Anatomical landmarks for transnasal endoscopic skull base surgery.

Resection of midline skull base lesions involve approaches needing extensive neurovascular manipulation. Transnasal endoscopic approach (TEA) is minimally invasive and ideal for certain selected lesions of the anterior skull base. A thorough knowledge of endonasal endoscopic anatomy is essential to be well versed with its surgical applications and this is possible only by dedicated cadaveric dissections. The goal in this study was to understand endoscopic anatomy of the orbital apex, petrous apex and the pterygopalatine fossa. Six cadaveric heads (3 injected and 3 non injected) and 12 sides, were dissected using a TEA outlining systematically, the steps of surgical dissection and the landmarks encountered. Dissection done by the "2 nostril, 4 hands" technique, allows better transnasal instrumentation with two surgeons working in unison with each other. The main surgical landmarks for the orbital apex are the carotid artery protuberance in the lateral sphenoid wall, optic nerve canal, lateral optico-carotid recess, optic strut and the V2 nerve. Orbital apex includes structures passing through the superior and inferior orbital fissure and the optic nerve canal. Vidian nerve canal and the V2 are important landmarks for the petrous apex. Identification of the sphenopalatine artery, V2 and foramen rotundum are important during dissection of the pterygopalatine fossa. In conclusion, the major potential advantage of TEA to the skull base is that it provides a direct anatomical route to the lesion without traversing any major neurovascular structures, as against the open transcranial approaches which involve more neurovascular manipulation and brain retraction. Obviously, these approaches require close cooperation and collaboration between otorhinolaryngologists and neurosurgeons.

Pruebas preliminares sobre toxicidad aguda del cobre en la Concha de Abanico (Argopecten purpuratus)

Se realizaron siete bioensayos estáticos con la Concha de Abanico (Argopecten purpuratus) con concentraciones de cobre que variaron de 0.007 a 0.74 ppm. El agua de mar de donde provinieron los individuos usados en el experimento tenía concentraciones de cobre entre 0.005-0.007 ppm. La bioacumulación inicial en los animales varó de 1.69 a 6.50 ppm. Como resultado preliminar se determinó que 0.13 ppm es la concentración letal media (LC 50) en 96 horas.

Estudio Línea Base – ELBA Callao, primavera 2011

Estudio Línea Base – ELBA Callao, primavera 2011. Inf Inst Mar Perú. 39(3-4): 149-198.- El ELBA se efectuó en el área delimitada por las islas San Lorenzo y El Frontón y la Península de La Punta, del 21 al 30 de noviembre 2011, para a) caracterizar biológica y oceanográficamente el área de estudio y b) obtener bases técnicas para el ordenamiento pesquero y acuícola. En el área predominaron sedimentos arenosos y grava de origen terrígeno. Presentó características térmicas frías al interior y cálidas al sur, con influencia de aguas costeras. La comunidad fitoplanctónica presentó abundancia de diatomeas. Se identificó zonas con alta biomasa de bentos y con altos valores de stress. Los sólidos suspendidos totales, cadmio y coliformes totales y termotolerantes sobrepasaron los límites de los estándares de calidad acuática en el Perú. Las comunidades de invertebrados más importantes fueron: concha de abanico Argopecten purpuratus, cangrejos Cancer setosus (ahora Romaleon polyodon) y C. porteri, almeja Semele spp., pulpo Octopus mimus y macroalga Macrocystis sp.; el calamar Loligo gahi usa el área para desovar.

Global methylation state at base-pair resolution of the Caulobacter genome throughout the cell cycle.

The Caulobacter DNA methyltransferase CcrM is one of five master cell-cycle regulators. CcrM is transiently present near the end of DNA replication when it rapidly methylates the adenine in hemimethylated GANTC sequences. The timing of transcription of two master regulator genes and two cell division genes is controlled by the methylation state of GANTC sites in their promoters. To explore the global extent of this regulatory mechanism, we determined the methylation state of the entire chromosome at every base pair at five time points in the cell cycle using single-molecule, real-time sequencing. The methylation state of 4,515 GANTC sites, preferentially positioned in intergenic regions, changed progressively from full to hemimethylation as the replication forks advanced. However, 27 GANTC sites remained unmethylated throughout the cell cycle, suggesting that these protected sites could participate in epigenetic regulatory functions. An analysis of the time of activation of every cell-cycle regulatory transcription start site, coupled to both the position of a GANTC site in their promoter regions and the time in the cell cycle when the GANTC site transitions from full to hemimethylation, allowed the identification of 59 genes as candidates for epigenetic regulation. In addition, we identified two previously unidentified N(6)-methyladenine motifs and showed that they maintained a constant methylation state throughout the cell cycle. The cognate methyltransferase was identified for one of these motifs as well as for one of two 5-methylcytosine motifs.