All Stories

  1. The effect of timing of physical exercise on glycemia: a systematic review and meta-analysis of human intervention studies
  2. Brain-wide induction of ΔFOSB and altered co-activation networks in a rat model for exercise training
  3. Missing the rhythm in skeletal muscle mitochondrial respiration
  4. Targeted PPARδ activation reprograms microglial immunometabolism and improves insulin sensitivity in HFD-fed rats
  5. The Acute Effects of Morning Bright Light on the Human White Adipose Tissue Transcriptome: Exploratory Post Hoc Analysis
  6. Combining Time-Restricted Wheel Running and Feeding During the Light Phase Increases Running Intensity Under High-Fat Diet Conditions Without Altering the Total Amount of Daily Running
  7. Time-restricted feeding modulates neuron-glial interactions and circadian rhythm in the spinal cord of male Wistar rats fed a high-fat diet
  8. High-Calorie Diet Consumption Induces Lac-Phe Changes in the Brain in a Time-of-Day Manner Independent of Exercise
  9. Voluntary Running and Estrous Cycle Modulate ΔFOSB in the Suprachiasmatic Nucleus of the Wistar Rat
  10. The effect of altered sleep timing on glycaemic outcomes: Systematic review of human intervention studies
  11. Daily variation in blood glucose levels during continuous enteral nutrition in patients on the intensive care unit: a retrospective observational study
  12. Circadian desynchrony and glucose metabolism
  13. An integrated single‐cell RNA‐seq atlas of the mouse hypothalamic paraventricular nucleus links transcriptomic and functional types
  14. An integrated single-cell RNA-seq atlas of the mouse hypothalamic paraventricular nucleus links transcriptional and functional types
  15. Minor Changes in Daily Rhythms Induced by a Skeleton Photoperiod Are Associated with Increased Adiposity and Glucose Intolerance
  16. Age-dependent change of RFRP-3 neuron numbers and innervation in female mice
  17. Loss of Microglial Insulin Receptor Leads to Sex-Dependent Metabolic Disorders in Obese Mice
  18. Time‐restricted feeding during the inactive phase abolishes the daily rhythm in mitochondrial respiration in rat skeletal muscle
  19. Disrupted Circadian Control of Hormonal Rhythms and Anticipatory Thirst by Dim Light at Night
  20. Dopamine D1 receptor signalling in the lateral shell of the nucleus accumbens controls dietary fat intake in male rats
  21. Activation of nucleus accumbens μ‐opioid receptors enhances the response to a glycaemic challenge
  22. Sucrose drinking mimics effects of nucleus accumbens µ-opioid receptor stimulation on fat intake and brain c-Fos-expression
  23. Early changes of immunoreactivity to orexin in hypothalamus and to RFamide peptides in brainstem during the development of hypertension
  24. Epigenetic Regulation of Circadian Clocks and Its Involvement in Drug Addiction
  25. The continued need for animals to advance brain research
  26. WITHDRAWN: Age-dependent modulation of RFRP-3 neurons in female mice
  27. Rhythmic Regulation of DNA Methylation Factors and Core-Clock Genes in Brain Structures Activated by Cocaine or Sucrose: Potential Role of Chromatin Remodeling
  28. Thermal lesions of the SCN do not abolish all gene expression rhythms in rat white adipose tissue, NAMPT remains rhythmic
  29. Microglia-specific knock-down of Bmal1 improves memory and protects mice from high fat diet-induced obesity
  30. Role of central kisspeptin and RFRP‐3 in energy metabolism in the male Wistar rat
  31. Distinct feedback actions of behavioural arousal to the master circadian clock in nocturnal and diurnal mammals
  32. Mapping of Microglial Brain Region, Sex and Age Heterogeneity in Obesity
  33. Daily and Estral Regulation of RFRP-3 Neurons in the Female Mice
  34. Deficiency of the Circadian Clock Gene Bmal1 Reduces Microglial Immunometabolism
  35. The Circadian Clock, Shift Work, and Tissue-Specific Insulin Resistance
  36. How the COVID-19 pandemic highlights the necessity of animal research
  37. The Effect of Rev-erbα Agonist SR9011 on the Immune Response and Cell Metabolism of Microglia
  38. The impact of antidiabetic treatment on human hypothalamic infundibular neurons and microglia
  39. Metabolic Effects of Light at Night are Time‐ and Wavelength‐Dependent in Rats
  40. Metabolic Implications of Exposure to Light at Night: Lessons from Animal and Human Studies
  41. Muscle Clocks and Diabetes
  42. Regulation of type 3 deiodinase in rodent liver and adipose tissue during fasting
  43. After‐Effects of Time‐Restricted Feeding on Whole‐Body Metabolism and Gene Expression in Four Different Peripheral Tissues
  44. Synergistic Effect of Feeding Time and Diet on Hepatic Steatosis and Gene Expression in Male Wistar Rats
  45. Behavioral Circadian Timing System Disruptors and Incident Type 2 Diabetes in a Nonshift Working Multiethnic Population
  46. RFRP3 increases food intake in a sex‐dependent manner in the seasonal hamster Phodopus sungorus
  47. Biphasic Glucocorticoid Rhythm in One-Month-Old Infants: Reflection of a Developing HPA-Axis?
  48. The Iminosugar AMP-DNM Improves Satiety and Activates Brown Adipose Tissue Through GLP1
  49. Blue light at night acutely impairs glucose tolerance and increases sugar intake in the diurnal rodent Arvicanthis ansorgei in a sex‐dependent manner
  50. Time-Restricted Feeding Improves Glucose Tolerance in Rats, but Only When in Line With the Circadian Timing System
  51. Restoring the autonomic balance to reduce liver steatosis
  52. Loss of arginine vasopressin- and vasoactive intestinal polypeptide-containing neurons and glial cells in the suprachiasmatic nucleus of individuals with type 2 diabetes
  53. Social Jet-Lag in Tertiary Students Following a Modern Curriculum with Few Time-Tabled Contact Hours: A Pilot Study
  54. Diet-Induced Obesity Disturbs Microglial Immunometabolism in a Time-of-Day Manner
  55. Effects of Light-at-Night on the Rat Liver – A Role for the Autonomic Nervous System
  56. Neuropeptide changes in the suprachiasmatic nucleus are associated with the development of hypertension
  57. Kisspeptin and RFRP 3 modulate body mass in Phodopus sungorus via two different neuroendocrine pathways
  58. Diurnal rhythms in the white adipose tissue transcriptome are disturbed in obese individuals with type 2 diabetes compared with lean control individuals
  59. Potential Role for the Gut Microbiota in Modulating Host Circadian Rhythms and Metabolic Health
  60. Regulation of Brain DNA Methylation Factors and of the Orexinergic System by Cocaine and Food Self-Administration
  61. Circadian clocks and insulin resistance
  62. An Ultradian Feeding Schedule in Rats Affects Metabolic Gene Expression in Liver, Brown Adipose Tissue and Skeletal Muscle with Only Mild Effects on Circadian Clocks
  63. An ultradian feeding schedule in rats affects metabolic gene expression in liver, brown adipose tissue and skeletal muscle with only mild effects on circadian clocks
  64. Transhepatic bile acid kinetics in pigs and humans
  65. Circadian misalignment induces fatty acid metabolism gene profiles and compromises insulin sensitivity in human skeletal muscle
  66. Effects of intravenous thyrotropin-releasing hormone on 18F-fluorodeoxyglucose uptake in human brown adipose tissue: a randomized controlled trial
  67. Functional changes of the SCN in spontaneous hypertension but not after the induction of hypertension
  68. Daily Gene Expression Rhythms in Rat White Adipose Tissue Do Not Differ Between Subcutaneous and Intra-Abdominal Depots
  69. Time-of-Day Effects on Metabolic and Clock-Related Adjustments to Cold
  70. A Free-Choice High-Fat High-Sugar Diet Alters Day–Night Per2 Gene Expression in Reward-Related Brain Areas in Rats
  71. The role of the daily feeding rhythm in the regulation of the day/night rhythm in triglyceride secretion in rats
  72. Circadian rhythms in mitochondrial respiration
  73. Deficiency of leptin receptor in myeloid cells disrupts hypothalamic metabolic circuits and causes body weight increase
  74. TRH Neurons and Thyroid Hormone Coordinate the Hypothalamic Response to Cold
  75. Administration of Thyrotropin-Releasing Hormone in the Hypothalamic Paraventricular Nucleus of Male Rats Mimics the Metabolic Cold Defense Response
  76. Expression of the clock gene Rev‐erbα in the brain controls the circadian organisation of food intake and locomotor activity, but not daily variations of energy metabolism
  77. Differential effects of diet composition and timing of feeding behavior on rat brown adipose tissue and skeletal muscle peripheral clocks
  78. Chronic infusion of taurolithocholate into the brain increases fat oxidation in mice
  79. Bile Acid Signaling Pathways from the Enterohepatic Circulation to the Central Nervous System
  80. Complex interaction between circadian rhythm and diet on bile acid homeostasis in male rats
  81. Effects of meal composition and meal timing on the expression of genes involved in hepatic drug metabolism in rats
  82. Effects of feeding time on daily rhythms of neuropeptide and clock gene expression in the rat hypothalamus
  83. Lipoprotein Lipase Maintains Microglial Innate Immunity in Obesity
  84. Dietary sugars, not lipids, drive hypothalamic inflammation
  85. Light at night acutely impairs glucose tolerance in a time-, intensity- and wavelength-dependent manner in rats
  86. Acute Effects of Morning Light on Plasma Glucose and Triglycerides in Healthy Men and Men with Type 2 Diabetes
  87. Sleep Deprivation and Caffeine Treatment Potentiate Photic Resetting of the Master Circadian Clock in a Diurnal Rodent
  88. Suprachiasmatic Nucleus Interaction with the Arcuate Nucleus; Essential for Organizing Physiological Rhythms
  89. Hypothalamic effects of thyroid hormone
  90. Infusion of fluoxetine, a serotonin reuptake inhibitor, in the shell region of the nucleus accumbens increases blood glucose concentrations in rats
  91. Effects of Chronic Estrogen Administration in the Ventromedial Nucleus of the Hypothalamus (VMH) on Fat and Bone Metabolism in Ovariectomized Rats
  92. Dim light at night disturbs the daily sleep-wake cycle in the rat
  93. Ultradian feeding in mice not only affects the peripheral clock in the liver, but also the master clock in the brain
  94. Feeding during the resting phase causes profound changes in physiology and desynchronization between liver and muscle rhythms of rats
  95. Effects of Intracerebroventricular Administration of Neuropeptide Y on Metabolic Gene Expression and Energy Metabolism in Male Rats
  96. Impact of obesity on taste receptor expression in extra-oral tissues: emphasis on hypothalamus and brainstem
  97. Sleep restriction acutely impairs glucose tolerance in rats
  98. Individual Differences in Sleep Timing Relate to Melanopsin-Based Phototransduction in Healthy Adolescents and Young Adults
  99. Suprachiasmatic Nucleus Neuropeptides and Their Control of Endogenous Glucose Production
  100. A model for chronic, intrahypothalamic thyroid hormone administration in rats
  101. The role of feeding rhythm, adrenal hormones and neuronal inputs in synchronizing daily clock gene rhythms in the liver
  102. The Leeds food preference questionnaire after mild sleep restriction — A small feasibility study
  103. Absence of diurnal variation in visceromotor response to colorectal distention in normal Long Evans rats
  104. Effects of daily timing of saturated fat and liquid sugar intake on energy balance
  105. Acute effect of ambient light intensity on glucose and lipid metabolism and appetite in healthy humans and obese patients with type 2 diabetes
  106. Inhibitory Effect of the Melanocortin Receptor Agonist Melanotan-II (MTII) on Feeding Depends on Dietary Fat Content and not Obesity in Rats on Free-Choice Diets
  107. Circadian rhythms in glucose and lipid metabolism in nocturnal and diurnal mammals
  108. Effects of 6-meals-a-day feeding and 6-meals-a-day feeding combined with adrenalectomy on daily gene expression rhythms in rat epididymal white adipose tissue
  109. Effects of central gastrin-releasing peptide on glucose metabolism
  110. Visualization of Active Glucocerebrosidase in Rodent Brain with High Spatial Resolution following In Situ Labeling with Fluorescent Activity Based Probes
  111. The Hypothalamic-Pituitary-Adrenal Axis: Circadian Dysregulation and Obesity
  112. Serotonin, a possible intermediate between disturbed circadian rhythms and metabolic disease
  113. Sleep and Food Choice in a Dutch Student Population
  114. Hepatic denervation and dyslipidemia in obese Zucker (fa/fa) rats
  115. Neuropeptide Y Activity in the Nucleus Accumbens Modulates Feeding Behavior and Neuronal Activity
  116. Rodent models to study the metabolic effects of shiftwork in humans
  117. Central nervous system neuropeptide Y regulates mediators of hepatic phospholipid remodeling and very low-density lipoprotein triglyceride secretion via sympathetic innervation
  118. Autonomic Regulation of Hepatic Glucose Production
  119. Impact of nutrients on circadian rhythmicity
  120. Fasting-Induced Changes in Hepatic Thyroid Hormone Metabolism in Male Rats Are Independent of Autonomic Nervous Input to the Liver
  121. MECHANISMS IN ENDOCRINOLOGY: Beyond the fixed setpoint of the hypothalamus–pituitary–thyroid axis
  122. Differential effects of fasting vs food restriction on liver thyroid hormone metabolism in male rats
  123. Timing of fat and liquid sugar intake alters substrate oxidation and food efficiency in male Wistar rats
  124. Preface
  125. Hypothalamic control of hepatic lipid metabolism via the autonomic nervous system
  126. Effects of adrenalectomy on daily gene expression rhythms in the rat suprachiasmatic and paraventricular hypothalamic nuclei and in white adipose tissue
  127. Circadian control of glucose metabolism
  128. Estradiol Regulates Brown Adipose Tissue Thermogenesis via Hypothalamic AMPK
  129. Neuropeptide Y and Leptin Sensitivity is Dependent on Diet Composition
  130. Breakfast replacement with a low-glycaemic response liquid formula in patients with type 2 diabetes: a randomised clinical trial
  131. NFκB Signaling Is Essential for the Lipopolysaccharide-Induced Increase of Type 2 Deiodinase in Tanycytes
  132. Glucose and Fat Metabolism in Narcolepsy and the Effect of Sodium Oxybate: A Hyperinsulinemic-Euglycemic Clamp Study
  133. Differential Modulation of Arcuate Nucleus and Mesolimbic Gene Expression Levels by Central Leptin in Rats on Short-Term High-Fat High-Sugar Diet
  134. Hormonal Control of Metabolism by the Hypothalamus-Autonomic Nervous System-Liver Axis
  135. Neuroscience of glucose homeostasis
  136. Chronic treatment with olanzapine increases adiposity by changing fuel substrate and causes desensitization of the acute metabolic side effects
  137. Olanzapine-induced changes in glucose metabolism are independent of the melanin-concentrating hormone system
  138. Brain areas and pathways in the regulation of glucose metabolism
  139. Central administration of an orexin receptor 1 antagonist prevents the stimulatory effect of Olanzapine on endogenous glucose production
  140. The autonomic nervous system regulates postprandial hepatic lipid metabolism
  141. Hypothalamus
  142. Daily Regulation of Hormone Profiles
  143. Voeding en de biologische klok
  144. Alterations in blood glucose and plasma glucagon concentrations during deep brain stimulation in the shell region of the nucleus accumbens in rats
  145. The Suprachiasmatic Nucleus Controls Circadian Energy Metabolism and Hepatic Insulin Sensitivity
  146. Melanocortin 4 receptor distribution in the human hypothalamus
  147. High calorie diet triggers hypothalamic angiopathy
  148. Intrahypothalamic Estradiol Regulates Glucose Metabolism via the Sympathetic Nervous System in Female Rats
  149. PS18 - 85. Regulation of circadian rhythms in rat white adipose tissue
  150. Increased Risk of Diabetes due to Obesity: Does Chronodisruption Play a Role?
  151. Acute Peripheral but Not Central Administration of Olanzapine Induces Hyperglycemia Associated with Hepatic and Extra-Hepatic Insulin Resistance
  152. Differential Involvement of the Suprachiasmatic Nucleus in Lipopolysaccharide-Induced Plasma Glucose and Corticosterone Responses
  153. Intrahypothalamic Estradiol Modulates Hypothalamus-Pituitary-Adrenal-Axis Activity in Female Rats
  154. Thyroid hormone transporters and deiodinases in the developing human hypothalamus
  155. AgRP and NPY Expression in the Human Hypothalamic Infundibular Nucleus Correlate with Body Mass Index, Whereas Changes in αMSH Are Related to Type 2 Diabetes
  156. Suppressor of cytokine signaling 3 in the human hypothalamus
  157. Hypothalamic Neuropeptide Y (NPY) Controls Hepatic VLDL-Triglyceride Secretion in Rats via the Sympathetic Nervous System
  158. Altered Circadian Rhythm of Melatonin Concentrations in Hypocretin-Deficient Men
  159. Unaltered Instrumental Learning and Attenuated Body-Weight Gain in Rats During Non-rotating Simulated Shiftwork
  160. Circadian rhythms in the hypothalamo–pituitary–adrenal (HPA) axis
  161. Leptin Administration Restores the Fasting-Induced Increase of Hepatic Type 3 Deiodinase Expression in Mice
  162. Orexins, feeding, and energy balance
  163. Nutrition and the circadian timing system
  164. Circadian rhythms in white adipose tissue
  165. Preface
  166. Glucocorticoid Signaling in the Arcuate Nucleus Modulates Hepatic Insulin Sensitivity
  167. De rol van de biologische klok en het autonome zenuwstelsel bij wakker worden
  168. PS16 - 79. The autonomic nervous system and lipid metabolism during feeding
  169. PS1 - 5. Deep brain stimulation in the nucleus accumbens alters glucose metabolism in rats
  170. Neuropeptide Y sensitivity in an animal model of diet induced obesity
  171. Obesogenic diets with fat and sugar reduce site specific sensitivity to insulin
  172. Mammalian clock output mechanisms
  173. Expression of Thyroid Hormone Transporters in the Human Hypothalamus
  174. Acute Restraint Stress Increases Intrahypothalamic Oestradiol Concentrations in Conjunction with Increased Hypothalamic Oestrogen Receptor β and Aromatase mRNA Expression in Female Rats
  175. Circadian disruption and SCN control of energy metabolism
  176. Autonomic MC Sets the Metabolic Tone
  177. Energy Homeostasis and Body Weight before and after Cessation of Block and Replacement Therapy in Euthyroid Patients with Graves' Disease
  178. Hypothalamic control of energy metabolism via the autonomic nervous system
  179. A free-choice high-fat high-sugar diet induces glucose intolerance and insulin unresponsiveness to a glucose load not explained by obesity
  180. An online solid-phase extraction-liquid chromatography-tandem mass spectrometry method to study the presence of thyronamines in plasma and tissue and their putative conversion from 13C6-thyroxine
  181. The hypothalamic clock and its control of glucose homeostasis
  182. The importance of choice for the obesogenic properties of a high-fat high-sugar diet
  183. Vasopressin and the Output of the Hypothalamic Biological Clock
  184. Novel neural pathways for metabolic effects of thyroid hormone
  185. The role of the autonomic nervous liver innervation in the control of energy metabolism
  186. Pituitary Adenylate Cyclase-Activating Polypeptide Stimulates Glucose Production via the Hepatic Sympathetic Innervation in Rats
  187. Suprachiasmatic Nucleus and Autonomic Nervous System Influences on Awakening From Sleep
  188. Thyroid Hormone Effects on Whole-Body Energy Homeostasis and Tissue-Specific Fatty Acid Uptakein Vivo
  189. Pmch expression during early development is critical for normal energy homeostasis
  190. A Major Role for Perifornical Orexin Neurons in the Control of Glucose Metabolism in Rats
  191. Effects of Nocturnal Light on (Clock) Gene Expression in Peripheral Organs: A Role for the Autonomic Innervation of the Liver
  192. Thyroid hormone modulates glucose production via a sympathetic pathway from the hypothalamic paraventricular nucleus to the liver
  193. Central effects of thyronamines on glucose metabolism in rats
  194. Circadian Metabolic Rhythms Regulated by the Suprachiasmatic Nucleus
  195. Food anticipation in Bmal1-/- and AAV-Bmal1 rescued mice: a reply to Fuller et al
  196. Standards of evidence in chronobiology: critical review of a report that restoration of Bmal1 expression in the dorsomedial hypothalamus is sufficient to restore circadian food anticipatory rhythms in Bmal1-/- mice
  197. The active metabolite of leflunomide, A77 1726, protects rat hepatocytes against bile acid-induced apoptosis
  198. Circadian Control of the Daily Plasma Glucose Rhythm: An Interplay of GABA and Glutamate
  199. Potentiation Effect of Vasopressin on Melatonin Secretion as Determined by Trans-Pineal Microdialysis in the Rat
  200. Plasma insulin concentrations during a hyperinsulinaemic clamp: what do we measure?
  201. Intracerebroventricular Administration of Neuropeptide Y Induces Hepatic Insulin Resistance via Sympathetic Innervation
  202. A circulating ghrelin mimetic attenuates light-induced phase delay of mice and light-induced Fos expression in the suprachiasmatic nucleus of rats
  203. Daily Rhythms in Metabolic Liver Enzymes and Plasma Glucose Require a Balance in the Autonomic Output to the Liver
  204. Effects of thyrotoxicosis and selective hepatic autonomic denervation on hepatic glucose metabolism in rats
  205. Opposite actions of hypothalamic vasopressin on circadian corticosterone rhythm in nocturnal versus diurnal species
  206. Differential Effects of Recombinant Adeno-Associated Virus-Mediated Neuropeptide Y Overexpression in the Hypothalamic Paraventricular Nucleus and Lateral Hypothalamus on Feeding Behavior
  207. Minireview: Circadian Control of Metabolism by the Suprachiasmatic Nuclei
  208. 7.4. The balance of life: hypothalamic communication with the body
  209. “Diabetes of the elderly” and type 2 diabetes in younger patients: Possible role of the biological clock
  210. SCN Outputs and the Hypothalamic Balance of Life
  211. Effects of evening vs morning thyroxine ingestion on serum thyroid hormone profiles in hypothyroid patients
  212. Pineal clock gene oscillation is disturbed in Alzheimer's disease, due to functional disconnection from the "master clock"
  213. Hormones and the Autonomic Nervous System are Involved in Suprachiasmatic Nucleus Modulation of Glucose Homeostasis
  214. Tracing from Fat Tissue, Liver, and Pancreas: A Neuroanatomical Framework for the Role of the Brain in Type 2 Diabetes
  215. Biological Clock Control of Glucose Metabolism
  216. A Network of (Autonomic) Clock Outputs
  217. A Network of (Autonomic) Clock Outputs
  218. The hypothalamic clock and its control of glucose homeostasis
  219. Organization of circadian functions: interaction with the body
  220. Preface
  221. The suprachiasmatic nucleus controls the daily variation of plasma glucose via the autonomic output to the liver: are the clock genes involved?
  222. Daily Variations in Type II Iodothyronine Deiodinase Activity in the Rat Brain as Controlled by the Biological Clock
  223. In vivo evidence for a controlled offset of melatonin synthesis at dawn by the suprachiasmatic nucleus in the rat
  224. Suprachiasmatic GABAergic Inputs to the Paraventricular Nucleus Control Plasma Glucose Concentrations in the Rat via Sympathetic Innervation of the Liver
  225. Hyper and hypothyroidism change the expression and diurnal variation of thyroid hormone receptor isoforms in rat liver without major changes in their zonal distribution
  226. Diurnal Variation in Rat Liver Thyroid Hormone Receptor (TR)-α Messenger Ribonucleic Acid (mRNA) Is Dependent on the Biological Clock in the Suprachiasmatic Nucleus, whereas Diurnal Variation of TRβ1 mRNA Is Modified by Food Intake
  227. Glutamatergic clock output stimulates melatonin synthesis at night
  228. The Biological Clock: The Bodyguard of Temporal Homeostasis
  229. Temporal organization of the 24-h corticosterone rhythm in the diurnal murid rodent Arvicanthis ansorgei Thomas 1910
  230. The Diurnal Modulation of Hormonal Responses in the Rat Varies with Different Stimuli
  231. HIV-associated adipose redistribution syndrome as a selective autonomic neuropathy
  232. Central nervous determination of food storage—a daily switch from conservation to expenditure: implications for the metabolic syndrome
  233. Hypothesis: Shifting the Equilibrium From Activity to Food Leads to Autonomic Unbalance and the Metabolic Syndrome
  234. White Adipose Tissue: Getting Nervous
  235. The suprachiasmatic nucleus balances sympathetic and parasympathetic output to peripheral organs through separate preautonomic neurons
  236. The Daily Rhythm in Plasma Glucagon Concentrations in the Rat Is Modulated by the Biological Clock and by Feeding Behavior
  237. The biological clock tunes the organs of the body: timing by hormones and the autonomic nervous system
  238. The biological clock and its control of glucose homeostasis
  239. SCN transmitters and the timing of hormonal rhythms
  240. Correlation of Per1 and Per2 genes expression pattern in the SCN and melatonin peak reappearance after an 8h advance of the light/dark cycle
  241. Cardiovascular Control by the Suprachiasmatic Nucleus: Neural and Neuroendocrine Mechanisms in Human and Rat
  242. Suprachiasmatic control of melatonin synthesis in rats: inhibitory and stimulatory mechanisms
  243. Selective parasympathetic innervation of subcutaneous and intra-abdominal fat — functional implications
  244. Selective parasympathetic innervation of subcutaneous and intra-abdominal fat — functional implications
  245. Selective parasympathetic innervation of subcutaneous and intra-abdominal fat — functional implications
  246. Output pathways of the mammalian suprachiasmatic nucleus: coding circadian time by transmitter selection and specific targeting
  247. Chapter 5 Central vasopressin systems and steroid hormones
  248. A Suprachiasmatic Nucleus Generated Rhythm In Basal Glucose Concentrations
  249. Role for the Pineal and Melatonin in Glucose Homeostasis: Pinealectomy Increases Night-Time Glucose Concentrations
  250. Hypothalamic integration of central and peripheral clocks
  251. Control of the Estradiol-Induced Prolactin Surge by the Suprachiasmatic Nucleus
  252. A Daily Rhythm in Glucose Tolerance: A Role for the Suprachiasmatic Nucleus
  253. The Suprachiasmatic Nucleus Generates the Diurnal Changes in Plasma Leptin Levels
  254. Control of the Estradiol-Induced Prolactin Surge by the Suprachiasmatic Nucleus
  255. The Suprachiasmatic Nucleus Generates the Diurnal Changes in Plasma Leptin Levels
  256. The stimulatory effect of vasopressin on the luteinizing hormone surge in ovariectomized, estradiol-treated rats is time-dependent
  257. Functional Connections between the Suprachiasmatic Nucleus and the Thyroid Gland as Revealed by Lesioning and Viral Tracing Techniques in the Rat
  258. Melatonin sees the light: blocking GABA-ergic transmission in the paraventricular nucleus induces daytime secretion of melatonin
  259. Polysynaptic neural pathways between the hypothalamus, including the suprachiasmatic nucleus, and the liver
  260. Restricted Daytime Feeding Attenuates Reentrainment of the Circadian Melatonin Rhythm after an 8-h Phase Advance of the Light-Dark Cycle
  261. Circadian Organization of the Autonomic Nervous System
  262. Interindividual differences in the pattern of melatonin secretion of the Wistar rat
  263. Vasopressin induces a luteinizing hormone surge in ovariectomized, estradiol-treated rats with lesions of the suprachiasmatic nucleus
  264. GABA release from suprachiasmatic nucleus terminals is necessary for the light-induced inhibition of nocturnal melatonin release in the rat
  265. Anatomical and functional demonstration of a multisynaptic suprachiasmatic nucleus adrenal (cortex) pathway
  266. The suprachiasmatic nucleus—paraventricular nucleus interactions: A bridge to the neuroendocrine and autonomic nervous system
  267. Restricted Daytime Feeding Modifies Suprachiasmatic Nucleus Vasopressin Release in Rats
  268. Circadian Control of Insulin Secretion Is Independent of the Temporal Distribution of Feeding
  269. Novel environment induced inhibition of corticosterone secretion: physiological evidence for a suprachiasmatic nucleus mediated neuronal hypothalamo-adrenal cortex pathway
  270. Oxytocin innervation of spinal preganglionic neurons projecting to the superior cervical ganglion in the rat
  271. Direct vasoactive intestinal polypeptide-containing projection from the suprachiasmatic nucleus to spinal projecting hypothalamic paraventricular neurons
  272. Decrease of Endogenous Vasopressin Release Necessary for Expression of the Circadian Rise in Plasma Corticosterone: a Reverse Microdialysis Study
  273. Chapter 19 Rhythms of inhibitory and excitatory output from the circadian timing system as revealed by in vivo microdialysis
  274. Preface
  275. GABA Receptors in the Region of the Dorsomedial Hypothalamus of Rats Are Implicated in the Control of Melatonin and Corticosterone Release
  276. In vivo measurement of a diurnal variation in vasopressin release in the rat suprachiasmatic nucleus
  277. An attempt to correlate brain areas containing melatonin-binding sites with rhythmic functions: a study in five hibernator species
  278. Effects of illumination and enucleation on substance-P-immunoreactive structures in subcortical visual centers of golden hamster and Wistar rat
  279. Specific destruction of the serotonergic afferents to the suprachiasmatic nuclei prevents triazolam-induced phase advances of hamster activity rhythms
  280. Induction of arousal in hibernating European hamsters (Cricetus cricetus L.) by vasopressin infusion in the lateral septum
  281. Vasopressin and vasoactive intestinal peptide infused in the paraventricular nucleus of the hypothalamus elevate plasma melatonin levels
  282. Efferent projections of the suprachiasmatic nucleus in the golden hamster (Mesocricetus auratus)
  283. No triazolam-induced expression of Fos protein in raphe nuclei of the male Syrian hamster
  284. Neonatal lesions of the ventral tegmental area affect monoaminergic responses to stress in the medial prefrontal cortex and other dopamine projection areas in adulthood
  285. Sexual differences and seasonal variations in vasoactive intestinal peptide immunoreactivity in the suprachiasmatic nucleus of jerboa (Jaculus orientalis)
  286. Vasopressin-containing neurons of the suprachiasmatic nuclei inhibit corticosterone release
  287. Chapter 27 Peptidergic transmitters of the suprachiasmatic nuclei and the control of circadian rhythmicity
  288. Chapter 12 Age-dependent effects of lesioning the mesocortical dopamine system upon prefrontal cortex morphometry and PFC-related behaviors
  289. Morphometric analysis of prefrontal cortical development following neonatal lesioning of the dopaminergic mesocortical projection
  290. Ontogeny of open field activity in rats after neonatal lesioning of the mesocortical dopaminergic projection
  291. Monoamine and metabolite levels in the prefrontal cortex and the mesolimbic forebrain following neonatal lesions of the ventral tegmental area
  292. Influence of the mesocortical dopaminergic system on activity, food hoarding, social-agonistic behavior, and spatial delayed alternation in male rats.
  293. Influence of the mesocortical dopaminergic system on activity, food hoarding, social^agonistic behavior, and spatial delayed alternation in male rats.
  294. Neonatal thermal lesions of the mesolimbocortical dopaminergic projection decrease food-hoarding behavior
  295. The pre- and postnatal development of the dopaminergic cell groups in the ventral mesencephalon and the dopaminergic innervation of the striatum of the rat
  296. Development of the dopaminergic innervation in the prefrontal cortex of the rat
  297. Effects of neonatal thermal lesioning of the mesocortical dopaminergic projection on the development of the rat prefrontal cortex
  298. Neuroendocrine Regulation and the Autonomic Nervous System
  299. Faculty of 1000 evaluation for Pleiotropic roles of bile acids in metabolism.
  300. Faculty of 1000 evaluation for Rev-erbalpha, a heme sensor that coordinates metabolic and circadian pathways.
  301. Faculty of 1000 evaluation for Deconstruction of a neural circuit for hunger.
  302. Faculty of 1000 evaluation for Differential rescue of light- and food-entrainable circadian rhythms.
  303. Faculty of 1000 evaluation for Beneficial effects of subcutaneous fat transplantation on metabolism.
  304. Faculty of 1000 evaluation for Characterizing a mammalian circannual pacemaker.
  305. Faculty of 1000 evaluation for Social jetlag and obesity.