IRIS
LANNI, Antonia
 Distribuzione geografica
Salva come PNG Salva come JPEG
Continente #
NA - Nord America 4.518
AS - Asia 2.647
EU - Europa 1.569
SA - Sud America 419
AF - Africa 72
Continente sconosciuto - Info sul continente non disponibili 11
OC - Oceania 3
AN - Antartide 1
Totale 9.240
Salva come PNG Salva come JPEG
Nazione #
US - Stati Uniti d'America 4.222
SG - Singapore 871
CN - Cina 838
UA - Ucraina 610
DE - Germania 368
BR - Brasile 352
CA - Canada 256
IT - Italia 152
ID - Indonesia 126
SE - Svezia 124
IN - India 87
KR - Corea 87
MY - Malesia 84
HK - Hong Kong 82
TR - Turchia 81
TH - Thailandia 78
FI - Finlandia 77
VN - Vietnam 73
FR - Francia 72
PH - Filippine 63
BD - Bangladesh 44
GB - Regno Unito 42
RU - Federazione Russa 34
PL - Polonia 24
CI - Costa d'Avorio 23
MX - Messico 23
AR - Argentina 18
JP - Giappone 18
VE - Venezuela 17
PK - Pakistan 16
IQ - Iraq 15
UZ - Uzbekistan 15
IR - Iran 14
BE - Belgio 13
ES - Italia 12
NL - Olanda 12
ZA - Sudafrica 12
EU - Europa 11
CO - Colombia 9
JO - Giordania 9
KE - Kenya 8
NP - Nepal 7
SA - Arabia Saudita 7
EC - Ecuador 6
MA - Marocco 6
PE - Perù 6
PY - Paraguay 6
TN - Tunisia 6
CR - Costa Rica 5
RS - Serbia 5
AZ - Azerbaigian 4
EG - Egitto 4
AE - Emirati Arabi Uniti 3
CH - Svizzera 3
CZ - Repubblica Ceca 3
DZ - Algeria 3
JM - Giamaica 3
LT - Lituania 3
PS - Palestinian Territory 3
TW - Taiwan 3
AU - Australia 2
BF - Burkina Faso 2
BO - Bolivia 2
CL - Cile 2
CY - Cipro 2
GE - Georgia 2
GR - Grecia 2
IE - Irlanda 2
IL - Israele 2
KW - Kuwait 2
KZ - Kazakistan 2
NI - Nicaragua 2
OM - Oman 2
RW - Ruanda 2
SN - Senegal 2
TT - Trinidad e Tobago 2
AL - Albania 1
AM - Armenia 1
AQ - Antartide 1
AT - Austria 1
BA - Bosnia-Erzegovina 1
BG - Bulgaria 1
BH - Bahrain 1
BJ - Benin 1
BY - Bielorussia 1
CG - Congo 1
DK - Danimarca 1
DM - Dominica 1
DO - Repubblica Dominicana 1
ET - Etiopia 1
GM - Gambi 1
GT - Guatemala 1
GY - Guiana 1
HN - Honduras 1
HU - Ungheria 1
KH - Cambogia 1
LK - Sri Lanka 1
LV - Lettonia 1
MD - Moldavia 1
MN - Mongolia 1
Totale 9.234
Salva come PNG Salva come JPEG
Città #
Dallas 1.088
Jacksonville 393
San Jose 353
Chandler 327
Ashburn 293
Singapore 293
The Dalles 248
Toronto 231
Boardman 147
Jakarta 109
Nanjing 89
Seoul 87
Beijing 84
Princeton 78
Bangkok 77
Bremen 77
Hong Kong 76
Istanbul 72
Wilmington 65
Kuala Selangor 55
Shenyang 54
Ann Arbor 52
Dearborn 50
Manila 48
Munich 45
Helsinki 41
Guangzhou 40
Ogden 40
Falkenstein 35
Jiaxing 33
Turku 33
Ho Chi Minh City 31
Santa Clara 31
Boydton 30
Shanghai 30
Los Angeles 29
Frankfurt am Main 27
São Paulo 25
Columbus 24
Strasbourg 24
Abidjan 23
Hanoi 22
Nanchang 22
Changsha 21
Hebei 20
Kuala Lumpur 20
Tianjin 20
Council Bluffs 17
Milan 17
Naples 17
Orem 17
Mexico City 16
Tokyo 16
Warsaw 16
Zhengzhou 16
Jinan 15
Leawood 15
Ningbo 15
Augusta 14
Norwalk 14
Tashkent 14
Belo Horizonte 13
Brussels 13
Pune 13
Hangzhou 11
Hillsboro 11
New York 11
San Mateo 11
Shenzhen 11
Brasília 10
Mumbai 10
Boston 9
Brooklyn 9
Chennai 9
London 9
Rome 9
San Francisco 9
San Giorgio Del Sannio 9
Stockholm 9
Taizhou 9
Amman 8
Ardabil 8
Monmouth Junction 8
Amsterdam 7
Bekasi 7
Lahore 7
Manchester 7
Montreal 7
New Delhi 7
Qingdao 7
Rio de Janeiro 7
Cebu City 6
Curitiba 6
Nairobi 6
Ottawa 6
Phoenix 6
Santa Cruz do Sul 6
Seattle 6
West Jordan 6
Denver 5
Totale 5.659
Salva come PNG Salva come JPEG
Nome #
15TH INTERNATIONAL THYROID CONGRESS PROGRAM AND MEETING ABSTRACTS 856
Are the effects of triiodothyronine (T3) on resting metabolism in euthyroid rats entirely due to T3 itself ? 220
3,5-diiodo-L-thyronine increases resting metabolic rate and reduces body weight without undesirable side effects 179
Effect of 3,3’-diiodo-L-thyronine and 3,5-diiodo-L-thyronine on rat liver oxidative capacity 178
Calorigenic effect of diiodothyronines 170
3,5-Diiodo-L-thyronine rapidly enhances mitochondrial fatty acid oxidation rate and thermogenesis in rat skeletal muscle: AMP-activated protein kinase involvement 167
3,5-diiodo-L-thyronine and 3,5,3'-triiodo-L-thyronine both improve the cold tolerance of hypothyroid rats, but possibly via different mechanisms 156
3,5 Diiodo-l-Thyronine (T-2) Promotes the Browning of White Adipose Tissue in High-Fat Diet-Induced Overweight Male Rats Housed at Thermoneutrality 153
(Healthy) ageing: Focus on iodothyronines 152
3,5-Diiodo-L-thyronine powerfully reduces adiposity in rats by increasing the burning of fats 152
3,5-diiodo-L-thyronine affects structural and metabolic features of skeletal muscle mitochondria in high-fat-diet fed rats producing a co-adaptation to the glycolytic fiber phenotype 148
Fuel economy in food-deprived skeletal muscle: signaling pathways and regulatory mechanisms 146
3, 5-diiodothyronine: Biological actions and therapeutic perspectives 144
Mitochondrial Actions of Thyroid Hormone 139
3,5-diiodothyronine (T2) induces calcium oscillations and NO release in GH3 cells 137
Action of thyroid hormones at the cellular level: the mitochondrial target 133
Fructose-Rich Diet Affects Mitochondrial DNA Damage and Repair in Rats. 133
3,5-Diiodo-L-thyronine prevents high-fat-diet-induced insulin resistance in rat skeletal muscle through metabolic and structural adaptations 132
Peroxisome Proliferator-Activated Receptor Delta: A Conserved Director of Lipid Homeostasis through Regulation of the Oxidative Capacity of Muscle 131
3,5-Diiodothyronine: A Novel Thyroid Hormone Metabolite and Potent Modulator of Energy Metabolism 131
3,5-Diiodo-L-Thyronine Exerts Metabolically Favorable Effects on Visceral Adipose Tissue of Rats Receiving a High-Fat Diet 131
3,5-Diiodo-L-thyronine regulates glucose-6-phosphate dehydrogenase activity in the rat 129
Defining the transcriptomic profile of rat ageing skeletal muscle using cDNA array, 2D- and Blue Native-PAGE 126
Both 3,3',5-triiodothyronine and 3,5-diodo-L-thyronine Are Able to Repair Mitochondrial DNA Damage but by Different Mechanisms 122
Induction of UCP2 mRNA by thyroid hormones in rat heart 120
Thyroid hormones and uncoupling proteins 118
Control of energy metabolism by iodothyronines 118
Acute administration of 3,5-diiodo-L-thyronine to hypothyroid rats affects bioenergetic parameters in rat skeletal muscle mitochondria 117
Fenofibrate activates the biochemical pathways and the de novo expression of genes related to lipid handling and uncoupling protein-3 functions in liver of normal rats 115
Age-related changes in renal and hepatic cellular mechanisms associated with variations in rat serum thyroid hormone levels 114
Sequential changes in the signal transduction responses of skeletal muscle following food deprivation 112
3,5-diiodo-L-thyronine, by modulatine mitochondrial functions, reverses hepatic fat accumulation in rats fed a high-fat diet 111
Cold exposure induces different uncoupling protein thermogenin masking-unmasking processes in brown adipose tissue depending on mitochondrial subtypes 110
“A Proteomics Approach to Identify Protein Expression Changes in Rat Liver Following Administration of 3,5,3'-Triiodo-l-thyronine.” 110
Metabolic effects of thyroid hormone derivatives 110
In vitro binding of 3,5-diiodo-L-thyronine to rat liver mitochondria 110
Characterization of specific mitochondrial binding sites for 3,3'-diiodo-L-thyronine 109
Fasting, lipid metabolism and triiodothyronine in rat gastrocnemius muscle: interrelated roles of uncoupling protein 3, mitochondrial thioesterase and coenzyme Q 108
Pathways affected by 3,5-diiodo-L-thyronine in liver of high fat-fed rats: Evidence from two-dimensional electrophoresis, blue-native PAGE, and mass spectrometry 108
Fenofibrate prevents and reduces body weight gain and adiposity in diet-induced obese rats 106
Thyroid-state influence on protein-expression profile of rat skeletal muscle 103
Biochemical and functional differences in rat liver mitochondrial subpopulations obtained at different gravitational forces 103
Metabolic effects of the iodothyronine functional analogue TRC150094 on the liver and skeletal muscle of high-fat diet fed overweight rats: an integrated proteomic study. 101
Short-term, combined fasting and exercise improves body composition in healthy males 100
Rapid stimulation in vitro of rat liver cytochrome oxidase activity by 3,5-diiodo-L-thyronine and by 3,3'-diiodo-L-thyronine 99
Indentification by photoaffinity labeling of 3,5-diiodo-L-thyronine-binding proteins in rat liver cytosol 98
Effect of 3,5-diiodo-L-thyronine on thyroid stimulating hormone and growth hormone serum levels in hypothyroid rats. 96
ORGAN-SPECIFIC RESPONSE TO HIGH-FAT DIET AND 3,5-DIIODOTHYRONINE (T2) TREATMENT; A POSSIBLE INVOLVEMENT OF THE AMP-ACTIVATED PROTEIN KINASE (AMPK)., 96
Relationship between dose, mode of administration and effects of triiodothyronine on two hepatic responsive enzymes 95
How thyroid controls metabolism: a different role for triiodothyronine and for diiodothyronines 95
THE DEGREE OF FATTY ACID SATURATION INFLUENCES THE EFFECTS OF T3 AND 3,5-T2 ON INSULIN SENSITIVITY IN MUSCLE CELLS 94
Studies of Complex Biological Systems with Applications to Molecular Medicine: the Need to Integrate Transcriptomic and Proteomic Approaches 92
Combined cDNA array/RT-PCR analysis of gene expression profile in rat gastrocnemius muscle: relation to its adaptive function in energy metabolism during fasting 92
Temporal relationship between organ responses to 3,5-diiodo-L-thyronine in high-fat diet-fed rats role of AMPK 89
The thyroid hormone metabolite 3,5-diiodo-l-thyronine prevents hepatic fat accumulation and systemic insulin resistance through direct activation of sirtuin 1 (SIRT1) 88
Uncoupling protein-3 is a molecular determinant for the regulation of resting metabolic rate by thyroid hormone 87
Interrelated influence of superoxides and free fatty acids over mitochondrial uncoupling in skeletal muscle 87
Role of AMPK in the organ-specific responses to 3,5-diiodo-L-thyronine in high-fat diet-fed rats 86
Metabolic action of thyroid hormones: insights from functional and proteomic studies 85
Nonthyrotoxic prevention of diet-induced insulin resistance by 3,5-diiodo-L-thyronine in rats. 85
Composition including 3,5-diiodothyronine and pharmacological use of them 84
PPARs: Nuclear Receptors Controlled by, and Controlling, Nutrient Handling through Nuclear and Cytosolic Signaling. 84
Expression of uncoupling protein-3 and mitochondrial activity in the transition from hypothyroid to hyperthyroid state in rat skeletal muscle 83
Uncoupling protein 3 expression levels influence insulin sensitivity, fatty acid oxidation, and related signaling pathways. 83
Differential 3,5,3'-triiodothyronine-mediated regulation of uncoupling protein 3 transcription: role of Fatty acids 81
Responses of skeletal muscle lipid metabolism in rat gastrocnemius to hypothyroidism and iodothyronine administration: a putative role for FAT/CD36 80
Specific binding sites for 3,3'-diiodo-L-thyronine (3,3'-T2) in rat liver mitochondria 79
Uncoupling protein-3 (UCP3) translocates lipid hydroperoxide and mediates lipid hydroperoxide-dependent mitochondrial uncoupling 79
TRC150094, a novel functional analogue of iodothyronines, reduces adiposity by increasing energy expenditure and fatty acid oxidation in rats receiving a high-fat diet 79
Skeletal muscle mitochondrial free-fatty acid content and membrane potential sensitivity in different thyroid states: involvement of uncoupling protein 3 and adenine nucleotide translocase 75
Non genomic effects of 3,5,3-L-triiodothyronina through AMPK/ACC and AKT/PKB signaling: relation to changes in fuel metabolism and myosin heavy chain protein content in rat gastrocnemius muscle in vivo 75
The effect of 3,5 diiodo-L-thyronine on mitochondrial energetic transduction apparatus 71
Effect of 3,3’-diiodo-L-thyronine and 3,5-diiodo-L-thyronine on rat liver mitochondria 71
Rapid activation by 3,5,3'-L-triiodothyronine of adenosine 5'-monophosphate-activated protein kinase/acetyl-coenzyme a carboxylase and akt/protein kinase B signaling pathways: relation to changes in fuel metabolism and myosin heavy-chain protein content in rat gastrocnemius muscle in vivo 70
Mammalian mitochondrial proteome and its functions: current investigative techniques and future perspectives on ageing and diabetes 70
Mitochondrial function and thyroid hormones 70
Thyroid-hormone effects on putative biochemical pathways involved in UCP3 activation in rat skeletal muscle mitochondria 69
Mitochondrial Functions and thyroid hormones 66
Editorial: Hormonal and Neuroendocrine Regulation of Energy Balance. 53
Totale 9.354
Salva come PNG Salva come JPEG
Categoria #
all - tutte 51.301
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 51.301
Salva come PNG Salva come JPEG


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/20219 0 0 0 0 0 0 0 0 0 0 0 9
2021/2022401 9 8 231 15 7 8 14 58 27 1 9 14
2022/20231.078 175 33 30 140 100 201 3 87 211 23 49 26
2023/2024425 28 96 67 14 16 25 3 34 79 23 2 38
2024/20251.650 87 27 86 55 224 101 92 243 178 196 200 161
2025/20263.948 213 417 993 230 164 201 530 175 423 295 126 181
Totale 9.354