RESUMEN
Assigned female at birth with anorgasmia possess a smaller clitoral glans and clitoral components farther from the vagina lumen than women with normal orgasmic function. There are no studies evaluating this correlation in operated transgender women. We evaluated whether differences in MRI measurements of neoclitoris volume and distance between the neoclitoris and the neovagina were correlated with differences in sexual function. We recruited for a prospective survey study 40 operated male to female patients (oMtF) who had undergone genital gender affirming surgery and postoperative pelvic MRI. Individual pelvic MRIs were reviewed by two blinded investigators, the three axes of the neoclitoris were measured and the volume was calculated using the ellipsoid formula. The distance between the neoclitoris and the neovagina was also measured. Sexual functioning was assessed using the Female Sexual Function Index (FSFI) and the operated Male to Female Sexual Function Index (oMtFSFI). Mean scores differences in FSFI, oMtFSFI were examined; associations with clitoral size, location, sexual functioning and demographical variables were investigated as well. The response rate was 55%, 11 MtFs operated with pubic neoclitoris technique (PNT) and 11 with neo-urethroclitoroplasty according to Petrovic (NCP). The NCP group presented a neoclitoris mean volume of 1.04 (SD 0.39) cc vs 1.31 (SD 0.78) cc of the other group (p = 0.55). The mean distance between neoclitoris and neovagina was 4.20 (SD 0.57) cm in the PNT group and 2.55 (SD 0.45) in the NCP group (p < 0.001). Patients who had undergone NCP achieved a higher FSFI and oMtFSFI mean Total Score than those operated with the previous technique (FSFI 25.81 SD 3.02 vs 18.62 SD 9.92 p = 0.08; oMtFSFI 37.63 SD 8.28 vs 43.36 SD 13.02 p = 0.23). According to pelvic MRI measurements, this study suggests a correlation between neoclitoral location and oMtF sexual satisfaction.
RESUMEN
On cross-sectional imaging studies performed for other indications, incidental discovery of renal lesions is not uncommon. In daily use, grey-scale ultrasonography (US) and conventional Doppler modes are often the modality of choice for the initial assessment. While simple cysts are fully characterized with US, other lesions require further characterization, which is traditionally obtained by multiphase imaging, such as contrast-enhanced CT and MRI. Contrast-enhanced ultrasound (CEUS) has become a powerful additional tool for imaging renal lesions. With its lack of nephrotoxicity, the absence of ionizing radiation, and the ability to evaluate the enhancement pattern of renal lesions quickly and in real- time, CEUS has unique advantages over traditional modes. Established applications are differentiation between solid tumours, pseudolesions, and complex cysts; characterization of complex cysts with different malignant potential, and evaluation of tumor ablation. Microbubble contrast agents are safe. Adverse reactions are rare. This article provides an overview of the current clinical applications of CEUS in characterizing renal masses, discussing advantages and limitations. The aim is to provide the framework for sonologists to make informed decisions regarding this emerging imaging test in appropriate circumstances.
Asunto(s)
Medios de Contraste , Enfermedades Renales Quísticas/diagnóstico por imagen , Neoplasias Renales/diagnóstico por imagen , Microburbujas , Ablación por Catéter , Femenino , Humanos , Hallazgos Incidentales , Riñón/diagnóstico por imagen , Enfermedades Renales Quísticas/patología , Enfermedades Renales Quísticas/cirugía , Neoplasias Renales/patología , Neoplasias Renales/cirugía , Imagen por Resonancia Magnética , Masculino , Seguridad del Paciente , Ultrasonografía/métodosRESUMEN
Multiparametric US is increasingly recognized as a valuable problem-solving technique in scrotal pathologies. Compared to conventional Doppler modes, contrast-enhanced ultrasonography (CEUS) has higher sensitivity in assessing the presence or absence of flows, and to improve differentiation between poorly vascularized tumors and non-neoplastic, avascular lesions. Characterization of benign and malignant complex cysts is improved. In trauma patients, CEUS can help evaluating the viability of testicular parenchyma. In patients with severe epididymo-orchitis, it allows unequivocal assessment of post-inflammatory ischemic changes and abscess formation. CEUS does not add significantly to conventional Doppler modes in spermatic cord torsion. Attempt of differentiating benign and malignant tumors remains a research tool. In the clinical practice, elastography has a limited role for tumor characterization. The majority of malignant tumors are stiff at elastography, but they may display soft areas, or appear globally soft. A quantitative evaluation of testicular stiffness is feasible using shear-wave elastography. Potential clinical applications for elastographic modes could include work-up of infertile patients.
Asunto(s)
Medios de Contraste/administración & dosificación , Enfermedades de los Genitales Masculinos/diagnóstico por imagen , Escroto/diagnóstico por imagen , Ultrasonografía/métodos , Enfermedades de los Genitales Masculinos/patología , Humanos , Masculino , Microburbujas , Escroto/patología , Sensibilidad y EspecificidadRESUMEN
OBJECTIVES: To estimate the prevalence of solid renal tumors isoenhancing to kidneys in all vascular phases on contrast-enhanced sonography and to investigate whether they can be differentiated from pseudomasses. METHODS: A computer search of the databases of 3 institutions identified 31 patients with pseudomasses and 380 patients with solid tumors investigated with contrast-enhanced sonography. Nineteen of 380 (5%) patients had tumors isoenhancing in all phases. Images and clips of these 19 tumors and the 31 pseudomasses were blindly assessed by 2 radiologists. They were asked to differentiate tumors from pseudomasses based on echogenicity, vascular architecture, and the presence of the medulla. RESULTS: Isoenhancing tumors were clear cell carcinomas (n = 7), angiomyolipomas (n = 3), papillary tumors (n = 3), metastasis (n = 1), and oncocytoma (n = 1). In the 4 nonoperated tumors, the diagnosis was confirmed by progression during the follow-up. There were 3 markedly hyperechoic, 11 mildly hypo/hyperechoic, and 5 isoechoic masses. Most pseudomasses were isoechoic to kidneys (23 of 31), with the medulla identified in 22 of 31 and 15 of 31 by radiologists 1 and 2, respectively. One and 2 pseudomasses were considered tumors by radiologists 1 and 2, respectively. One isoechoic isoenhancing tumor was not identified on contrast-enhanced sonography. Isoenhancing tumors in all phases were differentiated from pseudomasses by combining grayscale and contrast-enhanced sonography (areas under the receiver operating characteristic curve, 0.997 for reader 1; 0.969 for reader 2), with very good inter-reader agreement (weighted κ = 0.81). CONCLUSIONS: In our retrospective study, 5% of solid renal lesions were isoenhancing to kidneys in all phases. Differentiation from pseudomasses was possible by looking at baseline sonographic features and vascular characteristics.