Abstract
Orthohantaviruses (also known as hantaviruses) are pathogens that cause two distinct, yet related forms of severe human disease: hemorrhagic fever with renal syndrome (HFRS) and hantavirus pulmonary syndrome (HPS). These diseases pose a significant threat to global public health due to their high case fatality rates, which can range from 1% to 50%. In recent years, an increasing number of countries and regions have reported human cases, underscoring the urgent need for improved understanding, prevention, and treatment strategies. Given the severity of these diseases and the lack of specific post-exposure antiviral treatments, preventive measures are critical. For several decades, substantial efforts have been dedicated to developing orthohantavirus vaccines, leading to significant advancements. The first large-scale deployment involved inactivated vaccines, which played a crucial role in reducing HFRS incidence in South Korea and China. Subunit vaccines, viral vector vaccines, and virus-like particle (VLP) vaccines have also been extensively researched. Nucleic acid vaccines, including both mRNA and DNA vaccines, hold the greatest potential for future development due to their rapid design and production cycles, ability to elicit robust immune responses, ease of storage and transportation, and adaptable production platforms. Ongoing advancements in computer technology and artificial intelligence promise to further enhance the development of more effective orthohantavirus vaccines.