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Eroom's Law : ウィキペディア英語版
Eroom's Law
Eroom's Law is the observation that drug discovery is becoming slower and more expensive over time, despite improvements in technology (such as high throughput screening, biotechnology, combinatorial chemistry, and computational drug design), a trend first observed in the 1980s. The cost of developing a new drug roughly doubles every nine years. In order to highlight the contrast with the exponential advancements of other forms of technology (such as transistors) over time, the law was deliberately spelled as Moore's Law spelled backwards.
The law is attributed to four main causes.
* the 'better than the Beatles' problem: the sense that new drugs only have modest incremental benefit over drugs already widely considered as successful, such as Lipitor, and treatment effects on top of already effective treatments are smaller than treatment effects versus placebo. The smaller size of these treatment effects mandates an increase in clinical trial sizes to show the same level of efficacy. This problem was phrased as "better than the Beatles" to highlight the fact that it would be difficult to come up with new successful pop songs if all new songs had to be better than the Beatles.
* the 'cautious regulator' problem: the progressive lowering of risk tolerance seen by drug regulatory agencies that makes R&D both costlier and harder. After older drugs (such as Thalidomide or Vioxx) are removed from the market due to safety reasons, the bar on safety for new drugs is increased.
* the 'throw money at it' tendency: the tendency to add human resources and other resources to R&D, which may lead to project overrun.
* the 'basic research–brute force' bias: the tendency to overestimate the ability of advances in basic research and brute force screening methods in their ability to show a molecule as safe and effective in clinical trials. From the 1960s to the 1990s (and later), drug discovery has shifted from whole-animal testing methods (phenotypic screening) to target-approaches that result in the discovery of drugs that may tightly bind with high-affinity to target proteins, but which still often fail in clinical trials due to an under-appreciation of the complexity of the whole organism. Furthermore, drug discovery techniques have shifted from small-molecule and iterative low-throughput search strategies to target-based high-throughput screening (HTS) of large compound libraries. But despite being faster and cheaper, HTS approaches may be less productive.
While some suspect a lack of "low hanging fruit" as a significant contribution to Eroom's Law, this may be less important than the four main causes, as there are still many decades worth of new potential drug targets relative to the number of drugged targets, even if the industry exploits 4-5 new targets per year.〔 There is also space to explore selectively non-selective drugs (or "dirty drugs") that interact with several molecular targets, and which may be particularly effective as central nervous system (CNS) therapeutics, even though few of them have been introduced in the last few decades.
==References==


抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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