Lab 3 Tissues & Integumentary System PDF

Summary

This document provides an introduction to histology, focusing on the study of body tissues and the integumentary system. It details four main tissue types (epithelial, connective, muscle, and nervous), along with examples such as mammal simple squamous epithelium and human simple columnar epithelium.

Full Transcript

**Lab 3. Tissues and the Integumentary System**

**Introduction**:

Review Chapters 4 and 5 in your text. This lab will reintroduce you to
histology (the study of body tissues), and to our first organ system,
the integumentary system. When we study organs and organ systems, we
will see that these organs are a collection of different tissues.
Conversely, when we study histology, we use samples taken from organs,
therefore we must examine the organ carefully in order to study a
particular tissue type. For example, we will look at a specimen
collected from a kidney, which consists of different types of epithelial
tissues and connective tissues, but we will only be looking for one
particular type of epithelial tissue!

*Tissues: Histology*

A [tissue] is a collection of cells with a similar shape,
function and embryonic origin. Some tissues include the non-living
secretions made by the living cells, and in some cases you will see more
non-living than living material! Animal tissues are derived from **four
main tissue types, which are [epithelial, connective, muscle and nervous
tissues].** As we\'ll see, no cells of these tissues look
like the \"generalized cell\" that you studied in lab 2, but instead
each cell type has a particular shape, size and contents reflects its
specific function. we will study these tissues again and again when we
encounter them as components of organ systems.

Following are some examples of epithelial and connective tissues. Images
of prepared tissues can look similar or confusing to the untrained eye.
To better understand what you're seeing, compare these images to
illustrations in the textbook and to some of the coloring for this week.

[Epithelial tissue]: this tissue forms [coverings and
glands]. It is always named by cell shape ([squamous,
cuboidal, columnar and transitional]) and by the number of
layers of cells ([simple, stratified or pseudostratified]).
Some epithelial tissue cells are ciliated or have microvilli. Following
are some examples

Mammal simple squamosal epithelium, and simple cuboidal epithelium,
sec., from mammal kidney, at 400x. Note how the simple squamosal cells
are only a small part of the organ. You can identify them by their
dark-stained, flattened nuclei (near tip of pointer). The nuclei of
cuboidal cells are also visible, as dark, round structures within the
pink cytoplasm. This is how our slides look in lab:

Another shot of the same tissue with labels. Again, note the somewhat
flat, dark-staining nuclei of the Bowman's capsule. It's easier to
appreciate the cuboidal cells in this image, both the nuclei and the
nucleoli are visible here, note the nice round nuclei of the cuboidal
cells.


Human simple columnar epithelium, from human ileum. Note how the
darkly-stained nuclei are relatively lined up and oval in shape. Here's
a view from the lab.

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Here's a clearer image, with the cells and nuclei labeled:


[Connective tissue]: usually has a substantial non-living
component which is secreted by the cells. The non-living component is
called the matrix and in turn consists of fibers and ground substance.
Differences among the secretions account for the different types of
connective tissue. Following are some examples, hyaline cartilage, loose
areolar connective tissue,

Human hyaline cartilage. Here, the matrix and chondrocytes have been
stained, allowing the lacunae to be seen. This is a photo taken from our
lab.

A somewhat clearer photo of hyaline cartilage with labels:


Loose, areolar connective tissue. This tissue has relatively few cells,
the thick, pink fibers are collagen, and the darker fibers are elastic
and reticular fibers.

connective\_tissue\_loose\_areolar

Here's another with labels:


Adipose tissue: this connective tissue is made up of fairly
densely-packed adipocytes, there is very little matrix. Note the blood
vessel near the center of this photo.

AdiposeTissue2

A second image, labeled:


[Muscle tissue]: consists of three types of muscle, which
vary in their location, structure, and control. These three types are
[skeletal, cardiac, and smooth muscle]. We will cover this
in lecture this week and later on in the semester when we cover the
muscles on their own.

[Nervous tissue]: is made up of [neurons], and
several types of [neuroglia]. You will be introduced to
nervous tissue this week but will delve much deeper into these cells
later this semester.

*The Integumentary System:*

The largest organ in the body is the skin, also called the integument or
cutaneous membrane. Like all membranes, it consists of two layers, one
of which is epithelial tissue, the [epidermis], and the
other connective tissue, the [dermis]. While not part of the
integumentary per se, we also include a study of the subcutaneous layer,
or [hypodermis]. The main functions of this organ include
protection, thermoregulation, and sensation.

*Skin Model*: Use this key to identify the structures on the model of
the skin.

[I. Epidermis] is labeled a -- e. It consists of stratified
squamous epithelial tissue, mostly keratinocytes which contain a tough,
water-resistant protein known as keratin. The accessory structures that
are formed by the epidermis are the sebaceous glands, sudoriferous
glands, hair follicles and nails (hair and nails are actually a type of
glandular secretion). There is no blood supply that extends into the
epidermis.

From superficial to deep the layers of epidermis are labeled a -- e, and
can be briefly described as follows:

a\) the stratum corneum (dead keratinocytes),

b\) stratum lucidum (found in thick skin of the plantar and palmar
surfaces only),

c\) stratum granulosum and d) stratum spinosum (dying keratinocytes) and

e\) stratum basale (actively dividing keratinocytes and also melanocytes
which contain the pigment melanin).

[II. Dermis]. This layer of the cutaneous membrane consists
mostly of dense, irregular connective tissue, with the main protein
being collagen. It is divided into two regions, the superficial
papillary region which has dermal papillae (labeled f), and the deeper
reticular region. It also has embedded within it numerous accessory
structures:

Capillary bed, labeled r

Encapsulated nerve endings, including Meissner's corpuscles (labeled w)
and Pacinian corpuscles (labeled u)

Naked nerve endings, labeled v, which are (sensory) dendrites or (motor)
axons

There are two types of sudoriferous glands, which secrete sweat:

1\) eccrine sudoriferous glands, labeled both h and j, are found in thick
and in thin skin

The sebaceous glands are labeled o and n; these secrete sebum (oil)

B and C -- K is the hair follicle, associated with it is an arrector
pili muscle, labeled x.

[III. Hypodermis]. This is not technically part of the skin.
It lies deep to the dermis and consists of adipose tissue, g.

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