Increased serial levels of platelet-derived growth factor using hypoxic mesenchymal stem cell-conditioned medium to promote closure acceleration in a full-thickness wound
Prajoko Y.W., Dirja B.T., Nasihun T., Putra A., Amalina N.D., Drawina P.
Abstract
The healing process of a full‐thickness wound involves a complex cascade of cellular responses to reverse skin integrity formation. These processes require growth factors, particularly platelet‐derived growth factor (PDGF). Conversely, hypoxic mesenchymal stem‐cell‐conditioned medium (HMSC‐CM)‐contained growth factors notably contribute to acceleration of wound healing. This study aims to investigate the role of HMSC‐CM in controlling the serial levels of PDGF associated with accelerated wound closure in full‐thickness wounds. Twenty male Wistar rats with full‐thickness wounds were developed as animal models. The animals were randomly assigned to four groups, comprising two treatment groups (treated using HMSC‐CM at a high dose as P1 and at a low dose as P2), a control group (administration of base gel), and sham group (healthy group). PDGF levels were examined using an enzyme‐linked immunosorbent assay. Using ImageJ software, wound closure percentages were determined photographically. The study showed that there was a significant increase in PDGF levels on days 3 and 6 after HMSC‐CM treatment, followed by a decrease in PDGF levels on day 9. In line with these findings, wound closure percentage also increased significantly on days 6 and 9. In the rat model, HMSC‐CM administration may promote acceleration of wound closure by increasing serial PDGF levels in the full‐thickness wound.
Human gingiva-derived mesenchymal stem cells elicit polarization of M2 macrophages and enhance cutaneous wound healing
Kwon C.W., Le A.D., Nguyen A.L., Shi S.-H., Su W.-R., Wilder-Smith P., Wong A., Xiang A.P., Zhang Q.-Z., Kwon C.W., Le A.D., Nguyen A.L., Shi S.-H., Su W.-R., Wilder-Smith P., Wong A., Xiang A.P., Zhang Q.-Z.
Platelet derived growth factor BB promotes proliferation and migration of retinal microvascular pericytes by up regulating the expression of C X C chemokine receptor types 4
Feng Y, Shen J, Wang J, Xiang D, Yuan Y., Zhang X, Zou R
Platelet-derived growth factor-AA is a substantial factor in the ability of adipose-derived stem cells and endothelial progenitor cells to enhance wound healing
Chan J.Y.-H., Chan J.Y.-H., Chen W.-L., Chen W.-L., Huang S.-M., Wu L.-W., Wu L.-W., Chan J.Y.-H., Chan J.Y.-H., Chen W.-L., Chen W.-L., Huang S.-M., Wu L.-W., Wu L.-W.
Human mesenchymal stem cells-conditioned medium improves diabetic wound healing mainly through modulating fibroblast behaviors
Bayat M., Bayat M., Ganji R., Hendudari F., Hendudari F., Kheirjou R., Najar B., Pakzad M., Piryaei A., Piryaei A., Saheli M., Bayat M., Bayat M., Ganji R., Hendudari F., Hendudari F., Kheirjou R., Najar B., Pakzad M., Piryaei A., Piryaei A., Saheli M.
Hypoxia enhances the wound-healing potential of adipose-derived stem cells in a novel human primarykeratinocyte-based scratch assay
Andersen J.I., Boucher S., Fink T., Ipek H., Kuninger D., Newman R., Pennisi C.P., Riis S., Vemuri M.C., Zachar V., Andersen J.I., Boucher S., Fink T., Ipek H., Ipek H., Kuninger D., Newman R., Pennisi C.P., Riis S., Vemuri M.C., Zachar V., Andersen J.I., Boucher S., Fink T., Ipek H., Ipek H., Kuninger D., Newman R., Pennisi C.P., Riis S., Vemuri M.C., Zachar V.
The role of chemokines in wound healing
Bursill C.A., Bursill C.A., Ridiandries A., Ridiandries A., Tan J.T.M., Tan J.T.M.
The Role of TGFβ Signaling in Wound Epithelialization
Pastar I., Patel SB, Ramirez H
Hypoxia-preconditioned MSCs have superior effect in ameliorating renal function on acute renal failure animal model
Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W., Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W., Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W., Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W., Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W., Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W., Indrayani U.D., Jannah D., Milla M.N., Pertiwi D., Putra A., Sahariyani M., Trisnadi S., Wibowo J.W.
Delivery of platelet-derived growth factor as a chemotactic factor for mesenchymal stem cells by bone-mimetic electrospun scaffolds
Bellis S.L., Bellis S.L., Phipps M.C., Xu Y.
Multiple growth factor delivery for skin tissue engineering applications
Kim K., Park U.
Putra A., Amalina N.D., Muhar A.M., Alif I., Hermansyah D., Hidayah N., Makharim F.
Indonesian Journal of Biotechnology
Darlan D.M., Chodidjah, Putra A., Thomas S., Trisnadi S., Amalina N.D., Putri R.S., Irawan R.C.
Medicinski Glasnik
Ismiarto Y.D., Putra A., Amalina N.D., Alif I., Nazar M.A., Fredianto M., Herman H.
Medicinski Glasnik
Nasution I.P., Munir D., Putra A., Restimulia L., Amalina N.D.
Medicinski Glasnik
Suzery M., Cahyono B., Amalina N.D.
Medicinski Glasnik
Putra A., Wibowo J.W., Amalina N.D., Irawan R.C.S., Utami A.
Medicinski Glasnik
Bukhari A., Hardjo M., Patellongi I., Achmad M.H., Putra A., Daud N.A.S., Amansyah F., Parewangi L., Budu B., Massi M.N.
Pakistan Journal of Biological Sciences
Wisnu Prajoko Y., Putra A., Prasetio A., Dina Amalina N.
Medicinski Glasnik
Dirja B.T., Putra A., Amalina N.D., Wardoyo E.H.
Trends in Sciences
Prayitno A., Soetrisno, Laqif A., Kusumo M.H.B.
Archives of Medical Science
