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Muscles that Move the Head01:19

Muscles that Move the Head

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The muscles that move the head are a dynamic and complex group of structures that work together to facilitate a wide range of head movements, including rotation, flexion, extension, and lateral bending.
The bilateral sternocleidomastoid, or SCM, and the suprahyoid and infrahyoid muscles are significant head flexors. The SCM muscles originate at the sternum and clavicle and attach to the mastoid process of the temporal bone. The SCM contracts bilaterally to bend the head forward, whereas...
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Arteries of the Head and Neck01:26

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The human body's intricate network of arteries ensures that every organ system receives the necessary oxygen and nutrients for optimal function. The arterial network in the head and neck region is particularly complex, providing vital blood flow to the brain, eyes, and other critical structures. Prominent arteries in this region include the internal carotid arteries and the vertebral arteries.
The internal carotid arteries supply blood to the anterior portion of the cerebrum. They enter the...
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The blood drainage from the head and neck is primarily managed by three pairs of veins: the external jugular, internal jugular, and vertebral veins. The external jugular veins drain superficial scalp and face structures, passing over the sternocleidomastoid muscles to empty into the subclavian veins.
On the other hand, the vertebral veins, unlike their arterial counterparts, are not primarily responsible for brain drainage. Instead, they drain the cervical vertebrae, spinal cord, and some small...
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Lytic Cycle of Bacteriophages01:30

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Bacteriophages, also known as phages, are specialized viruses that infect bacteria. A key characteristic of phages is their distinctive “head-tail” morphology. A phage begins the infection process (i.e., lytic cycle) by attaching to the outside of a bacterial cell. Attachment is accomplished via proteins in the phage tail that bind to specific receptor proteins on the outer surface of the bacterium. The tail injects the phage’s DNA genome into the bacterial cytoplasm. In the...
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Altruism01:03

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Altruistic behaviors are “unselfish” behaviors—those that help another individual at the expense of the individual carrying out the behavior. Despite the negative consequences for the altruistic animal, these behaviors are thought to have evolved for several reasons.
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Lysogenic Cycle of Bacteriophages00:43

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In contrast to the lytic cycle, phages infecting bacteria via the lysogenic cycle do not immediately kill their host cell. Instead, they combine their genome with the host genome, allowing the bacteria to replicate the phage DNA along with the bacterial genome. The incorporated copy of the phage genome is called the prophage. Some prophages can re-activate and enter the lytic cycle. This often occurs in response to a perturbation, such as DNA damage, but can also transpire in the absence of...
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Related Experiment Video

Updated: Feb 13, 2026

An Anoxia-starvation Model for Ischemia/Reperfusion in C. elegans
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Do drowning and anoxia kill head lice?

Kerdalidec Candy1, Sophie Brun2, Patrick Nicolas3

  • 1Parasitology-Mycology Department, Avicenne Hospital, AP-HP, Bobigny, France - Unité des Virus Emergents (Aix-Marseille Univ - IRD 190 - Inserm 1207 - IHU Méditerranée infection), Marseille, France.

Parasite (Paris, France)
|March 10, 2018
PubMed
Summary

Head lice (Pediculus humanus capitis) can survive 8 hours of oxygen deprivation, but not 16 hours. Water immersion significantly increased louse survival, while certain chemical treatments proved lethal.

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Area of Science:

  • Entomology
  • Parasitology
  • Public Health

Background:

  • Head lice (Pediculus humanus capitis) are a persistent public health concern.
  • Current control methods include chemical, physical, and mechanical approaches.
  • Understanding louse physiology is crucial for developing effective treatments.

Purpose of the Study:

  • To determine the maximum survival time of head lice under anoxia (oxygen deprivation).
  • To assess the survival rate of head lice during prolonged water immersion.
  • To investigate fluid ingress through louse respiratory systems (tracheae and spiracles).

Main Methods:

  • Head lice were subjected to controlled anoxia for varying durations.
  • Lice survival was monitored after anoxia and during prolonged water immersion.
  • Microscopic observation of spiracle characteristics and fluid penetration into the respiratory system was performed.

Main Results:

  • 100% of lice survived 8 hours of anoxia, with some surviving up to 14 hours.
  • All lice died after 16 hours of anoxia.
  • Water immersion significantly increased louse survival compared to controls.
  • Water did not penetrate the respiratory system, but dimeticone/cyclomethicone and ethanol did, causing 100% mortality.

Conclusions:

  • Head lice exhibit significant tolerance to anoxia and water immersion.
  • The efficacy of treatments depends on their ability to penetrate the louse respiratory system.
  • Chemical treatments like dimeticone/cyclomethicone and ethanol are effective due to respiratory system penetration.