Hyoid bone fusion and bone density across the lifespan: prediction of age and sex.

The hyoid bone supports the important functions of swallowing and speech. At birth, the hyoid bone consists of a central body and pairs of right and left lesser and greater cornua. Fusion of the greater cornua with the body normally occurs in adulthood, but may not occur at all in some individuals.

Hyoid Bone Development: An Assessment Of Optimal CT Scanner Parameters and Three-Dimensional Volume Rendering Techniques.

The hyoid bone anchors and supports the vocal tract. Its complex shape is best studied in three dimensions, but it is difficult to capture on computed tomography (CT) images and three-dimensional volume renderings. The goal of this study was to determine the optimal CT scanning and rendering parameters to accurately measure the growth and developmental anatomy of the hyoid and to determine whether it is feasible and necessary to use these parameters in the measurement of hyoids from in vivo CT scans.

The effect of computed tomographic scanner parameters and 3-dimensional volume rendering techniques on the accuracy of linear, angular, and volumetric measurements of the mandible.

Objectives: This study investigates the effect of scanning parameters on the accuracy of measurements from three-dimensional (3D), multi-detector computed tomography (MDCT) mandible renderings. A broader range of acceptable parameters can increase the availability of computed tomographic (CT) studies for retrospective analysis.

Study Design: Three human mandibles and a phantom object were scanned using 18 combinations of slice thickness, field of view (FOV), and reconstruction algorithm and 3 different threshold-based segmentations.

Dermoid sinus and cyst of the lip.

Midline dermoid cysts, although rare, typically present as nasal or glabellar masses with potential sinus tract extension to the skin or to the central nervous system. Craniofacial dermoid cysts present in varied ways, including asymptomatic puncti, infection, or seizure secondary to intracranial invasion. This article describes the previously unreported occurrence of a midline dermoid within the labial frenulum diagnosed on surgical excision of the cyst and its orocutaneous sinus tract, which extended to the skin at the base of the columella.

Morphologic stages of the equine embryo proper on days 17 to 40 after ovulation.

Objective: To describe the gross and histologic changes that develop in the equine embryo proper (ie, the portion of the embryo that becomes the fetus) from days 17 to 40 after ovulation and to compare the external features of equine embryos with those of porcine, ovine, and human embryos.

Sample Population: 34 embryos collected from mixed-breed pony mares.

Procedure: External features for each embryo proper, including length, number of branchial arches, growth of appendages, face and head features, and body features, were examined, using a dissecting microscope, for embryos collected on days 17 to 40.

Cytoplasmic abnormalities in cultured cerebellar neurons from the trisomy 16 mouse.

This study represents a first effort to characterize the growth and development of murine trisomy 16 neurons using single-cell neuron culture techniques. Murine trisomy 16 is a model for the human Down syndrome, or trisomy 21. Both show similar nervous system abnormalities including decreases in cerebellar size and in numbers of cerebellar neurons.

Correlation of increased levels of class I MHC H-2Kk in the placenta of murine trisomy 16 conceptuses with structural abnormalities revealed by magnetic resonance microscopy.

Murine trisomy 16 (mts16) placentas and fetuses, 17-day gestation age, were examined histologically and by magnetic resonance imaging at 9.4 T and compared with control littermate tissues. Placentas were studied by immunohistochemical methods, at 15-days gestational age, for expression of the major histocompatibility complex (MHC) class I H-2Kk cell surface marker.

Relationship between the neural dysgenesis and increased production of class I MHC H-2Kk mRNA and protein in neurons of murine trisomy 16 fetuses.

Neuronal cells from murine trisomy 16 fetuses have increased levels of class I MHC H-2Kk. To determine whether this increased level of H-2Kk protein product resulted from an increased synthesis of mRNA, a 33 base antisense cDNA probe complementary to a region in exon 2 of the H-2Kk sequence (nucleotide 392-424) was synthesized. This probe was used to examine, by in situ hybridization and immunohistochemistry, the neural distribution of H-2Kk mRNA and protein product.

Examination of the eyelid closure defect in trisomy 16 mice.

A characteristic feature of trisomy 16 mouse conceptuses is a failure of their eyelids to close. This defect was investigated by examining ocular development in serially sectioned heads of trisomy 16 and normal littermate fetuses from 10 to 18 gestational days. Other heads were examined by using scanning electron microscopy.

Altered placental morphology associated with murine trisomy 16 and murine trisomy 19.

The morphology of placentas from trisomy 16 and trisomy 19 mouse conceptuses aged 12 to 18 gestational days was studied at the light microscopic level. Comparisons were made with placentas from normal littermate animals. Trisomy 16 placentas showed marked changes from normal: 1) the junctional zone showed little indication of normal morphologic differentiation throughout gestation; 2) clusters of germinal trophoblast cells persisted in the labyrinth throughout gestation, whereas these cells disappeared by gestational day 16 in the normal littermate placentas; 3) the labyrinth was reduced in size in the trisomic placentas, and the differentiation of the interhemal membranes was delayed.

Chromosome 18 aneuploidy: anatomical variations observed in cases of full and mosaic trisomy 18 and a case of deletion of the short arm of chromosome 18.

Cases of full and mosaic trisomy 18 and a body of an infant with the 18p-syndrome were dissected in detail to compare the anatomical variations associated with these 3 chromosome imbalances involving autosome 18. The types and numbers of morphologic variations present in both the full and mosaic trisomy 18 bodies were similar to the types and numbers of variations seen in all other cases of full trisomy 18 that have been studied by gross dissection. Apart from an atrial septal defect, the body of the infant with the 18p- imbalance showed only 2 striking defects: 1) deficiencies of the levator palpebrae superioris muscle of the upper eyelid, and 2) absence of the ligament of the head of the femur.

An anatomical study of human otocephaly.

This study describes the gross anatomic variations observed in a 32-week male fetus diagnosed as having otocephaly. Special attention was given to the muscular, peripheral nervous, and vascular systems of the entire body. External features included approximation of the ears on the front of the neck, underdevelopment of the lower jaw, and a small oral cavity.

Analysis of gross anatomical variations in human triploidy.

Three cases of human triploidy were dissected in detail to determine whether or not there are any specific patterns of morphologic variation associated with this form of polyploidy. No specific constellations of anatomic variation were observed. However, each body did have a greater than normal number of variations among muscles that tend to be variable in the normal population.

Morphologic development of the fetal trisomy 19 mouse.

Trisomy 19 mice show a characteristic pattern of delayed morphologic development when compared with normal littermates during the second half of gestation. Examinations of the external phenotype and sectioned fetuses, and skeletal maturation at later days, suggest that trisomy 19 has little recognizable effect on morphogenesis prior to 10 days. Trisomic conceptuses collected at subsequent 24-hour intervals show a 1-day lag in weight gain and begin to show a progressive and uniform delay in differentiation so that 14- and 15-day animals resemble 13- and 14-day normal fetuses, respectively.

Erythropoiesis in the fetal trisomy 19 mouse. I. Characterization of erythrocyte populations in peripheral blood.

Changes in the type, size, and relative percentage of different erythrocyte populations in the peripheral blood of individual trisomy 19 and normal littermate mouse fetuses were studied from 12 gestational days to term. Large nucleated erythrocytes of yolk-sac origin comprise the first population of cells and are gradually diluted out of the circulation by nonnucleated erythrocytes of hepatic origin. This transition occurs between 12 and 16 gestational days.

Growth characteristics of the murine trisomy 19 thymus.

Development of the trisomy 19 mouse thymus was studied by (1) evaluation of cell and nuclear counts and volume distributions and (2) examination of the in vivo cell cycle characteristics using flow cytometry. Direct preparations of thymuses from affected animals and their normal littermates at 17, 18, 19 gestational days, and at term were used. Cell numbers in aliquots from the trisomic thymus suspensions were always significantly less than those in the normal animals.

Anatomical analysis of the developmental effects of aneuploidy in man: the Down syndrome.

Detailed anatomical dissections of five Down syndrome (DS) bodies revealed a unique and consistent "internal phenotype" composed of: 1) variations in muscles, 2) peripheral artery variations, and 3) the presence of dilatations and nerve rootlets associated with the spinal accessory and first cervical nerves. Most of these variations may occur occasionally in the normal population, but their more frequent occurrence in the five DS cases provides further support for Shapiro's (1975) hypothesis that one effect of the extra autosome is to increase the instability of normal developmental processes. Three of the variations: 1) the presence of an extra facial muscle, 2) multiple vertebral arteries, and 3) the presence of dilatations and nerve rootlets associated with the spinal accessory and 1st cervical nerves, may be the result of a failure of regression of otherwise transient embryonic structures.

Anatomical analysis of the developmental effects of aneuploidy in man--the 18-trisomy syndrome: II. Anomalies of the upper and lower limbs.

We report the anatomical variations of the limbs in eight infants with the trisomy-18 syndrome that were dissected and studied in detail. In each case, the upper limbs showed defects which further define the specific influence of this aneuploidy on the development of its preaxial (radial) component, and the tendency towards reduction defects. Abnormalities included muscle variations concentrated along the radial margin of the forearm and hand, the absence of the definitive musculocutaneous nerve in all of the limbs, and reductions of the radial artery in four of the bodies.

Anatomical analysis of the developmental effects of aneuploidy in man--the 18-trisomy syndrome: I. Anomalies of the head and neck.

This paper describes the anatomical variations observed in the head and neck in eight infants with the 18-trisomy syndrome that were dissected and studied in detail. Of the usual muscles of facial expression, occipitofrontalis and the auricular and nasal muscles were hypolastic in all eight bodies and each subject showed extensive fusion of the muscles around the corner of the mouth. In each body there was a supernumerary muscle band that extended from the region near the corner of the mouth to the occipital attachment of trapezius.