223 studies on Healing peptide class curated from PubMed, ClinicalTrials.gov, and EuropePMC. Updated daily.
This review is crucial as it consolidates knowledge on how to design and synthesize GHK derivatives with enhanced or novel biological activities. The development of these derivatives could lead to more effective treat…
This review underscores the GHK peptide's remarkable potential as a broad-spectrum therapeutic agent, capable of influencing fundamental cellular processes to combat aging and disease. By demonstrating its ability to …
These comprehensive physicochemical data are crucial for advancing GHK into effective topical formulations. The demonstrated high solubility, stability within a relevant pH range, and moderate skin permeability sugges…
This research underscores the significant therapeutic potential of modified GHK peptides as a novel class of antimicrobial agents, offering a promising new direction in the ongoing battle against drug-resistant pathog…
This research highlights the superiority of microneedle technology in overcoming the skin barrier for large molecule delivery, particularly for therapeutic peptides like GHK-Cu. The ability to deliver GHK-Cu effective…
This research is significant because it strongly suggests that GHK-Cu (II) could serve as a valuable adjuvant therapy to accelerate early graft maturation and improve initial strength following ACL reconstruction. By …
This research significantly advances our fundamental understanding of how GHK and GHK-Cu exert their beneficial effects on skin health, particularly by modulating a key cytokine intricately involved in wound healing a…
This research highlights the potent analgesic properties of the natural GHK peptide, suggesting its potential as a novel therapeutic agent for pain management. The study also provides crucial insights into the structu…
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 research introduces a new class of dynamic peptide-based porous materials with tunable properties, bridging the gap between traditional MOFs and biomaterials. The observed reversible structural collapse and recov…
This study provides compelling evidence that a natural tripeptide can effectively inhibit amyloid beta (Aβ) aggregation and protect against its neurotoxic effects, both in vitro and in vivo. The multifaceted mechanism…
These findings are highly significant as they demonstrate that GHK-Cu possesses a potent protective effect in LPS-induced acute lung injury by inhibiting excessive inflammatory responses and oxidative stress. This sug…
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 synthesis of evidence solidifies GHK-Cu's role as a multifaceted therapeutic agent with broad potential applications in regenerative medicine and anti-aging. Understanding the specific genetic pathways it influen…
This research represents a significant step forward in the controlled delivery of therapeutic peptides like GHK-Cu, offering a smart platform for targeted action. The pH-responsive release mechanism is particularly va…
This research highlights a highly promising strategy for significantly enhancing the efficacy of cosmetic and therapeutic peptides by improving both their delivery and intrinsic activity. By overcoming the skin barrie…
This research highlights the significant therapeutic potential of GHK-Cu as a novel agent for treating pulmonary fibrosis. Its dual action in combating both oxidative stress and inflammation addresses key pathological…
This research introduces a promising new strategy for advanced wound care, leveraging a pH-sensitive superabsorbent polymer to deliver the therapeutic GHK-Cu peptide in a controlled manner. The demonstrated efficacy i…
This comprehensive review underscores the significant potential of GHK as a therapeutic agent for combating various aspects of aging, from skin health to cognitive function. The observed decline in endogenous GHK leve…
This research highlights the significant potential of multi-component surface modification to synergistically boost the bioactivity and regenerative capacity of tissue engineering scaffolds. The combined effect of GHK…
This theoretical study provides a fundamental understanding of the copper-GHK binding mechanism, which is essential for comprehending the peptide's biological functions. The detailed insights into the coordination geo…
This innovative co-assembly approach represents a significant breakthrough, opening a new avenue for the construction of diverse hybrid nanostructures using readily available and biocompatible biomolecules. The creati…
This study highlights the potential of GHK tripeptides as a therapeutic agent for mitigating environmental toxin-induced cardiotoxicity. The findings suggest GHK's protective mechanism involves its potent antioxidant …
This research significantly advances our understanding of how GHK and cis-urocanic acid function within the human body, particularly concerning their interactions with copper. The discovery of the [GHK][Cu(II)][cis-ur…
This study highlights the significant potential of GHK-loaded hydrogels as a novel therapeutic strategy for advanced wound management. The use of natural polymers like pectin and flaxseed gum creates a biocompatible a…
This research highlights a novel application for the GHK-Cu peptide, demonstrating its potential beyond biological contexts as a versatile material additive. The ability to significantly boost polymer solar cell effic…
This research represents a significant step forward in optimizing GHK-Cu peptide delivery for wound healing. By providing a sustained and controlled release mechanism, the polymer gel could overcome the current limita…
This study highlights the significant potential of copper peptide-functionalized biomimetic hydrogels to overcome the challenges of chronic diabetic wounds. By promoting angiogenesis, collagen synthesis, and reducing …
This study provides compelling and quantitative evidence for GHK-Cu's potent anti-inflammatory and skin regenerative properties, particularly highlighting its efficacy in mitigating the symptoms and underlying patholo…
The findings from this study are highly significant, as they demonstrate that GHK-Cu possesses potent anti-cachectic properties, effectively preserving muscle mass and improving muscle function in a preclinical model.…
The discovery of this potent synergy between GHK-Cu and hyaluronic acid represents a significant advancement in anti-aging technology, offering a novel and highly effective strategy for enhancing skin health. By demon…
This research provides a valuable, non-toxic method for significantly enhancing laccase production using GHK-Cu as an inducer, addressing safety concerns associated with traditional inducers. The use of a GHK-chelated…
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 represents a significant advancement in label-free biosensing technology, offering substantially improved capabilities for detecting high refractive index analytes. This could lead to more accurate and s…
This research presents a highly selective and efficient fluorescent sensor for Cu(II) ions, which holds significant implications for the biotech and peptide community. The ability to accurately and selectively detect …
This study provides compelling evidence that liposomal delivery systems can significantly overcome the inherent limitations of topical GHK-Cu, substantially enhancing its stability and skin penetration. The improved e…
These findings are highly significant as they demonstrate that GHK peptide can effectively combat age-related cognitive decline through a non-invasive delivery method. This suggests GHK peptide represents a promising …
This research presents a significant advancement in drug delivery technology, offering a robust and stable platform for topical peptide therapeutics. The enhanced skin penetration and stability of these ionic liquid m…
This study provides compelling evidence that intranasal GHK peptide can effectively mitigate both behavioral deficits and the underlying neuropathology in an Alzheimer's disease mouse model. The non-invasive intranasa…
This study provides compelling evidence that GHK-Cu holds significant promise as a novel therapeutic agent for Alzheimer's disease. Its ability to simultaneously improve cognitive function, reduce amyloid pathology, a…
This research represents a pivotal advancement in peptide delivery technology, effectively overcoming the significant challenges of peptide instability and poor bioavailability under harsh conditions. The development …
This research highlights GHK's potential as a powerful cytoprotective compound against metal-induced damage, which is a significant contributing factor in neurodegenerative diseases. Its multifaceted ability to preven…
This research provides compelling evidence that GHK-Cu could serve as a novel and effective therapeutic agent for silicosis, a disease with a high incidence and no current specific treatment options. By targeting PRDX…
This groundbreaking analytical technique provides an indispensable tool for quality control, formulation development, and research in the cosmetic and pharmaceutical industries. By enabling accurate and sensitive quan…
This study highlights the substantial potential of the palmitoyl copper peptide and acetyl tyrosine complex as a potent and effective melanogenesis-stimulating agent. Its demonstrated ability to significantly boost me…