Abstract
The conventional methodologies used for the detection of human papillomavirus (HPV) present actually robust and reproducible advantages. However, at the same time, they involve complex protocols that sometimes are difficult to popularize. Over the first half of XX century, the adequate treatment of complex and delicate processes from a simple instrumental base seemed a fundamental and intrinsic contradiction. However, interdisciplinary trends have allowed the manipulation of tissues, proteins, and nucleic acids through innovative increasingly smaller devices. The proper diagnosis of HPV has seen great advances since biosensor researchers are employing its virus strains as models to study the interactions between the biorecognition element and the transducer. Additionally, all recent improvements and trends that material sciences, biotechnology, and data processing scientists excel for biosensors can be applied for the HPV detection platforms. In this review, we highlight the recent trends on materials, nanomaterials, and transducers for the specific detection and differentiation of HPV strains. The most influential methods for the detection and identification of these papillomaviruses include optical, electrochemical, and piezoelectric transducers; we will visit their sensibility and advantages. Additionally, we highlight the factors that contributed to the increasing importance of these biodevices as potential substitutes to conventional diagnostic methods.
Highlights
Perplexing as it may seem, the cancer research community has significantly underappreciated the enormous amount of cancer cases caused by viral infections [1], mostly because it is known that just a small proportion of humans infected with any of the oncogenic viruses will develop tumors
Human papillomavirus (HPV) viruses may sound like an evolutionary machinery programmed to cause cancer; from the 150 human papillomavirus (HPV) genotypes that have been already identified, only about a dozen are highrisk or oncogenic types [3, 4]
Along with a representation of a generic biosensor constructed for HPV detection, we show in Figure 1 the main signal transduction methods currently used
Summary
Perplexing as it may seem, the cancer research community has significantly underappreciated the enormous amount of cancer cases caused by viral infections [1], mostly because it is known that just a small proportion of humans infected with any of the oncogenic viruses will develop tumors. Most patients infected by HPV can spontaneously eliminate the virus by their own immune system [6], some individuals can remain asymptomatic by maintaining the virus in latent form and some other immunocompromised patients may present recurrent infections [7] Several factors such as the lesion type, size, spread, and localization will establish the risk level of the infection and will help to endorse the correct treatment. In the case of genosensors, as much as the genomic databases improve, cancers will be easier to detect and diagnose
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