Human Papillomavirus (HPV) Detection in Cytologic Specimens: Similarities and Differences of Available Methodology.

Accumulating evidence regarding the causative role of human papillomavirus (HPV) in a wide range of malignant and nonmalignant diseases highlights the importance of HPV testing. This study describes and discusses the efficacy and characteristics of 4 well-established and commercially available tests. Here, 181 cytologic specimens from cervical smears were analyzed using the HPV SIGN PQ (Diatech) and the Linear Array (Roche) method. Discrepant results were further studied with the Real Time High-Risk HPV (Abbott) method and the INNO-LiPA (Fujirebio) method. Of 181 cytologic specimens, 61 (34%) showed discrepant results. High-risk HPV was not detected in 9 cases by HPV SIGN PQ, in 16 cases by Linear Array, in 10 cases by Real Time High-Risk HPV, and in 6 cases by INNO-LiPA, respectively. Lack of DNA detection or problems in interpreting the result were seen in 9 cases with HPV SIGN PQ, 8 cases with Linear Array, 3 cases with Real Time High-Risk HPV, and 3 cases with INNO-LiPA, respectively. This study indicates that the choice of HPV detection method has a substantial influence on the HPV risk classification of tested PAP smears and clinical follow-up decisions.

Morphologic and GATA1 sequencing analysis of hematopoiesis in fetuses with trisomy 21.

Trisomy 21 alters fetal liver hematopoiesis and, in combination with somatic globin transcription factor 1 (GATA1) mutations, leads to development of transient myeloproliferative disease in newborns. However, little is known about the morphological hematopoietic changes caused by trisomy 21 in the fetus, and to date, the exact onset of GATA1 mutations remains uncertain. Therefore, we analyzed fetal liver hematopoiesis from second trimester pregnancies in trisomy 21 and screened for GATA1 mutations. We examined 57 formalin-fixed and paraffin-embedded fetal liver specimens (49 harboring trisomy 21 and 8 controls) by immunohistochemistry for CD34, CD61, factor VIII, and glycophorin A. GATA1 exon 2 was sequenced in fetal livers and corresponding nonhematologic tissue. Cell counts of megakaryocytes (P = .022), megakaryocytic precursors (P = .021), and erythroid precursors were higher in trisomy 21 cases. CD34-positive hematopoietic blasts showed no statistically significant differences. No mutation was detected by GATA1 exon 2 sequencing in fetal livers from 12 to 25 weeks of gestation. Our results suggest that GATA1 exon 2 mutations occur late in trisomy 21 fetal hematopoiesis. However, trisomy 21 alone provides a proliferative stimulus of fetal megakaryopoiesis and erythropoiesis. CD34-positive precursor cells are not increased in trisomy 21 fetal livers.