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Discover 68 Tissues and tissue ideas | tissue types, histology slides, hyaline cartilage and more

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Tissues

68 Pins

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17 Sections

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6y

JORDAN PRATT

Andrew Clark

By

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The main function of blood tissue is to transport oxygen throughout the body and get rid of carbon dioxide.

This image shows the complexity of the white blood cells,which are in charge of fighting off infection.

The plasma is the fluid that surrounds the cells and platelets. The red blood cells make up most of the tissue and they remove carbon dioxide from the body. The white blood cells help fight off infection. The platelets are so small that you can't even see them, they help prevent clotting.

This tissue provides minerals, nutrients, and support to the body.

The labels on the side of this diagram point to where each part of the tissue are located.

The dark circles in the middle of the tissue. There is an artery and a vein located in each haversian canal and they carry the blood to the caniliculi which dispense the blood throughout the tissue.

This picture of fibrocartilage consists of many layers of collagen but this slide lacked osteocytes.

This cartilage is used as a shock abosrber and it is located in the intervertebral discs.

Firbrocartilage is tough and it has many collagenous fibers.

This cartilage is most prominent in the lobes of your ear because it doesn't require support.

This type of tissue is located in the ear lobes and in the larynx. This tissue provides shape and structure but it has great flexibility.

This tissue consists of a dense network of elastic fibers that are located closer together than the fibers and the lacunae in hyaline cartilage.

Elastic Cartilage

There is more space present in hyaline cartilage than in elastic cartilage. Although they are very similar, this is how you can tell the difference.

This tissue is located at the ends of bones and on the rings of the trachea. It provides strength, sturcture, and protection.

There is lacunae present within the matrix. The chondrocytes are located within the lacunae.

Hyaline Cartilage

This tissue can be damages if you cause damage to tendons and ligaments. This tissue takes longer to repair because it takes longer for the collagenous fibers to repair themselves.

It makes up tendons and ligaments. This is a strong tissue that provides strength.

You an identify this tissue because it doesn't have all of the small cells present. It is made up of multiple wavy layers.

Dense connective tissue

This tissue is present in the spleen. It is a network of fibers that surround the cells but you aren't always able to see all of the fibers present.

This is a further away picture of the tissue. You can see the many fibroblasts and the fibers present that link them all together.

This tissue makes up a 3D network for organs. It contains white blood cells and fibroblasts that help the organs function and collagenous fibers to protect them.

Reticular tissue

Again this drawing can be identified as adipose tissue by identifying that there is space between the white cells.

This tissue is most commonly found the pancreas but it is also in different spaced throughout the body.

It consists of cytoplasm that fills the space between the white cells, which is how it can be identified.

The thin lines are the elastic fibers, the thicker lines are collagen fiber, and the dots are fibroblasts. All of these are how you identify this tissue and areolar tissue.

This tissue is delicate and consists of fibroblasts, collagen fibers, mast cells, and marcophages.

The top layer of this (the dark pink layer) is the epidermis. The underlying tissue is the areolar tissue.

The function of this tissue is for it to be able to stretch to accommodate for any liquid present in the bladder.

This tissue is located in the inner lining of the bladder.

You can easily identify this tissue by looking at the stretched out cells that are located at the top. This tissue has a combination of all of the different cell shapes but the ones on top are always flat.

This picture shows you the difference between stratisfied columnar and stratisfied cuboidal cells.

Not my best artwork, but this tissue is responsible for secretion and protecting the mammary glands.

Here you can see how the stratisfied columnar is located on the surface and it is a rare tissue found in the mammary glands.

Stratisfied columnar

This can be identified as stratisfied cubidal because you can see the multiple layers of cube shaped cells.

This tissue can be found in the lining of the skin.

This type of tissue has a free space in the middle and it is usually identified in this particular shape.

stratisfied cuboidal

The top of this picture is the stratisfied squamous tissue and the little bit of light pink located at the bottom of the picture is the connective tissue.

It has multiple layers of cells the are all squished together.

This tissue can be keratinized or non-keratinized. The keratinized are located in the layers of the skin and the non-keratinized are located in the lining of the tongue.

stratisfied squamous

This tissue resembles simple columnar but it is slightly different and more complex. It looks like it is layered but it is not.

Pseudostratisfied has free space, along with cilia, and that is a way that it can be identified.

This type of tissue lines the trachea.

pseudostratisfied

This type of tissue can be ciliated and non-ciliated.

This tissue can be found in the small intestine lining and the ovary and oviduct linings.

All of the cells line up in a line. This forms a single layer of epithelial tissue.

simple columnar

This tissue can be identified by cube shaped around the cells present in the tissue.

This tissue secretes. It is specialized in the process of diffusion.

This is a picture of simple cubiodal epithelial tissue.

simple cuboidal

My drawing of simple squamous tissue. It shows that they are small and compact, single cells.

Microscopic image of simple squamous

simple squamous