Introduction to Physiology PDF

Summary

This document introduces basic human physiology, covering definitions of key terms, levels of organization, body systems, homeostasis, and feedback systems including negative and positive feedback loops. It also includes review questions to test understanding. The document is suitable for an introductory physiology course.

Full Transcript

An Introduction to
Basic Physiology
Presented by: Nor Aishah
In this chapter, students
will learn about:

Basic Physiology
Terms & Concepts
Levels of
organization of the
human body
Systems of the
human body
Homeostasis &
Feedback system
 Objectives
Define key terms (anatomy, physiology, pathology,
pathophysiology, pharmacology)
Describe levels of organization in the human body
Identify human body systems, their components, and
functions
Explain homeostasis and feedback systems
 Definition

Anatomy Physiology Pathology
Anatomy is the study of the Physiology is the study of how
Pathology is the study of
physical structure of organisms, the body’s systems function.
diseases, including their
including their systems, organs, Example: How the heart
causes and effects.
and tissues. pumps blood and maintains
Example: Study of heart
Example: The heart, its chambers, circulation.
disease or infections.
and blood vessels.
 Definition

Pathophysiology Pharmacology
Pathophysiology focuses on Pharmacology is the study
how disease processes affect of drugs and how they affect
normal physiological functions. the body.
Example: How diabetes Example: How aspirin
disrupts glucose metabolism. reduces inflammation.
Levels of Organization in the Human Body

Organismal
Cellular level Tissue level Organ level level
Cell is the basic unit of life. Groups of similar cells A structure composed of at Organismal level is the entire
All body functions depend performing a specific least two types of tissues human body, composed of
on cells. function. that perform a specific all systems working
Example: Red blood cells Example: Muscle tissue function. together.
transport oxygen. allows movement. Example: The stomach Example: The coordination
digests food. of the respiratory and
circulatory systems to
deliver oxygen.
Overview of Body Systems
Integumentary, Musculoskeletal, Circulatory, Respiratory,
Digestive, Nervous, Endocrine, Urinary, Reproductive
These systems work together to maintain homeostasis
and perform life-sustaining tasks.
Homeostasis & Feedback Systems
Definition of Homeostasis
The body’s ability to maintain a stable internal environment
despite external changes.
Example: Regulating body temperature.
Components of Feedback Systems
Receptor: Detects changes in the environment (e.g., skin
receptors sensing temperature).
Control Center: Processes information and makes
decisions (e.g., the brain).
Effector: Carries out the response (e.g., sweat glands
reducing heat).
There are two types of feedback loops:
1. Positive loops
-where the response enhances the condition.
Positive feedback loops are rare in the human body.
A positive feedback loop tends to push a system away from
equilibrium.
2. Negative loops
-where the response counteracts or antagonizes the condition.
This helps restore balance and maintain a stable internal state.
Negative feedback loops are very common in the human body.
A negative feedback loop tends to bring a system back to
equilibrium.
*Most feedback loops in the body are negative feedback loops.
Example of Negative Feedback in Homeostasis:
Body Temperature Regulation:
When the body's temperature rises above normal, receptors in the
skin and brain detect this increase.
The brain (control center) processes the information and triggers
the effector organs (e.g., sweat glands) to cool the body down by
producing sweat.
As the body cools, temperature returns to normal, and the cooling
process stops.
Conversely, if the body temperature drops, the brain signals muscles
to start shivering to generate heat, raising the temperature back to
normal levels.
Key Components of Negative Feedback:
Body Temperature Regulation:
Receptor: Detects changes (e.g., skin receptors detecting
temperature).
Control Center: Processes the information and determines
the response (e.g., the brain).
Effector: Carries out the necessary response to correct the
imbalance (e.g., sweat glands, muscles).
In summary, negative feedback prevents extreme changes and
helps maintain stability in systems such as temperature
regulation, blood glucose levels, and blood pressure.
Example of Positive Feedback:
Childbirth(labor)
During labor, the release of the hormone oxytocin causes
uterine contractions.
These contractions stimulate the release of more
oxytocin, which increases the intensity and frequency of
the contractions.
This cycle continues until the baby is born, at which point
the feedback loop stops.
Key Components of Positive Feedback:

Stimulus: Triggers a change in the system (e.g., pressure on the
cervix during labor).
Amplified Response: The body's response enhances the original
stimulus (e.g., more oxytocin and stronger contractions).
Eventual Outcome: The process continues until a specific event
happens, after which the loop halts (e.g., birth of the baby).
 Summary
The body has many levels of organization.
11 body systems work together to maintain homeostasis.
Specific anatomical terms are used to describe the body &
its structures.
Homeostasis is an important & complex process.
 Review Questions:
What are the differences between anatomy and physiology?
Define the following:
Cell, tissue, organ
State the function of following systems:
Cardiovascular, respiratory, urinary, reproductive
How does the body maintain homeostasis in cold environment
Differentiate between positive feedback and negative feedback
Give 2 examples of each for negative feedback and positive
feedback
Thank's For
Watching