For a long time, addiction research has been more likely to be affected by drug use obstacles (SUD) around the fragile understanding. However, Dr. Alexandra Rogers from the University of California and Professor Francis Lesley recently made a criticism of critical documents, which shows that a paradigm is required. Researchers believe that even when exposed to the same addictive substance, this field should explore why the field should explore why the field should also explore why the field should also explore why the field should also explore why the field should also be in the field. Discuss why not only pay attention to people. Their works have advocated more in -depth research on the elastic mechanism in terms of addiction neuroscience, which may pave the way for more effective addiction therapy.
Drug disorders have plagued the society of several centuries, but most of the drug users have not produced mature addiction. In fact, research shows that only 5-30 % of ordinary drug users meet the standards of SUD. This difference highlights the need to study the need to prevent addiction and psychological factors. Rogers and Leslie pointed out that although it has been widely studied for vulnerable neurological biology, elasticity can maintain normal function, although it is not exposed to addictive substances.
Researchers believe that the elastic mechanism is different from the fragile mechanism. “Toughness is not only lack of vulnerability. It involves active compensation brain changes, enabling individuals to deal with the challenges brought by drug abuse.” Dr. Rogers explained. This view will focus on the transformation of brain changes related to addiction to addiction to the natural elastic mechanism of identification and enhance the brain.
Their research borrows evidence of pressure models, and in this model, the concept of elasticity has been conducted more thoroughly. In these models, some people show the significant toughness of pressure and avoid negative results that are usually related to them. Similar protection mechanisms may play a role in addiction. For example, studies have shown that elastic individuals may show enhanced nerve occurrence in certain brain areas, or have specific genetic variations given to addiction protection.
Dr. Rogers and Professor Lesley also emphasized the potential for identifying new target targets by researching elasticity. Traditional addiction therapy is usually focused on reducing desire or abstaining symptoms, but they do not solve the potential toughness, so that most users cannot be addicted first. By understanding the principle of elasticity, researchers can develop therapies that promote these protection factors to provide more powerful and lasting treatment options.
Critical literature review emphasizes the importance of seeing beyond addiction as “brain diseases”, and considers it within a wider range of framework, including vulnerability and toughness. This dual method may lead to a more comprehensive understanding of addiction and eventually more effective treatment. Professor Lesley said: “In the future, the research should be designed to reveal the various reactions to addictive substances, not just pathological substances.” “In this way, we can better support those in dangerous and help More people recover from addiction. “
Given the worldwide drug crisis and rising addiction, Dr. Rogers and Professor Lesley called for re -attention to the toughness in the research of addiction. Their work shows that a more balanced method, a method of considering vulnerability and toughness may lead to breakthroughs in how to treat and prevent addiction.
Journal reference
Rogers, A. And leslie, f. (2024). “Addicted neurological biologists should study toughness.” Addicted neuroscience, 11,00152. Doi: https: //doi.org/10.1016/j.addicn.2024.100152
About the author
Alexandra Rogers (Alexandra Rogers) It is a medical writer and neurobiologist with pharmacological and neurological experience. She obtained a doctorate in Pharmacology at the University of California Erwan, where she was a researcher of Nih T32 and Vertex Pharmaceuticals. Her professional journey caused her to get rid of cognitive science and study the impact of music on memory and memories. Retinal degeneration and neurolastic effects recovered from spinal cord injury to the identification and representation of addiction tough neuron matrix. At present, Alexandra is a free medical writer who cooperates with academic institutions and industrial pharmaceutical companies. She is good at developing and improving scientific documents, including peer review publications and granted applications for national institutions such as NIH and HHMI.
Alexandra is an enthusiastic guidance and professional development advocate. He has established a peer guidance plan in UC Irvine and multiple plans to support the undergraduate of his graduate research team. Alexandra lived in San Francisco with her partner and her cat. She likes hiking, gardening and reading, and found inspiration with endless energy of science and imagination.
