scholarly journals Immunoglobulin G in Platelet-Derived Wound Healing Factors

2021 ◽  
Vol 2021 ◽  
pp. 1-16
Author(s):  
Elisa Seria ◽  
Sarah Samut Tagliaferro ◽  
Doreen Cutajar ◽  
Ruth Galdies ◽  
Alex Felice
Keyword(s):  
Wound Healing ◽  
Immunoglobulin G ◽  
Chronic Wounds ◽  
Size Exclusion ◽  
Skin Ulcers ◽  
Exclusion Chromatography ◽  
Healing Wound ◽  
Common Etiology ◽  
Igg Purification ◽  
Lysis Buffer

We intended to reformulate an existing platelet-derived wound healing formula to target each phase of the healing wound with the appropriate phase-specific molecules. A decreased perfusion of the skin, often associated with conditions such as thalassemia, sickle cell disease, diabetes mellitus, and chronic vascular disease, is the most common etiology of cutaneous ulcers and chronic wounds. We had previously shown that a PDWHF topically applied to a chronic nonhealing ulcer of a β-thalassemia homozygote stimulated and accelerated closure of the wound. The PDWHF was prepared from a pooled platelet concentrate of a matching blood group, consisting of a combination of platelet α-granule-derived factors. Processing of the apheresis-pooled platelets yielded various amounts of proteins ( 3.36   g / mL ± 0.25 (SD) ( N = 10 )) by the better lysis buffer method. Immunoglobulin G was found to be the most abundant α-granule-secreted protein. Equally broad quantities of the IgG ( 10.76 ± 12.66 % (SD) ( N = 10 )) and IgG/albumin ratios ( 0.6 ± 0.4 (SD) ( N = 10 )) were quantified. We have developed a method using a reformulated lysis buffer followed by size exclusion chromatography and affinity chromatography to extract, identify, quantify, and purify IgG from activated platelets. IgG purification was confirmed by Western blot and flow cytometry. It was thought unlikely that the platelet IgG could be accounted for by adsorption of plasma protein, though the variable quantities could account for diversity in wound healing rates. The IgG could protect the wound even from subclinical infections and functionally advance healing. It may be useful in the management of skin ulcers in the early phase of wound healing.

scholarly journals Hydrogels for management of chronic wound healing

2021 ◽  
Vol 5 (3) ◽  
pp. 095-104
Author(s):  
IM Cardoso-Daodu ◽  
CP Azubuike ◽  
MO Ilomuanya
Keyword(s):  
Wound Healing ◽  
Chronic Wounds ◽  
Healing Process ◽  
Three Dimensional ◽  
Scar Tissue ◽  
The Body ◽  
Polymer Chains ◽  
Wound Healing Process ◽  
Dimensional Network ◽  
Healing Wound

Chronic wounds occur when one wound healing process or a sequence of wound healing events are affected resulting in slow healing of the wound thereby placing the patient in deep pain. Various diseases and conditions can delay the process of wound healing. Wound healing can be classified into four main stages: hemostasis, inflammation, remodeling, and scar tissue formation with each phase overlapping one another. The skin is the largest organ in the body. It protects the entire external surface of the human body and is the primary site of interaction with the outside environment. There is therefore a need to fabricate an ideal dressing through scientific research and investigations. Hydrogels are a three-dimensional network of hydrophilic polymers that can swell in water and absorb copious amounts of water while maintaining their structure because of their chemical or physical crosslinking of individual polymer chains. A hydrogel must be composed of at least 10% water. Hydrogels possess the flexibility and water percentage which is remarkably like tissues. They are biocompatible and biodegradable which makes them ideal for dermal wound healing.

scholarly journals Platelet Derived Extracellular Vesicles Promote in Vitro Gingival Wound Healing.

2021 ◽  
Author(s):  
Miquel Antich-Rosselló ◽  
Marta Munar-Bestard ◽  
Maria Antònia Forteza-Genestra ◽  
Javier Calvo ◽  
Antoni Gayà ◽  
...  
Keyword(s):  
Gene Expression ◽  
Wound Healing ◽  
Extracellular Vesicles ◽  
Size Exclusion ◽  
Matrix Remodeling ◽  
Platelet Concentrates ◽  
Ldh Activity ◽  
Exclusion Chromatography ◽  
Good Biocompatibility

Abstract Purpose: Gingival regeneration aims at restoring the architecture and functionality of oral damaged tissue. Different biomaterials or biological materials have been tested for tissue repair, such as platelet concentrates like platelet lysate (PL). In this article, the use of extracellular vesicles (EVs) derived from PL and their combination with hyaluronic acid biomaterials (HA) in wound healing was investigated.Methods: EVs were isolated by size exclusion chromatography from PL. In addition, HA gels were formulated with PL or EVs. EVs or HA combined with EVs (HA-EVs) were tested in vitro for biocompatibility (LDH activity and metabolic activity) and by a wound healing assay and gene expression analysis.Results: EVs and EVs-HA treatments were biocompatible and showed an increase in wound healing compared to control. Moreover, changes in gene expression related to extracellular matrix remodeling were observed in gingival keratinocytes and gingival fibroblasts after the treatment with EVs.Conclusion: EVs can be combined with HA biomaterials, showing good biocompatibility and preserving their activity and functionality. Therefore, platelet derived EVs emerge as promising candidates for oral regeneration with the possibility to combine them with biomaterials in order to enhance their application in clinical use.

scholarly journals Chemical Structure–Antioxidant Activity Relationship of Water–Based Enzymatic Polymerized Rutin and Its Wound Healing Potential

Polymers ◽  
2019 ◽  
Vol 11 (10) ◽  
pp. 1566 ◽  
Author(s):  
Pivec ◽  
Kargl ◽  
Maver ◽  
Bračič ◽  
Elschner ◽  
...  
Keyword(s):  
Wound Healing ◽  
Chemical Structure ◽  
Water Solubility ◽  
Hacat Cell ◽  
Radical Scavenging ◽  
Water Soluble ◽  
Size Exclusion ◽  
Exclusion Chromatography ◽  
Relationship Of ◽  
Stable Free Radicals

The flavonoid rutin (RU) is a known antioxidant substance of plant origin. Its potential application in pharmaceutical and cosmetic fields is, however, limited, due to its low water solubility. This limitation can be overcome by polymerization of the phenolic RU into polyrutin (PR). In this work, an enzymatic polymerization of RU was performed in water, without the addition of organic solvents. Further, the chemical structure of PR was investigated using 1H NMR, and FTIR spectroscopy. Size-exclusion chromatography (SEC) was used to determine the molecular weight of PR, while its acid/base character was studied by potentiometric charge titrations. Additionally, this work investigated the antioxidant and free radical scavenging potential of PR with respect to its chemical structure, based on its ability to (i) scavenge non biological stable free radicals (ABTS), (ii) scavenge biologically important oxidants, such as O2•, NO•, and OH•, and (iii) chelate Fe2+. The influence of PR on fibroblast and HaCaT cell viability was evaluated to confirm the applicability of water soluble PR for wound healing application.

scholarly journals Human amniotic membrane: A biological cost effective dressing in chronic wounds.

2020 ◽  
Vol 27 (06) ◽  
pp. 1249-1254
Author(s):  
Ibrahim Yamin ◽  
Ayesha ◽  
Ramla ◽  
Muhammad Ajmal
Keyword(s):  
Wound Healing ◽  
Amniotic Membrane ◽  
Chronic Wounds ◽  
Biological Membrane ◽  
Case Series ◽  
Cost Effective ◽  
Complete Healing ◽  
Lower Limbs ◽  
Human Amniotic Membrane ◽  
Healing Wound

Objectives: The use of human amniotic membrane is essential new concept in wound healing which functions as a biodegradable scaffold on wound surface, as it is a rich hub of stem cells which play an important role in wound healing. Study Design: Randomized Control Trial. Setting: Department of Surgery THQ Hospital Gojra. Period: 1st January 2019 to 30 September 2019. Material & Methods: Experimental study using clinical trial. A case series of 50 patient cases were picked from surgical OPD. Who fall in criteria of chronic non-healing wound with at least three months duration comprising of diabetic, venous ulcers and traumatic non healing wound and neuropathic ulcers. All located on lower limbs. Results: All 50 patient were treated with standard protocol by applying freshly prepared amniotic membrane out of which 4 chronic wounds more than 4 year duration were not healed and 2 cases escaped from the study. HAM dressing was changed after every 7 days and its effect were studied by seeing measuring the reduction in wound size and improvement in pain, swelling and mental stress. Success rate was found about 90% with complete healing. Conclusion: There is a dire need in developing countries to promote the use of HAM, in chronic non healing wounds which is a biological membrane, readily available (free if fresh) with simple sterilization techniques, easy storage and easy application with ultimate goal in achieving speedy cost effective wound healing.

scholarly journals Use of platelet concentrate gel in second-intention wound healing: a case report

2021 ◽  
Vol 15 (1) ◽  
Author(s):  
Vincenzo Davide Palumbo ◽  
Stefano Rizzuto ◽  
Giuseppe Damiano ◽  
Salvatore Fazzotta ◽  
Andrea Gottardo ◽  
...  
Keyword(s):  
Wound Healing ◽  
Chronic Wounds ◽  
Platelet Rich Plasma ◽  
Healing Process ◽  
Recovery Period ◽  
Cost Effective ◽  
Platelet Concentrate ◽  
Wound Healing Process ◽  
Cost Effective Treatment ◽  
Healing Wound

Abstract Background Wound healing is a complex and dynamic process. Healing of acute and chronic wounds can be impaired by patient factors (that is, comorbidities) and/or wound factors (that is, infection). Regenerative medicine products, such as autologous/homologous platelet-rich plasma gel, may speed up the healing process. Autologous/homologous platelet-rich plasma is an advanced wound therapy used for hard-to-heal acute and chronic wounds. The cytokines and growth factors contained in platelet-rich plasma play a crucial role in the healing process. Case presentation A 61-year-old Caucasian male patient, suffering from mental retardation following meningitis, with a transplanted kidney due to prior renal impairment, and under immunosuppressant therapy, was submitted to aneurysmectomy of his proximal left forearm arteriovenous fistula. A few days later, the patient came to our attention with substantial blood loss from the surgical site. The wound presented no signs of healing, and after fistula reparation and considering persistent infection of the surgical site (by methicillin-resistant Staphylococcus aureus), surgeons decided for second-intention healing. To favor healing, 10 mL homologous platelet concentrate gel was sequentially applied. After each application, wound was covered with nonadherent antiseptic dressing. After only seven applications of homologous platelet concentrate gel, wound completely recovered and no amputation was necessary. Conclusions Topical application of homologous platelet-rich plasma gel in healing wound shows beneficial results in wound size reduction and induces granulation tissue formation. Platelet-rich plasma could be a safe and cost-effective treatment for managing the cutaneous wound healing process to shorten the recovery period and thereby improve patient quality of life.

Surfactant-aided size-exclusion chromatography for the purification of immunoglobulin G

2007 ◽  
Vol 1157 (1-2) ◽  
pp. 237-245 ◽  
Author(s):  
D.A. Horneman ◽  
M. Ottens ◽  
J.T.F. Keurentjes ◽  
L.A.M. van der Wielen
Keyword(s):  
Size Exclusion Chromatography ◽  
Immunoglobulin G ◽  
Size Exclusion ◽  
Exclusion Chromatography

scholarly journals Mechanotransduction in Wound Healing and Fibrosis

2020 ◽  
Vol 9 (5) ◽  
pp. 1423 ◽  
Author(s):  
Britta Kuehlmann ◽  
Clark A. Bonham ◽  
Isabel Zucal ◽  
Lukas Prantl ◽  
Geoffrey C. Gurtner
Keyword(s):  
Wound Healing ◽  
Chronic Wounds ◽  
Cell Types ◽  
Mechanical Forces ◽  
Biological Processes ◽  
Skin Disorders ◽  
Skin Injury ◽  
Numerous Cell ◽  
Healing Wound ◽  
Multiple Signaling

Skin injury is a common occurrence and mechanical forces are known to significantly impact the biological processes of skin regeneration and wound healing. Immediately following the disruption of the skin, the process of wound healing begins, bringing together numerous cell types to collaborate in several sequential phases. These cells produce a multitude of molecules and initiate multiple signaling pathways that are associated with skin disorders and abnormal wound healing, including hypertrophic scars, keloids, and chronic wounds. Studies have shown that mechanical forces can alter the microenvironment of a healing wound, causing changes in cellular function, motility, and signaling. A better understanding of the mechanobiology of cells in the skin is essential in the development of efficacious therapeutics to reduce skin disorders, normalize abnormal wound healing, and minimize scar formation.

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