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Stainless Steel 316L offers excepti> The tags are designed with the well-being of small animals in mind, featuring smooth edges and a lightweight c> The tags are easy to attach and secure, making the process quick and stress-free for both the animals and the handlers.
Each tag is uniquely identifiable, allowing for precise tracking and management of laboratory animals, which is crucial for research accuracy.
We also offer customized numbering to meet specific user requirements, ensuring that each tag perfectly fits the unique needs of your research.Our Animal
dentity Tag System provides an indispensable tool for researchers, combining practicality with animal welfare. Choose our tags for a dependable and humane solution to animal identification.
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Grip strength meters are commonly used in research settings to assess the muscular strength of rodents, including rats and mice. Here's how they are utilized:
Muscular Function Assessment: Grip strength meters provide a quantitative measure of the muscular strength of rodents by assessing their ability to grasp and hold onto a horizontal bar or grid with their forelimbs. This measurement reflects the overall neuromuscular function and is particularly useful in studies focused on muscle physiology, aging, neuromuscular disorders, and drug efficacy testing.
Phenotypic Characterization: Grip strength measurements can be used as part of phenotypic characterization in animal models. Differences in grip strength between groups of rodents, such as strains, genders, ages, or experimental conditions, can provide insights into genetic factors, aging processes, disease progression, or the effects of interventions.
Neurological and Neuromuscular Disorders: Grip strength meters are valuable tools for studying neurological and neuromuscular disorders in rodents. Changes in grip strength can indicate motor deficits associated with conditions such as muscular dystrophy, amyotrophic lateral sclerosis (ALS), spinal cord injury, or peripheral neuropathy. Researchers can use grip strength measurements to track disease progression, evaluate therapeutic interventions, or screen potential drug candidates.
Pharmacological Studies: Grip strength assessments are often included in pharmacological studies to evaluate the effects of drugs or treatments on muscular function. For example, researchers can investigate the impact of muscle relaxants, analgesics, or muscle-building agents on grip strength in rodent models. These studies help assess the safety and efficacy of therapeutic interventions targeting muscular function.
Aging Research: Grip strength measurements are commonly used in aging research to assess age-related changes in muscular function and frailty in rodents. By longitudinally monitoring grip strength in aging animals, researchers can evaluate the progression of age-related decline in muscular strength and explore interventions to mitigate age-associated deficits.
Overall, grip strength meters serve as valuable tools for assessing muscular function and studying a wide range of physiological and pathological conditions in rodent models, contributing to our understanding of neuromuscular biology and the development of therapeutic strategies.
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Packaging Details : Box/ DHL
Delivery Time : 1 Weeks
A student physiograph, also known as a kymograph or physiological recording system, is a laboratory instrument used in physiology and biomedical research to record and analyze physiological signals and responses. Here's how it's used: Recording Physiological Signals: A student physiograph records various physiological signals such as heart rate, blood pressure, respiratory rate, muscle contractions, and electrical activity of the heart (ECG) or brain (EEG). These signals are typically measured using sensors or transducers that convert physiological phenomena into electrical signals. Experimental Setup: Researchers set up experiments by attaching sensors or electrodes to the subject (e.g., human, animal, or tissue preparation) to measure specific physiological parameters. The signals from these sensors are then transmitted to the physiograph for recording and analysis. Data Visualization: The physiograph records physiological signals over time, displaying them graphically on a rotating drum or digital screen. This allows researchers to visualize and analyze changes in physiological parameters in response to experimental manipulations, interventions, or stimuli. Data Analysis: Physiological recordings obtained from the student physiograph can be analyzed to extract various parameters such as amplitude, frequency, duration, and latency of physiological responses. This data analysis helps researchers quantify and interpret the physiological effects of experimental conditions or treatments. Teaching Tool: Student physiographs are commonly used in educational settings, such as undergraduate physiology or biomedical science laboratories, to teach students fundamental principles of physiological measurement, experimental design, and data analysis. Students learn how to set up experiments, record physiological signals, and interpret the results. Research Applications: In research laboratories, student physiographs are used for conducting experiments to investigate physiological mechanisms, pathophysiology of disease, effects of drugs or interventions, and responses to environmental stimuli. They are valuable tools for generating data that contributes to scientific understanding and medical advancements. Demonstration of Biological Concepts: Physiographs can also be used for demonstration purposes in public outreach events or scientific presentations. By recording and displaying physiological responses in real-time, researchers can illustrate biological concepts and engage audiences in understanding the complexity of living systems.
Our state of-the-art Multistage Magnetic Stirrer has been largely acclaimed by our customers for their customization options and for their consistency. They are available in 3-stage, 6-stage and 8-stage models based on client requirements. Each stirrer can be rotated at different RPM making it suitable for multiple testing purposes. The RPM range varies from 50-950 RPM. There is a separate RPM indicator and controller for each stirrer which makes the apparatus setup process very easy.
The Light and Dark Test, also known as the Light-Dark Box Test, is a behavioral assay used in pharmaceutical research to assess anxiety-like behaviors in rodents, specifically rats and mice. Here is how it is used and its significance in research: Assessment of Anxiety: The primary purpose of the Light and Dark Test is to evaluate anxiety-like behaviors in rodents. The test is based on the natural aversion of rodents to brightly lit areas and their preference for dark, enclosed spaces. This preference is linked to their instinct to avoid potential predators and open spaces. Test Setup: The apparatus typically consists of a box divided into two compartments: one brightly lit (light compartment) and the other dark (dark compartment). The light compartment is usually open and illuminated with bright light, while the dark compartment is enclosed and covered, providing a shaded area. Behavioral Measures: During the test, a rodent is placed in the middle of the apparatus, and its behavior is observed and recorded. Key behavioral measures include: Latency to Enter the Dark Compartment: The time taken for the rodent to enter the dark compartment from the light compartment. Time Spent in Each Compartment: The amount of time the rodent spends in the light compartment versus the dark compartment. Number of Transitions: The number of times the rodent moves between the light and dark compartments. Anxiolytic and Anxiogenic Drug Testing: The Light and Dark Test is commonly used to evaluate the effects of anxiolytic (anxiety-reducing) and anxiogenic (anxiety-inducing) compounds. Anxiolytic drugs typically increase the time spent in the light compartment and the number of transitions between compartments, indicating reduced anxiety. Conversely, anxiogenic substances reduce the time spent in the light compartment and the number of transitions. Studying Genetic and Environmental Factors: Researchers use the Light and Dark Test to study the impact of genetic modifications, environmental factors, and stress on anxiety-like behaviors. Comparing the behavior of genetically modified rodents with wild-type controls, or assessing the effects of environmental stressors, can provide insights into the biological and environmental determinants of anxiety. Behavioral Phenotyping: The test is part of a broader battery of behavioral assays used for phenotyping rodent models. It provides valuable data on anxiety-related behaviors, contributing to a comprehensive understanding of the behavioral phenotype of different strains or genetically engineered models. Mechanistic Studies: The Light and Dark Test can be used in combination with pharmacological interventions to investigate the underlying mechanisms of anxiety. By examining the effects of drugs that target specific neurotransmitter systems (e.g., serotonin, GABA), researchers can gain insights into the neurobiological pathways involved in anxiety. Validation of Animal Models: The test is used to validate animal models of anxiety disorders. By demonstrating that certain genetic, pharmacological, or environmental manipulations lead to anxiety-like behaviors in the Light and Dark Test, researchers can establish the relevance of these models for studying human anxiety conditions.
The shuttle box, also known as the shuttle avoidance box or active avoidance box, is an apparatus used in behavioral research with rats and mice to study learning, memory, anxiety, and the effects of various pharmacological agents. Here are the primary uses and applications of the shuttle box in pharmaceutical research: Learning and Memory Studies: Active Avoidance Learning: In the shuttle box, rodents learn to avoid an aversive stimulus, such as a mild electric shock, by moving from one compartment to another when a conditioned stimulus (e.g., a light or sound) is presented. The number of successful avoidances and the latency to avoid the shock are measured to assess the animal's learning and memory capabilities. Passive Avoidance Learning: In a variation of the test, the animal learns to avoid entering a compartment where it previously received a shock. This helps in studying memory retention and the effects of drugs on memory consolidation and retrieval. Testing Cognitive Enhancers and Impairments: The shuttle box is used to evaluate the effects of cognitive enhancers, such as nootropic drugs, on learning and memory. Improvements in avoidance behavior suggest enhanced cognitive function. Conversely, it is also used to study cognitive impairments induced by various factors such as aging, neurodegenerative diseases, or drug treatments, providing insights into mechanisms of cognitive decline and potential therapeutic interventions. Anxiety and Stress Research: The shuttle box can be used to assess anxiety and stress responses. The latency to move between compartments and the overall activity can indicate the animal's anxiety levels. Pharmacological agents that reduce anxiety typically decrease the latency and increase exploratory behavior. Pharmacological Testing: Researchers use the shuttle box to test the effects of various pharmacological agents, including anxiolytics, antidepressants, antipsychotics, and cognitive enhancers. By observing changes in avoidance behavior, researchers can infer the efficacy and potential side effects of these drugs. Dose-response studies can be conducted to determine the optimal dosage and efficacy of drugs. Mechanistic Studies: The shuttle box helps in investigating the neurobiological mechanisms underlying learning, memory, anxiety, and stress. By using specific pharmacological agents or genetic manipulations, researchers can study the role of different neurotransmitter systems (e.g., dopamine, serotonin, glutamate) and brain regions in these processes. Behavioral Phenotyping: It is used for behavioral phenotyping of genetically modified rodents. By comparing the performance of wild-type and genetically altered animals in the shuttle box, researchers can identify genes that play a critical role in cognitive and emotional behaviors. Validation of Animal Models: The shuttle box is employed to validate animal models of psychiatric and neurological disorders. Demonstrating that certain genetic or environmental manipulations result in altered avoidance behavior helps establish these models for studying human diseases and testing potential treatments.
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Our highly accurate Telethermometer has been adorning the top ranks in the list of most preferred and sold Telethermometers in the market. They can consecutively take up to 10 readings and can be used to obtain the internal temperature of various organisms like mice, pig, guinea pig etc. The readings can be observed live on the computer using our special software provided along with the equipment. These are known for their extremely accurate readings and the ease with which they can be used.
Milton Enterprises introduces digital telethermometer having 0.1C, on screen user can observe up to 10 channels at a time, it will be used for mice, rat, rabbit & guinea pig. And it is used to measure temperature of internal body in different kind of pharmaceutical, medical, and research studies.
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it is used to Test Pyrogen Test in Rabbit, Rat & Mice
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Packaging Details : Box/DHL
Delivery Time : 1 week
Milton's Rotary Shaker is very usefull in Pharmaceutical Experiments in Pharmacy Colleges, Industries, & Research centers
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Packaging Details : BOX
Delivery Time : 1 WEEK
Digital friability test apparatus for pharmaceutical laboratories.
Digital Temperature Indicator and Controller, Temperature Range Ambient to 150 Degree C.or as per user desired, Temperature Accuracy: 0.1 Degree C. , Easy removable Stainless Steel Test tube stand.
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Packaging Details : Safety Box
Delivery Time : 2 to 3 weeks
The Narrow Beam Apparatus is a valuable tool in behavioral neuroscience and pharmacology due to its ability to provide precise and quantifiable assessments of motor function. Its applications include:
Drug Development: Screening and evaluating the effects of pharmacological agents on motor coordination and balance. Neurological Research: Studying the progression and treatment of neurological and neurodegenerative diseases. Genetic Studies: Understanding the genetic basis of motor function and the impact of genetic modifications. Toxicology: Assessing the neurotoxic effects of environmental and chemical agents.
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Packaging Details : Bos
Delivery Time : 1 week
Electroconvulsometer is an instrument used in pharmacology and neuroscience research to induce and measure convulsions (seizures) in animal models. This device is primarily used in the study of epilepsy, seizure thresholds, and the efficacy of anticonvulsant drugs. Key Uses of an Electroconvulsometer: Seizure Induction: The device delivers controlled electrical stimuli to animals, typically rodents, to induce seizures. This is crucial for testing the efficacy of potential anticonvulsant medications. Measurement of Seizure Activity: By recording the onset, duration, and intensity of seizures, researchers can evaluate the pharmacological effects of different substances on seizure activity. Threshold Determination: It helps determine the seizure threshold the minimum electrical stimulus required to induce a seizure. Changes in the seizure threshold can indicate the effectiveness of anticonvulsant treatments. Components of an Electroconvulsometer: Electrodes: Placed on the animal to deliver electrical pulses. Stimulus Controller: Regulates the intensity, duration, and frequency of the electrical stimulus. Recording System: Monitors and records the physiological responses, such as muscle contractions and brain activity. Applications: Anticonvulsant Drug Testing: Evaluating new drugs for their ability to prevent or reduce the severity of seizures. Epilepsy Research: Understanding the mechanisms underlying epileptic seizures and testing potential therapeutic interventions. Neuropharmacology: Studying the effects of various pharmacological agents on brain function and seizure activity.
We manufacture and supply advanced Tablet Hardness Tester for the use to many pharmaceutical colleges, medical colleges and advanced research institutes. The level of hardness can be displayed in three different units which can be chosen according to the needs. There is a backup power facility to keep the device running in the case of power failure. Automatic peak point calculation has been enabled to find breaking point of tablet automatically.
Milton Enterprises introduces advanced tablet hardness tester, which having three kind of unit to display result as per select by user as Kg / Ib / N, battery backup facility provided to avoid interruption in experiment due to electricity failure, without peak and auto peak facility has provided to get break point of tablet automatically, dual sided screen resolution provided to comfort to see from front end and back end to user, in addition to all these features Milton Enterprises provides PC connectivity but it is optional by this facility user can configure instrument as their desire and walk out for another task .
In the euthanasia chamber setup, a CO2 cylinder is connected via tubing to one end (Lower End) of a flow controller, while the other end of the flow controller (Upper End) is connected to the Upper nozzle of the chamber. The chamber is designed to be airtight. When the user initiates CO2 flow using the flow controller, the density of CO2 is being higher than that of oxygen (O2), results in CO2 filling the chamber from the bottom to the top. This directional flow ensures that CO2 is first introduced into the lower portion of the chamber and gradually fills upward.
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Packaging Details : BOX
Delivery Time : 2 weeks
Our product, the Probe Sonicator has been greatly regarded as the most efficient and easy to use equipment for various pharmaceutical testing purposes. Our digital reader gives accurate reading and the testing stand comes with a clamp for adjusting the height of the testing apparatus. We use high precision microcontrollers for accurate readings. The machine follows international standards in quality and is manufactured in our ISO certified factory, undergoing strict testing and verification.
Technical Features :
Our highly versatile Digital Organ Bath has become the most sought after organ bath by all the pharmacy colleges, medical colleges and other famous research institutes. These offer highly accurate readings and have digital indicators. The organ tubes have automatic fill and drain functionalities making it much easier to operate and maintain. The chamber is easy to clean, made of crystal clear substance and devoid of any kind of irregularities to give it the perfect finish.
Milton Enterprises introduces digital organ bath having fully featured as automatic fill organ tube, automatic drain organ tube, whenever at the time of base line and contact tine of drug and tissue, reservoir coil, digital temperature controller having 0.1°C resolution and accuracy is 0.1°C, in addition to all these use get uniform temperature throughout water tank By submersible water circulation pump.
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Technical Features :
Model : LEOB-1D / LEOB-2D / LEOB-3D / LEOB-4D
Features :
Technical Features :
Model : LEOB-1A / LEOB-2A / LEOB-3 A / LEOB-4 A
Features :
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Payment Terms : T/T,
Packaging Details : Box
Delivery Time : 8 To 10 days
We are experts in the supply and manufacture of Video Tracking System required for monitoring the laboratories and research organisms. Our system can track and detect even the minute changes in the position and transfer the readings to the special software provided with the system. The software can draw graphs or compare various parameters which can be easily selected from the software. The high resolution of the camera enables the researchers to monitor the behavior remotely.
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Video Tracking System for all Types of Mazes : Video tracking system is useful in the study of laboratory behavior, such as to screen Grooming, Rearing, Self biting, Try to escape, Time spending in specific region, travel distance, No of visits, Etc. all these parameters are study in behavior study, with Elevated Plus maze, Y maze, T-maze, 8 arm radial maze, water maze, tail suspension test, Forced swimming test, open field.
Apparatus : VIDEO TRACKING System for all Mazes : for Force swimming test, Tail Suspension Test, plus Maze, Y- Maze, T- Maze, Zero Maze, Water Maze, Open Field Maze, Video Tracking System is to used to screen Travel Distance, Time Spend in Specific Region, Number of Visit, Exploration, Rearing, Grooming, Mobility, Immobility, Strong Mobility, Try to Escape. All these parameter we can’t screen accurately by giving personal presence, so first record the video of the particular maze & play that video in the Video tracking system& screen so many parameter & Data is automatically exported for statistical analysis in excel as above & more than that as you desired. From following mazes as, Intex wired camera (14 Megapixels) Including Video Tracking System.
We are the pioneers in the manufacturing and supply of Tablet Coating Machine required for pharmaceutical colleges, industries as well as research institutes. They are equipped with digital RPM indicator and hot air flow mechanism to maintain the temperature while performing the coating process. The coating pan is made from high quality stainless steel which can be customized based on the requirement of the customers. We follow all international quality standards while manufacturing our products.
Detalis :
Tablet Coating Machine / Pan : This apparatus is use to coating the tablet in the Pharmaceutical industries as RnD level, or in pharmacy colleges , having digital RPM indicator and controller with the range as 10 RPM to 500 RPM , In addition to that Main facility that is Hot air flow with heating range ambient to 150 degree C, with digital Temperature indicator and controller, coating pan is made of stainless steel 304, or as user required on demand stainless steel 316 also.