MHBL-7002 Type : Peppermint This radiant herbal blend conceals countless health and wellbeing properties and is used to treat gastric disorders and control tuberculosis. A remarkable creation that induses a strong mint flavor. An enchanting cup of magical possibilities.
This Radiant Herbal Blend conceals countless health and wellbeing properties and is used to treat Gastric disorders and control Tuberculosis. A remarkable creation that infuses a strong mint flavor. An enchanting cup of magical possibilities
Input: 220V AC±20% Output Power: 7KW Related Current: 32A (single phase) Fixed Current, with Screen,with Indicator Shell Material: Plastic, UL94 V-0 card reader activated (Home Use) single gun, with cable 5m (optional)
Diamond cut coconut - is well known as young coconut from Vietnam due to its appearance like a "diamond", it is called the "Diamond cut coconut
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Kurtbomsan 3 Stage Electronic Mice Chaser is a high quality rodent and pest chaser. It produces a sound sweeping through different kHz frequencies and this way tosses away the mice, rats, acaroids, scorpions, ants, etc from where it has been placed. It can be used in granaries, flour mills, workplaces and housing estates. It can easily be used in places where children and pets are present since it does not use any of the primitive means of drugs, poison, adhesive or trap which pose a threat to the human health and the environment. 3 Stage 1500-3000-4500 m�² area of influence. The device should be placed at the center of the area for which it is going to be used and not placed behind an object. It should be placed 30 to 140 cm above the ground. In the first week of usage the number of rodents and pests may increase with the effect of the device. It can sometimes become effective within 5-6 weeks. It should be used long time for obtaining the maximum effect. It may be necessary to use more than one device in large or divided areas. It does not affect pets or other devices.
Emits 30 different ultrasonic sound waves which disturb the birds and scares them away Effective area in 10000 square meters. Total effective solution in 10-12 days Useful for houses, balconies, roofs, etc Solar powered CE Certificate Day and Night modes Volume and frequency selection Actual effective solution in 10 to 12 days. Battery powered KBS S1 & S2 & S3
Works with propane gas cylinders No power supply needed, ignition by magneto Explosion time gap selection between 2 and 30 minutes Producing 110 to 120 db. sound 2500 explosions with an standard LPG cylinder Effective area of 10000 m2 Runs flawlessly in any weather conditions Plastic parts are resistant to ultraviolet rays and galvanized metal parts Easy to setup and simple to operate. CE certified. Using the tripod, the cannon rotates around its axis at each blast. Effective in different directions due to rotation Useful for tall plants such as crops and sunflowers Adjustable height between 1 and 1.5 meter Galvanized steel pipes KBS M1 & KBS M2
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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. Overall, student physiographs are versatile instruments that play a vital role in physiological research and education. They enable researchers and students to study, record, and analyze physiological responses, fostering a deeper understanding of human and animal biology.
Isolated organ baths are essential tools in pharmacology for studying the effects of drugs on isolated organs or tissues. Here's how they are used: Drug Screening and Testing: Isolated organ baths allow pharmacologists to assess the pharmacological activity of drugs on specific organs or tissues in a controlled environment. By exposing the isolated tissue to different concentrations of a drug, researchers can observe and measure its effects on physiological parameters such as contraction, relaxation, or electrical activity. Mechanism of Action Studies: Pharmacologists use isolated organ baths to investigate the underlying mechanisms of drug action. By examining how drugs modulate the contractile or electrical properties of isolated tissues, researchers can elucidate the pharmacodynamic pathways involved and gain insights into the drug's mode of action. Receptor Pharmacology: Isolated organ baths are particularly useful for studying receptor pharmacology. Researchers can assess the interaction between drugs and specific receptors present in the isolated tissue by measuring the dose-response relationship and determining the potency and efficacy of various pharmacological agents. Toxicity Testing: Isolated organ baths can also be used to evaluate the toxic effects of drugs on specific organs or tissues. By exposing the isolated tissue to increasing concentrations of a drug, researchers can assess its potential to induce adverse reactions such as tissue damage, impaired function, or cytotoxicity. Drug Development: Isolated organ baths play a crucial role in the early stages of drug development by providing valuable data on the pharmacological properties and safety profile of new drug candidates. Pharmacologists use this information to prioritize lead compounds for further preclinical and clinical evaluation. Teaching and Research: Isolated organ baths are widely used in academic settings for teaching pharmacology principles and conducting research experiments. They provide students and researchers with hands-on experience in experimental pharmacology techniques, allowing them to explore the effects of drugs on biological systems in a laboratory setting. Overall, isolated organ baths are versatile tools that facilitate the study of drug effects on isolated tissues, providing valuable insights into pharmacological mechanisms, drug-receptor interactions, and potential therapeutic applications. They are indispensable instruments in pharmacological research and drug discovery efforts.
The Franz diffusion cell apparatus is a laboratory instrument used in pharmaceutical research to study the release of drugs or active ingredients from topical formulations, such as creams, gels, ointments, or transdermal patches, across biological membranes. Here's how it's used: In Vitro Drug Release Studies: The Franz diffusion cell apparatus is primarily employed for conducting in vitro drug release studies. It consists of two compartments separated by a biological membrane (usually animal or human skin), with the test formulation applied to one side (donor compartment) and a suitable receptor medium (often a buffer solution) in the other side (receptor compartment). Membrane Permeation Studies: The apparatus allows researchers to investigate the permeation of drugs or active ingredients through biological membranes, mimicking the conditions encountered in vivo. By monitoring the concentration of the drug in the receptor medium over time, researchers can quantify the rate and extent of drug permeation across the membrane. Formulation Optimization: Pharmaceutical scientists use the Franz diffusion cell apparatus to evaluate the performance of different topical formulations and optimize their composition for enhanced drug delivery. Factors such as the type of excipients, formulation viscosity, drug concentration, and pH can be varied to assess their impact on drug permeation and skin penetration. Transdermal Patch Evaluation: For transdermal drug delivery systems, such as patches, the Franz diffusion cell apparatus is instrumental in assessing the release kinetics and permeation characteristics of drugs through the skin. This information is crucial for designing patches with optimal drug delivery profiles and ensuring therapeutic efficacy. Skin Penetration Studies: In addition to drug release, the Franz diffusion cell apparatus can be used to investigate the penetration of drugs or active ingredients into different layers of the skin. By analyzing samples collected from various depths within the skin, researchers can assess the distribution and localization of the drug following topical application. Bioequivalence Studies: The Franz diffusion cell apparatus is also utilized in bioequivalence studies to compare the performance of generic and reference topical formulations. By measuring the rate and extent of drug release and permeation, researchers can determine whether the generic formulation is therapeutically equivalent to the reference product.
In pyrogen testing on rabbits, a telethermometer plays a crucial role in monitoring body temperature changes. Here's how it's used: Temperature Measurement: Pyrogen testing involves the administration of a test substance (e.g., potential pharmaceutical products or medical devices) to the rabbit, followed by monitoring for signs of fever (pyrexia). A telethermometer is used to continuously measure the rabbit's body temperature before and after the administration of the test substance. Baseline Measurement: Before conducting the test, baseline body temperature readings are taken to establish a reference point. This helps in identifying any deviations from the normal temperature range during the test period. Detection of Pyrogenic Response: Following the administration of the test substance, the rabbit's body temperature is monitored closely using the telethermometer. An increase in body temperature above a predefined threshold indicates a pyrogenic response, suggesting the presence of fever-inducing substances (pyrogens) in the test substance. Real-time Monitoring: A telethermometer allows for real-time monitoring of body temperature changes, providing researchers with immediate feedback on the rabbit's physiological response to the test substance. This enables prompt decision-making regarding the continuation or termination of the test based on the observed pyrogenic response. Data Recording and Analysis: Telethermometers often come with data recording capabilities, allowing researchers to log temperature measurements at regular intervals throughout the testing period. This data can be analyzed to assess the onset, duration, and magnitude of the pyrogenic response, aiding in the interpretation of test results. Animal Welfare: Continuous temperature monitoring with a telethermometer helps ensure the welfare of the test animals by enabling early detection of fever and prompt intervention if necessary. This minimizes potential discomfort or distress experienced by the animals during the testing process. Overall, the use of a telethermometer in pyrogen testing on rabbits enhances the accuracy, reliability, and efficiency of the testing procedure, ultimately contributing to the safety evaluation of pharmaceutical products and medical devices intended for human use.
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.
Digital plethysmometers can indeed be used to measure edema in rodent models. Here's how they can be applied for this purpose: Paw Volume Measurement: One common method involves measuring changes in paw volume as an indicator of edema formation. The rodent's paw is placed in a chamber connected to the digital plethysmometer. By measuring the displacement of water or air caused by the paw, the instrument can accurately quantify changes in paw volume over time. Inflammatory Models: In research settings, edema is often induced by inflammatory stimuli such as carrageenan injection or trauma. Digital plethysmometers allow researchers to monitor the progression of edema by measuring changes in paw volume at various time points post-induction. Drug Screening: Researchers can use digital plethysmometers to evaluate the efficacy of anti-inflammatory drugs or compounds in reducing edema formation. By comparing paw volume measurements between treated and untreated groups, the effectiveness of potential therapeutics can be assessed. Genetic Studies: Digital plethysmometers are also useful in studying the genetic basis of edema formation. By comparing edema responses between different strains of rodents or genetically modified models, researchers can identify genes or pathways involved in regulating inflammation and fluid accumulation. Longitudinal Monitoring: Digital plethysmometers enable longitudinal monitoring of edema progression and resolution over time. This longitudinal approach provides valuable insights into the dynamics of edema formation and the temporal effects of interventions.
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1. Weight: Boxing gloves come in various weights, ranging from 8oz to 16oz (227g to 454g). The most common weights are 12oz (340g) and 14oz (397g). 2. Size: Gloves come in different sizes, including small, medium, large, and extra-large. The size is usually determined by the circumference of the hand around the knuckles. 3. Material: Boxing gloves are typically made from leather, synthetic leather, or a combination of both. 4. Padding: The padding in boxing gloves is usually made from foam, gel, or a combination of both. The padding helps to absorb impact and protect the hands. 5. Closure: Boxing gloves have a closure system, such as a lace, strap, or Velcro, to secure the glove around the hand. 6. Thumb attachment: Some boxing gloves have a attached thumb, while others have a detached thumb. 7. Wrist support: Boxing gloves often have a wrist strap or wrap to provide additional support and stability. 8. Palm material: The palm of the glove may be made from a different material, such as a grip bar or a non-slip material, to help with grip and control. 9. Color and design: Boxing gloves come in a variety of colors and designs, often with a brand logo or other graphics. 10. Certification: Boxing gloves may be certified by organizations such as the International Boxing Federation (IBF) or the World Boxing Council (WBC) to ensure they meet safety standards.
- Purpose: Weightlifting gloves are designed to protect your hands while you lift and improve your grip on the bar. - Features: They usually have grip pads to improve grip strength, wrist wraps to support your wrists, and breathable materials like mesh or spandex to keep your hands cool and dry. - Types: There are fingerless gloves for more flexibility and full-finger gloves for extra protection. Some gloves have extra wrist support or padding for added comfort. - Materials: Common materials include leather, neoprene, silicone, and elastic fabrics. - Benefits: Weightlifting gloves can help prevent blisters and rips, improve grip, and provide protection from germs when sharing equipment. - Choosing: Consider factors like size, fit, durability, grip, and wrist support when selecting the right gloves for your needs. - Price: Weightlifting gloves can range from around $4 to over $8, depending on the gloves design, quality, and features.
