Keywords
Finite element analysis
Degradable absorbable pad
Marketing strategy
Risk analysis
Submitted : 2024-11-23
Accepted : 2024-12-08
Published : 2024-12-23
Abstract
This study examines the design and development of a new disposable electric intelligent laparoscopic stapler and its components, addressing issues in existing electric staplers, particularly insufficient power for cutting thick tissue and postoperative complications. Finite element analysis was utilized to model cutting force and tissue thickness, optimizing the device’s cutting performance. The electric intelligent laparoscopic stapler integrates control, drive, transmission, execution, and communication modules, employing intelligent thickness detection and feedback mechanisms to enhance surgical precision and safety. Additionally, a degradable, absorbable hemostatic pad with excellent biocompatibility and an optimal degradation cycle was developed to minimize postoperative complications. The marketing strategy focuses on product diversification, competitive pricing, channel expansion, and technical services to strengthen the product’s presence in the domestic market and support import substitution, enhancing its competitiveness. A risk analysis was conducted to address potential policy, operational, technological, and market risks, with strategies proposed for mitigation.
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