Heinz Redl scite author profile

Background aims Adipose tissue is a rich and very convenient source of cells for regenerative medicine therapeutic approaches. However, a characterization of the population of adipose-derived stromal and stem cells (ASCs) with the greatest therapeutic potential remains unclear. Under the authority of International Federation of Adipose Therapeutics and International Society for Cellular Therapy, this paper sets out to establish minimal definitions of stromal cells both as uncultured stromal vascular fraction (SVF) and as an adherent stromal/stem cells population. Methods Phenotypic and functional criteria for the identification of adipose-derived cells were drawn from the literature. Results In the SVF, cells are identified phenotypically by the following markers: CD45-CD235a-CD31-CD34+. Added value may be provided by both a viability marker and the following surface antigens: CD13, CD73, CD90 and CD105. The fibroblastoid colony-forming unit assay permits the evaluation of progenitor frequency in the SVF population. In culture, ASCs retain markers in common with other mesenchymal stromal/stem cells (MSCs), including CD90, CD73, CD105, and CD44 and remain negative for CD45 and CD31. They can be distinguished from bone-marrow-derived MSCs by their positivity for CD36 and negativity for CD106. The CFU-F assay is recommended to calculate population doublings capacity of ASCs. The adipocytic, chondroblastic and osteoblastic differentiation assays serve to complete the cell identification and potency assessment in conjunction with a quantitative evaluation of the differentiation either biochemically or by reverse transcription polymerase chain reaction. Conclusions The goal of this paper is to provide initial guidance for the scientific community working with adipose-derived cells and to facilitate development of international standards based on reproducible parameters.

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Concise Review: Isolation and Characterization of Cells from Human Term Placenta: Outcome of the First International Workshop on Placenta Derived Stem Cells

Parolini

et al. 2007

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Vitamin C Enhances the Generation of Mouse and Human Induced Pluripotent Stem Cells

et al. 2010

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Somatic cells can be reprogrammed into induced pluripotent stem cells (iPSCs) by defined factors. However, the low efficiency and slow kinetics of the reprogramming process have hampered progress with this technology. Here we report that a natural compound, vitamin C (Vc), enhances iPSC generation from both mouse and human somatic cells. Vc acts at least in part by alleviating cell senescence, a recently identified roadblock for reprogramming. In addition, Vc accelerates gene expression changes and promotes the transition of pre-iPSC colonies to a fully reprogrammed state. Our results therefore highlight a straightforward method for improving the speed and efficiency of iPSC generation and provide additional insights into the mechanistic basis of the reprogramming process.

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Systemic inflammatory response syndrome after cardiac operations

Cremer

Martin

Redl

et al. 1996

The Annals of Thoracic Surgery

469

283

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Dose-Dependent Immunomodulatory Effect of Human Stem Cells from Amniotic Membrane: A Comparison with Human Mesenchymal Stem Cells from Adipose Tissue

et al. 2007

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Bone marrow-derived mesenchymal stem cells (BMSCs) have been used for allogeneic application in tissue engineering but have certain drawbacks. Therefore, stem cells (SC)s derived from other adult tissue sources have been considered as an alternative. However, there is only limited knowledge on their immunomodulatory properties. The aim of our study was to compare the immunomodulatory potential of human amniotic mesenchymal and human amniotic epithelial cells with that of human adipose-derived SCs under identical experimental conditions. We have demonstrated a dose-dependent inhibition of peripheral blood mononuclear cell (PBMC) immune responses in mixed lymphocyte reactions (up to 66-93% inhibition) and phytohemagglutinin activation assays (up to 67-96% inhibition). The lowest SC-to-PBMC ratio able to inhibit PBMC proliferation significantly was 1:8. Subcultivation (passage 2-6) did not alter immunoinhibitory properties, whereas cryopreservation significantly reduced the immunomodulatory potential. Using transwell systems, we have demonstrated an inhibition mechanism that is dependent on cell contact. Additionally, in coculture with allogeneic PBMCs, SCs were well tolerated and at most provoked mild alloreactions in singular cases. This study demonstrates, for the first time, contact- and dose-dependent immunosuppression of mesenchymal and epithelial amniotic SC populations, as well as of adipose tissue-derived SCs. All three cell types may be considered as possible alternatives to BMSCs for allogeneic application in tissue engineering.

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The challenge of establishing preclinical models for segmental bone defect research

et al. 2009

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A considerable number of international research groups as well as commercial entities work on the development of new bone grafting materials, carriers, growth factors and specifically tissue-engineered constructs for bone regeneration. They are strongly interested in evaluating their concepts in highly reproducible large segmental defects in preclinical and large animal models. To allow comparison between different studies and their outcomes, it is essential that animal models, fixation devices, surgical procedures and methods of taking measurements are well standardized to produce reliable data pools and act as a base for further directions to orthopaedic and tissue engineering developments, specifically translation into the clinic. In this leading opinion paper, we aim to review and critically discuss the different large animal bone defect models reported in the literature. We conclude that most publications provide only rudimentary information on how to establish relevant preclinical segmental bone defects in large animals. Hence, we express our opinion on methodologies to establish preclinical critically sized, segmental bone defect models used in past research with reference to surgical techniques, fixation methods and postoperative management focusing on tibial fracture and segmental defect models.

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Generation of Induced Pluripotent Stem Cells from Urine

Zhou¹,

Benda²,

Duzinger³

et al. 2011

346

257

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GFAP Versus S100B in Serum after Traumatic Brain Injury: Relationship to Brain Damage and Outcome

Pelinka

Kroepfl²,

Leixnering

et al. 2004

Journal of Neurotrauma

320

206

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Research indicates that glial fibrillary acidic protein (GFAP), part of the astroglial skeleton, could be a marker of traumatic brain injury (TBI). S100B, an astroglial protein, is an acknowledged marker of TBI. Our goal was to analyze the relationship of GFAP/S100B to brain damage and outcome, and to compare the accuracy of GFAP/S100B for prediction of mortality after TBI. Our prospective study included 92 patients admitted <12 h after TBI (median injury severity score 25, median Glasgow Coma Scale 6). TBI was verfied by computerized tomography. GFAP/S100B were measured immunoluminometrically at admission and daily in the intensive care unit (average 10 days, range 1-21 days). We compared GFAP/S100B in non-survivors versus survivors, accuracy for mortality prediction according to receiver operated characteristic curve analysis, correlation between GFAP and S100B, relationship of GFAP/S100B to computerized tomography, cerebral perfusion pressure (CPP), mean arterial pressure (MAP) and 3-month Glasgow Outcome Score (GOS). GFAP (p < 0.005) and S100B (p < 0.0005) were higher in non-survivors than survivors. Both GFAP and S100B were accurate for mortality prediction (area under curve 0.84 versus 0.78 at <12 h after TBI). GFAP and S100B release correlated better later than 36 h after TBI (r = 0.75) than earlier (r = 0.58). GFAP was lower in focal lesions of <25 mL than in shifts of >0.5 cm (p < 0.0005) and non-evacuated mass lesions of >25 mL (p < 0.005). S100B was lower in focal lesions of <25 mL than in non-evacuated mass lesions (p < 0.0005) and lower in swelling than in shifts of >0.5 cm (p < 0.005). GFAP and S100B were lower in ICP < 25 than ICP > or = 25 (p < 0.0005), in CPP > or = 60 than CPP < 60 (p < 0.0005), in MAP > 70 than MAP < or = 70 mm Hg, and in GOS 4-5 than GOS 1 (p < 0.0005). Both measurement of GFAP and S100B is a useful non-invasive means of identifying brain damage with some differences based on the pattern of TBI and accompanying multiple trauma and/or shock.

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Heinz Redl

Stromal cells from the adipose tissue-derived stromal vascular fraction and culture expanded adipose tissue-derived stromal/stem cells: a joint statement of the International Federation for Adipose Therapeutics and Science (IFATS) and the International Society for Cellular Therapy (ISCT)

Concise Review: Isolation and Characterization of Cells from Human Term Placenta: Outcome of the First International Workshop on Placenta Derived Stem Cells

Vitamin C Enhances the Generation of Mouse and Human Induced Pluripotent Stem Cells

Systemic inflammatory response syndrome after cardiac operations

Dose-Dependent Immunomodulatory Effect of Human Stem Cells from Amniotic Membrane: A Comparison with Human Mesenchymal Stem Cells from Adipose Tissue

The challenge of establishing preclinical models for segmental bone defect research

Generation of Induced Pluripotent Stem Cells from Urine

GFAP Versus S100B in Serum after Traumatic Brain Injury: Relationship to Brain Damage and Outcome

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