 at 28.2% (138/489) followed by HPV 52 at 9.6% (47/489), with the other types occurring at less than 9.0%. The electrochemical DNA chip results were compared with INNO-LiPA and sequencing (E1 and L1 regions) based on random selection of 273 specimens. The results obtained by the three methods were in agreement except for three cases. Direct sequencing detected only one predominant genotype including low risk HPV genotypes. INNO-LiPA identified multiple infections with various specific genotypes including some unclassified-risk genotypes. The electrochemical DNA chip was highly accurate, suitable for detection of single and multiple infections, allowed rapid detection, was less time-consuming and was easier to perform when compared with the other methods. It is concluded that for clinical and epidemiological studies, all genotyping methods are perfectly suitable and provide comparable results.
Highlights
Human papillomavirus (HPV) is related to the development of cervical cancer and precancerous lesions
Some results showed different genotypes in each region especially in the low-grade squamous intraepithelial lesions group, which may be due to multiple infections
Comparison of three human papillomavirus (HPV) genotyping methods More HPV genotypes can be detected by the Electrochemical DNA chip than by the INNO-LiPA method 13.2% (36/273) (Table 1)
Summary
Human papillomavirus (HPV) is related to the development of cervical cancer and precancerous lesions. HPV is transmitted generally to the surface of the cervical epithelium by sexual skin-to-skin contact and can not be transferred by inanimate objects. Screening should be performed within 2-3 years after the first sexual relationship. HPV infection is predominant in younger age groups, will clear within 1-2 years and proceed to cancer rarely. Promiscuity may increase the risk of HPV infection (Koutsky, 1997; Vizcaino et al, 2000; Wright et al, 2002). The host immune system may clear the HPV infection in low-grade squamous intraepithelial lesions (LSIL) spontaneously with the tissue reverting to normal in 47% of patients while 20% may develop high-grade squamous intraepithelial lesions (HSIL) within 2 years (Melnikow et al, 1998)
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