Evaluation of Combined p57KIP2 Immunohistochemistry and Fluorescent in situ Hybridization Analysis for Hydatidiform Moles Compared with Genotyping Diagnosis.

IF 1.6 4区 医学 Q3 OBSTETRICS & GYNECOLOGY
Hirokazu Usui, Kazufusa Hoshimoto, Asuka Sato, Motofumi Kano, Toshio Fukusato, Yukio Nakatani, Makio Shozu
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引用次数: 0

Abstract

Immunostaining with p57KIP2 is a widely used diagnostic technique to differentiate complete hydatidiform moles (CHMs) from partial hydatidiform moles (PHM) and non-molar hydropic abortion. However, distinguishing between PHMs and non-molar hydropic abortions using histopathology alone is often challenging. This study aimed to evaluate the technical validity and additional benefits of using fluorescence in situ hybridization (FISH) in combination with p57KIP2 immunostaining to diagnose molar and non-molar conceptuses. The study involved 80 specimens, which underwent genetic diagnosis using short tandem repeat analysis, including 44 androgenetic CHMs, 20 diandric monogynic PHMs, 14 biparental non-molar hydropic abortions, 1 monoandric digynic triploid abortion, and 1 vaginal specimen of gestational trophoblastic neoplasia. Two pathologists independently diagnosed the cases based on morphology and p57KIP2 immunostaining while the clinical information was masked. FISH analysis was performed using 3 probes (CEP17, CEPX, and CEPY), which revealed that all androgenetic CHM and biparental diploid non-molar hydropic abortion specimens were diploid. Among the 20 diandric monogynic PHM cases examined by analyzing short tandem repeat polymorphisms, 18 were triploid, and the remaining 2 were diploid. These two specimens were possibly androgenetic/biparental mosaics based on FISH analysis, where the three-signal ratios counting 50 cells were clearly within the diploid ranges. Eight of the 20 genetic PHMs and 2 of the 14 genetically confirmed non-molar hydropic abortions that were falsely diagnosed based on morphology and immunohistochemistry by at least 1 pathologist were correctly diagnosed as PHM and non-molar hydropic abortion, respectively, by FISH analysis. However, 1 monoandric digynic villus was classified as triploid by FISH analysis, leading to a false PHM diagnosis. In conclusion, the combination of FISH analysis with p57KIP2 immunostaining helps in diagnosing molar and non-molar conceptuses in numerous cases; nevertheless, exceptional cases should be considered.

p57KIP2免疫组化和荧光原位杂交联合分析法与基因分型诊断法对水滴形痣的比较评估
p57KIP2 免疫染色是一种广泛使用的诊断技术,用于区分完全水样痣(CHM)与部分水样痣(PHM)和非摩尔水样流产。然而,仅使用组织病理学来区分 PHM 和非摩尔性水肿性流产往往具有挑战性。本研究旨在评估使用荧光原位杂交(FISH)结合 p57KIP2 免疫染色诊断磨性和非磨性受孕流产的技术有效性和额外优势。这项研究涉及 80 份标本,这些标本通过短串联重复分析进行了遗传学诊断,其中包括 44 个雄激素性 CHM、20 个双阴道单阴道 PHM、14 个双亲非臼齿水肿性流产、1 个单阴道双阴道三倍体流产和 1 个妊娠滋养细胞肿瘤阴道标本。两名病理学家根据形态学和 p57KIP2 免疫染色独立诊断病例,临床信息则被屏蔽。使用 3 个探针(CEP17、CEPX 和 CEPY)进行 FISH 分析,结果显示所有雄激素性 CHM 和双亲二倍体非极性水肿流产标本均为二倍体。在通过分析短串联重复多态性检测的 20 例双子单雌性 PHM 中,18 例为三倍体,其余 2 例为二倍体。根据 FISH 分析,这两个标本可能是雄性/双亲镶嵌体,其中计数 50 个细胞的三信号比明显在二倍体范围内。至少有一名病理学家根据形态学和免疫组化误诊的 20 例遗传性 PHM 中的 8 例和 14 例经遗传学证实的非摩尔水样流产中的 2 例,通过 FISH 分析分别被正确诊断为 PHM 和非摩尔水样流产。然而,FISH 分析将 1 个单核双腺绒毛归类为三倍体,导致 PHM 的错误诊断。总之,FISH 分析与 p57KIP2 免疫染色相结合有助于诊断许多病例中的臼齿胎和非臼齿胎;不过,特殊病例也应考虑在内。
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来源期刊
CiteScore
3.90
自引率
12.50%
发文量
154
审稿时长
6-12 weeks
期刊介绍: International Journal of Gynecological Pathology is the official journal of the International Society of Gynecological Pathologists (ISGyP), and provides complete and timely coverage of advances in the understanding and management of gynecological disease. Emphasis is placed on investigations in the field of anatomic pathology. Articles devoted to experimental or animal pathology clearly relevant to an understanding of human disease are published, as are pathological and clinicopathological studies and individual case reports that offer new insights.
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