Being able to exchange examination results in electronic format between medical laboratories is very important for modern medical care. However, the Laboratory Information System (LIS) in Taiwan is currently developed individually by each hospital. If laboratory information is relieved from a hospital via computer network, it is unidentifiable at the receiving end. Therefore, the establishment of a nation-wide standard code for medical laboratory examinations is required. On the other hand, the National Health Insurance (NHI) codes can be readily recognized and exchanged without problems between the information systems of different hospitals in Taiwan. Furthermore, each hospital already has the mapping mechanism between its own LIS and NHI coding system. Unfortunately, the NHI coding system was designed for billing only. It is inappropriate for communication between the LIS of different hospitals without major modification. Because Logical Observation Identifier Names and Codes (LOINC) is the most popular, complete and recent laboratory coding standard in the world, adopting it would be more efficient than creating a new one by ourselves. This research investigated the feasibility to adopt LOINC through NHI coding system in a median size teaching hospital of northern Taiwan and tried to define the actual work flow that was required for the whole process. NHI-LOINC Mapping Assistant (NLMA), a web-based tool similar to Regenstrief LOINC Mapping Assistant (RELMA) previously developed in our lab, was the key to adopt LOINC through NHI coding system. We first set up a LIS-LOINC mapping database to match each local LIS code with one group of LOINC with the help of NLMA. For the LIS code that did not have a matching NHI code, RELMA was used for its LIS-LOINC mapping. We then added new LOINC columns, which included extra examination information provided by the physician who prescribed the test, in the laboratory report database so that technicians could choose an unique LOINC code for some LIS codes when there was no one-to-one LIS-LOINC mapping. Finally, based on the experience of adopting process, the step-by-step work flow was identified to help the future LOINC introduction to other hospitals. We found that the successful LIS-LOINC mapping rate was 80%, which included both one-to-one and one-to-multiple mapping. It was not difficult for a laboratory technician to choose an unique code from a group of LOINC candidates based on the information provided on laboratory report database. We noticed that most of the time was spent in the mapping of LIS codes that had no corresponding NHI codes, the determination of an unique LOINC code, the programming for the LIS-LOINC database, and the modification of user interface. The research let us understand the operation process of a medical laboratory and its relevant information system in depth. It proved that the introduction of LOINC through NHI by NLMA and RELMA was feasible. We also identified and solved the difficulties encountered during the process. Although there might still other problems yet to be found when LOINC is incorporated into the LIS of different hospitals, we believe that we have provided a good example and established a reference work flow to facilitate hospitals which are interested in adopting LOINC into their system.