Rat anatomy, Male, Pointer to right spermatic blood vessles of right teste, (side/lateral view)
Rat anatomy, Male, Pointer to right spermatic blood vessles of right teste, (side/lateral view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Male, Pointer to right spermatic blood vessles of right teste, (side/lateral view)
Rat anatomy, Male, Pointer to right spermatic blood vessles of right teste, (side/lateral view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Male, Pointer to right spermatic blood vessles of right teste 2, (direct/above view)
Rat anatomy, Male, Pointer to right spermatic blood vessles of right teste 2, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Male, Pointer to spermatic blood vessels, (side/lateral view)
Rat anatomy, Male, Pointer to spermatic blood vessels, (side/lateral view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Male, Pointer to left adrenal blood vessels, (side/lateral view)
Rat anatomy, Male, Pointer to left adrenal blood vessels, (side/lateral view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Male, Freeing major blood vessels from surrounding fat, (side/lateral view)
Rat anatomy, Male, Freeing major blood vessels from surrounding fat, (side/lateral view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Male, Lifting fat surrounded major blood vessels in dorsal line 2, (direct/above view)
Rat anatomy, Male, Lifting fat surrounded major blood vessels in dorsal line 2, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Female, Raised mesentery + mesenteric blood vessels, (side/lateral view)
Rat anatomy, Female, Raised mesentery + mesenteric blood vessels, (side/lateral view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Female, Raised mesentery + mesenteric blood vessels 1, (direct/above view)
Rat anatomy, Female, Raised mesentery + mesenteric blood vessels 1, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Female, Raised mesentery + mesenteric blood vessels 1, (direct/above view)
Rat anatomy, Female, Raised mesentery + mesenteric blood vessels 1, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
Rat anatomy, Female, Lifting ileum to show mesentery + mesenteric blood vessels 2, (direct/above vie
Rat anatomy, Female, Lifting ileum to show mesentery + mesenteric blood vessels 2, (direct/above view). Rat dissection stills taken from FARID (Functional Anatomy of the Rat [Interactive Dissection]). This resource was authored by Megan Quentin-Baxter and David Dewhurst, with Graham Irving and Stephen Mera at Leeds Metropolitan University.
National Geographic-Jellyfish Have No Brains, No Heart, and No Blood
These magical floating marine creatures, which consist of 90% water,
have fascinated people for centuries! Jellyfish are not actually fish,
and are scientifically known as Cnidarians. What is truly remarkable
about these animals is that they are have no structured organ systems, heart, brain, or breathing apparatus! Yet they move like silent mysterious ghosts in oceans all over the world and survive by stinging and killing prey with their lethal tentacles and digesting them
Dealing with blood and other body fluids
Identifying infection risks of body fluids and body tissue.
Dealing with spills and incidents involving body fluids and/or body tissue,
particularly in health care settings.
Arterial Blood Gas Analysis
This module covers the normal physiology of acidbase, buffering systems, and reaction of the body to changes in acid-base levels. It includes a pre-assessment, 4 standard patient scenarios and 1 challenge scenario. Students complete a certificate at the end that can be printed or uploaded to a learning management system.
The Full Blood Count
A haematology resource used for Year 3 undergraduate medicine. Curriculum dependencies of taking a blood sample and types of blood cells and their functions. It is used for self-directed learning for 200-300 students per year and is non-credit bearing.
Blood groups
Description not set
Blood vessel anatomy
This topic begins with a brief introduction to the vascular system and its components (arteries, veins and capillaries). Schematic diagrams illustrate the principal arteries and veins of the body and lower limbs. A diagram illustrating the different layers of blood vessels is shown with supporting text. The last page of the topic describes the structure of capillaries and is supported by a clear diagram.
Blood vessel anatomy
This topic begins with a brief introduction to the vascular system and its components (arteries, veins and capillaries). An overall schematic diagram illustrates the position of the components in relation to the heart. Layers of the components are described in more detail (e.g. collagen fibres; smooth muscles) and are accompanied by diagrams. The control of blood flow is described; emphasis is on spincters and shunt vessels.
Review of Cat Organs and Blood Vessels
Professor reviews major blood vessels. Comparisons to human anatomy are made. Trachea, larynx, spleen, pancreas, and kidneys are also identified. This would make a great review for students preparing for a cat muscle practical. Color video with sound. Run time 07:01.
Water and Solute Movement Through Red Blood Cell Membranes
This resource is a detailed laboratory exercise suitable for undergraduate laboratory courses in biochemistry, physiology and cell biology. It includes detailed background information and student outlines, instructors notes, and suggested anaylses.
