Introduction: Immobilization (IM) is frequently applied to limit joint movement, provide support, and protect injured tissues when a limb is severely injured, or bones are fractured to prevent secondary injuries caused by external force or movements during the healing process. However, the effects of maximal eccentric exercise (MAX)-induced muscle damage (EIMD) after long-term IM remain unclear. Purpose: The purpose of the present study was to test whether the magnitude of EIMD increases following the long-term IM of elbow flexors compared with a control group without IM (CON). Methods: Eighteen healthy men were recruited from a local university and randomly assigned to the IM group or the CON group (n = 9/group). The IM group had their non-dominant elbow joints fixed in a cast to provide IM for 21 consecutive days, whereas the CON group did not receive any IM. Before and after the IM intervention, the maximal voluntary isometric contraction strength (MVC) and upper arm circumference (CIR) were measured for the non-dominant arm of each participant, and 5 sets of 6 MAX repetitions were performed 24 hours after cast removal. Plasma myoglobin (Mb) concentrations, delayed-onset muscle soreness (DOMS), CIR, and MVC were measured before, 1, 2, and 3 days after MAX performance in both groups. Results: Significant decreases in MVC and CIR were evident after 21 days of IM in the IM group compared with the CON group (p ＜ .05). Significantly larger magnitudes of EIMD marker changes were observed after MAX in the IM group compared with the CON group (p ＜ .05). Conclusion: Long-term elbow flexor IM negatively affected muscle functions and increased the magnitude of muscle damage induced by a subsequent bout of MAX. Future studies are warranted to establish efficient prevention strategies to avoid EIMD after IM.