scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Jan Nolta | Q19958227 |
P2093 | author name string | Boaz Arzi | |
Kyriacos A Athanasiou | |||
Jerry C Hu | |||
Natalia Vapniarsky | |||
P2860 | cites work | Positional cloning of the mouse obese gene and its human homologue | Q22251285 |
Interferon-gamma does not break, but promotes the immunosuppressive capacity of adult human mesenchymal stem cells | Q24681395 | ||
Multilineage potential of adult human mesenchymal stem cells | Q27860737 | ||
Minimal criteria for defining multipotent mesenchymal stromal cells. The International Society for Cellular Therapy position statement | Q27861120 | ||
A perivascular origin for mesenchymal stem cells in multiple human organs | Q28131808 | ||
Characterization of epidermal neural crest stem cell (EPI-NCSC) grafts in the lesioned spinal cord | Q28235566 | ||
Multipotent mesenchymal stromal cells obtained from diverse human tissues share functional properties and gene-expression profile with CD146+ perivascular cells and fibroblasts | Q28269878 | ||
Epidermal neural crest stem cells (EPI-NCSC) and pluripotency | Q28291240 | ||
Dermal fibroblasts participate in the formation of new muscle fibres when implanted into regenerating normal mouse muscle | Q28361490 | ||
Malignant transformation potentials of human umbilical cord mesenchymal stem cells both spontaneously and via 3-methycholanthrene induction | Q28536701 | ||
Cartilage tissue engineering using dermis isolated adult stem cells: the use of hypoxia during expansion versus chondrogenic differentiation | Q28539141 | ||
Human bone marrow stromal cells suppress T-lymphocyte proliferation induced by cellular or nonspecific mitogenic stimuli | Q29618769 | ||
What is stemness? | Q30382584 | ||
Clinically applicable transplantation procedure of dermal papilla cells for hair follicle regeneration | Q33816153 | ||
Epidermal neural crest stem cell (EPI-NCSC)--mediated recovery of sensory function in a mouse model of spinal cord injury | Q33920357 | ||
Transdifferentiation of corneal epithelium into epidermis occurs by means of a multistep process triggered by dermal developmental signals. | Q33928542 | ||
Multipotent nestin-positive, keratin-negative hair-follicle bulge stem cells can form neurons | Q33936738 | ||
Mesenchymal stem cells: biology and potential clinical uses | Q34034011 | ||
Implanted hair follicle stem cells form Schwann cells that support repair of severed peripheral nerves | Q34201911 | ||
The role of interleukin 10 in the control of autoimmunity. | Q34203656 | ||
On the history and mechanism of alizarin and alizarin red S stains for calcium | Q34203718 | ||
Alizarin red S staining as a screening test to detect calcium compounds in synovial fluid | Q34249724 | ||
Distinct fibroblast lineages determine dermal architecture in skin development and repair. | Q34391786 | ||
Microfluidic Isolation of CD34-Positive Skin Cells Enables Regeneration of Hair and Sebaceous Glands In Vivo | Q34429011 | ||
IFN-gamma activation of mesenchymal stem cells for treatment and prevention of graft versus host disease | Q34491107 | ||
Designer skin: lineage commitment in postnatal epidermis | Q34616032 | ||
Anatomy, histology and immunohistochemistry of normal human skin | Q34719715 | ||
Multipotent nestin-positive stem cells reside in the stroma of human eccrine and apocrine sweat glands and can be propagated robustly in vitro | Q35036370 | ||
Skin-derived tenocyte-like cells for the treatment of patellar tendinopathy. | Q51740142 | ||
Engineering three-dimensional cartilage- and bone-like tissues using human dermal fibroblasts and macroporous gelatine microcarriers. | Q51746559 | ||
A highly enriched niche of precursor cells with neuronal and glial potential within the hair follicle dermal papilla of adult skin. | Q51976569 | ||
Isolation and characterization of multipotent skin-derived precursors from human skin. | Q52048827 | ||
The bulge area is the major hair follicle source of nestin-expressing pluripotent stem cells which can repair the spinal cord compared to the dermal papilla. | Q53267060 | ||
Long-term cultures of bone marrow-derived human mesenchymal stem cells frequently undergo spontaneous malignant transformation. | Q53390457 | ||
Dermis isolated adult stem cells for cartilage tissue engineering. | Q54345969 | ||
A dermal niche for multipotent adult skin-derived precursor cells. | Q54695107 | ||
Isolation of multipotent adult stem cells from the dermis of mammalian skin | Q57042245 | ||
Multilineage differentiation potential of human dermal skin-derived fibroblasts | Q57753000 | ||
Trans-gender induction of hair follicles | Q59095217 | ||
Adaptation to culture of human embryonic stem cells and oncogenesis in vivo | Q59544319 | ||
Human mesenchymal stem cells inhibit antibody production induced in vitro by allostimulation | Q60313622 | ||
Public health issues related to animal and human spongiform encephalopathies: memorandum from a WHO meeting | Q68146576 | ||
Serum osteocalcin radioimmunoassay in bone diseases | Q69877179 | ||
The induction of hair follicle formation in the adult hooded rat by vibrissa dermal papillae | Q69929374 | ||
Removal of fibroblasts from human epithelial cell cultures with use of a complement fixing monoclonal antibody reactive with human fibroblasts and monocytes/macrophages | Q69949044 | ||
Vibrissa dermal papilla cell aggregative behaviour in vivo and in vitro | Q71329155 | ||
Aminopeptidase N: a constitutive cell-surface protein on human dermal fibroblasts | Q72129284 | ||
Moabs MAS516 and 5B5, two fibroblast markers, recognize human follicular dendritic cells | Q72427659 | ||
Skin stem cells - a hairy issue | Q73035501 | ||
Of mice and men: teratomas and teratocarcinomas | Q79626470 | ||
Mesenchymal stem cells inhibit generation and function of both CD34+-derived and monocyte-derived dendritic cells | Q80057941 | ||
Fibrocytes contribute to the myofibroblast population in wounded skin and originate from the bone marrow | Q81395350 | ||
A population of multipotent CD34-positive adipose stromal cells share pericyte and mesenchymal surface markers, reside in a periendothelial location, and stabilize endothelial networks | Q81514904 | ||
Human skin fibroblasts: From mesodermal to hepatocyte-like differentiation | Q81517600 | ||
Embryonic stem cell marker expression pattern in human mesenchymal stem cells derived from bone marrow, adipose tissue, heart and dermis | Q82437161 | ||
Nestin-positive hair follicle pluripotent stem cells can promote regeneration of impinged peripheral nerve injury | Q82584661 | ||
Adipogenic, chondrogenic and osteogenic differentiation of clonally derived human dermal fibroblasts | Q84313630 | ||
A novel niche for skin derived precursors in non-follicular skin | Q85424599 | ||
Skin derived precursor Schwann cells improve behavioral recovery for acute and delayed nerve repair | Q87123909 | ||
Sensory recovery after cell therapy in peripheral nerve repair: effects of naïve and skin precursor-derived Schwann cells | Q88120241 | ||
Demonstration of phosphates in calcium deposits: a modification of von Kossa's reaction | Q40275170 | ||
In vitro culture conditions favoring selection of chromosomal abnormalities in human ES cells. | Q40290489 | ||
An epidermal neural crest stem cell (EPI-NCSC) molecular signature | Q40294384 | ||
Genomic alterations in cultured human embryonic stem cells | Q40377467 | ||
Highly sensitive biosafety model for stem-cell-derived grafts | Q40544011 | ||
Recurrent gain of chromosomes 17q and 12 in cultured human embryonic stem cells | Q40544422 | ||
Development of antibodies to fetal calf serum with arthus-like reactions in human immunodeficiency virus-infected patients given syngeneic lymphocyte infusions. | Q40656454 | ||
Multistage carcinogenesis in cell culture. | Q40760437 | ||
Human dermis harbors distinct mesenchymal stromal cell subsets | Q41089445 | ||
Cancer clonality and field theory | Q41406895 | ||
T cell activation antigen, CD26, as a cofactor for entry of HIV in CD4+ cells | Q41508169 | ||
Neoplasia--a stem cell pathology | Q41594988 | ||
CD90(+) human dermal stromal cells are potent inducers of FoxP3(+) regulatory T cells. | Q42205058 | ||
Dermal papilla cells improve the wound healing process and generate hair bud-like structures in grafted skin substitutes using hair follicle stem cells | Q42464633 | ||
Complex distribution, not absolute amount of adiponectin, correlates with thiazolidinedione-mediated improvement in insulin sensitivity | Q42832775 | ||
Embryonic stem cell markers expression in cancers. | Q43717864 | ||
Hair follicle dermal cells repopulate the mouse haematopoietic system | Q44147186 | ||
von Kossa staining alone is not sufficient to confirm that mineralization in vitro represents bone formation | Q44425490 | ||
Control of human articular chondrocyte differentiation by reduced oxygen tension | Q44850212 | ||
The use of immunohistochemistry for biomarker assessment--can it compete with other technologies? | Q44906230 | ||
Multipotent hair follicle stem cells promote repair of spinal cord injury and recovery of walking function | Q46078284 | ||
In vitro engineering of cartilage: effects of serum substitutes, TGF-beta, and IL-1alpha | Q46603021 | ||
Low oxygen tension enhances chondroinduction by demineralized bone matrix in human dermal fibroblasts in vitro | Q46784094 | ||
Plasticity of hair follicle dermal cells in wound healing and induction | Q47965894 | ||
HSP47 is a useful marker for skin fibroblasts in formalin-fixed, paraffin-embedded tissue specimens | Q48036158 | ||
Supplementation of acellular nerve grafts with skin derived precursor cells promotes peripheral nerve regeneration | Q48464402 | ||
Treatment of lateral epicondylitis using skin-derived tenocyte-like cells | Q48537536 | ||
Skin-derived precursor Schwann cell myelination capacity in focal tibial demyelination. | Q50467998 | ||
Standardized isolation of human mesenchymal stromal cells with red blood cell lysis. | Q50541811 | ||
Antibodies against macrophages that overlap in specificity with fibroblasts. | Q50769037 | ||
Influence of three-dimensional scaffold on the expression of osteogenic differentiation markers by human dermal fibroblasts. | Q51371285 | ||
Hair follicle dermal cells differentiate into adipogenic and osteogenic lineages. | Q51724286 | ||
Aminopeptidases and angiogenesis | Q35637514 | ||
Human epidermal neural crest stem cells (hEPI-NCSC)--characterization and directed differentiation into osteocytes and melanocytes. | Q35654586 | ||
In search of "stemness". | Q35756152 | ||
Skin-derived precursors as a source of progenitors for cutaneous nerve regeneration. | Q36252493 | ||
Plasticity of rodent and human hair follicle dermal cells: implications for cell therapy and tissue engineering | Q36355420 | ||
Identification and characterization of a fibroblast marker: FSP1 | Q36382596 | ||
Epidermal stem cells of the skin | Q36528809 | ||
An immunohistochemical method for identifying fibroblasts in formalin-fixed, paraffin-embedded tissue | Q36574294 | ||
Fibroblasts and myofibroblasts: their source, function and role in disease. | Q36695858 | ||
Fibroblast differentiation in wound healing and fibrosis | Q36729100 | ||
Multipotent skin-derived precursors: adult neural crest-related precursors with therapeutic potential | Q36729321 | ||
Development and characterization of a clinically compliant xeno-free culture medium in good manufacturing practice for human multipotent mesenchymal stem cells | Q36861406 | ||
An abundant perivascular source of stem cells for bone tissue engineering. | Q36861687 | ||
Distinct epidermal stem cell compartments are maintained by independent niche microenvironments | Q36877565 | ||
The tumorigenicity of human embryonic stem cells | Q37213616 | ||
A role for pericytes as microenvironmental regulators of human skin tissue regeneration | Q37328427 | ||
Microenvironmental reprogramming by three-dimensional culture enables dermal papilla cells to induce de novo human hair-follicle growth | Q37377570 | ||
Skin fibrosis. Identification and isolation of a dermal lineage with intrinsic fibrogenic potential | Q37383098 | ||
Human skin-derived stem cells as a novel cell source for in vitro hepatotoxicity screening of pharmaceuticals | Q37409080 | ||
Finding one's niche in the skin | Q37508237 | ||
The tumorigenicity of diploid and aneuploid human pluripotent stem cells | Q37627079 | ||
Canine epidermal neural crest stem cells: characterization and potential as therapy candidate for a large animal model of spinal cord injury | Q37635473 | ||
Two-stage implantation of the skin- and bone-integrated pylon seeded with autologous fibroblasts induced into osteoblast differentiation for direct skeletal attachment of limb prostheses | Q37672610 | ||
Mesenchymal Stem Cells: Mechanisms of Inflammation | Q37809081 | ||
Retrospective comparison of diabetic foot ulcer and venous stasis ulcer healing outcome between a dermal repair scaffold (PriMatrix) and a bilayered living cell therapy (Apligraf). | Q37843337 | ||
Efficient keratinocyte differentiation strictly depends on JNK-induced soluble factors in fibroblasts | Q39043673 | ||
Endoplasmic reticulum stress leads to lipid accumulation through upregulation of SREBP-1c in normal hepatic and hepatoma cells | Q39148101 | ||
Expression of cell surface markers during self-renewal and differentiation of human adipose-derived stem cells. | Q39220648 | ||
Human skin-derived precursor cells are poorly immunogenic and modulate the allogeneic immune response | Q39241549 | ||
Dermal fibroblasts display similar phenotypic and differentiation capacity to fat-derived mesenchymal stem cells, but differ in anti-inflammatory and angiogenic potential. | Q39586542 | ||
Hair follicle stem cells derived from single rat vibrissa via organ culture reconstitute hair follicles in vivo | Q39623015 | ||
Repair of tendon defect with dermal fibroblast engineered tendon in a porcine model | Q39753988 | ||
Development and Differentiation of Dermal Cells in Man | Q39767779 | ||
Isolation and chondroinduction of a dermis-isolated, aggrecan-sensitive subpopulation with high chondrogenic potential | Q40256540 | ||
P433 | issue | 10 | |
P921 | main subject | regenerative medicine | Q1061415 |
tissue engineering | Q1540285 | ||
P304 | page(s) | 1187-1198 | |
P577 | publication date | 2015-08-07 | |
P1433 | published in | Stem Cells Translational Medicine | Q26842216 |
P1476 | title | Concise Review: Human Dermis as an Autologous Source of Stem Cells for Tissue Engineering and Regenerative Medicine | |
P478 | volume | 4 |
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Q38610010 | Natural development of dermal ectopic bone in the American alligator (Alligator mississippiensis) resembles heterotopic ossification disorders in humans. |
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