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fibroblast growth medium  (PromoCell)


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    PromoCell fibroblast growth medium
    Characterisation of primary human peritoneal mesothelial cells (HPMCs) and human peritoneal fibroblasts (HPFs) compared to the LP-9 mesothelial cell line and normal human dermal fibroblasts (NHDFs). (A) Representative phase-contrast micrographs of LP-9, HPMCs, NHDFs and HPFs. Mesothelial and <t>fibroblast</t> cells exhibit cobblestone and spindle-like morphologies, respectively. (B) We observed localised expression of the cytoskeletal markers cytokeratin (CK) and vimentin (VIM) in LP-9 cells and HPMCs, while VIM, but not CK, was expressed in NHDFs and HPFs. HPMCs ( n =6) showed a high percentage of CK + /VIM + cells [98.20±1.05% (mean±s.d.)], while HPFs ( n =3) exhibited 81.36±5.63% CK − /VIM + cells. Scale bars: 200 µm (A); 50 µm (B).
    Fibroblast Growth Medium, supplied by PromoCell, used in various techniques. Bioz Stars score: 94/100, based on 18 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/fibroblast growth medium/product/PromoCell
    Average 94 stars, based on 18 article reviews
    fibroblast growth medium - by Bioz Stars, 2026-04
    94/100 stars

    Images

    1) Product Images from "Compound design of a patient-derived 3D cell culture system modelling early peritoneal endometriosis"

    Article Title: Compound design of a patient-derived 3D cell culture system modelling early peritoneal endometriosis

    Journal: Disease Models & Mechanisms

    doi: 10.1242/dmm.052436

    Characterisation of primary human peritoneal mesothelial cells (HPMCs) and human peritoneal fibroblasts (HPFs) compared to the LP-9 mesothelial cell line and normal human dermal fibroblasts (NHDFs). (A) Representative phase-contrast micrographs of LP-9, HPMCs, NHDFs and HPFs. Mesothelial and fibroblast cells exhibit cobblestone and spindle-like morphologies, respectively. (B) We observed localised expression of the cytoskeletal markers cytokeratin (CK) and vimentin (VIM) in LP-9 cells and HPMCs, while VIM, but not CK, was expressed in NHDFs and HPFs. HPMCs ( n =6) showed a high percentage of CK + /VIM + cells [98.20±1.05% (mean±s.d.)], while HPFs ( n =3) exhibited 81.36±5.63% CK − /VIM + cells. Scale bars: 200 µm (A); 50 µm (B).
    Figure Legend Snippet: Characterisation of primary human peritoneal mesothelial cells (HPMCs) and human peritoneal fibroblasts (HPFs) compared to the LP-9 mesothelial cell line and normal human dermal fibroblasts (NHDFs). (A) Representative phase-contrast micrographs of LP-9, HPMCs, NHDFs and HPFs. Mesothelial and fibroblast cells exhibit cobblestone and spindle-like morphologies, respectively. (B) We observed localised expression of the cytoskeletal markers cytokeratin (CK) and vimentin (VIM) in LP-9 cells and HPMCs, while VIM, but not CK, was expressed in NHDFs and HPFs. HPMCs ( n =6) showed a high percentage of CK + /VIM + cells [98.20±1.05% (mean±s.d.)], while HPFs ( n =3) exhibited 81.36±5.63% CK − /VIM + cells. Scale bars: 200 µm (A); 50 µm (B).

    Techniques Used: Expressing

    Establishing composite 3D hydrogel constructs using peritoneal mesothelial cells and fibroblasts. (A) Schematic illustration of model construction and culture timeline. (B) Representative axial view [also seen in C (M3)] and Haematoxylin and Eosin (H&E)-stained section of a hydrogel construct showing the formation of a mesothelial monolayer (ML) and submesothelial layer (SML) on a transwell membrane (TM). (C) Representative images of hydrogel matrices using M1 (collagen I), M2 (70:30 collagen I:Matrigel ratio), M3 (50:50 collagen I:Matrigel ratio) and M4 (collagen I+human fibronectin). Construct generated with matrix combination M3 demonstrated minimal contraction in LP-9/NHDF and HPMC/HPF trials. (D) Lactate dehydrogenase (LDH) cytotoxicity assay in M3 composite hydrogel constructs containing HPMC/HPF ( n =3 donors) over a 10-day culture period. (E) Dual immunofluorescence staining of cleaved caspase-3 (CC-3) and VIM to detect apoptotic HPMCs/HPFs in M3 constructs on day 3 and day 10 of culture ( n =3). Scale bars: 300 µm (B); 100 µm (C); 50 µm (E).
    Figure Legend Snippet: Establishing composite 3D hydrogel constructs using peritoneal mesothelial cells and fibroblasts. (A) Schematic illustration of model construction and culture timeline. (B) Representative axial view [also seen in C (M3)] and Haematoxylin and Eosin (H&E)-stained section of a hydrogel construct showing the formation of a mesothelial monolayer (ML) and submesothelial layer (SML) on a transwell membrane (TM). (C) Representative images of hydrogel matrices using M1 (collagen I), M2 (70:30 collagen I:Matrigel ratio), M3 (50:50 collagen I:Matrigel ratio) and M4 (collagen I+human fibronectin). Construct generated with matrix combination M3 demonstrated minimal contraction in LP-9/NHDF and HPMC/HPF trials. (D) Lactate dehydrogenase (LDH) cytotoxicity assay in M3 composite hydrogel constructs containing HPMC/HPF ( n =3 donors) over a 10-day culture period. (E) Dual immunofluorescence staining of cleaved caspase-3 (CC-3) and VIM to detect apoptotic HPMCs/HPFs in M3 constructs on day 3 and day 10 of culture ( n =3). Scale bars: 300 µm (B); 100 µm (C); 50 µm (E).

    Techniques Used: Construct, Staining, Membrane, Generated, LDH Cytotoxicity Assay, Immunofluorescence

    Histological and functional analysis of the human parietal peritoneum and peritoneal layer models. (A) Histological staining of transverse sections through parietal peritoneum and composite 3D hydrogel constructs composed of LP-9/NHDFs and HPMCs/HPFs. Immunofluorescence using antibodies against the mesothelial markers podoplanin (PDPN) and mesothelin (MSLN), and submesothelial markers fibroblast specific protein 1 (FSP1) and tumor endothelial marker 1 (TEM1). (B) Colocalisation of MSLN and collagen IV (COLIV) suggesting spontaneous basal lamina formation. (C) Human tissue plasminogen activator (tPA) enzyme-linked immunosorbent assay (ELISA) to determine the functionality of the mesothelial cells in models assembled with HPMCs from three different donors over a 10-day culture period. Scale bars: 50 µm; 15 µm (insets in B).
    Figure Legend Snippet: Histological and functional analysis of the human parietal peritoneum and peritoneal layer models. (A) Histological staining of transverse sections through parietal peritoneum and composite 3D hydrogel constructs composed of LP-9/NHDFs and HPMCs/HPFs. Immunofluorescence using antibodies against the mesothelial markers podoplanin (PDPN) and mesothelin (MSLN), and submesothelial markers fibroblast specific protein 1 (FSP1) and tumor endothelial marker 1 (TEM1). (B) Colocalisation of MSLN and collagen IV (COLIV) suggesting spontaneous basal lamina formation. (C) Human tissue plasminogen activator (tPA) enzyme-linked immunosorbent assay (ELISA) to determine the functionality of the mesothelial cells in models assembled with HPMCs from three different donors over a 10-day culture period. Scale bars: 50 µm; 15 µm (insets in B).

    Techniques Used: Functional Assay, Staining, Construct, Immunofluorescence, Marker, Enzyme-linked Immunosorbent Assay



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    Image Search Results


    Characterisation of primary human peritoneal mesothelial cells (HPMCs) and human peritoneal fibroblasts (HPFs) compared to the LP-9 mesothelial cell line and normal human dermal fibroblasts (NHDFs). (A) Representative phase-contrast micrographs of LP-9, HPMCs, NHDFs and HPFs. Mesothelial and fibroblast cells exhibit cobblestone and spindle-like morphologies, respectively. (B) We observed localised expression of the cytoskeletal markers cytokeratin (CK) and vimentin (VIM) in LP-9 cells and HPMCs, while VIM, but not CK, was expressed in NHDFs and HPFs. HPMCs ( n =6) showed a high percentage of CK + /VIM + cells [98.20±1.05% (mean±s.d.)], while HPFs ( n =3) exhibited 81.36±5.63% CK − /VIM + cells. Scale bars: 200 µm (A); 50 µm (B).

    Journal: Disease Models & Mechanisms

    Article Title: Compound design of a patient-derived 3D cell culture system modelling early peritoneal endometriosis

    doi: 10.1242/dmm.052436

    Figure Lengend Snippet: Characterisation of primary human peritoneal mesothelial cells (HPMCs) and human peritoneal fibroblasts (HPFs) compared to the LP-9 mesothelial cell line and normal human dermal fibroblasts (NHDFs). (A) Representative phase-contrast micrographs of LP-9, HPMCs, NHDFs and HPFs. Mesothelial and fibroblast cells exhibit cobblestone and spindle-like morphologies, respectively. (B) We observed localised expression of the cytoskeletal markers cytokeratin (CK) and vimentin (VIM) in LP-9 cells and HPMCs, while VIM, but not CK, was expressed in NHDFs and HPFs. HPMCs ( n =6) showed a high percentage of CK + /VIM + cells [98.20±1.05% (mean±s.d.)], while HPFs ( n =3) exhibited 81.36±5.63% CK − /VIM + cells. Scale bars: 200 µm (A); 50 µm (B).

    Article Snippet: NHDFs were cultured in Fibroblast Growth Medium (Promocell, C-23110) containing 1 ng/ml recombinant human basic fibroblast growth factor and 5 μg/ml recombinant human insulin, supplemented with 2 mM L-glutamine and 100 μg/ml Primocin.

    Techniques: Expressing

    Establishing composite 3D hydrogel constructs using peritoneal mesothelial cells and fibroblasts. (A) Schematic illustration of model construction and culture timeline. (B) Representative axial view [also seen in C (M3)] and Haematoxylin and Eosin (H&E)-stained section of a hydrogel construct showing the formation of a mesothelial monolayer (ML) and submesothelial layer (SML) on a transwell membrane (TM). (C) Representative images of hydrogel matrices using M1 (collagen I), M2 (70:30 collagen I:Matrigel ratio), M3 (50:50 collagen I:Matrigel ratio) and M4 (collagen I+human fibronectin). Construct generated with matrix combination M3 demonstrated minimal contraction in LP-9/NHDF and HPMC/HPF trials. (D) Lactate dehydrogenase (LDH) cytotoxicity assay in M3 composite hydrogel constructs containing HPMC/HPF ( n =3 donors) over a 10-day culture period. (E) Dual immunofluorescence staining of cleaved caspase-3 (CC-3) and VIM to detect apoptotic HPMCs/HPFs in M3 constructs on day 3 and day 10 of culture ( n =3). Scale bars: 300 µm (B); 100 µm (C); 50 µm (E).

    Journal: Disease Models & Mechanisms

    Article Title: Compound design of a patient-derived 3D cell culture system modelling early peritoneal endometriosis

    doi: 10.1242/dmm.052436

    Figure Lengend Snippet: Establishing composite 3D hydrogel constructs using peritoneal mesothelial cells and fibroblasts. (A) Schematic illustration of model construction and culture timeline. (B) Representative axial view [also seen in C (M3)] and Haematoxylin and Eosin (H&E)-stained section of a hydrogel construct showing the formation of a mesothelial monolayer (ML) and submesothelial layer (SML) on a transwell membrane (TM). (C) Representative images of hydrogel matrices using M1 (collagen I), M2 (70:30 collagen I:Matrigel ratio), M3 (50:50 collagen I:Matrigel ratio) and M4 (collagen I+human fibronectin). Construct generated with matrix combination M3 demonstrated minimal contraction in LP-9/NHDF and HPMC/HPF trials. (D) Lactate dehydrogenase (LDH) cytotoxicity assay in M3 composite hydrogel constructs containing HPMC/HPF ( n =3 donors) over a 10-day culture period. (E) Dual immunofluorescence staining of cleaved caspase-3 (CC-3) and VIM to detect apoptotic HPMCs/HPFs in M3 constructs on day 3 and day 10 of culture ( n =3). Scale bars: 300 µm (B); 100 µm (C); 50 µm (E).

    Article Snippet: NHDFs were cultured in Fibroblast Growth Medium (Promocell, C-23110) containing 1 ng/ml recombinant human basic fibroblast growth factor and 5 μg/ml recombinant human insulin, supplemented with 2 mM L-glutamine and 100 μg/ml Primocin.

    Techniques: Construct, Staining, Membrane, Generated, LDH Cytotoxicity Assay, Immunofluorescence

    Histological and functional analysis of the human parietal peritoneum and peritoneal layer models. (A) Histological staining of transverse sections through parietal peritoneum and composite 3D hydrogel constructs composed of LP-9/NHDFs and HPMCs/HPFs. Immunofluorescence using antibodies against the mesothelial markers podoplanin (PDPN) and mesothelin (MSLN), and submesothelial markers fibroblast specific protein 1 (FSP1) and tumor endothelial marker 1 (TEM1). (B) Colocalisation of MSLN and collagen IV (COLIV) suggesting spontaneous basal lamina formation. (C) Human tissue plasminogen activator (tPA) enzyme-linked immunosorbent assay (ELISA) to determine the functionality of the mesothelial cells in models assembled with HPMCs from three different donors over a 10-day culture period. Scale bars: 50 µm; 15 µm (insets in B).

    Journal: Disease Models & Mechanisms

    Article Title: Compound design of a patient-derived 3D cell culture system modelling early peritoneal endometriosis

    doi: 10.1242/dmm.052436

    Figure Lengend Snippet: Histological and functional analysis of the human parietal peritoneum and peritoneal layer models. (A) Histological staining of transverse sections through parietal peritoneum and composite 3D hydrogel constructs composed of LP-9/NHDFs and HPMCs/HPFs. Immunofluorescence using antibodies against the mesothelial markers podoplanin (PDPN) and mesothelin (MSLN), and submesothelial markers fibroblast specific protein 1 (FSP1) and tumor endothelial marker 1 (TEM1). (B) Colocalisation of MSLN and collagen IV (COLIV) suggesting spontaneous basal lamina formation. (C) Human tissue plasminogen activator (tPA) enzyme-linked immunosorbent assay (ELISA) to determine the functionality of the mesothelial cells in models assembled with HPMCs from three different donors over a 10-day culture period. Scale bars: 50 µm; 15 µm (insets in B).

    Article Snippet: NHDFs were cultured in Fibroblast Growth Medium (Promocell, C-23110) containing 1 ng/ml recombinant human basic fibroblast growth factor and 5 μg/ml recombinant human insulin, supplemented with 2 mM L-glutamine and 100 μg/ml Primocin.

    Techniques: Functional Assay, Staining, Construct, Immunofluorescence, Marker, Enzyme-linked Immunosorbent Assay