IRIS
ALESSIO, Nicola
 Distribuzione geografica
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Continente #
EU - Europa 2.675
AS - Asia 1.620
NA - Nord America 1.367
SA - Sud America 267
AF - Africa 15
Continente sconosciuto - Info sul continente non disponibili 2
Totale 5.946
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Nazione #
RU - Federazione Russa 1.359
US - Stati Uniti d'America 1.292
SG - Singapore 551
IE - Irlanda 454
CN - Cina 373
IT - Italia 315
HK - Hong Kong 271
BR - Brasile 229
KR - Corea 153
GB - Regno Unito 118
DE - Germania 117
VN - Vietnam 111
UA - Ucraina 97
CA - Canada 61
TR - Turchia 41
IN - India 40
FI - Finlandia 39
FR - Francia 39
GR - Grecia 33
SE - Svezia 31
JP - Giappone 27
PL - Polonia 24
AR - Argentina 17
DK - Danimarca 10
MX - Messico 10
AT - Austria 9
NL - Olanda 8
AE - Emirati Arabi Uniti 7
ES - Italia 7
ID - Indonesia 7
BD - Bangladesh 6
EC - Ecuador 6
IQ - Iraq 6
PY - Paraguay 5
ZA - Sudafrica 5
CO - Colombia 4
HU - Ungheria 4
MA - Marocco 4
AL - Albania 3
CH - Svizzera 3
PK - Pakistan 3
UZ - Uzbekistan 3
VE - Venezuela 3
ET - Etiopia 2
IL - Israele 2
IR - Iran 2
JO - Giordania 2
KE - Kenya 2
KH - Cambogia 2
KZ - Kazakistan 2
LK - Sri Lanka 2
PT - Portogallo 2
SA - Arabia Saudita 2
UY - Uruguay 2
A2 - ???statistics.table.value.countryCode.A2??? 1
AM - Armenia 1
AZ - Azerbaigian 1
BA - Bosnia-Erzegovina 1
BE - Belgio 1
CI - Costa d'Avorio 1
CZ - Repubblica Ceca 1
DO - Repubblica Dominicana 1
EG - Egitto 1
EU - Europa 1
HN - Honduras 1
LA - Repubblica Popolare Democratica del Laos 1
MY - Malesia 1
NP - Nepal 1
PA - Panama 1
PE - Perù 1
PH - Filippine 1
SV - El Salvador 1
TH - Thailandia 1
Totale 5.946
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Città #
Dublin 450
Moscow 449
Singapore 279
Hong Kong 270
Santa Clara 224
Jacksonville 168
Seoul 150
Chandler 147
Naples 76
Beijing 60
Hefei 59
Princeton 50
New York 49
Bremen 45
Roxbury 45
Elora 42
Ashburn 40
Medford 38
Caserta 37
Ho Chi Minh City 31
Bengaluru 25
Hanoi 21
Cambridge 20
Dallas 20
Los Angeles 20
The Dalles 20
Wilmington 18
Des Moines 16
Boardman 14
Jinan 14
São Paulo 14
Milan 13
Aversa 11
Falkenstein 11
Nuremberg 11
Ann Arbor 10
Guangzhou 10
San Mateo 10
Turku 10
Nanjing 9
Paris 9
Woodbridge 9
Da Nang 8
Odense 8
San Francisco 8
Tokyo 8
Viterbo 8
Rome 7
Shanghai 7
Tianjin 7
Warsaw 7
Amsterdam 6
Belo Horizonte 6
Campinas 6
Curitiba 6
London 6
Mountain View 6
Munich 6
Osaka 6
Piracicaba 6
Biên Hòa 5
Bologna 5
Boston 5
Frankfurt am Main 5
Montreal 5
Nanchang 5
Pune 5
Vienna 5
Baghdad 4
Brasília 4
Buenos Aires 4
Chiesina Uzzanese 4
Helsinki 4
Kayseri 4
Kunming 4
Lappeenranta 4
Napoli 4
Phủ Lý 4
Redwood City 4
Shenyang 4
Cardito 3
Casablanca 3
Caxias do Sul 3
Cernusco sul Naviglio 3
Changsha 3
Ciudad del Este 3
Dearborn 3
Düsseldorf 3
Fortaleza 3
Guarulhos 3
Ha Long 3
Haiphong 3
Hangzhou 3
Hải Dương 3
Jakarta 3
Johannesburg 3
Kashiwa 3
Ninh Bình 3
Norwalk 3
Ottaviano 3
Totale 3.294
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Nome #
Changes in autophagy, proteasome activity and metabolism to determine a specific signature for acute and chronic senescent mesenchymal stromal cells 121
Alterations in the carnitine cycle in a mouse model of Rett syndrome. 121
Genes involved in regulation of stem cell properties. Studies on their expression in a small cohort of neuroblastoma patients 115
Neural stem cells from a mouse model of Rett syndrome are prone to senescence, show reduced capacity to cope with genotoxic stress, and are impaired in the differentiation process 115
Different stages of quiescence, senescence, and cell stress identified by molecular algorithm based on the expression of ki67, rps6, and beta-galactosidase activity 114
De-regulated expression of the BRG1 chromatin remodeling factor in bone marrow mesenchymal stromal cells induces senescence associated with the silencing of NANOG and changes in the levels of chromatin proteins 109
DNA damage and repair in a model of rat vascular injury 108
Environmental microplastics (EMPs) exposure alter the differentiation potential of mesenchymal stromal cells 106
Myeloma cells can corrupt senescent mesenchymal stromal cells and impair their anti-tumor activity 105
Filamin B and CD13 are components of senescent secretomes that may be involved in primary (stress induced) and paracrine senescence of mesenchymal stromal cells 103
Vitamin d deficiency induces chronic pain and microglial phenotypic changes in mice 102
A comparative study on normal and obese mice indicates that the secretome of mesenchymal stromal cells is influenced by tissue environment and physiopathological conditions 101
Circulating factors present in the sera of naturally skinny people may influence cell commitment and adipocyte differentiation of mesenchymal stromal cells. 99
In vitro studies suggest reduced expression of methyl cytosine protein binding 2 (MECP2) affects cell commitment and maintenance in neurons by triggering senescence, new perspective for Rett syndrome 98
Endothelial cells from umbilical cord of women affected by gestational diabetes: A suitable in vitro model to study mechanisms of early vascular senescence in diabetes 98
PEA-OXA ameliorates allodynia, neuropsychiatric and adipose tissue remodeling induced by social isolation. 97
Silencing of RB1 and RB2/P130 during adipogenesis of bone marrow stromal cells results in dysregulated differentiation. 96
A rapid, safe, and quantitative in vitro assay for measurement of uracil-DNA glycosylase activity. 96
Low dose radiation induced senescence of human mesenchymal stromal cells and impaired the autophagy process. 95
Intra-brain microinjection of human mesenchymal stem cells decreases allodynia in neuropathic mice 93
Impact of histone deacetylase inhibitors SAHA and MS-275 on DNA repair pathways in human mesenchymal stem cells 92
Mesenchymal stromal cells having inactivated RB1 survive following low irradiation and accumulate damaged DNA: hints for side effects following radiotherapy. 91
Protective effect of piceatannol and bioactive stilbene derivatives against hypoxia-induced toxicity in H9c2 cardiomyocytes and structural elucidation as 5-LOX inhibitors 91
Evaluation of Browning Agents on the White Adipogenesis of Bone Marrow Mesenchymal Stromal Cells: A Contribution to Fighting Obesity 91
Biomolecular evaluation of piceatannol’s effects in counteracting the senescence of mesenchymal stromal cells: A new candidate for senotherapeutics? 90
In vitro senescence of rat mesenchymal stem cells is accompanied by downregulation of stemness-related and DNA damage repair genes 89
Erratum: Correction: Increase of circulating IGFBP-4 following genotoxic stress and its implication for senescence (eLife (2020) 9 PII: e80871) 89
Role of glycosphingolipid SSEA-3 and FGF2 in the stemness and lineage commitment of multilineage differentiating stress enduring (MUSE) cells 86
Le cellule staminali mesenchimali isolate da midollo osseo riducono la stenosi indotta da arteriotomia nella carotide di ratto 86
Hybrid complexes of high and low molecular weight hyaluronan delay in vitro replicative senescence of mesenchymal stromal cells: A pilot study for future therapeutic application 86
Impact of lysosomal storage disorders on biology of mesenchymal stem cells: Evidences from in vitro silencing of glucocerebrosidase (GBA) and alpha-galactosidase A (GLA) enzymes. 85
Highly Concentrated Stabilized Hybrid Complexes of Hyaluronic Acid: Rheological and Biological Assessment of Compatibility with Adipose Tissue and Derived Stromal Cells towards Regenerative Medicine 84
Germicidal lamps using UV-C radiation may pose health safety issues: a biomolecular analysis of their effects on apoptosis and senescence 83
Partial silencing of methyl cytosine protein binding 2 (MECP2) in mesenchymal stem cells induces senescence with an increase in damaged DNA 83
Insulin-like growth factor binding proteins 4 and 7 released by senescent cells promote premature senescence in mesenchymal stem cells 81
Positively charged polymers modulate the fate of human mesenchymal stromal cells via ephrinB2/EphB4 signaling 81
Irradiation of Mesenchymal Stromal Cells With Low and High Doses of Alpha Particles Induces Senescence and/or Apoptosis 81
The secretome of MUSE cells contains factors that may play a role in regulation of stemness, apoptosis and immunomodulation 81
Stem Cell-Derived Exosomes in Autism Spectrum Disorder 81
An Example of Neuro-Glial Commitment and Differentiation of Muse Stem Cells Obtained from Patients with IQSEC2-Related Neural Disorder: A Possible New Cell-Based Disease Model 80
Misidentified Human Gene Functions with Mouse Models: The Case of the Retinoblastoma Gene Family in Senescence 80
The BRG1 ATPase of chromatin remodeling complexes is involved in modulation of mesenchymal stem cell senescence through RB-P53 pathways. 79
Stem cells and DNA repair capacity: Muse stem cells are among the best performers 79
Muse stem cells can be isolated from stromal compartment of mouse bone marrow, adipose tissue, and ear connective tissue: A comparative study of their in vitro properties 79
IGFBP5 is released by senescent cells and is internalized by healthy cells, promoting their senescence through interaction with retinoic receptors 78
Protective Effect of Resveratrol against Hypoxia-Induced Neural Oxidative Stress 78
Reduced expression of MECP2 affects cell commitment and maintenance in neurons by triggering senescence, new perspective for Rett syndrome 78
Unbiased analysis of senescence associated secretory phenotype (SASP) to identify common components following different genotoxic stresses 77
Obesity is associated with senescence of mesenchymal stromal cells derived from bone marrow, subcutaneous and visceral fat of young mice 77
Irisin influences the in vitro differentiation of human mesenchymal stromal cells, promoting a tendency toward beiging adipogenesis 76
Optimization of Peripheral Blood Mononuclear Cell Extraction from Small Volume of Blood Samples: Potential Implications for Children-Related Diseases 75
Mesenchymal stromal cells from amniotic fluid are less prone to senescence compared to those obtained from bone marrow: An in vitro study. 74
Molecular and Physiological Effects of Browning Agents on White Adipocytes from Bone Marrow Mesenchymal Stromal Cells 73
Stress and stem cells: Adult Muse cells tolerate extensive genotoxic stimuli better than mesenchymal stromal cells 73
New frontiers in stem cell research and translational approaches 73
Timely Supplementation of Hydrogels Containing Sulfated or Unsulfated Chondroitin and Hyaluronic Acid Affects Mesenchymal Stromal Cells Commitment Toward Chondrogenic Differentiation 73
The melanocortin MC5R as a new target for treatment of high glucose-induced hypertrophy of the cardiac H9c2 cells 71
Senescence Phenomena and Metabolic Alteration in Mesenchymal Stromal Cells from a Mouse Model of Rett Syndrome. 71
Combining photocrosslinkable polyester-based scaffolds with a cell-encapsulated shear-thinning gelatin hydrogel as a hybrid strategy for adipose tissue reconstruction 69
Low-level radiofrequency exposure does not induce changes in MSC biology: An in vitro study for the prevention of NIR-related damage 68
Osteosarcoma in a ceRNET perspective 67
Increase of circulating IGFBP-4 following genotoxic stress and its implication for senescence 67
The senescence-associated secretory phenotype (SASP) from mesenchymal stromal cells impairs growth of immortalized prostate cells but has no effect on metastatic prostatic cancer cells 66
Resolvin D1 reduces mitochondrial damage to photoreceptors of primary retinal cells exposed to high glucose 65
IGFBP7 is a key component of the senescence-associated secretory phenotype (SASP) that induces senescence in healthy cells by modulating the insulin, IGF, and activin A pathways 64
Evaluation of novel biomaterials for cartilage regeneration based on gelatin methacryloyl interpenetrated with extractive chondroitin sulfate or unsulfated biotechnological chondroitin 62
Senescence induces fundamental changes in the secretome of mesenchymal stromal cells (MSCs): implications for the therapeutic use of MSCs and their derivates 53
Progression of irradiated mesenchymal stromal cells from early to late senescence: Changes in SASP composition and anti‐tumour properties 52
Meta-analysis of senescent cell secretomes to identify common and specific features of the different senescent phenotypes: a tool for developing new senotherapeutics 51
Terpenes: natural compounds found in plants as potential senotherapeutics targeting senescent mesenchymal stromal cells and promoting apoptosis 48
Mesenchymal Stromal Cell (MSC) Isolation and Induction of Acute and Replicative Senescence 46
Methods to Detect and Compare Cellular and Mitochondrial Changes in Senescent and Healthy Mesenchymal Stem Cells 39
Lineage specification into GABAergic, glutamatergic, dopaminergic, and astrocytic phenotypes using MUSE stem cells: a novel approach for modeling neurodegenerative and psychiatric disorders 39
Impact of environmental microplastic exposure on HepG2 cells: unraveling proliferation, mitochondrial dynamics and autophagy activation 37
Selective Senolysis of 5FU-Induced CRC Senescent Cells by Piceatannol Through Mitochondrial Depolarization and AIF-Dependent Apoptosi 35
The interactome era: Integrating RNA-seq, proteomics, and network biology to decode cellular senescence 33
Totale 6.128
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Categoria #
all - tutte 24.537
article - articoli 0
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 0
Totale 24.537
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/2021167 0 0 0 0 0 13 39 33 22 18 35 7
2021/2022371 10 0 3 4 112 17 22 11 19 32 28 113
2022/2023829 97 5 6 50 104 45 5 40 422 6 16 33
2023/2024368 25 18 16 18 97 54 11 22 5 11 37 54
2024/20251.113 11 59 18 22 185 117 178 128 120 120 90 65
2025/20262.660 226 255 250 281 525 1.123 0 0 0 0 0 0
Totale 6.128