“Until recently, scientists had thought that most synapses of a similar type and in a similar location in the brain behaved in a similar fashion with respect to how experience induces plasticity,” Friedlander said. “In our work, however, we found dramatic differences in the plasticity response, even between neighboring synapses in response to identical activity experiences.”
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“Individual neurons whose synapses are most likely to strengthen in response to a certain experience are more likely to connect to certain partner neurons, while those whose synapses weaken in response to a similar experience are more likely to connect to other partner neurons,” Friedlander said. “The neurons whose synapses do not change at all in response to that same experience are more likely to connect to yet other partner neurons, forming a more stable but non-plastic network.”
Given the increasing license commercial (and non-profit) internet-based services take with our private data, it becomes increasingly important to pay attention to user agreements and privacy policies. It’s challenging enough to read those legalistic tomes once, much less keep track of their frequent changes. Reputable companies and organizations will automatically notify customers and members of changes to policies, but many include clauses relieving them of change notification responsibility. I could find no federal law holding them accountable to secure your acknowledgment of such changes.
Some years ago I found Change Detection, a free web service that allows you to monitor changes to the text content on any publicly accessible (no login) web page. I’ve used it to monitor changes to the user agreements and privacy notices (nearly always public pages) of the services and products I use. When the text on a monitored page changes, Change Detection sends me an email message that identifies the target page and shows exactly how it has changed. This relieves me of the burden of manually monitoring those policies. Change Detection automates the parts of change monitoring that humans perform poorly at—remembering and following through on tedious, boring tasks.
A concise, timely look at how worldview-driven cognitive dissonance leads people to double down on their misbeliefs in the face of challenging evidence. It also recommends steps for having more meaningful conversations with others whose irrational positions differ from your own. 😉
Until now, gene editing has relied on cell division to propagate modifications made with techniques like CRISPR Cas9. Researchers at the Salk Institute have devised a new method that can modify the genes of non-dividing cells (the majority of adult cells). They demonstrated the method’s potential by inserting missing genes into the brains of young mice that were blind due to retinitis pigmentosa. After the team inserted fully functional copies of the damaged gene responsible for the condition into the relevant visual neurons, the mice experience rudimentary vision.
Team leader Izpisua Belmonte says of the new method, homology-independent targeted integration (HITI), “We now have a technology that allows us to modify the DNA of non-dividing cells, to fix broken genes in the brain, heart and liver. It allows us for the first time to be able to dream of curing diseases that we couldn’t before, which is exciting.”
While the team, naturally and appropriately, envisions therapeutic uses, could this method be used to modify brain function non-therapeutically, to improve normal functioning, for example?
Two promising energy technologies received press coverage recently. The University of Bristol developed a process for capturing the radioactivity from nuclear wastes into diamonds, thereby stabilizing and reducing the risks associated with waste from fission reactors while also creating batteries that have no moving parts, are safe to handle, and have a productive life of at least 5,000 years.
First, the University of Bristol developed a process for capturing the radioactivity from nuclear wastes into diamonds, thereby stabilizing and reducing the risks associated with waste from fission reactors while also creating batteries that have no moving parts, are safe to handle, and have a productive life of at least 5,000 years.
Second, the U.S. Department of Energy (DOE) developed a highly efficient process for converting CO2 to ethane, which can be used to store energy generated by renewable sources (wind, solar, etc.). A much greater benefit could be derived if this technology were combined with atmospheric CO2 extractors. DOE claims it has the potential to draw atmospheric CO2 level down to an environmentally safe level.
In both cases, the technologies will have to surmount hurdles before the large-scale implementation that would be needed to have significant positive impacts.
Also, for their benefits to transfer globally, such publicly-funded technologies must remain under public ownership and control. Licensing the non-exclusive use of technologies could be a way for governments to shift part of the burden of revenue generation away from general taxation, which would doubly benefit citizens. For universities, non-exclusive licensing could build endowments to fund additional research and breakthroughs. Unfortunately, government- and university-developed innovations with potential to mitigate public health and other existential dilemmas often end up in the hands of private corporations that then set the costs of products and services too high for the broader benefits of the breakthrough to be realized.
Studies find that people with higher numeracy and understanding of the scientific method and its tools are more likely to challenge or twist the results of scientific studies that challenge their ideologies. For example, it’s the more scientifically competent persons on the political right (those who are most identified with a free-market ideology) who mount the most vehement assaults against claims of human contributions to global warming.
This article delves into the extent of cognitive biases against facts (rigorously validated knowledge claims) and the apparent variables affecting when those biases are triggered. It also raises possible ways to mitigate biases.
“the team investigated whether this brainstem-cortex network was functioning in another subset of patients with disorders of consciousness, including coma. Using a special type of MRI scan, the scientists found that their newly identified “consciousness network” was disrupted in patients with impaired consciousness. The findings – bolstered by data from rodent studies – suggest the network between the brainstem and these two cortical regions plays a role maintaining human consciousness.”
Here’s an interesting interview with an author whose book explains his concept of neurocapitalism, or cognitive capitalism, which is the result of the ongoing feedback between us and the increasingly penetrating technologies we adopt.
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