RESUMEN
Robert Hooke's development of the theory of matter-as-vibration provides coherence to a career in natural philosophy which is commonly perceived as scattered and haphazard. It also highlights aspects of his work for which he is rarely credited: besides the creative speculative imagination and practical-instrumental ingenuity for which he is known, it displays lucid and consistent theoretical thought and mathematical skills. Most generally and importantly, however, Hooke's 'Principles of Congruity and Incongruity of bodies' represent a uniquely powerful approach to the most pressing challenge of the New Science: legitimizing the application of mathematics to the study of nature. This challenge required reshaping the mathematical practices and procedures; an epistemological framework supporting these practices; and a metaphysics which could make sense of this epistemology. Hooke's 'Uniform Geometrical or Mechanical Method' was a bold attempt to answer the three challenges together, by interweaving mathematics through physics into metaphysics and epistemology. Mathematics, in his rendition, was neither an abstract and ideal structure (as it was for Kepler), nor a wholly-flexible, artificial human tool (as it was for Newton). It drew its power from being contingent on the particularities of the material world.
Asunto(s)
Matemática/historia , Física/historia , Historia del Siglo XVIIRESUMEN
Long after its alleged demise, phlogiston was still presented, discussed and defended by leading chemists. Even some of the leading proponents of the new chemistry admitted its 'absolute existence'. We demonstrate that what was defended under the title 'phlogiston' was no longer a particular hypothesis about combustion and respiration. Rather, it was a set of ontological and epistemological assumptions and the empirical practices associated with them. Lavoisier's gravimetric reduction, in the eyes of the phlogistians, annihilated the autonomy of chemistry together with its peculiar concepts of chemical substance and quality, chemical process and chemical affinity. The defence of phlogiston was the defence of a distinctly chemical conception of matter and its appearances, a conception which reflected the chemist's acquaintance with details and particularities of substances, properties and processes and his skills of adducing causal relations from the interplay between their complexity and uniformity.
Asunto(s)
Química/historia , Difusión de Innovaciones , Inglaterra , Francia , Historia del Siglo XVIIIRESUMEN
Overall survival and progression-free survival after 5 and 10 years of 31 patients with malignant glioma treated by a combination of surgery, postoperative radiotherapy, and chemotherapy with a PCV regimen (procarbazine, CCNU [lomustine] and vincristine) is described. Parameters were evaluated by age at diagnosis, gender, ethnic origin, pre- and postsurgery Karnofsky Performance Status (KPS) score, limit and amount of surgical resection, histopathologic type, number of chemotherapy courses, time between surgery and radiotherapy, response to combined therapy, and dosage and type of radiotherapy. Progression-free survival was 29% at 24 months and 22% at 60 and 120 months. Overall survival was 47%, 36%, and 36% after 24, 60, and 120 months, respectively. Favorable prognostic factors for survival in univariate analysis were pre- and postoperative KPS (> or =70; p = 0.015; p = 0.0025, respectively), age of patients (<40; p = 0.01), number of chemotherapy cycles (> or =6; p = 0.02), and radiation dose (> or =60 Gy; p = 0.0015). The only significant prognostic factors for overall survival in a stepwise multivariate analysis were irradiation dose (p = 0.0001), number of chemotherapy cycles (p = 0.001), and preoperative KPS (p = 0.05); for progression-free survival it was number of chemotherapy cycles (p = 0.004). Survival was not affected by excision size, radiation method, histopathologic type of tumor, gender, ethnic origin, or time lapsed between surgery and irradiation.