Methodology for Free-Floating Organ Culture of Mid-gestation Maxillary Primordial Tissue.

Craniofacial defects, such as cleft palate, are prevalent congenital malformations that present an interesting research challenge due to the complex and multifactorial nature of their etiology. In vitro modeling of craniofacial morphogenesis provides valuable insight into the developmental processes critical to the presentation of these conditions. One such technique, termed a submerged or free-floating organ culture, allows culturing and observation of isolated craniofacial tissue without the need for specialized supporting equipment. Outlined here is a detailed protocol for isolating and culturing maxillary and palatal tissue as a midfacial tissue section. This protocol has been modified from a previously established technique to accommodate culturing tissue from developmental time-points as early as embryonic day 10.5. This allows for greater control over genotypic variance within litters and provides a simplified, accessible methodology.

Grainyhead-like Transcription Factors in Craniofacial Development.

Craniofacial development in vertebrates involves the coordinated growth, migration, and fusion of several facial prominences during embryogenesis, processes governed by strict genetic and molecular controls. A failure in any of the precise spatiotemporal sequences of events leading to prominence fusion often leads to anomalous facial, skull, and jaw formation-conditions termed craniofacial defects (CFDs). Affecting approximately 0.1% to 0.3% of live births, CFDs are a highly heterogeneous class of developmental anomalies, which are often underpinned by genetic mutations. Therefore, identifying novel disease-causing mutations in genes that regulate craniofacial development is a critical prerequisite to develop new preventive or therapeutic measures. The Grainyhead-like ( GRHL) transcription factors are one such gene family, performing evolutionarily conserved roles in craniofacial patterning. The antecedent member of this family, Drosophila grainyhead ( grh), is required for head skeleton development in fruit flies, loss or mutation of Grhl family members in mouse and zebrafish models leads to defects of both maxilla and mandible, and recently, mutations in human GRHL3 have been shown to cause or contribute to both syndromic (Van Der Woude syndrome) and nonsyndromic palatal clefts. In this review, we summarize the current knowledge regarding the craniofacial-specific function of the Grainyhead-like family in multiple model species, identify some of the major target genes regulated by the Grhl transcription factors in craniofacial patterning, and, by examining animal models, draw inferences as to how these data will inform the likely roles of GRHL factors in human CFDs comprising palatal clefting. By understanding the molecular networks regulated by Grhl2 and Grhl3 target genes in other systems, we can propose likely pathways that mediate the effects of these transcription factors in human palatogenesis.

Developments in buccal drug delivery.

The buccal mucosa offers excellent possibilities for the (long-term) delivery of suitable drugs, especially for metabolically unstable drugs, such as peptides. A review is given of the present knowledge about buccal drug absorption and drug delivery devices. The structure and physiology of the oral mucosae are described, as well as interspecies differences with respect to tissue permeability. Methods to determine mucosal drug absorption, either in vivo or in vitro, are discussed, as well as absorption pathways, mechanisms, and enhancement. Technological strategies to control transbuccal drug absorption comprise the design of mucoadhesive devices in order to shorten diffusion pathways and prolong administration, and structural and chemical modulation of the device with the aim of shifting the rate-limiting transport step from the tissue to the device. Finally, examples of buccally administered drugs are given and devices currently used in local therapy are described.

Hydrogels for buccal drug delivery: properties relevant for muco-adhesion.

In order to develop a muco-adhesive hydrogel for buccal drug delivery it is necessary to understand fully the properties determining adhesiveness as well as mechanisms involved. In this study we measured glass transition temperatures, water contact angles and the peel- and shear detachment forces from porcine oral mucosa, of acrylic acid and butyl acrylate copolymers. The contact angle maximizes at 50% butyl acrylate content. The glass transition temperature decreases from 0% to 100% butyl acrylate. There seems to exist a certain combination of contact angle and glass transition temperature which is related to adhesiveness. This strongly suggests that, in order to obtain a muco-adhesive hydrogel, at least two properties have to be optimized: (1) the polarity of the polymer surface and (2) the molecular mobility of the polymer groups.

Mestranol: the assignment of its 1H and 13C NMR spectra by means of two-dimensional NMR spectroscopy, and its photochemical decomposition.

The 1H- and 13C-nmr spectra of mestranol were assigned with the help of a 2 D-J-resolved, a 2D spin echo J-correlated (SECSY) and a 2D 1H-13C hetero-shift correlation experiment. The analysis of the spectra facilitated the identification of some of the photodecomposition products of mestranol. It was shown that, upon irradiation with UV-B light in water-ethanol (1:1, v/v), products are formed by oxidation of rings B and C of the steroid.