Defining Ideal External Female Genital Anatomy via Crowdsourcing Analysis.

BACKGROUND: Despite existing anthropometric data in the literature regarding the variation of female external genital anatomy, the ideal aesthetic characteristics have yet to be defined. OBJECTIVES: The authors utilized crowdsourcing to better evaluate preferred anatomic characteristics of external female genitalia. METHODS: Fifty-six total images were digitally created by altering the proportions of the labia minora, labia majora, and clitoral hood. Images with differing ratios were presented in pairs to Amazon Mechanical Turk (Seattle, WA, USA) raters. Three different experiments were performed with each varying 2 of the 3 image characteristics to permit 2-factor modeling. The Bradley-Terry-Luce model was applied to the pairwise comparisons ratings to create a rank order for each image. Preferences for each anatomic variable were compared with chi-squared tests. RESULTS: A total of 5000 raters participated. Experiment 1 compared differing widths of the labia majora and labia minora and determined a significant preference for larger labia majora width and mid-range labia minora width (P = 0.007). Experiment 2 compared labia minora width vs clitoral hood length and showed a statistically significant preference for wider majoras (P < 0.001) but no significant preference in clitoral hood length (P = 0.54). Experiment 3 compared clitoral hood length vs labia minora width and showed a statistically significant preference for mid-range labia minora widths (P < 0.001) but no significant preference in clitoral hood length (P = 0.78). CONCLUSIONS: Raters preferred a labia majora to labia minora width ratio of 3:1 with minimal preference in clitoral hood length.

Topography and interactions of the arytenoid and cricoid articular facets: implications for vocal process positional shifts.

Using new computer applications and digital technologies, we provide a rigorous description and realistic illustrations of the arytenoid-on-the cricoid rotations. We also provide the articular facet topography and interactions that underlay those rotations and the concomitant vocal process positional shifts. The thyroid cartilage and all soft tissues were removed from three excised, preserved, normal, adult human larynges without disturbing the crico-arytenoid (CA) articular capsule. Three CA assemblies were thus prepared and used to digitize arytenoid rotations and vocal process positional shifts, and, after disarticulation, also the surface contour of the arytenoid and cricoid facets, and the cricoid lumen margin. The digitized data served to computer generate 2D and 3D graphic visualizations of the vocal process positional shifts, of the topography of the facets, and of the facet motion sequences that show that the anteroposteriorly concave arytenoid facet slides and conjunctly rotates on the anteroposteriorly convex cricoid facet. Visual details of all graphic representations and facet motion sequences were essentially identical across the three assemblies. Then, based on the computer generated data obtained from the largest of the CA assemblies, 3D, realistic, and hand-drawn images were made that illustrate the directions in which the arytenoids can rotate and the vocal processes concomitantly shift positions. Results indicate that when the arytenoids rotate by sliding from anterior to posterior on the cricoid facets about a primary axis of motion aligned from medial, posterior, and superior, to lateral, anterior, and inferior, their vocal processes shift positions along a plane obliquely oriented from anterior and medial, to posterior and lateral, and from inferior and medial, to superior and lateral.