Multiplexed PCR genotyping of HPVs from plantaris verrucae

“…Furthermore, in seven condylomata acuminata that were previously HPV6-positive using Low-risk Alpha-PV PCR, the presence of HPV6 was confirmed with the HPV6/11 RT-PCR and all seven samples tested HPV2/27/57-negative using the HPV2/27/57 multiplex RT-PCR ( Table 2, samples nos. [24][25][26][27][28][29][30]. Using the PCR protocols mentioned above, Alpha-PV DNA was absent in three and five samples of tested verrucae vulgares and condylomata acuminata, respectively ( , showing that the HPV2/27/57 multiplex RT-PCR is able to detect at least 10 viral copies of each targeted HPV type per a single reaction.…”

“…In contrast to previously described conventional PCRs (23)(24)(25)(26)(27)(28)(29)(30), which amplify up to 835-bp fragments of HPV DNA, the HPV2/27/57 multiplex RT-PCR targets significantly shorter HPV DNA fragments (144-157-bp), also rendering it very appropriate for HPV typing in archival tissue specimens (51). Furthermore, the majority of conventional broad-spectrum PCRs are not suitable for detecting viral targets present in low concentrations, and Sanger sequencing of PCR products hinders the identification of concurrent HPV infections.…”

“…In addition to in situ hybridization methods (20)(21)(22), several conventional broad-spectrum polymerase chain reactions (PCR)-which enable detection and differentiation of HPV types that are etiologically associated with condylomata acuminata and verrucae vulgares by subsequent laborious and time-consuming typing of PCR products using agarose gel electrophoresis, hybridization on strips/microtiter wells, and direct Sanger sequencing-have been described previously (23)(24)(25)(26)(27)(28)(29)(30)(31). Because in situ hybridization and conventional PCRs are suboptimal methods, de Koning et al (32) and Schmitt et al (33) developed broad-spectrum HPV typing bead-based xMAP Luminex suspension arrays, which are able to detect and differentiate 23 and 19 HPV types, respectively, that are most frequently found in common warts, including HPV2, HPV27, and HPV57.…”

Development of a novel multiplex type-specific quantitative real-time PCR for detection and differentiation of infections with human papillomavirus types HPV2, HPV27, and HPV57

“…Furthermore, in seven condylomata acuminata that were previously HPV6-positive using Low-risk Alpha-PV PCR, the presence of HPV6 was confirmed with the HPV6/11 RT-PCR and all seven samples tested HPV2/27/57-negative using the HPV2/27/57 multiplex RT-PCR ( Table 2, samples nos. [24][25][26][27][28][29][30]. Using the PCR protocols mentioned above, Alpha-PV DNA was absent in three and five samples of tested verrucae vulgares and condylomata acuminata, respectively ( , showing that the HPV2/27/57 multiplex RT-PCR is able to detect at least 10 viral copies of each targeted HPV type per a single reaction.…”

“…In contrast to previously described conventional PCRs (23)(24)(25)(26)(27)(28)(29)(30), which amplify up to 835-bp fragments of HPV DNA, the HPV2/27/57 multiplex RT-PCR targets significantly shorter HPV DNA fragments (144-157-bp), also rendering it very appropriate for HPV typing in archival tissue specimens (51). Furthermore, the majority of conventional broad-spectrum PCRs are not suitable for detecting viral targets present in low concentrations, and Sanger sequencing of PCR products hinders the identification of concurrent HPV infections.…”

“…In addition to in situ hybridization methods (20)(21)(22), several conventional broad-spectrum polymerase chain reactions (PCR)-which enable detection and differentiation of HPV types that are etiologically associated with condylomata acuminata and verrucae vulgares by subsequent laborious and time-consuming typing of PCR products using agarose gel electrophoresis, hybridization on strips/microtiter wells, and direct Sanger sequencing-have been described previously (23)(24)(25)(26)(27)(28)(29)(30)(31). Because in situ hybridization and conventional PCRs are suboptimal methods, de Koning et al (32) and Schmitt et al (33) developed broad-spectrum HPV typing bead-based xMAP Luminex suspension arrays, which are able to detect and differentiate 23 and 19 HPV types, respectively, that are most frequently found in common warts, including HPV2, HPV27, and HPV57.…”

Development of a novel multiplex type-specific quantitative real-time PCR for detection and differentiation of infections with human papillomavirus types HPV2, HPV27, and HPV57

“…Twenty-five consecutive immunocompetent persons seeking treatment for persistent cutaneous warts in general practice (8) or outpatient dermatology department (17) were enrolled.…”

“…1 HPV types belonging to four of those genera, i.e., Alphapapillomavirus, Gammapapillomavirus, Mupapillomavirus and Nupapillomavirus have been associated with cutaneous warts, mainly with foot and hand warts. [2][3][4][5][6][7][8][9][10][11][12][13] Reliable detection and sampling techniques are mandatory to be able to study the epidemiology of these HPV infections.…”

Lesional HPV types of cutaneous warts can be reliably identified by surface swabs

Epidemiology of Cutaneous Human Papillomavirus Infections