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Personal technology development often stems from an individual's pursuit of innovation and desire to solve practical problems. It can be a tool independently developed by a software developer to improve work efficiency, or it can be a brand new application created by an entrepreneur to meet market demand. This kind of technological innovation driven by individuals is characterized by flexibility and efficiency.

However, compared with large-scale scientific research projects, personal technology development faces many challenges. Limited resources are one of them. It is often difficult for individuals to obtain sufficient funds, equipment and technical support. In addition, the limitations of knowledge and experience may also restrict the depth and breadth of personal technology development.

As a major breakthrough in the field of gene editing, CRISPR-Cas9 technology has brought hope for the treatment of many diseases. However, its application in humans requires rigorous clinical trials and safety assessments. This process requires a lot of funding, a professional scientific research team, and a sound regulatory mechanism.

Although the application scenarios and scales of personal technology development and CRISPR-Cas9 technology are different, they have something in common. First of all, both need to be guided by innovative thinking. Both individual developers and scientific research teams need to constantly explore new methods and ideas to achieve technological breakthroughs. Secondly, attention to safety and ethical issues is indispensable. Personal technology development must also comply with laws, regulations and ethical standards to ensure that the application of technology will not have a negative impact on society. At the same time, the application of CRISPR-Cas9 technology needs to fully consider its potential risks and ethical disputes to protect human health and well-being.

The combination of personal technology development and CRISPR-Cas9 technology provides more possibilities for future development. For example, individual developers can develop auxiliary tools that are convenient for researchers to use based on the principles of CRISPR-Cas9 technology to improve the efficiency and accuracy of gene editing. Or, they can apply this technology to specific fields, such as agriculture and environmental protection, to contribute to solving global problems.

However, it is not easy to achieve this combination. A series of issues need to be resolved, including technology sharing, intellectual property protection, and regulatory policies. At the same time, it is also necessary to enhance the public's understanding and acceptance of new technologies and promote the participation and support of all sectors of society.

In short, although personal technology development and CRISPR-Cas9 technology are moving forward on different tracks, their intersection will bring new opportunities and challenges to the development of science and technology and social progress. We should actively explore the path of coordinated development of the two and work hard to create a better future.