The prelacrimal recess approach (PLRA) has advanced endoscopic sinonasal surgery by providing improved access to the maxillary sinus and adjacent anatomical regions while preserving critical structures such as the inferior turbinate (IT) and nasolacrimal duct (NLD). First introduced in 2013, the PLRA has become an important technique for addressing various sinonasal pathologies. This review comprehensively evaluates the advancements, applications, and outcomes associated with the PLRA. The PLRA enables superior visualization and access to regions that are traditionally difficult to reach with conventional techniques. Standardized surgical steps emphasize meticulous preservation of the NLD and IT, while technical modifications have broadened its feasibility in patients with narrow prelacrimal recesses. Applications of the PLRA span diverse pathologies, including sinonasal inverted papilloma, fungal infections, odontogenic cysts, and tumors of the lacrimal system, orbit, and skull base. Anatomical studies reveal significant variations in prelacrimal recess dimensions across populations, affecting surgical feasibility. Sex-specific differences, ethnic variations, and age-related factors are important in patient selection. Clinical outcomes from multiple investigations validate the PLRA’s efficacy in maintaining sinonasal function while achieving comprehensive lesion removal. Comparative analyses with traditional approaches underscore the PLRA’s advantages in reducing postoperative morbidity and recurrence rates. Integration of the PLRA with complementary surgical approaches further expands its therapeutic applications while maintaining favorable safety profiles. The PLRA is a safe and effective surgical method that offers favorable outcomes in disease management, symptom resolution, and anatomical preservation. With ongoing innovations and refinements, the PLRA is poised to remain a cornerstone of minimally invasive sinonasal surgery, enabling the precise and safe treatment of complex pathologies.

Allogeneic stem cells derived from umbilical cord tissue, placenta, and umbilical cord blood have shown potential in treating delayed systemic aging and aging-related diseases. Aging induces cellular senescence, oxidative stress, chronic inflammation, and stem cell depletion, all of which contribute to tissue damage and functional decline. Recent advances in regenerative medicine suggest that allogeneic stem cells can mitigate these aging processes through immunomodulation and tissue regeneration. In particular, umbilical cord-derived mesenchymal stem cells have gained attention for clinical applications owing to their strong immunomodulatory properties and low immunogenicity. These cells can repair damaged tissues and enhance metabolic and cognitive function by secreting various cytokines, growth factors, and exosomes, offering potential treatment for aging-related conditions such as osteoporosis and neurodegenerative disorders. Both clinical and preclinical studies indicate that allogeneic stem cells play a critical role in alleviating these diseases, including osteoporosis, osteoarthritis, cardiovascular diseases, and neurodegenerative disorders. Despite their therapeutic potential, challenges remain, such as immune compatibility, long-term safety, and the lack of standardized protocols for large-scale production. This review outlines the biological mechanisms by which allogeneic stem cells contribute to delayed aging, summarizes current clinical research, and explores future prospects. Allogeneic stem cells may offer novel strategies for delaying aging and extending lifespan.

Allogeneic stem cells derived from umbilical cord tissue, placenta, and umbilical cord blood have shown potential in treating delayed systemic aging and aging-related diseases. Aging induces cellular senescence, oxidative stress, chronic inflammation, and stem cell depletion, all of which contribute to tissue damage and functional decline. Recent advances in regenerative medicine suggest that allogeneic stem cells can mitigate these aging processes through immunomodulation and tissue regeneration. In particular, umbilical cord-derived mesenchymal stem cells have gained attention for clinical applications owing to their strong immunomodulatory properties and low immunogenicity. These cells can repair damaged tissues and enhance metabolic and cognitive function by secreting various cytokines, growth factors, and exosomes, offering potential treatment for aging-related conditions such as osteoporosis and neurodegenerative disorders. Both clinical and preclinical studies indicate that allogeneic stem cells play a critical role in alleviating these diseases, including osteoporosis, osteoarthritis, cardiovascular diseases, and neurodegenerative disorders. Despite their therapeutic potential, challenges remain, such as immune compatibility, long-term safety, and the lack of standardized protocols for large-scale production. This review outlines the biological mechanisms by which allogeneic stem cells contribute to delayed aging, summarizes current clinical research, and explores future prospects. Allogeneic stem cells may offer novel strategies for delaying aging and extending lifespan.

The prelacrimal recess approach (PLRA) has advanced endoscopic sinonasal surgery by providing improved access to the maxillary sinus and adjacent anatomical regions while preserving critical structures such as the inferior turbinate (IT) and nasolacrimal duct (NLD). First introduced in 2013, the PLRA has become an important technique for addressing various sinonasal pathologies. This review comprehensively evaluates the advancements, applications, and outcomes associated with the PLRA. The PLRA enables superior visualization and access to regions that are traditionally difficult to reach with conventional techniques. Standardized surgical steps emphasize meticulous preservation of the NLD and IT, while technical modifications have broadened its feasibility in patients with narrow prelacrimal recesses. Applications of the PLRA span diverse pathologies, including sinonasal inverted papilloma, fungal infections, odontogenic cysts, and tumors of the lacrimal system, orbit, and skull base. Anatomical studies reveal significant variations in prelacrimal recess dimensions across populations, affecting surgical feasibility. Sex-specific differences, ethnic variations, and age-related factors are important in patient selection. Clinical outcomes from multiple investigations validate the PLRA’s efficacy in maintaining sinonasal function while achieving comprehensive lesion removal. Comparative analyses with traditional approaches underscore the PLRA’s advantages in reducing postoperative morbidity and recurrence rates. Integration of the PLRA with complementary surgical approaches further expands its therapeutic applications while maintaining favorable safety profiles. The PLRA is a safe and effective surgical method that offers favorable outcomes in disease management, symptom resolution, and anatomical preservation. With ongoing innovations and refinements, the PLRA is poised to remain a cornerstone of minimally invasive sinonasal surgery, enabling the precise and safe treatment of complex pathologies.

Allogeneic stem cells derived from umbilical cord tissue, placenta, and umbilical cord blood have shown potential in treating delayed systemic aging and aging-related diseases. Aging induces cellular senescence, oxidative stress, chronic inflammation, and stem cell depletion, all of which contribute to tissue damage and functional decline. Recent advances in regenerative medicine suggest that allogeneic stem cells can mitigate these aging processes through immunomodulation and tissue regeneration. In particular, umbilical cord-derived mesenchymal stem cells have gained attention for clinical applications owing to their strong immunomodulatory properties and low immunogenicity. These cells can repair damaged tissues and enhance metabolic and cognitive function by secreting various cytokines, growth factors, and exosomes, offering potential treatment for aging-related conditions such as osteoporosis and neurodegenerative disorders. Both clinical and preclinical studies indicate that allogeneic stem cells play a critical role in alleviating these diseases, including osteoporosis, osteoarthritis, cardiovascular diseases, and neurodegenerative disorders. Despite their therapeutic potential, challenges remain, such as immune compatibility, long-term safety, and the lack of standardized protocols for large-scale production. This review outlines the biological mechanisms by which allogeneic stem cells contribute to delayed aging, summarizes current clinical research, and explores future prospects. Allogeneic stem cells may offer novel strategies for delaying aging and extending lifespan.

The prelacrimal recess approach (PLRA) has advanced endoscopic sinonasal surgery by providing improved access to the maxillary sinus and adjacent anatomical regions while preserving critical structures such as the inferior turbinate (IT) and nasolacrimal duct (NLD). First introduced in 2013, the PLRA has become an important technique for addressing various sinonasal pathologies. This review comprehensively evaluates the advancements, applications, and outcomes associated with the PLRA. The PLRA enables superior visualization and access to regions that are traditionally difficult to reach with conventional techniques. Standardized surgical steps emphasize meticulous preservation of the NLD and IT, while technical modifications have broadened its feasibility in patients with narrow prelacrimal recesses. Applications of the PLRA span diverse pathologies, including sinonasal inverted papilloma, fungal infections, odontogenic cysts, and tumors of the lacrimal system, orbit, and skull base. Anatomical studies reveal significant variations in prelacrimal recess dimensions across populations, affecting surgical feasibility. Sex-specific differences, ethnic variations, and age-related factors are important in patient selection. Clinical outcomes from multiple investigations validate the PLRA’s efficacy in maintaining sinonasal function while achieving comprehensive lesion removal. Comparative analyses with traditional approaches underscore the PLRA’s advantages in reducing postoperative morbidity and recurrence rates. Integration of the PLRA with complementary surgical approaches further expands its therapeutic applications while maintaining favorable safety profiles. The PLRA is a safe and effective surgical method that offers favorable outcomes in disease management, symptom resolution, and anatomical preservation. With ongoing innovations and refinements, the PLRA is poised to remain a cornerstone of minimally invasive sinonasal surgery, enabling the precise and safe treatment of complex pathologies.

Allogeneic stem cells derived from umbilical cord tissue, placenta, and umbilical cord blood have shown potential in treating delayed systemic aging and aging-related diseases. Aging induces cellular senescence, oxidative stress, chronic inflammation, and stem cell depletion, all of which contribute to tissue damage and functional decline. Recent advances in regenerative medicine suggest that allogeneic stem cells can mitigate these aging processes through immunomodulation and tissue regeneration. In particular, umbilical cord-derived mesenchymal stem cells have gained attention for clinical applications owing to their strong immunomodulatory properties and low immunogenicity. These cells can repair damaged tissues and enhance metabolic and cognitive function by secreting various cytokines, growth factors, and exosomes, offering potential treatment for aging-related conditions such as osteoporosis and neurodegenerative disorders. Both clinical and preclinical studies indicate that allogeneic stem cells play a critical role in alleviating these diseases, including osteoporosis, osteoarthritis, cardiovascular diseases, and neurodegenerative disorders. Despite their therapeutic potential, challenges remain, such as immune compatibility, long-term safety, and the lack of standardized protocols for large-scale production. This review outlines the biological mechanisms by which allogeneic stem cells contribute to delayed aging, summarizes current clinical research, and explores future prospects. Allogeneic stem cells may offer novel strategies for delaying aging and extending lifespan.