El papel del cuerpo calloso en el procesamiento visoespacial / The role of the corpus callosum in the visuospatial processing

El procesamiento visoespacial es una función adaptativa del organismo que permite su interacción con los elementos que se encuentran en su medio ambiente. Se considera una función superior, ya que involucra sistemas de reconocimiento y de memoria, entre otros. Hasta el momento se ha descrito la participación de diversas estructuras cerebrales en el procesamiento de información visoespacial, por ejemplo, tradicionalmente se considera una especialización funcional por parte del hemisferio derecho; sin embargo aún existen muchas controversias con respecto a la participación de diversas áreas cerebrales tanto ipsilaterales como contralaterales en estás funciones visoespaciales. En el presente trabajo se discute el papel de la comunicación interhemisferica, y específicamente del papel que juega el cuerpo calloso en el procesamiento visoespacial. Se inicia con una descripción de las vías de procesamiento visoespacial desde el ojo hasta la corteza V1 y las conexiones anatómicas funcionales que se establecen a partir de ésta. Posteriormente se resume la estructura-función del cuerpo calloso y se revisan los trabajos que han reportado relaciones entre éste y la función visoespacial. Por último, se revisan algunas de las patologías neurológicas que cursan con afectación del cuerpo calloso y que se ha reportado en la literatura que afectan a la función visoespacial...

The visuospatial processing is an adaptive function of the organism that allows it to interact with the elements that are in their environment. It is considered a high-order function as it involves recognition systems, memory, among others. So far described the participation of various brain structures in processing visuospatial information, for example, is traditionally considered a functional specialization by the right hemisphere, but there are still many controversies regarding the participation of various brain areas, both ipsilateral and contralateral in the visuospatial functions. In this paper we discuss the role of interhemispheric communication, and specifically the role of the corpus callosum in visuospatial processing. It begins with a description of visuospatial processing pathways from the eye to the cortex V1 and the anatomical-functional connections are established from this. Later summarizes the structure-function of the corpus callosum and reviews the studies that have reported relationships between this and visuospatial function. Finally we review some of the neurological disorders that present with involvement of the corpus callosum and it has been reported in the literature that affect visuospatial function...

Containing artemisinin resistance of Plasmodium falciparum in Myanmar: achievements, challenges and the way forward.

Artemisinin resistance is a major threat to global malaria control and elimination efforts. Myanmar detected the first indication of the resistance in 2009 in the eastern part of the country, bordering Thailand. Since 2010, WHO has played a vital role in ensuring that a comprehensive programme on the containment of the resistance is in place. This paper documents achievement made in terms of output, outcomes and early impact on malaria from July 2011 to December 2013. It also identifies enabling factors to success and, most importantly, challenges awaiting the national programme and its partners.

Malaria elimination in Sri Lanka: what it would take to reach the goal.

Fifty years after narrowly missing the opportunity to eliminate malaria from Sri Lanka in the 1960s, the country has now interrupted malaria transmission and sustained this interruption for more than 12 months – no indigenous malaria cases have been reported since October 2012. This was achieved through a period overlapping with a 30-year separatist war in areas that were endemic for malaria. The challenge now, of sustaining a malaria-free country and preventing the reintroduction of malaria to Sri Lanka, is examined here in the context of rapid postwar developments in the country. Increased travel to and from the country to expand development projects, businesses and a booming tourist industry, and the influx of labour and refugees from neighbouring malarious countries combine with the continued presence of malaria vectors in formerly endemic areas, to make the country both receptive and vulnerable to the reintroduction of malaria. The absence of indigenous malaria has led to a loss of awareness among the medical profession, resulting in delayed diagnosis of malaria despite the availability of an extensive malaria diagnosis service. Highly prevalent vector-borne diseases such as dengue are competing for health-service resources. Interventions that are necessary at this critical time include sustaining a state-of-the-art surveillance and response system for malaria, and advocacy to maintain awareness among the medical profession and at high levels of government, sustained funding for the Anti-Malaria Campaign and for implementation research and technical guidance on elimination. The malaria-elimination effort should be supported by rigorous analyses to demonstrate the clear economic and health benefits of eliminating malaria, which exceed the cost of a surveillance and response system. An annual World Health Organization review of the programme may also be required.