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Background: Rehabilitation of the severely atrophic maxilla remains a major challenge in implant dentistry, particularly when conventional endosseous implants and regenerative procedures are contraindicated due to extensive bone loss, sinus pathology, or patient-related factors. Advances in digital planning and additive manufacturing have enabled the reintroduction of juxta-osseous subperiosteal implants as a graftless, patient-specific treatment option. This case report aimed to describe the complete digital workflow, surgical placement, and immediate prosthetic rehabilitation of a customized juxta-osseous subperiosteal implant in a patient with severe posterior maxillary atrophy and a history of failed sinus augmentation procedures. Case Presentation: A 75-year-old male patient presenting with left severe posterior maxillary atrophy and previous unsuccessful sinus lift surgeries was rehabilitated using a digitally designed, additively manufactured titanium subperiosteal implant. Cone-beam computed tomography–based planning and CAD–CAM technology were used to design a patient-specific framework, which was rigidly fixed to stable maxillofacial support and immediately loaded with a screw-retained provisional prosthesis. Results: Clinical and radiographic follow-up demonstrated stable implant fixation, soft tissue healing, absence of biological or mechanical complications, and satisfactory functional and aesthetic outcomes. The patient reported high levels of comfort and satisfaction throughout the treatment period. Conclusions: Digitally manufactured juxta-osseous subperiosteal implants may represent a predictable and minimally invasive graftless alternative for selected patients with severe maxillary atrophy, particularly when conventional implant placement or extensive bone augmentation is not feasible. Accurate digital planning, rigid fixation, and appropriate patient selection appear to be key factors for clinical success.