Doctor of Physical Therapy DPT 3rd Semester Syllabus PDF

Summary

This document describes the syllabus for the third semester of a Doctor of Physical Therapy (DPT) program at the Islamia University of Bahawalpur in Pakistan. It details courses like English, Medical Physics, Anatomy, Physiology, and more.

Full Transcript

Department of Physical Therapy (DPT)
Faculty of Medicine & Allied Health Sciences

The Islamia University of Bahawalpur
Khawaja Farid Campus, Railway Road, Bahawalpur, 63100, Pakistan

DOCTOR OF PHYSICAL THERAPY (DPT)

THIRD SEMESTER

1. ENGLISH-III (Technical Writing and Presentation Skills) 3(3+0)
2. MEDICAL PHYSICS 3(2+1)
3. ANATOMY-III 3(2+1)
4. PHYSIOLOGY-III 3(2+1)
5. BIOMECHANICS & ERGONOMICS-I 3(3+0)
6. BIOCHEMISTRY-I 2(2+0)

DETAILS OF COURSES
ENGLISH-III (TECHNICAL WRITING AND PRESENTATIONSKILLS) CREDIT HOURS 3(3-0)
COURSE LEARNING OBJECTIVES

 Main objectives of the course are to develop understanding of technical writing with
English grammar and usage among students.
 To develop basic skill of presentation in English language among students
 To make students able to utilize skills of reading, writing listening and speaking
 To make them good communicator both verbal and written in target language.
MID TERM
Writing Process

Five steps of writing process

 Descriptive Writing
 Narrative Writing
 Discursive Writing
 Argumentative Writing
Writing of Research Proposal Format

Writing Research Paper

i. Style of writing
ii. Content
iii. Language
iv. Form and Clarity
v. Consistency in writing
FINAL TERM
Technical Report Writing
Writing Bibliography

 MLA
 APA
Communication Process
Non Verbal Communication
 Strategies for Effective non verbal delivery
Ways of Delivering Oral Messages

 Extemporaneous
 Reading
 Memorization
 Impromptu
Strategies for effective oral delivery

 Pitch
 Rate
 Volume
 Vocal quality
 Pronunciation
Strategies to Reduce Stage Fright
Using Technology in Presentation
 Presentation Skills
 Before presentation
 During presentation
 After presentation

Recommended Books:
1. Wren , P.C & Martin, H,(2018), High School English Grammar & Composition,
S.Chand & Company LTD Ram Nagar New Delhi
2. Crystal, David (1999) The Cambridge Encyclopeadia of Language, New York ,
Cambridge University Press
3. Taylor, Shirley (2009) Communication for Business: A Practical Approach, Persons,
New Delhi, India
4. Roach, Peter (2001), English Phonetics and Phonology: A Practical Course , Cambridge
University Press, New York
5. Exploring the World of English:
6. Khalid, Abid (n.d)Phonetics& Phonology, Lahore , Majeed Book Depot
7. PrasadaRao, N.D.V (2003) ,Teaching of English: Introduction, Sultan Bazar Hyderabad
, India
8. Mumtaz, M ( 2004), Teaching of English, Ghulam Rasul & Sons , Lahore , Urdu Bazar
9. Sarwar Bajwa (2003) Teaching of English , Rehman Brothers, Lahore
MEDICAL PHYSICS CREDIT HOURS: 3(2-1)

COURSE DESCRIPTION
This course will cover the basic principle of physics which are applicable in medical
equipment used in Physical therapy. It also covers the fundamentals of currents, sound
waves, electromagnetic radiations and their effects & application in physical therapy
LEARNING OBJCTIVES

 Describe basic principles of physics used in electro medical equipment
 Define laws of physics various aspect of physical phenomena and their interaction with
human body
 Describe basic concepts of electricity, its laws, magnetism, electro mechanics and
related theories
 Explain fundamentals of low, medium and high frequency currents, heat,
electromagnetic radiations and sound waves.
 Demonstrate safety skills in biomedical instruments and radiation protection

COURSE CONTENTS

MID TERM

ELECTRICITY AND MAGNETISM

 Structure of an atom
 Electron Theory, Conductors & Insulator
 Conduction& Convection

STATIC ELECTRICITY
 Charging by conduction and Induction
 Electrostatic Fields
 Capacitors, types of capacitors
 Arrangement of Capacitors in series and parallel
 Charging and discharging of capacitors
 Oscillating Discharge of Capacitors

CURRENT ELECTRICITY

 Ohm‘s Law
 Electrical Components and their units
 Resistance and types
 Chemical effects of a Current
 Types of Current
 Cell and Batteries
 Simple Voltage Cell
 Combination of Cells in series and parallel
 Thermal effects of current
 Electrolysis and Electrolytic burns
 Ionization of gases and Thermionic emission
 Electronic tubes
 Diodes and Triodes

ELECTROMAGNETISM

 Magnetic effect of an electric current
 Moving coil volt meter and Ammeter
 Measurement of high frequency and alternate current withmeters
 Electromagnetic induction
 Faradays law
 Mutual and self-Induction
 Eddy currents
 Transformers
 Construction and types
 Static and auto Transformer

SAFETY IN BIOMEDICAL INSTRUMENTS

 Electrical outlets, hot, neutral and ground connections
 Pervasiveness of electricity and of electric shocks
 Causes of electric shocks and precaution
 Effect of electric current on human body
 Techniques to reduce the effect of electric shock
 Earth shocks and precaution against earth shocks
FINAL TERM

ELECTRO MECHANICS

 Current for treatment
 Rectification
 Rectification of A.C
 Half wave and full wave Rectification
 Valve rectification circuits and metal rectifier
 Surging of current
 Vibrations and Multivibrators circuit

CLASSIFICATION OF CURRENTS (OVERVIEW)
LOW FREQUENCY CURRENT
 Sinusoidal current
 Faradic current
 Galvanic current (constant and interrupted)

 Diadynamic current TENS
 Super imposed current and their graphical representation.

MEDIUM FREQUENCY CURRENT
 Interferential current
 Russian current.

HIGH FREQUENCY CURRENT
 Valves
 Transistors
 Long waves, medium waves short waves micro waves

SOUND WAVES
 Wave motion in sound
 Infrasonic
 Normal hearing band
 Characteristics of the sound waves and their velocities
 Ultrasonic
 Reflection and refraction of sound wave
 Characteristics of tone resonance and beats
 Interference of sound waves
HEAT
 Scales of temperature and its conversion to other scales
 Nature of heat energy
 Specific heat and three modes of heat energy transfer effect of impurities on melting and
boiling points

ELECTROMAGNETIC RADIATION
 Electromagnetic spectrum
 Relationship between frequency and wave length
 Laws of reflection, refraction and absorptions
 Total internal reflection
 Cosine law and inverse square law
Concave and convex mirrors
 Lenses and prisms
 Reflectors
 Radio wave (long, medium, short, micro waves)
 Infra-red rays
 Visible rays
 Ultra violet rays
 X-rays
 Nuclear waves (alpha beta and gamma)

RADIATION PROTECTION
 Ionizing and non-ionizing radiations
 Quantities and associated units of radiations
 Effect of ionizing and non-ionizing radiation
 Internal and external hazards
 Main principle to control external hazard
 Distance and shielding

LAB WORK

 Specify resistance by using the potential divider
 Verify the joules law of electrical methods
 Calibrate a thermo couple and an unknown temperature
 Find the acceleration due to gravity by simple pendulum
 Verify the law of reflection of light
 Verify the law of refraction of light
 Verify the refraction index of glass using rectangular slab

RECOMMENDED BOOKS
1. Clayton’s Electrotherapy and actinotherapy by: PM Scott.
2. Medical physics for physical therapists by: A.D Moore
3. Preliminary Electricity for physiotherapists by B. Savage
4. Basic Electronics by Grob.
5. Principles of Bio-instrumentation by Richard A. Normann
6. Hand book of Biomedical Instrumentation by R.S. Khanpur
7. Basic radiation Protection Technology by Gollnick
ANATOMY-III CREDITHOURS: 3(3-0)
COURSE DESCRIPTION
The focus of this course is an in-depth and comprehensive study of humananatomy with emphasis on
the head and neck, face and skull. Identifyanatomical structures within the thorax with emphasis
on structures of thoracic wall and thoracic cavity. Dissection and identification of structures in
the manikins/smart board system supplemented with the study of charts, models, prosecuted
materials and radiographs are utilized to identify anatomical land marks and configurations of
the head and neck, face,skull and thorax.

LEARNINGOBJECTIVES
 Describe and illustrate human anatomy related to head and neck, face, skull and thoracic
cavity
 Identify joints,muscles,nerves,veins,arteriesandotheranatomicalstructures of head and
neck, face and skull
 Identify anatomical structures of the thoracic wall and thoracic cavity


MID TERM
COURSECONTENTS

THEHEADANDTHENECK
 Muscles around the neck
 Triangles of the neck
 Main arteries of the neck
 Main veins of the neck
 Cervical part of sympathetic trunk
 Cervical plexus
 Cervical spine (vertebrae)
 Joints of neck.

THE FACE
 Sensory nerves of the face
 Bones of the face
 Muscles of the face
 Facial nerve
 Muscles of mastication
 Mandible
 Hyoid bone
 Temporomandibular joint
 Brief description of orbit and nasal cavity
 Muscles of eye
FINAL TERM
THE SKULL
 Bones of skull
 Anterior cranial fossa
 Middle cranial fossa
 Posterior cranial fossa
 Base of skull
 Structures passing through foramina
THORAX
STRUCTURES OF THE THORACIC WALL

 Dorsal spine (vertebrae)
 Sternum
 Costal Cartilages & Ribs
 Intercostal Muscles
 Intercostal Nerves
 Diaphragm
  Blood supply of thoracic wall
 Lymphatic drainage of thoracic wall
 Joints of thorax

THORACIC CAVITY
 Mediastinum
 Pleura
 Trachea
 Lungs
 Bronchopulmonary segments
 Pericardium
 Heart–Its blood supply, venous drainage & nerve supply
 Large veins of thorax, superior and inferior vena cava, pulmonary veins brachiocephalic
veins
 Large Arteries–Aorta & its branches

LAB WORK
During study of Gross Anatomy, emphasis should be given on applied aspect, radiological
anatomy, surface anatomy and cross-sectional anatomy of the region covered in the
respective semester/year

Note
The students are expected to make a practical note book. The book is a collection of evidence
that learning has taken place. It is a reflective record of their achievements

RECOMMENDED BOOKS
th
1. Gray’s Anatomy by Prof. Susan Standring 39 Ed, Elsevier.
2. Clinical Anatomy for Medical Students by Richard S. Snell.
3. Clinically Oriented Anatomy by Keith Moore.
4. Clinical Anatomy by R.J. Last, Latest Ed.
th
5. Cunningham’s Manual of Practical AnatomybyG.J.Romanes,15 Ed, Vol- I, II and III.
th
6. The Developing Human. Clinically Oriented Embryology by Keith L.Moore,6 Ed.
7. Wheater’s Functional Histology by Young and Heath, Latest Ed.
8. Medical Histology by Prof. Laiq Hussain.
9. Neuroanatomy by Richard S. Snell.
PHYSIOLOGY-III CREDIT HOURS: 3(2-1)

COURSEDESCRIPTION
The course is designed to study the function of the human body with emphasis on function
of human respiratory system, nervous system, reproductive system, body fluids and renal
system. These topics are addressed by a consideration of clinical and applied physiology in
relation to clinical modules and practice

LEARNINGOBJECTIVES
 Describe major functions of the respiratory system
 Explain major functions of central and peripheral nervous
 Discuss major functions of male and female reproductive system.
 Describe major functions body fluids and renal system and relate to clinical practice

COURSE CONTENTS

MID TERM
RESPIRATORYSYSTEM

 Function of respiratory tract
 Respiratory and non-respiratory function of the lungs
 Mechanics of breathing
 Production & function of surfactant and compliance of lungs
 Protective reflexes
 Lung volumes and capacities including dead space
 Diffusion of gases across the alveolar membrane
 Relationship between ventilation and perfusion
 Mechanism of transport of oxygen and carbon dioxide in blood
 Nervous and chemical regulation of respiration
 Abnormal breathing
 Hypoxia, its causes and effects
 Cyanosis, its causes and effects
REPRODUCTION
 Function of the male reproductive system, Spermatogenesis
 Mechanism of erection and ejaculation
 Production and function of testosterone and Physiological changes during male puberty
 Function of the female reproductive system
 Production and function of estrogen, and progesterone
 Menstrual cycle
 Physiological changes during female puberty and menopause
 Pregnancy and the physiological changes taking place in the mother
 Function of the placenta
 Parturition and lactation
 Neonatal physiology

FINAL TERM
NERVOUSSYSTEM
 General organization of the nervous system
 Classification of nerve fibers
 Properties of synaptic transmission
 Function of neurotransmitters and neuropeptides
 Type and function of sensory receptors
 Function of the spinal cord and ascending tracts
 Reflex action and reflexes
 Muscle spindle and muscle tone
  Mechanism of touch, temperature and pain
 Functions of the cerebral cortex
 Difference between the sensory and motor cortex and their functions
 Motor pathways including pyramidal and extrapyramidal
 Basal Ganglia and its functions
 Cerebellum and its function
 Control of posture and equilibrium
 Physiology of sleep
 Physiology of memory
 Mechanism and control of speech
 Function of the thalamus
 Function of the hypothalamus and limbic system
 Production of CSF
 Mechanism of temperature regulation
 Function of the autonomic nervous system and the physiological changes of aging

BODY FLUIDS AND KIDNEY
 Components and quantitative measurements of body fluids
 Fluid compartments, tissue and lymph fluid
 Structure of the kidney and nephron
 General function of the kidney
 GFR and its regulation
 Formation of urine including filtration, re-absorption and secretion
 Plasma clearance,
 Mechanism of concentration and dilution of urine
 Water and electrolyte balance with reference to the kidney
 Role of the kidney in blood pressure regulation
 Hormonal functions of the kidney
 Acidification of urine and its importance
 Acid base balance with reference to the kidney
 Micturition and its control

LAB WORKRESPIRATORYSYSTEM
 Stethography
 Breathsounds
 Respiratoryrate
 Lungfunctiontests

NERVOUSSYSTEM
 Examination of superficial and deep reflexes
 Brief examination of the motor and sensory system
 Examination of the cranial nerves
Note
 The students are expected to make a practical note book. The book is acollection of
evidence that learning has taken place. It is a reflectiverecordoftheirachievements

RECOMMENDED BOOKS

 Text book of Physiology by Guyton and Hall ,Latest Ed.
 Review of Medical Physiology by William F. Ganong Latest Ed.
 Physiology by Berne and Levy, Latest Ed.
 HumanPhysiology:TheBasisofMedicinebyGillianPocock,ChristopherD.Richards
 PhysiologicalBasisofMedicalPracticebyJohnB.WestandTaylor,12th Ed.
1.
BIOMECHANICS AND ERGONOMICS– I CREDIT HOURS: 3(3-0)

COURSE DESCRIPTION
This course aims to develop appreciation of how mechanical principles can be applied to
understand the underlying causes of human movement. It also examines selected anatomical,
Structural and functional properties of human connective, muscular, and nervous tissues, as well
as skeletal structures. Emphasis is placed on the mechanical, neuroregulatory, and muscular
events that influence normal and pathological motion.
This course will also help to gain an understanding of basic theoretical concepts, principles and
techniques of ergonomics as well as an introduction to fundamental ergonomic measurement tools
for assessment of physical workload, posture, occupational exposure, and stress

LEARNINGOBJECTIVES
 Define concepts and terminology within the area of biomechanics
 Describe statics, kinematics and kinetics in human movement
 Analyze and describe the motion of a body or system using qualitative and quantitative
approaches
 Demonstrate an understanding of how changes of movement patterns and techniques
will influence the load on human tissues of the musculoskeletal system during
movement
 Apply knowledge of the underlying musculoskeletal principles and concepts of
biomechanics including the core areas of human movements in upper and lower
extremity
 Understand and apply knowledge, tools and techniques used inErgonomics
COURSE CONTENTS

MID TERM
BASICTERMINOLOGY
 Biomechanics
 Mechanics
 Dynamics
 Statics
 Kinematics
 Kinetics and anthropometries
 Scope of scientific inquiry addressed by biomechanics
 Difference between quantitative and qualitative approach for analyzing human

KINEMATIC CONCEPTS FOR ANALYZING HUMAN MOTION
 Common units of measurement for mass, force, weight, pressure, volume, density,
specific weight, torque and impulse
 Different types of mechanical loads that act on human body
 Uses of available instrumentation for measuring kinetic quantities

BIOMECHANICS OF TISSUES AND STRUCTURES OF THE
MUSCULOSKELETAL SYSTEM
 BiomechanicsofBone
 BiomechanicsofArticularCartilage
 BiomechanicsofTendonsandLigaments
 BiomechanicsofPeripheralNervesandSpinalNerveRoots
 BiomechanicsofSkeletalMuscles

BIOMECHANICS OF THE HUMAN UPPER EXTREMITY
 Biomechanics of the Shoulder
 Biomechanics of the Elbow
 Biomechanics of the Wrist and Hand
 Factors that influence relative mobility and stability of upper extremity articulation
 Muscles that are active during specific upper extremity movements
 Biomechanical contributions to common injuries of the upper extremity

FINAL TERM
BIOMECHANICS OF HUMAN LOWER EXTREMITY
 Biomechanics of the Hip
 Biomechanics of the Knee
 Biomechanics of the ankle and foot
 Factors influence in relative mobility and stability of lower extremity articulations
 Adaptation of lower extremity to its weight bearing functions
 Muscles that are active in specific lower extremity movements
 Biomechanical contribution to common injuries of the lower extremity.

ERGONOMICS
OVERVIEW ANDCONCEPTUALFRAMEWORK

 Ergonomics and Therapy: An Introduction
 A client-Centered Framework for Therapists in Ergonomics
 Macro ergonomics
KNOWLEDGE,TOOLS ,AND TECHNIQUES
 Ergonomic Assessments/Work Assessments
 Anthropometry
 Cognitive and Behavioral Occupational Demands of Work
 Psychosocial Factors in Work-Related Musculoskeletal Disorders
 PhysicalEnvironment
 Human Factors in Medical Rehabilitation Equipment: Product Development and
Usability Testing

RECOMMENDED BOOKS
1. Basic biomechanics of musculoskeletal system By: Nordin &Frankel, 3rd edition.
th
2. Basic Biomechanics, By: Susan J. Hall 4 edition.
3. Additional study material as assigned by the tutor.
rd
4. Ergonomics for the therapist by Karen Jacobs 3 edition mosby and Elsevier publishers
BIOCHEMISTRY-I CREDIT HOURS 2(2-0)

COURSE DESCRIPTION

This course provides the knowledge and skills in fundamental organic chemistry and
introductory chemistry that are essential for further studies. It covers introduction to the
biomolecules i.e. amino acid, proteins, carbohydrates, fats, enzymes, and nucleic acid. The
nutritional biochemistry concludes the course

Learning objectives

 Describe cell and body fluids in the context of chemistry and human biochemistry
 Discuss the properties, classification, and functions of biomolecules with emphasis on
amino acid, peptides, proteins, enzymes, carbohydrates, lipids and nucleic acid
 Explain importance of nutritional biochemistry with emphasis on minerals, trace
elements, vitamins, and balance diet.

Course contents

MID TERM
Cell

 Introduction to biochemistry
 Cell: (Biochemical Aspects)
 Cell membrane structure
 Membrane proteins
 Receptor and signal molecules
Body fluids

 Structure and properties of water
 Weak acid and bases
 Concept of pH and pK
 Buffers, their mechanism of action
 Body buffers
Biomolecules
Amino acids, peptides, and proteins

 Amino acids: classification
 Acid base properties
 Function and significance
 Protein structure, primary, secondary, super secondary and structural motifs
 Tertiary and quaternary structure of protein
 Protein domains
 Classification of proteins
 Fibrous proteins (collagen and elastins) and globular proteins
Enzymes

 Introduction
 Classification and properties of enzymes
 Coenzymes
 Isozymes and proenzymes
 Regulation and inhibition of enzyme activity and enzyme inhibitors
 Clinical and diagnostic enzymology
FINAL TERM
Carbohydrates

 Definition
 Classification
 Biochemical function and significance of carbohydrates
 Structure and properties of mono and oligosaccharides
 Structure and properties of polysaccharides
 Bacterial cell wall
 Hetero polysacchrides
 GAGS
Lipids

 Classification of lipids
 Fatty acids : chemistry
 Classification, occurrence and functions
 Structure and properties of triacylglycerol and complex lipids
 Classification and function of eicosanoids
 Cholesterol: chemistry, functions, and clinical significance
 Bile acids/salts

Nucleic acids

 Structure, function and biochemical role of nucleotides
 Structure and function of DNA
 Structure and function of RNA
NUTRITIONAL BIOCHEMISTRY MINERALS AND TRACE ELEMENTS

 Sources
 RDA
 Biochemical function and clinical significance of calcium and phosphorus
 Sources
 RDA
 Biochemical functions and clinical significance of sodium, potassium and chloride
 Metabolism of iron, Cu, Zn, Mn, Se, I, F
Vitamins

 Sources
 RDA
 Biochemical function and clinical significance of fat soluble vitamins
 Sources
 RDA
 Biochemical function and clinical significance of water soluble vitamins
Nutrition

 Dietary importance of carbohydrates, lipids and proteins
 Balanced diet.

RECOMMENDED BOOKS
1. Harpers Biochemistry by Robbert k. Murray, Daryl K. Granner, Peter, A. Mayes, Victor
W. Rodwell, Latest Ed.
2. Lipincot Illustrated review of Biochemistry by Pamela C. Champe and Richard A.
Harvey, Latest Ed.
3. Practical Clinical chemistry by varley
4. Textbook of Biochemistry by Devlin, 5th Ed.
5. Textbook of Medical Biochemistry Vol-I and II by M.A Hashmi.
6. Biochemistry by Stryer ,Lubert, latest Ed.