The cohort of women examined represents adults who regularly participate in cervical cancer prevention screenings, showing a commendable commitment to their health. The 42% overall prevalence of HPV infection aligns with similar findings in other regions of the country that utilize a strategy involving multiple primer sets for detecting the virus [1, 6, 7].
Typing the HPV holds significant clinical relevance, given its pivotal role in patient care and treatment planning. This process proves valuable in crafting programs aimed at preventing and treating CC, alongside its role in epidemiological tracking and evaluating vaccination effectiveness within specific regions. In the Caribbean region of Colombia, a higher prevalence of infections from alphapapillomavirus 7 (α7) types was observed, with HPV-18 slightly leading the pack. Interestingly, in other areas like the Amazonas department, Cali, and other central cities, HPV-18 ranked third or fourth in prevalence [1, 7, 8].
The significance of α7 family HPV types lies in their association with severe lesions and adenocarcinomas. Identifying this latter cancer type through cervical cytology tests is often challenging, typically leading to diagnosis in later stages [9, 10]. Moreover, in terms of specific viral dynamics, studies in Colombia have demonstrated that HPV-18 persists for over six months in women undergoing monitoring, surpassing the persistence of other HPV types, sometimes lasting for several years [11]. In fact, viral persistence has been associated with the development of cervical lesions. [12].
One of the most interesting findings involves the correlation between being over 60 years old and the heightened incidence of infecting viral types. This correlation gains importance due to the substantial population size within this age group. This implies that viral reactivations, along with sexual behavior, might hold significance within this particular demographic. In Colombia, the viral screening protocol aligns with women's age groups and their high-risk HPV residence considerations, akin to cervical cytology. It follows a 1-5-5 schedule (every 5 years) for negative results [7]. Considering the insights from this study, this population should also undergo viral monitoring to identify potential viral reactivations.
The increase in multiple HPV infections among older women, even in those with few sexual partners, is believed to be caused by viral reactivation during adulthood. Nonetheless, certain studies propose that changes in sexual behavior among women aged 50 to 60 might also occur due to a rising rate of divorces within this age [13]. However, limitations of the study include the lack of in-depth information regarding the sexual behaviors of the participants. We only considered the count of sexual partners, and no statistically significant connections were established. However, further exploration of this kind of information holds relevance, considering these women spent over 40 years without access to HPV molecular identification techniques during a no-vaccination period against the virus. This emphasizes the need to examine viral dynamics during latent HPV infections in older adult women.
Today, cervical cancer shows elevated incidence rates among women aged 35 to 40 and between 65 to 80 years old. In Colombia, there's an observed secondary peak in incidence around 55 [14, 15]. However, it has been documented that after menopause, there is a population group where HPV infections are even more frequent, surpassing the frequency observed in other age groups. This rise in incidence might be due to factors such as aging, ovarian function loss, changes in vaginal mucosa, and reduced levels of lactobacilli. Furthermore, it's established that the composition of vaginal microecology is associated with HPV infection status [16].
Our results showed that women experiencing menopause had a lower number of HPV viral types compared to those who were not in this stage, suggesting a low risk against simultaneous HPV-type infections. Notably, approximately 20% of the menopausal women in this study were under 50 years old. Many studies worldwide have explored the presence of HPV in menopausal women, considering immunological characteristics, age, and factors related to hormonal changes and microbial imbalances. Estrogen has been found to reduce susceptibility to initial HPV infection. However, in cases of persistent HPV infection, sex steroid hormones like estrogen and progesterone may facilitate viral persistence and the progression to cervical cancer [17, 18].
Observations in postmenopausal women reveal that HPV typing offers crucial clinical insights that supplement cervical cytology. This is notable because, at times, normal cytology results showing positive HR-HPV are mistakenly labeled as ASCUS (Atypical Squamous Cells of Undetermined Significance). Yet, upon closer examination through detailed colposcopic analyses, notable percentages of other lesions, particularly high-prevalence cervical dysplasias, have been detected in these ages [19].
In this scenario, alterations occurring in the post-menopause uterus (typically around 47 years in some instances) might reduce the simultaneous presence of various HPV types, promoting competition among them to colonize cervical tissue solely with one HR-HPV type. This occurrence has been linked to the development of lesions and instances of cancer, as studies attribute cancer onset to the tissue colonization effects caused by a singular viral type [10, 20]. Moreover, advancing age might trigger the reactivation of different latent viral types, potentially explaining the identification of multiple infections among populations over 60, as indicated in this study.
Another limitation of the study includes the lack of colposcopic information and biopsies from patients because these couldn't be performed on all women who tested positive for HPV. Including this clinical information would be necessary for future studies.
Finally, when examining cervical cytology results, it becomes clear that there's a need to identify and characterize the microorganisms found in the samples and comprehend the infection patterns within this population. This is crucial because samples displaying cellular abnormalities also showed concurrent infections involving bacteria or changes in cervical microbiota. Moreover, tracking these women using viral detection tests would be beneficial, possibly incorporating self-sampling methods for monitoring within our older adult communities. This study establishes a fundamental overview of HPV infections in the region and lays the groundwork for potentially integrating the nonavalent vaccine into local vaccination programs in the future. No cost-effectiveness studies have assessed its viability in this population [21].