Technological Discontinuities and the Comparative Strategic Value of New Capabilites: Evidence from the Comparison of Small- and Large-Molecule Targeted Anti-Cancer Drug Discovery

Traditional creative destruction theories distinguish disruptions as competence-destroying or competence-enhancing to incumbents’ capabilities, with the former case resulting in incumbents’ loss of competitive advantage in in-house R&D performance (even if complementary assets aid in retaining final market share). In this paper, I propose that attention to the extent of competence destruction is necessary but not sufficient for analyses of competitive advantage in R&D through a technological discontinuity. A full analysis requires the comparison of the value added and ease of access (i.e., strategic value) of all capabilities, old and new. In other words, an analysis of competition during a transition requires assessment not only of how many of the old capabilities were lost but also what it takes to acquire the new ones. I find evidence for this proposition in qualitative and quantitative data from the transition of anti-cancer drug discovery from standard chemotherapy to targeted therapies. Among targeted therapies, I compare two variants, small- vs. large-molecule drugs, which though equally competence-destroying to chemotherapy-based drug discovery, differ in that large-molecule drugs require one more new capability: expertise in biopharmaceutical technology. By tracing the origin and evolution of biopharmaceutical technology, as well as its comparative value added, I can show a contrast in results: incumbents led in small-molecule targeted drug discovery; but they fell behind biopharmaceutical technology pioneers in large-molecule targeted drug discovery, where one of the new capabilities (i.e., expertise in biopharmaceutical technology) had higher value added and was more difficult to acquire than other new capabilities.R&D capabilities; incumbents; technological disruption; competence enhancing

Populational fluctuation and spatial distribution of Alphitobius diaperinus (Panzer) (Coleoptera; Tenebrionidae) in a poultry house, Cascavel, Parana state, Brazil.

Abstract Knowledge of the population fluctuation and spatial distribution of pests is fundamental for establishing an appropriate control method. The population fluctuation and spatial distribution of the Alphitobius diaperinus in a poultry house in Cascavel, in the state of Parana, Brazil, was studied between October, 2001 and October 2002. Larvae and adults of the lesser mealworm were sampled weekly using Arends tube traps (n = 22) for six consecutive flock grow-outs. The temperature of the litter and of the poultry house was measured at the same locations of the tube traps. Beetle numbers increased continuously throughout all the sampling dates (average 5,137 in the first week and 18,494 insects on the sixth week). Significantly greater numbers of larvae were collected than adults (1 to 20 times in 95% of the sampling points). There was no correlation between temperature and the number of larvae and adults collected, therefore no fluctuation was observed during the sampling period. The population growth was correlated to litter re-use. The highest temperatures were observed in deep litter. The spatial distribution of larvae and adults in the poultry house was heterogeneous during the whole period of evaluation. Results suggest that monitoring in poultry houses is necessary prior to adopting and evaluating control measures due to the great variability of the insect distribution in the poultry house. Keywords: lesser mealworm, poultry house, temperature, population dynamicbitstream/item/78871/1/ID-27879.pd

Piezoelectric energy harvester composite under dynamic bending with implementation to aircraft wingbox structure

In this paper, an investigation on the energy harvesting exerted by the dynamic bending responses of a piezoelectric embedded wingbox is presented. An innovative hybrid mathematical/computational scheme is built to evaluate the energy harvested by a mechanical system. The governing voltage differential equations of the piezoelectric composite beam are coupled with the finite element method output. The scheme is able of evaluating various excitation forms including dynamic force and base excitation. Thus, it provides the capability to analyse a complicated structure with a more realistic loading scenario. Application to the simulation of a notional jet aircraft wingbox with a piezoelectric skin layer is shown in some detail. The results pointed out that the electrical power generated can be as much as 25.24 kW for a 14.5 m wingspan. The capabilities and robustness of the scheme are shown by comparison with results from the literature

Causality re-established

Causality never gained the status of a "law" or "principle" in physics. Some recent literature even popularized the false idea that causality is a notion that should be banned from theory. Such misconception relies on an alleged universality of reversibility of laws of physics, based either on determinism of classical theory, or on the multiverse interpretation of quantum theory, in both cases motivated by mere interpretational requirements for realism of the theory. Here, I will show that a properly defined unambiguous notion of causality is a theorem of quantum theory, which is also a falsifiable proposition of the theory. Such causality notion appeared in the literature within the framework of operational probabilistic theories. It is a genuinely theoretical notion, corresponding to establish a definite partial order among events, in the same way as we do by using the future causal cone on Minkowski space. The causality notion is logically completely independent of the misidentified concept of "determinism", and, being a consequence of quantum theory, is ubiquitous in physics. In addition, as classical theory can be regarded as a restriction of quantum theory, causality holds also in the classical case, although the determinism of the theory trivializes it. I then conclude arguing that causality naturally establishes an arrow of time. This implies that the scenario of the "Block Universe" and the connected "Past Hypothesis" are incompatible with causality, and thus with quantum theory: they both are doomed to remain mere interpretations and, as such, not falsifiable, similar to the hypothesis of "super-determinism". This article is part of a discussion meeting issue "Foundations of quantum mechanics and their impact on contemporary society".Comment: Presented at the Royal Society of London, on 11/12/ 2017, at the conference "Foundations of quantum mechanics and their impact on contemporary society". To appear on Philosophical Transactions of the Royal Society