Activity, Motor Control & Coordination
Pain - Thermal Allodynia / Hyperalgesia
Pain - Spontaneous Pain - Postural Deficit
Pain - Mechanical Allodynia / Hyperalgesia
Anxiety & Depression Disorder
Learning/Memory - Attention - Addiction
Physiology & Respiratory Research
Metabolism & Nutrition
Contextual Kits for T2CT - Dual Aversion & CPP
The Contextual Kits for T2CT have been designed to enhance thermal place preference studies...
![Dynamic Weight Bearing 2.0 – Postural Module [Add-on]](https://bioseb.com/733-home_default/dynamic-weight-bearing-20-add-on-postural-module.jpg)
Pain
Central Nervous System (CNS)
Neurodegeneration
Sensory system
Motor control
Mood Disorders
Other disorders
Muscular system
Joints
Metabolism
Cross-disciplinary subjects
CONFERENCES & MEETINGS 
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OXYLET- Indirect Calorimeter
Reference : OXYLET
Category : Metabolism & Nutrition
The OXYLET system - Physiocage is a modular system allowing the integration
of respiratory metabolism (O2 consumption / CO2 production),
food & drink intake, activity and rearing measurements
in specifically adapted home cages in rodents.
Présentation
Respiratory metabolism is evaluated by means of indirect calorimetry an optimized system for studies on laboratory rodents (mice and rats).
Operating principle
Food drink intake and activity are evaluated using a weight transducer technology. This technology allows the continuous assessment of the animal food and drink consumption as well as spontaneous activity with highest accuracy and stability.
Rearing assessment requires simply an additional InfraRed (IR) frame connected to the system. The modular design provides easily expandability for any of the options of the system.
The researcher can select only those components of initial interest... but with the flexibility of adding others at a later date.
Special Oxylet configurations are available for performing calorimetry studies with rat neonates or during treadmill experiments.
 | %20View%202.jpg) |
| Oxylet is a complet system | Modular Physiocage for Rat (complete) |
One of the main innovation of the OXYLET system is that to give an accurate measure it does not need the traditionnal air drying units or dessicant columns that can be found in older technology systems. Another strong point is the use of high sensitive sensors with a very fast response time for both O2 and CO2 measures.
Standard airtight cages enable to follow up rodent metabolism for several hours. Airtight Home cages are suggested with food and drink distributors when several days studies have to be performed.
OXYLET
Data sheet
- Applications
- Central Nervous System (CNS)
Cross-disciplinary subjects
Metabolism
Motor Control
Muscular System
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[title] => Apelin Treatment Increases Complete Fatty Acid Oxidation- Mitochondrial Oxidative Capacity- and Biogenesis in Muscle of Insulin-Resistant Mice-
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[paragraph_crop] => Functional variability in corticosteroid receptors is a major component of strain differences [...]
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[title] => Progressive motor and respiratory metabolism deficits in post-weaning Mecp2- male mice-
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[image_presente] =>
[date] => 2010-11-20 00:00:00
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[title] => Constitutive expression of suppressor of cytokine signalling-3 in skeletal muscle leads to reduced mobility and overweight in mice-
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[date] => 2009-10-30 00:00:00
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[title] => Nonalcoholic hepatic steatosis in Zucker diabetic rats- spontaneous evolution and effects of metformin and fenofibrate-
[paragraph_crop] => Nonalcoholic hepatic steatosis in Zucker diabetic rats: spontaneous evolution and effects of [...]
[image_presente] =>
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[url] => https://bioseb.com/en/news/fxr-deficiency-confers-increased-susceptibility-to-torpor--n129
[title] => FXR-deficiency confers increased susceptibility to torpor-
[paragraph_crop] => FXR-deficiency confers increased susceptibility to torpor.
[image_presente] =>
[date] => 2007-11-13 00:00:00
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[title] => Resistance to high-fat-diet-induced obesity and sexual dimorphism in the metabolic responses of transgenic mice with moderate uncoupling protein 3 overexpression in glycolytic skeletal muscles-
[paragraph_crop] => Resistance to high-fat-diet-induced obesity and sexual dimorphism in the metabolic responses [...]
[image_presente] =>
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[link_rewrite] => publications
)
[64] => Array
(
[id_prestablog_categorie] => 64
[title] => Skeletal functions
[link_rewrite] => Skeletal-functions
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)
)
[112] => Array
(
[id] => 112
[url] => https://bioseb.com/en/news/-n112
[title] =>
[paragraph_crop] =>
[image_presente] =>
[date] => 2007-04-01 00:00:00
[categories] => Array
(
[79] => Array
(
[id_prestablog_categorie] => 79
[title] => Adioposity
[link_rewrite] => Adioposity
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[81] => Array
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[id_prestablog_categorie] => 81
[title] => Diabetes, Insulin & Glucose
[link_rewrite] => Diabetes-Insulin-Glucose
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[83] => Array
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[id_prestablog_categorie] => 83
[title] => Energy expenditure
[link_rewrite] => Energy-expenditure
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[23] => Array
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[id_prestablog_categorie] => 23
[title] => Metabolism
[link_rewrite] => Metabolism
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[2] => Array
(
[id_prestablog_categorie] => 2
[title] => Publications
[link_rewrite] => publications
)
)
)
[107] => Array
(
[id] => 107
[url] => https://bioseb.com/en/news/involvement-of-cholecystokinin-2-receptor-in-food-intake-regulation--hyperphagia-and-increased-fat-deposition-in-cholecystokinin-2-receptor-deficient-mice-n107
[title] => Involvement of Cholecystokinin 2 Receptor in Food Intake Regulation- Hyperphagia and Increased Fat Deposition in Cholecystokinin 2 Receptor-Deficient Mice
[paragraph_crop] => Involvement of Cholecystokinin 2 Receptor in Food Intake Regulation: Hyperphagia and Increased [...]
[image_presente] =>
[date] => 2007-03-01 00:00:00
[categories] => Array
(
[82] => Array
(
[id_prestablog_categorie] => 82
[title] => Food intake / Nutrition
[link_rewrite] => Food-intake-Nutrition
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[23] => Array
(
[id_prestablog_categorie] => 23
[title] => Metabolism
[link_rewrite] => Metabolism
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[80] => Array
(
[id_prestablog_categorie] => 80
[title] => Obesity & Overweight
[link_rewrite] => Obesity-Overweight
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[2] => Array
(
[id_prestablog_categorie] => 2
[title] => Publications
[link_rewrite] => publications
)
)
)
[42] => Array
(
[id] => 42
[url] => https://bioseb.com/en/news/dysregulation-of-energy-homeostasis-in-mice-overexpressing-insulin-like-growth-factor-binding-protein-6-in-the-brain--n42
[title] => Dysregulation of energy homeostasis in mice overexpressing insulin-like growth factor-binding protein 6 in the brain-
[paragraph_crop] => Dysregulation of energy homeostasis in mice overexpressing insulin-like growth factor-binding [...]
[image_presente] =>
[date] => 2005-06-30 00:00:00
[categories] => Array
(
[37] => Array
(
[id_prestablog_categorie] => 37
[title] => Brain fonctions
[link_rewrite] => Brain-fonctions
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[11] => Array
(
[id_prestablog_categorie] => 11
[title] => Central Nervous System (CNS)
[link_rewrite] => Central-Nervous-System-(CNS)
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[77] => Array
(
[id_prestablog_categorie] => 77
[title] => General metabolism
[link_rewrite] => General-metabolism
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[23] => Array
(
[id_prestablog_categorie] => 23
[title] => Metabolism
[link_rewrite] => Metabolism
)
[2] => Array
(
[id_prestablog_categorie] => 2
[title] => Publications
[link_rewrite] => publications
)
[39] => Array
(
[id_prestablog_categorie] => 39
[title] => Spinal Cord
[link_rewrite] => Spinal-Cord
)
)
)
)
1Number of publications:
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