Tejidos animales y sistemas de órganos

Homeostasis en animales

Las partes del cuerpo interaccionan para:• Coordinar y controlar las partes individuales• Adquirir y distribuir materiales a las celulas y

disponer de los desperdicios• Proteger a los tejidos contra heridas y ataques• Reproducir, alimentar y proteger la progenie en

su desarrollo temprano• Mantener el ambiente interno (homeostasis)

Organización del cuerpo animal

Tejido• Conjunto de celulas que interaccionan y las

sustancias extracelulares que conducen alguna tarea

Organo• Unidad estructural de 2 o mas tejidos

organizados para conducir alguna tarea Sistemas de órganos

• 2 o mas organos que interactuan para una tarea comun

Las células animales se unen mediante varios tipos de unión celular

Uniones adherentes• Mantienen a las celulas unidas en lugares

especificos.

Uniones estrechas• Cierran el paso de fluidos entre celula y celula;

esos fluidos son forzados a pasar por el interior de las celulas.

Uniones de hendiduras• Permiten el paso de iones y moleculas pequenas

del citoplasma de una celula al citoplasma de otra celula adyacente.

Cuatro tipos de tejidos principales en animales

Tejido epitelial

Tejido conectivo

Tejido muscular

Tejido nervioso

Tejido epitelial

Epitelio• Una capa de celulas que cubre la superficie

exterior y recubre los ductos y cavidades internas del animal.

Membrana basal• Una matriz extracelular que adhiere el epitelio al

tejido subyacente. Microvellos

• Proyecciones de epitelio absorbente parecidas a dedos

Fig. 32-3, p. 541

Superficie del epitelio simple

Membrana basal

Tejido conectivo subyacente

Varios tipos de tejido epitelial

Varian segun:• Numero de capas de celulas:

• Simple: una sola capa• Estratificado: mas de una capa

• Forma de las celulas• Escamosas o achatadas• Cuboidal• Columnar

Fig. 32-4a, p. 541

Epitelio escamoso simple

• A lo largo de vasos sanguineos, corazón y pulmones

• Permite el paso de sustancias por difusión

Fig. 32-4b, p. 541

Epitelio cuboidal simple

• Recubre ductos de algunas glándulas y oviductos

• Sirve en absorción, secreción y movimiento de materiales

Fig. 32-4c, p. 541

Epitelio columnar simple Glándula secretora

• Recubre algunos ductos de aire y partes del tracto digestivo

• Sirve en absorción, secreción, y protección

Glandular Epithelium

Glands• Organs that release substances onto the skin, or

into a body cavity or interstitial fluid

Exocrine glands (glands with ducts)• Deliver secretions to an external or internal

surface (saliva, milk, earwax, digestive enzymes)

Endocrine glands (no ducts)• Secrete hormones which are carried in blood

32.3 Connective Tissues

Connective tissues consist of cells and the extracellular matrix they secrete

Connective tissues connect body parts and provide structural and functional support to other body tissues

Soft Connective Tissues

Loose connective tissue• Fibroblasts secrete a matrix of complex

carbohydrates with fibers dispersed widely through the matrix

Dense connective tissue (dense collagen fibers)• Dense irregular: Supports skin, internal organs• Dense regular: Ligaments and tendons

Specialized Connective Tissues

Cartilage: Rubbery extracellular matrix, supports and cushions bones

Adipose tissue: Fat filled cells, stores energy, cushions and protect organs

Bone: Rigid support, muscle attachment, protection, mineral storage, blood production

Connective Tissues

Connective Tissues

Fig. 32-5a, p. 542

Fig. 32-5b, p. 542

Fig. 32-5c, p. 542

Fig. 32-5d, p. 542

Fig. 32-5e, p. 543

Fig. 32-5f, p. 543

Cartilage and Bone Tissue

Fig. 32-6, p. 543

cartilage at the end of long bone

compact bone tissue

spongy bone tissue

A Fluid Connective Tissue

Blood: Plasma, blood cells and platelets

Fig. 32-7, p. 543

white blood cell

red blood cell

platelet

32.4 Muscle Tissues

Muscle tissue is made up of cells that contract when stimulated, requires ATP energy

Three Types of Muscle Tissues

Skeletal muscle tissue• Moves the skeleton (voluntary)• Long, striated cells with many nuclei

Cardiac muscle tissue• Heart muscle (involuntary)• Striated cells with single nuclei

Smooth muscle tissue• In walls of hollow organs (involuntary)• No striations, single nuclei

32.5 Nervous Tissue

Nervous tissue• Consists of specialized signaling cells (neurons)

and cells that support them (neuroglial cells)

Nervous tissue detects internal and external stimuli, and coordinates responses to stimuli

Neurons

Neurons• Excitable cells with long cytoplasmic extensions• Send and receive electrochemical signals

Three types of neurons• Sensory neurons are excited by specific stimuli• Interneurons integrate sensory information• Motor neurons relay commands from brain and

spinal cord to muscles and glands

A Motor Neuron

Coordination of Nervous Tissue and Skeletal Muscle

32.2-32.5 Key Concepts Types of Animal Tissues

Epithelial tissue covers the body’s surface and lines its internal tubes

Connective tissue provides support and connects body parts

Muscle tissue moves the body and its parts

Nervous tissue detects internal and external stimuli and coordinates responses

32.6 Overview of Major Organ Systems

In vertebrates, organs arise from three embryonic germ layers• Ectoderm (outermost layer) forms nervous tissue

and epithelium of skin• Mesoderm (middle layer) forms muscle,

connective tissue, and lining of body cavities• Endoderm (innermost layer) forms epithelium of

gut and lungs

Body Cavities and Directional Terms

Body Cavities and Directional Terms

Body Cavities and Directional Terms

Fig. 32-11a, p. 546

cranial cavity

spinal cavity

thoracic cavity

diaphragm

abdominal cavity

pelvic cavity

Fig. 32-11b, p. 546

Dorsal Surface

transverse

midsagittal

ANTERIOR POSTERIOR

frontal

Ventral Surface

Fig. 32-11c, p. 546

SUPERIOR (of two body parts,

the one closer to head)distal (farthest from trunk or from origin of a body part)

frontal plane (aqua)

midsagittal plane (green)

proximal (closest to trunk or to point of origin of a body part)

ANTERIOR (at or near front of body) POSTERIOR

(at or near back of body)

transverse plane (yellow)INFERIOR

(of two body parts, the one farthest from head)

Animation: Human body cavities

Animation: Directional terms and planes of symmetry

Eleven Vertebrate Organ Systems

Eleven Vertebrate Organ Systems

Fig. 32-12a, p. 547

Integumentary System

Nervous System

Muscular System

Skeletal System

Circulatory System

Endocrine System

Protects body from injury, dehydration, and some pathogens; controls its temperature; excretes certain wastes; receives some external stimuli.

Detects external and internal stimuli; controls and coordinates responses to stimuli; integrates all organ system activities.

Moves body and its internal parts; maintains posture; generates heat by increases in metabolic activity.

Supports and protects body parts; provides muscle attachment sites; produces red blood cells; stores calcium, phosphorus.

Rapidly transports many materials to and from interstitial fluid and cells; helps stabilize internal pH and temperature.

Hormonally controls body functioning; with nervous system integrates short- and long-term activities. (Male testes added.)

Fig. 32-12b, p. 547

Lymphatic System Respiratory System Digestive System Urinary System Reproductive System

Collects and returns some tissue fluid to the bloodstream; defends the body against infection and tissue damage.

Rapidly delivers oxygen to the tissue fluid that bathes all living cells; removes carbon dioxide wastes of cells; helps regulate pH.

Ingests food and water; mechanically, chemically breaks down food and absorbs small molecules into internal environment; eliminates food residues.

Maintains the volume and composition of internal environment; excretes excess fluid and bloodborne wastes.

Female: Produces eggs; after fertilization, affords a protected, nutritive environment for the development of new individuals. Male: Produces and transfers sperm to the female. Hormones of both systems also influence other organ systems.

Animation: Human organ systems

32.6 Key Concepts Organ Systems

Vertebrate organ systems compartmentalize the tasks of survival and reproduction for the body as a whole

Different systems arise from ectoderm, mesoderm, and endoderm, the primary tissue layers that form in the early embryo

32.7 Vertebrate Skin—Example of an Organ System

Skin is the body’s interface with the environment• Sensory receptors, barrier against pathogens,

internal temperature control, water conservation

Vertebrate skin is made up of all four tissue types arranged in two layers: • Outer epidermis contain keratinocytes• Deeper dermis contains nerves, blood and lymph

vessels, hair follicles and glands

Skin Structure

Skin Structure

Skin Structure

Fig. 32-13a, p. 548

hair

epidermis

dermis

hypodermis

sensory neuronoil gland

hair follicle sweat gland

blood vessels smooth muscle

Fig. 32-13b, p. 548

outer flattened epidermal cells

cells being flattened

dividing cells

dermis

Fig. 32-13c, p. 548

hair’s cuticle

one hair cell

keratin macrofibril

keratin polypeptide chain

Animation: Structure of human skin

Animation: Hair fine structure

Frog Skin

Amphibians may have glands that secrete mucus, distasteful chemicals, or poisons• Pigmented cells in dermis warn predators

Fig. 32-14b, p. 549

Fig. 32-14b, p. 549

mucous gland poison gland pigmented cell

Sunlight and Human Skin

Melanocytes in skin make a brown pigment (melanin) which affects skin color and tanning

Melanin protects against UV radiation• A little UV promotes vitamin D production• A lot of UV damages DNA and promotes cancer

32.8 Farming Skin

Commercially grown skin substitutes are already in use for treatment of chronic wounds

Skin may be a source of stem cells that could be used to grow other organs

32.7-32.8 Key Concepts A Closer Look at Skin

Skin is an example of an organ system

It includes epithelial layers, connective tissue, adipose tissue, glands, blood vessels, and sensory receptors

It helps protect the body, conserve water, control temperature, excrete wastes, and detect external stimuli

Animation: Altering hair structure

Animation: Cell junctions

Animation: Functional zones of a motor neuron

Animation: Muscle tissues

Animation: Organization of animal cells

Animation: Soft connective tissues

Animation: Specialized connective tissues

Animation: Structure of an epithelium

Animation: Types of simple epithelium

ABC video: A Saving Graft

ABC video: New Hands

Video: Stem Cells