Anilinas vs. organofosforados: la implicación de la empresa Bayer en las polémicas en torno al Síndrome del Aceite Tóxico / Anilines vs. organophosphates: the involvement of the Bayer company in the controversies surrounding the Toxic Oil Syndrome

La aparición de la intoxicación alimentaria en España en el año 1981, causante del Síndrome del Aceite Tóxico, unido a la imposibilidad de encontrar la toxina responsable de la enfermedad, potenció la posibilidad de señalar otros agentes causales, en particular un pesticida organofosforado de la casa Bayer, Nemacur. Se desarrolló así una línea alternativa a la decisión oficial, liderada por los médicos Antonio Muro y Luís Frontela, particularmente defendida, en España, por la empresa editorial Grupo 16. La polémica traspasó las fronteras españolas y se difundió a través de los medios de comunicación alemanes; los miembros del grupo político Los Verdes/Die Grünen tuvieron especial interés en servir de amplificador a estas suposiciones. La llegada de esta ola de acusaciones a Alemania, a principios de febrero de 1985, fue el detonante que alarmó a la empresa Bayer y le obligó a dar explicaciones para evitar poner en peligro la imagen corporativa de la multinacional química de Leverkusen. La documentación conservada en los archivos de la empresa alemana aporta nueva luz sobre esta polémica (AU)

Frozen in Time: A History of the Synthesis of Nitrous Oxide and How the Process Remained Unchanged for Over 2 Centuries.

Three major factors have contributed to the unrivaled popularity of nitrous oxide (N2O) among anesthetists in the 20th century and beyond: its impressive safety profile, its affordability, and its rapid induction and emergence times. These 3 characteristics of N2O have been discussed and written about extensively throughout the medical literature. Nonetheless, the characteristic that contributed most to N2O's initial discovery-the elegance and simplicity of its synthesis-has received substantially less attention. Although N2O was first used as an anesthetic in Hartford, CT, in 1844, it had been identified and synthesized as a distinct gas in the late 18th century. In this article, we track the developments in the recognition and early synthesis of N2O, highlight the major players credited with its discovery, and examine its evolution from the late 1700s to today. The discovery and assimilation of N2O into common medical practice, alongside ether and chloroform, heralded a new paradigm in surgical medicine-one that no longer viewed pain as a fundamental component of surgical medicine. Its continued usage in modern medicine speaks to the brilliance and skill of the chemists and scientists involved in its initial discovery.

The blood of my veins - mercury, Minamata and the soul of Japan.

The methylmercury contamination of Minamata Bay during the WWII postwar period resulted in thousands of Japanese citizens suffering horrific neurological injury. Fear and miscommunication destroyed and changed family and social structure. In addition, the Minamata poisoning caused momentous changes in the civic discourse in Japan and was an instrumental event in the democratization of the country. This manuscript describes the effects that the environmental contamination and human poising had in the transition of Japan from a feudal society to a democratic one.

Making War Work for Industry: The United Alkali Company's Central Laboratory During World War One.

The creation of the Central Laboratory immediately after the United Alkali Company (UAC) was formed in 1890, by amalgamating the Leblanc alkali works in Britain, brought high expectations of repositioning the company by replacing its obsolete Leblanc process plant and expanding its range of chemical products. By 1914, UAC had struggled with few exceptions to adopt new technologies and processes and was still reliant on the Leblanc process. From 1914, the Government would rely heavily on its contribution to the war effort. As a major heavy-chemical manufacturer, UAC produced chemicals for explosives and warfare gases, while also trying to maintain production of many essential chemicals including fertilisers for homeland consumption. UAC's wartime effort was led by the Central Laboratory, working closely with the recently established Engineer's Department to develop new process pathways, build new plant, adapt existing plant, and produce the contracted quantities, all as quickly as possible to meet the changing battlefield demands. This article explores how wartime conditions and demands provided the stimulus for the Central Laboratory's crucial R&D work during World War One.

50 years of mass spectrometry at Firmenich: a continuing love story.

Mass spectrometry (MS) has been intensively used in the field of flavor and fragrance since its beginning in the 1950s, and it remains an essential technique for current and future research in this field. After a short historical section on the introduction and development of MS at Firmenich, this work reviews the main applications of MS-based techniques published by Firmenich researchers over the past 5 years. It exemplifies the use of gas chromatography (GC)-MS for the discovery of new odorant - hence volatile - molecules in a broad range of natural products, such as fruits, meats, and vegetables. Non-volatile compounds play a major role in taste attributes and are also possible precursors of odorant molecules. Their identification by liquid chromatography (LC)-MS in the context of malodor generation from sweat is a typical example of such a relationship. With their high selectivity and sensitivity, GC-MS and LC-MS instruments are used in the fields of flavor and fragrance not only for identification, but also as unique tools for the accurate quantitation of compounds in complex matrices. This is particularly important for regulatory analyses such as dosage of potential allergens in perfumes and for the development of delivery systems. Finally, because of the rapid response time of MS, the kinetics of processes such as the release of flavors in the mouth during food consumption can be monitored by direct sampling into the mass spectrometer.

Myelopathy among zinc-smelter workers in Upper Silesia during the late 19th century.

Zinc-induced myeloneuropathy was recently (re)discovered and its pathophysiology elaborated as resulting from secondary copper deficiency. However, myelopathy was a recognized problem among European zinc-smelter workers in the late 19th century, although these early reports have been overlooked in recent studies and reports. The purpose of this article is to translate and review German-language reports of myelopathy among zinc-smelter workers in Upper Silesia (now southern Poland) by Schlockow from the 1870s. Disease manifestations among zinc-smelter workers developed after sustained zinc exposure over many years. The earliest symptoms were sensory and included paresthesias, dysesthesias, allodynia, and formication in the lower extremities, particularly the feet. Workers ultimately developed a clinical picture resembling subacute combined degeneration of the spinal cord with a spastic-ataxic gait with prominent proprioceptive impairment, sensory disequilibrium, and rombergism.

Benzene and leukemia, Pliofilm revisited: I. An historical review of the leukemia deaths among Akron Goodyear Tire and Rubber Company employees.

The cohort study of Pliofilm workers exposed to benzene has been used as a primary data source to estimate quantitative dose response for benzene-leukemia. Little attention has focused on the undercounting of leukemia deaths used in the analyses, nor on the behavior of the company toward the Pliofilm workers who contracted leukemia. An historical review of documents related to the Akron portion of the cohort indicates that between two and five workers diagnosed with acute myelogenous leukemia (AML) could be added to the cohort for alternate dose response analyses. In the late 1950s and early 1960s, the company did not inform Pliofilm workers with AML that they had the disease, concealed from the workers, including those diagnosed with AML, and the treating hematologist that benzene was the solvent being used, and denied compensation for AML cases exposed to benzene until forced to do so by the State of Ohio in 1968.

Insecticide discovery: an evaluation and analysis.

There is an on-going need for the discovery and development of new insecticides due to the loss of existing products through the development of resistance, the desire for products with more favorable environmental and toxicological profiles, shifting pest spectrums, and changing agricultural practices. Since 1960, the number of research-based companies in the US and Europe involved in the discovery of new insecticidal chemistries has been declining. In part this is a reflection of the increasing costs of the discovery and development of new pesticides. Likewise, the number of compounds that need to be screened for every product developed has, until recently, been climbing. In the past two decades the agrochemical industry has been able to develop a range of new products that have more favorable mammalian vs. insect selectivity. This review provides an analysis of the time required for the discovery, or more correctly the building process, for a wide range of insecticides developed during the last 60 years. An examination of the data around the time requirements for the discovery of products based on external patents, prior internal products, or entirely new chemistry provides some unexpected observations. In light of the increasing costs of discovery and development, coupled with fewer companies willing or able to make the investment, insecticide resistance management takes on greater importance as a means to preserve existing and new insecticides.

Innovators, deep fermentation and antibiotics: promoting applied science before and after the Second World War.

The historiography of penicillin has tended to overlook the importance of developing and disseminating know-how in fermentation technology. A focus on this directs attention to work before the war of a network in the US and Europe concerned with the production of organic acids, particularly gluconic and citric acids. At the heart of this network was the German-Czech Konrad Bernhauer. Other members of the network were a group of chemists at the US Department of Agriculture who first recognized the production possibilities of penicillin. The Pfizer Corporation, which had recruited a leading Department of Agriculture scientist at the end of the First World War, was also an important centre of development as well as of production. However, in wartime Bernhauer was an active member of the SS and his work was not commemorated after his death in 1975. After the war new processes of fermentation were disseminated by penicillin pioneers such as Jackson Foster and Ernst Chain. Because of its commercial context his work was not well known. The conclusion of this paper is that the commercial context, on the one hand, and the Nazi associations of Bernhauer, on the other, have submerged the significance of know-how development in the history of penicillin.

"A Chain is gonna come". Building a penicillin production plant in post-war Italy.

In 1947, Ernst Chain moved from Oxford to Rome, hired as head of a new biochemistry department and of a penicillin production pilot plant in the Istituto Superiore di Sanità (Higher Health Institute). Here, he managed to make Rome one of the most important centres in the international network of antibiotic science. However, the development of the state-operated centre was not easy. Political and economic pressures, exerted both from home and abroad, posed many obstacles to the plan devised by Domenico Marotta, the general director of the Institute. The paper reconstructs Chain's venture in Rome, which lasted until 1964, while framing the history of the penicillin production plant in the context of diplomatic negotiations, national politics, and science policies.

[Philosophy and science in the work of Bernardino Ramazzini]. / Filosofia e scienze nell'opera di Bernardino Ramazzini.

The treatise DMA focuses, in particular, on diseases caused by the exposition or the contact with chemical substances. The aetiological theories and the therapeutic strategies proposed by the author, show his acquaintance with the XVllth and XVIllth centuries' latrochemistry.

[Development of the chemical industry in the Kingdom of Poland till 1914]. / Rozwój przemyslu chemicznego w Królestwie Polskim do 1914 roku.

The chemical industry in the Kingdom of Poland developed on the turn of the 19th century. Earlier, in the field of industry in the Kingdom one could observe only two lines of the chemical industry: aliphatic and soap, and gas-producing and coal gas. The beginnings of the first mentioned line appeared on the turn of the 18th century, and the second branch--in the half of the 19th century. The development of chemical industry was stimulated by foreign capital expenditure, mainly by German capital. A significant impact on foreign capital expenditures within chemical industry on territories of Russian Empire, and also in the Kingdom as the most industrialized part of Empire, had tariffs. Thanks to the direct capital expenditures in the Kingdom foreign investors got an access to the receptive Russian market using the potential and technological thought of their establishments--'mother' firms. In 1913 a share of foreign capital in chemical industry in the Kingdom was 20, 30%. By dint of foreign capital expenditures in the years 1900-1913 production's value in chemical industry rose from 12 to 40 millions and 900 thousands roubles. The foreign capital, however, used to invest only in the most industrialized provinces of the Kingdom--Warsaw and Piotrków. And the greatest concentration of chemical industry could be observed just in the above-mentioned provinces. In the years 1904-1913 a number of establishments fluctuated there from 88.09 to 81.18%, and the employment--from 91.83 to 91.09%. This tendency could be observed till the outbreak of World War I. The Polish and Jewish capital that invested in chemical industry, did not have such financial resources. The investors' establishments were not large and technologically under-developed. However, the Polish and Jewish capital invested in the local market, particularly in agricultural provinces of the Kingdom.

[Friar José Mariano da Conceição Veloso and the promotion of industrial techniques in colonial Brazil: discussion of some concepts from the chemical sciences]. / Frei José Mariano da Conceição Veloso e a divulgação de técnicas industriais no Brasil colonial: discussão de alguns conceitos das ciências químicas.

At the turn of the 19th century, Minas Gerais Botanist Friar Veloso worked intensely on the publication of books to promote among settlers from the Portuguese empire techniques for improving agricultural production and from the incipient chemistry industry. This article analyzes the first volume of the "Alographia dos alkalis fixos...", a work that includes articles, book chapters, letters and patents from ten authors, particularly French and English, about the scientific and technical knowledge needed for the production of potassium carbonate from the ash of native plants. Some concepts and definitions used at the time of the Chemical Revolution are discussed, considering that Veloso translated them to Portuguese and introduced them to Brazil through his work.