51 studies on VEGF mechanism curated from PubMed, ClinicalTrials.gov, and EuropePMC. Updated daily.
This comprehensive review is vital for enhancing awareness among clinicians and patients regarding the potential ocular risks associated with GLP-1 RA treatment. It provides a crucial framework for identifying vulnera…
This study identifies LCKLSL as a promising novel therapeutic candidate for the treatment of retinal neovascularization. By specifically targeting ANXA2, a key regulator of cell proliferation and angiogenesis (the for…
This research highlights Norrin as a promising therapeutic agent for Diabetic Retinopathy, offering a novel approach that simultaneously targets RGC neuroprotection and vascular stability by rebalancing VEGF and PEDF.…
This research highlights HNF14 as a novel and promising therapeutic strategy for Age-related Macular Degeneration, particularly for the atrophic forms where current treatment options are severely limited. Its ability …
This synthesis of evidence underscores the critical role of growth hormone (GH) in driving breast cancer progression, metastasis, and angiogenesis, moving beyond the traditional focus on steroid hormones. Understandin…
This research suggests that tripeptide-copper complex could be a potent new agent for treating hair loss by directly stimulating hair follicle cells and upregulating critical growth factors. Its ability to promote cel…
This research highlights the central role of impaired decidualization in the pathogenesis and progression of CSP, suggesting it's not just about implantation location but also the uterine environment's receptivity. Un…
This research highlights Kisspeptin's significant potential as a therapeutic agent for managing pregnancy complications arising from maternal hypothyroidism. By restoring critical placental signaling pathways like mTO…
This research provides critical insights into the intricate mechanisms governing coordinated cardiac and vascular development, particularly during vulnerable fetal stages. Understanding how IGF-1 orchestrates this bal…
This study provides compelling evidence that GLP-1 Receptor Agonists offer significant protective benefits beyond glycemic control, extending to both systemic and ocular vascular health in a high-risk population. Thes…
This study provides compelling evidence that targeting the angiogenic niche with AngioBone-P1 can effectively stimulate robust bone repair in osteoporosis, moving beyond merely slowing bone loss. The ability of this p…
This study highlights the potential of bioinspired antimicrobial peptide hydrogels as a highly effective, dual-action solution for infected wounds, addressing both microbial burden and tissue regeneration. The ability…
The findings suggest that IGF-1 supplementation could be a safe and effective strategy for preventing severe ROP in extremely premature infants, potentially mitigating the devastating visual outcomes associated with t…
This research unveils a highly promising and novel strategy to significantly enhance the survival and long-term function of transplanted stem cell-derived islets. By specifically targeting zinc transport to pre-condit…
This review underscores the transformative potential of biomimetic nanoparticles in addressing the complex challenges of bone regeneration. By mimicking the natural bone extracellular matrix and delivering therapeutic…
This research provides compelling evidence that ghrelin acts as a potent pro-angiogenic factor, directly stimulating new blood vessel formation in human heart cells under oxygen-deprived conditions. This finding is hi…
These findings are significant as they identify GHRH as a trophic hormone for bronchial neuroendocrine tumors, meaning it actively promotes their growth and activity. This discovery suggests that GHRH receptors could …
These findings strongly suggest that GHRH antagonists could be a potent new therapeutic strategy for advanced prostate cancer by simultaneously inhibiting tumor growth and its ability to spread. The observed reduction…
This research highlights a promising new therapeutic strategy for triple-negative breast cancer, a disease with limited treatment options and a high unmet medical need. The synergistic effects observed with GHRH antag…
This study provides compelling and robust evidence that GHRH agonists represent a promising novel therapeutic strategy for preventing the onset and progression of early diabetic retinopathy. By simultaneously targetin…
These findings highlight GHRH receptor antagonists as a promising therapeutic strategy for prostate cancer by targeting multiple pathways involved in tumor growth and angiogenesis. The ability to inhibit both cell pro…
This research provides crucial insights into the molecular mechanisms by which GAGs can modulate LL-37 activity, identifying specific structural features that confer potent inhibitory effects. This understanding is a …
This research provides compelling evidence for Epitalon's therapeutic potential in combating the cellular damage and impaired healing associated with diabetic retinopathy. By demonstrating its ability to enhance wound…
This research provides compelling evidence that Semax and Pro-Gly-Pro could be promising therapeutic agents for ischemic stroke by beneficially modulating the VEGF system. Their ability to normalize detrimental gene e…
This study provides crucial insights into the molecular mechanisms underlying Semax's neuroprotective effects by demonstrating its ability to modulate gene expression related to inflammation and vascular repair after …
These findings suggest that Thymosin alpha-1 represents a promising therapeutic agent for NSCLC, particularly by targeting the immunosuppressive tumor microenvironment. Its ability to block MDSC accumulation through V…
This research highlights the significant potential of copper tripeptide GHK-Cu as a therapeutic agent for promoting tissue regeneration, particularly in contexts involving radiation-induced damage. The ability of GHK-…
This research highlights a promising new therapeutic strategy for diabetic wound healing. The use of biotinylated GHK delivered via a collagen matrix offers a sustained and localized approach to address the complex pa…
This comprehensive review unequivocally underscores GHK's significant potential as a versatile therapeutic agent for a wide range of conditions involving tissue damage, impaired regeneration, and pathological fibrosis…
This review underscores the profound therapeutic potential of the GHK peptide as a natural, multi-target agent for skin regeneration and anti-aging. Its ability to simultaneously boost collagen, reduce inflammation, a…
This study highlights the significant potential of GHK-Cu-liposomes as a novel therapeutic strategy for accelerating wound healing. By simultaneously promoting cell proliferation and angiogenesis (the formation of new…
This research suggests that GHK-Cu could be a novel therapeutic agent for treating the underlying structural changes in chronic respiratory diseases like asthma. Its ability to not only reduce inflammation but also re…
This research highlights that conjugating GHK-Cu with Hyaluronan creates a powerful new biomaterial with enhanced antioxidant, osteogenic, and angiogenic properties. This synergistic approach offers a promising avenue…
This study provides compelling evidence that BPC 157 possesses significant anti-thrombotic and pro-angiogenic properties, making it a promising candidate for treating vascular disorders. The ability of BPC 157 to both…
This study provides compelling evidence for the potent regenerative and cytoprotective effects of BPC 157, particularly its ability to promote vascular recruitment and accelerate gastrointestinal healing. The observed…
This comprehensive review unequivocally highlights BPC-157's broad therapeutic potential as a potent pro-angiogenic and regenerative agent. Its remarkable ability to promote and accelerate healing across such diverse …
The consistent and potent pro-healing effects of BPC 157 across multiple challenging fistula models highlight its significant potential as a novel therapeutic agent. This peptide could offer a non-invasive, effective …
These findings highlight BPC 157's significant potential as a therapeutic agent for preventing and treating NSAID-induced gastrointestinal damage. By simultaneously stabilizing intestinal permeability and enhancing in…
This research highlights the significant gastroprotective potential of BPC 157 against drug-induced injury. The ability of BPC 157 to reduce lesion severity, inflammation, and oxidative stress while promoting healing …
The study revealed significant therapeutic effects of BPC 157 in mitigating the consequences of permanent superior sagittal sinus (SSS) occlusion. Animals treated with BPC 157 exhibited a marked improvement in neurolo…
These findings strongly underscore BPC 157's potent therapeutic potential in accelerating and improving the quality of wound healing. Its multifaceted action, including enhanced collagen synthesis, robust angiogenesis…
This study provides compelling evidence that BPC 157 offers significant protection against the severe and often fatal consequences of superior mesenteric vein occlusion, a condition with limited effective treatments. …
This study provides compelling and robust evidence that BPC 157 possesses potent therapeutic properties for complex tissue injuries like vesicovaginal fistula, a condition notoriously difficult to treat, and can effec…
This research highlights BPC 157's significant potential as a therapeutic agent for accelerating the repair of myotendinous junction injuries, which are notoriously difficult to treat. The observed improvements in bot…
This research highlights the potent cardioprotective and regenerative properties of BPC 157 in an acute myocardial infarction model. The ability of BPC 157 to simultaneously reduce inflammation, oxidative stress, and …
Treatment with BPC 157 significantly accelerated the healing process of duodenocolic fistulas compared to control groups, demonstrating robust regenerative capabilities. Macroscopic evaluation revealed that BPC 157-tr…
This research highlights BPC-157's robust potential as a therapeutic agent for conditions involving acute vascular injury and subsequent multiorgan failure, such as severe sepsis, shock, or surgical complications. Its…
This review underscores the significant promise of injectable therapeutic peptides as novel tools in regenerative medicine and sports performance. Their ability to accelerate healing, reduce inflammation, and promote …
This extensive review solidifies the understanding of BPC 157's broad therapeutic potential, emphasizing its multifaceted regenerative and protective capabilities. The consistent findings across numerous studies sugge…
This research underscores BPC 157's potential as a powerful therapeutic agent for a wide range of conditions requiring tissue repair and regeneration. Its unique pleiotropic action, specifically targeting both angioge…