Extradural subtemporal transzygomatic approach to the clival and paraclival region with endoscopic assist

ABSTRACT: The authors describe the extradural subtemporal transzygomatic (ESTZ) approach and its variants to expose the clival and paraclival areas. A microanatomical study was conducted to quantify the clival and paraclival exposure and the maneuverability areas obtained by microscope and endoscope using the ESTZ approach. Section versus preservation of the third trigeminal branch (V3) and petrous apicectomy to obtain a wider clival exposure and a better internal carotid artery control are discussed.Eight cadaveric specimens were dissected to obtain morphometric measurements after performing the ESTZ approach and its variants. Anatomic areas exposed by the approaches were calculated using the ImageJ 1.37a software.The ESTZ approach performed with sectioning of V3 and petrous apicectomy allowed for a mean incremental exposed area of 1.8 cm (range, 1.24-2.43 cm). The mean amount of additional anatomic areas visualized after the ESTZ approach with petrous apicectomy if compared with the ESTZ approach without petrous apicectomy was 24% (range, 14.4%-37.5%). The mean percentage increase of maneuverability area after petrous apicectomy was 69.9% (range, 43.8%-96.6%).The ESTZ approach is suitable when dealing with extradural tumors of the middle-upper clivus extending into the ipsilateral paraclival area. V3 section and petrous apicectomy increase the operability, the surgical exposure, and the maneuverability area and improve vascular control on the internal carotid artery. Application of endoscopy does not impact on the maneuverability area but enhances the visualization of blind corners; endoscopic surgical view without drilling the petrous apex is comparable to that obtained by the microscope after petrous apicectomy

Natural infection of several Coffea species and hybrids and Psilanthus ebracteolatus by the coffee ringspot virus (CoRSV)

Coffee ringspot is a minor coffee disease caused by the nuclear type of Brevipalpus mite-transmitted virus, Coffee ringspot virus (CoRSV). Recently outbreaks of the disease in some growing regions of the state of Minas Gerais, Brazil, were registered with qualitative and quantitative yield losses. Coffea arabica was the only species registered as natural host. A survey was made on a germplasm collection of Coffea and related species kept at the Centro de Café "Alcides Carvalho", Instituto Agronômico, Campinas, state of São Paulo (SP), Brazil, to assess natural susceptibility of Coffee species, other than C. arabica and some interspecific hybrids of Coffea as well as other non-Coffea plant species to the Coffee ringspot virus (CoRSV). The following plants were found with ringspot symptoms on their leaves and/or fruits besides C. arabica L.: C. kapakata (IAC 4511), C. dewevrei cv. Excelsa, C. canephora cv. Robusta, hybrid derivative of the C. arabica × C. racemosa (IAC1195-5-6-2), C. arabica × C. dewerei (Piatã IAC 387), Híbrido de Timor CIFC 832/1 (derivative from a natural crossing between C. arabica × C. canephora) and C. racemosa. Also Psilanthus ebracteolatus, a species close to the genus Coffee was also found with ringspot lesions on their leaves. All these plants were also found infested by Brevipalpus mites identified as B. phoenicis. Infection of these plants by CoRSV was confirmed by the observation of characteristic cytopathic effects in the tissues of the lesion and by RT-PCR using a pair of primer specific for CoRSV. Only with C. racemosa RT-PCR failed to amplify the CoRSV genome. The susceptibility of P. ebracteolatus to CoRSV adds new dimension regarding its controversial taxonomic position

Chlorotic spots on Clerodendrum, a disease caused by a nuclear type of Brevipalpus (Acari:Tenuipalpidae) transmitted virus Mancha clorótica do Clerodendrum, uma enfermidade causada por um vírus do tipo nuclear, transmitido pelo ácaro Brevipalpus phoenicis (Acari:Tenuipalpidae)

Chlorotic spots have been observed in plants of Clerodendrum x speciosum growing in residential gardens and parks in Piracicaba, SP, Brazil. Thin sections of diseased tissues revealed characteristic cytopathic effects of the nuclear type of the Brevipalpus (Acari: Tenuipalpidae) mite-transmitted viruses (BTrV). Brevipalpus mites, identified as B. phoenicis, infesting symptomatic C. x speciosum plants transmitted the pathogen to healthy C. x speciosum and to C. thomsonae, Gomphrena globosa, Hibiscus cannabinus, H. coccineus, H. schizopetalus, Salvia leucantha, Spathiphyllum wallasi and Tetragonia expansa causing chlorotic spots on their leaves. Mechanical inoculation using leaf extracts from infected C. x speciosum resulted in chlorotic spots on inoculated C. x speciosum, Chenopodium quinoa, C. amaranticolor, G. globosa, H. cannabinus, H. coccineus and T. expansa leaves. C. amaranticolor and C. quinoa kept at 28 - 30&deg;C became systemically infected. The same cytopathic effects caused by the nuclear type of BTrV were seen in tissues from all infected test plants by electron microscopy. The virus was purified from systemically infected leaves of C. amaranticolor and C. quinoa. A polyclonal antiserum obtained from an immunized rabbit presented a strong reaction with the homologous antigen in ELISA tests. The results suggest that this chlorotic spot disease of C. x speciosum is caused by a new species of the nuclear type of BTrV, tentatively named Clerodendrum chlorotic spot virus (ClCSV).<br>Manchas cloróticas e necróticas foram observadas em folhas de várias plantas de coração-sangrento (Clerodendrum x speciosum) cultivadas em parques e jardins em Piracicaba, SP, associadas à infestação pelo ácaro tenuipalpídeo Brevipalpus phoenicis. Exames preliminares de secções de tecido das manchas cloróticas ao microscópio eletrônico revelaram a ocorrência de efeitos citopáticos característicos dos induzidos pelos vírus do tipo nuclear, transmitido por ácaros Brevipalpus (VTB). Brevipalpus phoenicis coletados de C. x speciosum sintomático e transferidos para plantas sadias de C. x speciosum reproduziram as lesões. O ácaro também transmitiu o patógeno para C. thomsonae, Gomphrena globosa, Hibiscus cannabinus, H. coccineus, H. schizopetalus, Salvia leucantha, Spathiphyllum wallasi e Tetragonia expansa, as quais exibiram manchas cloróticas e/ou necróticas. O vírus também foi transmitido mecanicamente para Chenopodium amaranticolor, C. quinoa, G. globosa, H. cannabinus, H. coccineus e T. expansa, além de C. x speciosum. Plantas de C. amaranticolor e C. quinoa mantidas a 28 - 30ºC desenvolveram infecção sistêmica. Em todos os tecidos sintomáticos das plantas-teste inoculadas, examinados ao microscópio eletrônico, foram encontrados efeitos citopáticos do tipo nuclear causado por VTB. O vírus foi purificado a partir de folhas com infecção sistêmica de C. amaranticolor e C. quinoa. Injeções de preparações purificadas em coelho geraram um anti-soro policlonal que reagiu especificamente com o antígeno homólogo em teste de ELISA. As evidências obtidas indicam que as manchas cloróticas do Clerodendrum estão associadas a um VTB do tipo nuclear, tentativamente denominado de vírus da mancha clorótica do Clerodendrum (Clerodendrum chlorotic spot virus- ClCSV)