Jove
Visualize
Contact Us
JoVE
x logofacebook logolinkedin logoyoutube logo
ABOUT JoVE
OverviewLeadershipBlogJoVE Help Center
AUTHORS
Publishing ProcessEditorial BoardScope & PoliciesPeer ReviewFAQSubmit
LIBRARIANS
TestimonialsSubscriptionsAccessResourcesLibrary Advisory BoardFAQ
RESEARCH
JoVE JournalMethods CollectionsJoVE Encyclopedia of ExperimentsArchive
EDUCATION
JoVE CoreJoVE BusinessJoVE Science EducationJoVE Lab ManualFaculty Resource CenterFaculty Site
Terms & Conditions of Use
Privacy Policy
Policies

Related Concept Videos

Anticholinesterase Agents: Poisoning and Treatment01:26

Anticholinesterase Agents: Poisoning and Treatment

Anticholinesterases, also known as cholinesterase inhibitors, work by blocking the breakdown of acetylcholine, leading to its accumulation in the synaptic cleft. This accumulation indirectly enhances both muscarinic and nicotinic actions. These agents are classified as reversible or irreversible based on their mechanism of action.     
Irreversible agents form a strong bond with the cholinesterase enzyme, making it inactive. The breakdown of the phosphorylated enzyme is slower than the...
Depolarizing Blockers: Pharmocokinetics01:19

Depolarizing Blockers: Pharmocokinetics

Depolarizing blockers are administered through intravenous injection. Succinylcholine is the most common choice of depolarizing blockers in emergency clinical practices. Although they have a rapid onset, they readily diffuse away from the motor end plate into the extracellular fluid. They are metabolized by enzymes such as liver butyrylcholinesterase and plasma pseudocholinesterases. This produces a short duration of action, typically 5-10 minutes long, unlike nondepolarizing blockers, which...
Depolarizing Blockers: Mechanism of Action01:28

Depolarizing Blockers: Mechanism of Action

Depolarizing blockers act on skeletal muscle fibers' membranes and induce their depolarization. Most depolarizing blockers have two quaternary N+ atoms that bind the nicotinic acetylcholine receptors and cause neuromuscular blockade within minutes.
Succinylcholine is the most commonly used depolarizing blocker. Chemically, it constitutes two molecules of acetylcholine joined together by an acetate methyl group. They act on the receptors in the same way as acetylcholine. Because succinylcholine...
Tetanus01:29

Tetanus

Tetanus is a life-threatening neurological disorder characterized by persistent muscle contractions and spastic paralysis. It is caused by Clostridium tetani, a motile, Gram-positive, rod-shaped, obligate anaerobe. These bacteria produce terminal endospores, giving them a distinctive “lollipop” or “tennis-racket” appearance. They thrive in anaerobic environments, such as those found in deep puncture wounds.Once introduced into the body, the spores germinate into vegetative cells. These cells...
Skeletal Muscle Relaxants: Adverse Effects01:21

Skeletal Muscle Relaxants: Adverse Effects

Skeletal muscle relaxants are widely used for muscle paralysis and relieving pain following any muscle injury or stiffness. However, depending on the drug type, they can have adverse effects that range from mild to severe. Usually, nondepolarizing neuromuscular blockers have minimal side effects. For example, drugs like d-tubocurarine, cisatracurium, and rocuronium cause hypotension, whereas drugs like baclofen, when stopped abruptly, can lead to the recurrence of spastic conditions.
Unlike...
Physical Properties of Amines01:26

Physical Properties of Amines

Amines with low molecular weight are usually gaseous at room temperature, while those with high molecular weight are liquid or solids in nature. Usually, low molecular weight amines have a rotten fish-like smell. Diamines typically have a pungent smell. For instance, cadaverine and putrescine, depicted in Figure 1, are two molecules responsible for decaying tissue.

You might also read

Related Articles

Articles linked to this work by shared authors, journal, and citation graph.

Sort by
Same author

Descriptive assessment of adverse events associated with midazolam-etomidate versus saline-etomidate in healthy hydromorphone premedicated dogs.

The Journal of small animal practice·2021
Same author

Complications following arthroscopic surgery of the hip: a systematic review of 36 761 cases.

The bone & joint journal·2017
Same author

Fluctuating asymmetry of the normal facial skeleton.

International journal of oral and maxillofacial surgery·2017
Same author

Delineation of gliomas using radial metabolite indexing.

NMR in biomedicine·2014
Same author

A quick guide to survey research.

Annals of the Royal College of Surgeons of England·2014
Same author

Neurologic melioidosis in an imported pigtail macaque (Macaca nemestrina).

Veterinary pathology·2013
Same journal

Acute-onset neurologic signs in an indoor/outdoor domestic shorthair cat.

Journal of the American Veterinary Medical Association·2026
Same journal

Progressive exophthalmos and strabismus in a 4-year-old Jersey steer.

Journal of the American Veterinary Medical Association·2026
Same journal

Orchiectomy in horses: closed technique and primary closure of the incision.

Journal of the American Veterinary Medical Association·2026
Same journal

Stranguria in a 3-month-old Holstein-Friesian heifer.

Journal of the American Veterinary Medical Association·2026
Same journal

Caudal vena cava-to-aorta ratio in hemodynamically stable and unstable client-owned rabbits.

Journal of the American Veterinary Medical Association·2026
Same journal

Dogs with intrahepatic portal hypertension of congenital cause have distinct diagnostic findings compared to dogs with chronic hepatitis-related portal hypertension.

Journal of the American Veterinary Medical Association·2026
See all related articles

Related Experiment Video

Updated: Jun 7, 2026

Manufacturing and Using Piggy-back Multibarrel Electrodes for In vivo Pharmacological Manipulations of Neural Responses
06:52

Manufacturing and Using Piggy-back Multibarrel Electrodes for In vivo Pharmacological Manipulations of Neural Responses

Published on: January 18, 2013

Strychnine poisoning

T L JONES

    Journal of the American Veterinary Medical Association
    |October 29, 2010
    PubMed
    Summary

    No abstract available in PubMed .

    Keywords:
    STRYCHNINE/toxicity

    More Related Videos

    Induction of Acute Skeletal Muscle Regeneration by Cardiotoxin Injection
    07:39

    Induction of Acute Skeletal Muscle Regeneration by Cardiotoxin Injection

    Published on: January 1, 2017

    Identification and Analysis of Myogenic Progenitors In Vivo During Acute Skeletal Muscle Injury by High-Dimensional Single-Cell Mass Cytometry
    11:02

    Identification and Analysis of Myogenic Progenitors In Vivo During Acute Skeletal Muscle Injury by High-Dimensional Single-Cell Mass Cytometry

    Published on: December 1, 2023

    Related Experiment Videos

    Last Updated: Jun 7, 2026

    Manufacturing and Using Piggy-back Multibarrel Electrodes for In vivo Pharmacological Manipulations of Neural Responses
    06:52

    Manufacturing and Using Piggy-back Multibarrel Electrodes for In vivo Pharmacological Manipulations of Neural Responses

    Published on: January 18, 2013

    Induction of Acute Skeletal Muscle Regeneration by Cardiotoxin Injection
    07:39

    Induction of Acute Skeletal Muscle Regeneration by Cardiotoxin Injection

    Published on: January 1, 2017

    Identification and Analysis of Myogenic Progenitors In Vivo During Acute Skeletal Muscle Injury by High-Dimensional Single-Cell Mass Cytometry
    11:02

    Identification and Analysis of Myogenic Progenitors In Vivo During Acute Skeletal Muscle Injury by High-Dimensional Single-Cell Mass Cytometry

    Published on: December 1, 2023