Mapping bone cell distributions to assess ontogenetic origin of primate midfacial form.

Midfacial reduction in primates has been explained as a byproduct of other growth patterns, especially the convergent orbits. This is at once an evolutionary and developmental explanation for relatively short snouts in most modern primates. Here, we use histological sections of perinatal nonhuman primates (tamarin, tarsier, loris) to investigate how orbital morphology emerges during ontogeny in selected primates compared to another euarchontan (Tupaia glis). We annotated serial histological sections for location of osteoclasts or osteoblasts, and used these to create three-dimensional "modeling maps" showing perinatal growth patterns of the facial skeleton. In addition, in one specimen we transferred annotations from histological sections to CT slices, to create a rotatable 3D volume that shows orbital modeling. Our findings suggest that growth in the competing orbital and neurocranial functional matrices differs among species, influencing modeling patterns. Distinctions among species are observed in the frontal bone, at a shared interface between the endocranial fossa and the orbit. The medial orbital wall is extensively resorptive in primates, whereas the medial orbit is generally depositional in Tupaia. As hypothesized, the orbital soft tissues encroach on available interorbital space. However, eye size cannot, by itself, explain the extent of reduction of the olfactory recess. In Loris, the posterior portion of medial orbit differed from the other primates. It showed evidence of outward drift where the olfactory bulb increased in cross-sectional area. We suggest the olfactory bulbs are significant to orbit position in strepsirrhines, influencing an expanded interorbital breadth at early stages of development.

Impact of education on institutional and faculty rates of atypical squamous cells.

INTRODUCTION: Papanicolaou test quality metrics include the ASC rate, ASC:SIL ratio, and ASC HPV+ rate. What a laboratory should do when metrics show a worrisome trend is not well defined. In 2015, our laboratory noted a worrisome trend in our quality metrics and decided to implement a systemic education program in 2016; we monitored the effectiveness of our program. METHODS: An educational intervention was designed for March/April 2016. Cytotechnologist education consisted of: group meeting on March 10 to discuss metrics, lecture, and written materials on ASC-US criteria, a quiz on challenging ASC-US cases, encouragement to seek consultation, and each cytotechnologist received quarterly individual metrics. The cytopathologist education consisted of: group meeting on April 16 to discuss metrics, encouragement to bring borderline cases to consensus conference, and each faculty received quarterly individual metrics. The ASC rate, ASC:SIL ratio, and ASC HPV+ rate was collected for the institution and each individual faculty in 2016 for January to March (pre-interventions, Q1), April to June (post-interventions, Q2), and July to September (post-interventions, Q3). ASC-H was included in the calculation of ASC %, ASC:SIL, and ASC HPV+ rates. RESULTS: There was a substantial decline in the lab ASC rate and ASC:SIL ratio, and the ASC HPV+ rate increased. Individual faculty changes in ASC:SIL ratio and ASC HPV+ rate also improved. CONCLUSIONS: In our institution, an educational program has been very effective in improving Papanicolaou test metrics. It is helpful to perform re-education at all levels within the department.

Development of the nasolacrimal apparatus in the Mongolian gerbil (Meriones unguiculatus), with notes on network topology and function.

The nasolacrimal apparatus (NLA) is a multicomponent functional system comprised of multiple orbital glands (up to four larger multicellular exocrine structures), a nasal chemosensory structure (vomeronasal organ: VNO), and a connecting duct (nasolacrimal duct: NLD). Although this system has been described in all tetrapod vertebrate lineages, albeit not always with all three main components present, considerably less is known about its ontogeny. The Mongolian gerbil (Meriones unguiculatus) is a common lab rodent in which the individual components of the adult NLA have been well studied, but as yet nothing is known about the ontogeny of the NLA. In this study, serial sections of 15 fetal and three adult Mongolian gerbil heads show that the development of the NLA falls into three fetal stages: inception (origin of all features), elongation (lengthening of all features), and expansion (widening of all features). No postnatal or juvenile specimens were observed in this study, but considerable growth evidently occurs before the final adult condition is reached. The development of the orbital glands and the VNO in the Mongolian gerbil is largely consistent with those in other mammals, despite a slight nomenclatural conundrum for the anterior orbital glands. However, the Mongolian gerbil NLD follows a more circuitous route than in other tetrapods, due mainly to the convoluted arrangement of the narial cartilages, the development of a pair of enlarged incisors as well as an enlarged infraorbital foramen. The impact of these associated features on the ontogeny and phylogeny of the NLA could be examined through the approach of network science. This approach allows for the incorporation of adaptations to specific lifestyles as potential explanations for the variation observed in the NLA across different tetrapod clades.

Papanicolaou tests with coexisting squamous and glandular abnormalities.

BACKGROUND: Papanicolaou (Pap) test interpretations of atypical glandular cells are associated with subsequent detection of squamous and, less often, glandular malignancies. A Pap test with a combined interpretation of squamous and glandular atypia indicates concern for either 2 distinct lesions (both squamous and glandular) or involvement of cervical squamous and glandular epithelium by a single pathologic process. Dual interpretations can potentially guide patient management. This retrospective study describes an institutional experience with Pap test dual reporting of squamous and glandular atypia and patient follow-up in these cases. METHODS: Following institutional review board approval, a search of the anatomic pathology database for Pap tests with both atypical squamous and atypical glandular interpretations from January 2005 to December 2010 was performed. Other recorded data included: prior history, age, human papillomavirus (HPV) status, and most severe follow-up histologic diagnosis. RESULTS: Of 361,953 Pap tests interpreted in the laboratory during this period, a total of 230 (0.06%) patients with dual interpretation Pap tests and follow-up were identified. Follow-up pathology results on these patients were predominantly squamous lesions (51.7%). Glandular lesions only were detected in 14 cases (6.1%). Nine (3.9%) patients had both squamous and glandular pathology. CONCLUSIONS: Over a 6-year period, dual Pap test interpretations with both squamous and glandular atypia were more often associated with squamous than glandular lesions. Dual interpretations did identify coexisting squamous and glandular lesions. However, the number of cases was small.

The vomeronasal organ of New World monkeys (platyrrhini).

Although all platyrrhine primates possess a vomeronasal organ (VNO), few species have been studied in detail. Here, we revisit the microanatomy of the VNO and related features in serially sectioned samples from 41 platyrrhine cadavers (14 species) of mixed age. Procedures to identify terminally differentiated vomeronasal sensory neurons (VSNs) via immunolabeling of olfactory marker protein (OMP) were used on selected specimens. The VNO varies from an elongated epithelial tube (e.g., Ateles fusciceps) to a dorsoventrally expanded sac (e.g., Saguinus spp.). The cartilage that surrounds the VNO is J-shaped or U-shaped in most species, and articulates with a groove on the bony palate. Preliminary results indicate a significant correlation between the length of this groove and length of the VNO neuroepithelium, indicating this feature may serve as a skeletal correlate. The VNO neuroepithelium could be identified in all adult primates except Alouatta, in which poor preservation prevented determination. The VNO of Ateles, described in detail for the first time, had several rows of VSNs and nerves in the surrounding lamina propria. Patterns of OMP-reactivity in the VNO of perinatal platyrrhines indicate that few or no terminally differentiated VSNs are present at birth, thus supporting the hypothesis that some platyrrhines may have delayed maturation of the VNO. From a functional perspective, all platyrrhines studied possess structures required for chemoreception (VSNs, vomeronasal nerves). However, some microanatomical findings, such as limited reactivity to OMP in some species, indicate that some lineages of New World monkeys may have a reduced or vestigial vomeronasal system.