JKSSB Syllabus for Various Posts
JKSSB Syllabus for Junior Radiotherapy Tech & Senior Radiotherapy Tech
Advance notice for conduct of OMR Based Written Examination for recruitment to different posts
It is hereby notified for the information of candidates that J&K Services Selection Board (JKSSB) 0s scheduled to conduct the OMR based written test for various posts, tentatively as per the schedule given in Annexure “A”(tentative schedule) to this notice. The exact dates along with the schedule for downloading of Admit Cards shall be notified separately in due course of time.
The candidates who have applied for such posts whose examination may be scheduled on the same date and thereby experiencing clash of examination dates may represent before the Board within 03 working days of the issuance of this notice so that the changes (if any) are accordingly adjusted in the schedule.
This is an advance notice for the information of concerned candidates.
The syllabus for examination to these posts is annexed herewith as Annexure “A” to “BG”
Syllabus for Junior Radiotherapy Tech. and Senior Radiotherapy Tech.
First Year Marks 120
Radiation Physics Time : 02 Hours
Unit 1 : General Physics – Introduction – Measurements & Units- force, work and energy, temperature and heat – its SI units -Atomic structure- structure of atoms -Nucleus, atomic number, mass number, electron orbit and energy levels -isotopes – isobars – ionization and excitation.-Electromagnetic radiation -electromagnetic waves- quantum theory of radiation and visible light.
Unit 2 : Radioactivity – discovery of radioactivity – types of radiation emitted – transformation process – branching – radioactive decay – artificial or induced radioactivity- Natural radioactivity – Half life – unit of activity – specific activity -gamma ray sources for medical uses. Nuclear fission and fusion.
Unit 3 : interaction of radiation with matter: Attenuation of electromagnetic radiation with matter – photoelectric, Compton effect – pair production -transmission of homogeneous beam through a medium – filtration – transmission of beam through body
tissues.
Unit 4 : Radiation units – Roentgen – Exposure – Radiation intensity -flux and fluence limitation of roentgen – kerma, absorbed dose – radiation dose equivalent – radiation weighting factor – old and SI units and their relations ship – Radiation detection and measurements and its equipments
Human Anatomy, Physiology and Pathology (Marks 15)
Unit 1 : Definition of various terms used in anatomy-Structure and function of cell Elementary tissues of the body- structure and function of skeleton-composition of blood and its functions- lymphatic system – structure and function of heart .
Unit 2 : Structure and function of respiratory system and urinary system – parts of nervous system – sensory organ – digestive system and their functions – Endocrine glands and hormones – reproductive organs and their functions.
Unit 3 : Physiology of reproductive system and breast – Structure and function of liver physiology of digestive system and absorption – Endocrine gland and hormones, location of the glands their hormones and functions of pituitary, thyroid gland and pancreas.
Unit 4 : Growth of the cell- reproduction of cell, cell cycle – tumors – benign and malignant – cause of cancer, spread of cancer in the body – lymphatic’s -metastasis, biopsy – purpose and method, degeneration and process of cell death, repair of wound,
inflammation, infection and immunity.
Diagnostic Radiology Applied to Radiotherapy (Marks 15)
Unit 1 : X-rays – properties and production of x rays – Bremsstrahlung and characteristic X-rays spectra of x-rays – quality and intensity of x-rays – factors influencing quality and quantity of x-rays – – self rectifying circuits – half wave rectifier – full wave rectifier constant potential circuits – measurements of high voltage – X-rays circuits – Mains voltage circuits – X-ray tube voltage (kV) -Exposure control – X-ray tube current (mA) – control of kV circuits and mA circuits.
Unit 2 : Radiographic Image: Primary radiological image formation – use of contrast media , density – contrast – brightness – exposure of x-rays – developers -effect of temperature – optical density measurement – Fog and noise- Intensifying screen – Fluorescence – constituents of intensifying screens – type of screens -intensification factors – speed of screen -screen unsharpness. Cassette -construction and use of cassettes – effect of screen in reduction of patient dose.
Unit 3 : Scattered Radiation and Fluoroscopy: Significance of scatter – Beam limiting devices – Grid principle and structure – Types of Grids – Stationary grid, parallel grid, focused grid – crossed grid, moving grid – potter Bucky diaphragm.
Unit 4 : CT, Ultrasound and MRI: Theory of tomography – multi section radiography – tomographic equipment – CT- scanning principle – reconstruction of image- viewing and evaluation of the image- image quality – Physical aspects of ultrasound – different
ultrasound scans – Doppler effect – MRI principle – imaging methods – slice section – image contrast – factors affecting image quality.
Basic Radiotherapy Techniques (Marks 15)
Unit 1 : Methods of treatment of malignant disease- chemotherapy , hormone therapy, Radiotherapy and surgery in management of disease, relative value of each method for individual tumors or tumor sites -importance of correct dosage, Blood supply, time
factor, fractionation, quality – Radical and palliative treatment. Principle affecting the treatment of malignant disease, emergency radiotherapy, terminal care.
Unit 2 : Choice of treatment and radiotherapy -Anatomical site, relation to other tissue, general condition of the patient to include inherent diseases, extent of tumor and histopathology, place of previous treatment, place of radical and palliative therapy. Tumors sensitivity, anatomical site, relation to other structure availability of equipments.
Unit 3 : Single and multiple field techniques for all treatment sites (from Head to Feet) with appropriate immobilizing device(s).- Fix, Rotation, Arc and Skip therapy procedures. Use of Rubber traction, POP, Orfit, Body Frame in treatment technique, Evaluation of patient setup for simple techniques.
Unit 4 : Use of Beam Modifying devices, such as wedges, Tissue compensators, Mid Line Block (MLB) in the treatment of respective sites. Customized shielding blocks and its properties. Asymmetric jaws, Motorized wedges.
Second Year
Physics of Radiation Oncology & Instrumentation (Marks 15)
Unit 1 : Teletherapy Machines – Historical development – kilo voltage -grenz ray therapy- contact therapy – superficial therapy – deep therapy megavoltage therapy – Radio isotopes units – physical components of cobalt 60 telecobalt units – source housing beam collimation and penumbra – Different type of shutter mechanism in telecobalt units – Caesium 137 units – Advantages and disadvantages – Gamma knife units – simulators and its description.
Unit 2 : Introduction of high energy X- rays in Linear accelerators -physical components of linear accelerators – Different beam bending magnets systems – Microwave generators – Accelerator wave guides – Collimators – primary and secondary collimators –
Target and beam flattening system- electron beam and electron scattering foil and applicators – Cyclotron.
Unit 3 : Beam therapy data- various sources used in radiotherapy and their properties – physics of photons, electrons, protons and neutrons in radiotherapy. Physical parameters of dosimetry – phantoms – PDD, TAR, BSF, TMR, TPR – SSD technique and SAD technique Treatment time dose calculation basics.
Unit 4 : Treatment planning concepts and Beam directing devices and special techniques: Physics of Bolus & Phantom material – isodose curves – measurements of isodose curves – wedge filters – application of wedge filters in radiotherapy and compensating filters – shielding blocks, patient immobilization devices , port film, processing and development . Dose calculations with isodose curves and wedge fields. SRS, SRT, IMRT, IGRT and Tomotherapy- Brachytherapy – ICR , LDR, MDR and HDR – interstitial implants.
Radiotherapy Techniques (Marks 15)
Unit 1 : Technique of fixed beam treatment – single direct filed, parallel fields, multiple fields, regional fields. The use of wedge filters, compensators and shaping blocks, diaphragms and applicators, positioning of the patient, principles of rotation and arc therapy – beta ray and electron beam therapy, 3DCRT, IMRT, IGRT, cyber knife, gamma knife, concept of simulation and virtual simulation.
Unit 2 : Methods of use to include after loading techniques and remote control system -advantages and disadvantages of various radionuclides used, dosage fractionation and overall treatment time – cleaning, sterilization and care of small sealed radioactive sources – beta ray application, interstitial implants, ICR, ILRT and mold therapy.
Unit 3 : Planning procedures and immobilization devices- contour, isodose plans, tissue inhomogeneity, large field matching, immobilization devices, mould room procedure. General problems – iodine and thyroid gland – phosphorous – tracer and therapy
techniques – precautions in use and hazards involved – emergency procedures. Use of equipment’s and responsibilities : General welfare of patient during treatment, including care of patient in case of any inherent disease (ex. diabetes, TB, Arthritis)- Observation and reporting of any change in the signs and symptoms of patients receiving radiation treatment -observation of instruments and reporting of faults – care and use of accessory equipment – beam directing devices – lead rubber aprons -management of radiotherapy equipments – records supervision of patients work – administration – some legal points
Radiation Hazard Evaluation & Control (Marks 15)
Unit 1 : Background radiation levels – philosophy behind radiation protection and Basic concepts of radiation protection standards- ICRP and its recommendations – the system of radiological protection – Justification of practices, Optimization of protection and individual dose limits – Radiation and tissue weighting factors, equivalent dose, effective doe, committed equivalent dose, committed effective dose – concepts of collective dose – potential exposures, dose categories of exposures – occupational, public and medical exposures internal exposure.
Unit 2 : Effects of time, distance, shielding – shielding materials- shielding calculations- different barrier thickness calculations – General considerations and evaluation of work load -personnel and area monitoring rules and instruments – Brachytherapy facilities – telegamma and accelerator installations,- protective equipment – Radiation safety during source transfer operations Special safety features in accelerators, reactors-.
Unit 3 : Radioactive wastes – Classification of waste – Disposal of radioactive wastes – Transportation of radioactive substances- Regulations applicable for different modes of transport- Special requirements for transport of large radio active sources and fissile materials – Exemptions from regulations -Shipment approval
Unit 4 : Radiation accidents and emergencies -Typical accident cases. Regulatory framework – Atomic Energy (Radiation Protection) Rules – Applicable Safety Codes, Standards, Guides and Manuals – Regulatory Control – Licensing, Inspection and
Enforcement – Responsibilities of Employers, Licensees, Radiological Safety Officers and Radiation Workers.
Radiobiology Clinical Oncology (Marks 15)
Unit 1 : Symptoms at presentation, Diagnosis, Staging and Treatment for most common cancers in India specifically of Head and Neck, esophageal, gastric, brain, lung, breast, cervical, colon, rectum, pancreatic, ovary, endometrial, leukemia and lymphomas.
Unit 2 : Care of Patient – Before, during and after radiotherapy, Concepts in cancer treatment (single modalities, combination, especially chemoirradiation, adjuvant, neo-adjuvant, palliative treatment). Pharmacology of important cancer drugs used in chemoirradiation. Principles and procedures in basic life saving skills during radiotherapy (cardiopulmonary resuscitation (CPR) methods, controlling bleeding). Symptoms at presentation, Diagnosis, Staging, Radiation treatment schedules. Important scientific terminologies and their meanings (mucositis, dermatitis, anemia, febrile neutropenia, Leukocytosis etc) and grading of important radiation side effects using the international scales (RTOG/WHO/CTCAE).
Unit 3 : Basics of Radiobiology – Biological basis of radiation-induced cell kill (direct and indirect), hydrolysis of water, cell damage, DNA damage, Somatic effects, Genetic effects, Stochastic and non-stochastic effects, Effects on organs, 23 Rs in radiation,
Hypoxia and treatment, free radicals, oxygen effect and free radical scavengers, LET and RBE theory. Differences in cell kill mechanism by conventional radiotherapy and SRT. Radiation sensitizers, protectors and biologicals (growth factors) used in
radiotherapy Dose modifying factors.
Unit 4 : Medical Ethics – History of Medical ethics (Nuremberg code, Helsinki declaration, Belmont report, ICMR guidelines), patient’s rights, confidentiality, Beneficence and Non-Maleficence, autonomy, empathy and informed consent. Ethics in
data collection, documentation and storage. Research ethics, Code of ethics for technologists during interacting with health care professionals, patients and their caregivers.
Annexure “B” Marks 120
Time 02 Hours
Syllabus for Museum Curator
1st Year
1. Ecology
2. Microbiology
3. Biochemistry and Cellular basis of Life
4. Evolution and Genetics
5. Cell and Molecular Biology
6. Wildlife Forensics
7. Microbial Diversity
8. Biosphere
9. Development and Management of British Habitats
2nd Year
1. Biology of Vertebrates
2. Invertebrates
3. Vertebrate Organisms
4. Entomology
5. Animal behavior
6. Organismal and Population Biology
7. Research Methods
8. SZOO Science
9. Wildlife conservation
10.Ethology
3rdd Year
1. Marine Ecology
2. Conservation of Ecology
3. Biodiversity
4. Oncology and Immunology
5. Behavioral Physiology
6. Community and Population Ecology
7. Parasitology
8. Wildlife conservation
9. Anthropogenic Threats to Biosphere
10.Welfare and Behavior of Domesticated Animals
Annexure “C” Marks 120
Marks 120 Time: 02 Hours
1. Electronic Circuits And Microprocessor (Marks 5)
• Analog Electronics I
• Analog Electronics II
• Transducer
• Digital Electronics
• Electronics For Nuclear Devices
2. Mathematical Physics And Bio Statistics (Marks 5)
• Vector Calculus And Matrices
• Complex Analysis
• Fourier And Laplace Transforms
• Pratical Differential Equations
• Probability, Statistics And Error
3. Non Ionizing Radiation Physics In Medicine (Marks 5)
• Review Of Nonionising Radiation physics In Medicine
• Tissue Optics
• Mediphotonics
• Medical Ultrasound
• Radio Frequency And Microwave
4. Radiological Physics (Marks 5)
• Atomic Physics And Nuclear Transformation
• Interaction Of Radiation With Matter
• Dosimetric Concepts And Quantities
• Principles Of Radiation Detection And Dosimeters
• Radiation Monitoring Instruments
5. Electronics And Instrumentation Laboratory (Marks 5)
> Experiments
• Rc, Lc Oscillator Design.
• Dual Regulated Power Supply
• Astable & Monostable Multivibrator Design
• Operational Amplifier – Characteristics Of Summer, Difference Amplifier And Integrator, Comparator Circuit, Schmitt Trigger
• Filters – High Pass, Low Pass And Band Pass G. M. Counter
• Microprocessor 8085 / 8086
• Waveform Generator Sin Wave & Square Wave Using Op-Amp
• Gamma Ray Spectrometer
• Ic Regulated Power Supply
• Flip Flop, Jk & Rs Using Logic Gates.
• Half Adder & Full Adder
• Data Transfer Using Shift Register
• Digital To Analog And Analog To Digital Conversion• Digital Circuits For Measurements
• Interfacing And Programming Using 8279, 8259 & 8253
• Digital Clock Programming
6. Engineering Graphics And Workshop Practice (Marks 3)
• Engineering Graphics
• Workshop Practice
7.Anatomy And Physiology (Marks 5)
• Human Anatomy Overview
• Digestive System
• Respiratory, Reproduction And Excretory Systems
• Endocrine System
• Nervous System
8. Numerical Methods And Programming In “C” (Marks 3)
• Solutions Of Equations
• Interpolations
• Differentiation, Integration And Differential Equations
• Curve Fitting
• C-Programming
9. Radiation Dosimetry And Treatment Planning (Marks 5)
• Dosimetric Concepts And Quantities
• Calibrating, Measuring And Quality Assurance Of Teletherapy
• Radiation Treatment Planning Parameters
• Beam Data Measurements And Qa Of Planning Systems
• Treatment Planning Aspects And Algorithms
10. Radiotherapy Equipments (Marks 5)
• Telegamma Machines
• Particle Accelerators
• Linear Accelerators
• Radiotherapy Simulators
• Advanced Radiotherapy Equipments
11. Diagnostic And Therapeutic Laboratory- I (Marks 10)
• Calibration Of Telecobalt Unit Using Water Phantom.
• Field Congruence Test For Telecobalt And The Linear Accelerator.
• Calibration Of The High Energy Photon Beams Using Water Phantom.
• Calibration Of The Electron Beams Using Water Phantom.
• External Beam Treatment Planning -Conventional
• Calibration Of The High Dose Rate Source Using Well-Type Chamber.
• Brachytherapy Planning For Manual After Loading Applicator Using Cs-137
• Brachytherapy Planning For Hdr Remote After Loading Treatment
• Cross Calibration Of The Ionization Chamber.
• Percentage Depth Dose And Profile Measurements Using Rfa.
• Ecg Preamplifier
• Bridge Amplifier
• Ultrasonic Diffraction Instruments
• Pacemaker I
• Pacemaker Ii
• Absorption Characteristics Using Uv Visible Spectrophotometer
• Fluorescence Spectrum Using Spectro fluorometer
• Gm Counter Characteristics
• Estimation Of Ph Value For Different Physiological Fluids
• Bio Amplifiers
• Calibration Of Survey Instruments And Pocket Dosimeters
• Calibration Of Tl Phosphor And Tld Reader And Its Use In Dose Distribution
• Measurements
• Recording Of Bio Signals And Analysis (Ecg, Emg)
• Analysis Of Safety Aspects Of Surgical Diathermy
12. Biomedical Instrumentation (Marks 5)
• Biopotential Electrodes And Transducers
• Bioelectric Signal Recording
• Physiological Assist Devices
• Clinical And Operation Theater Equipments
• Biotelemetry And Safety Instrumentation
13. Brachytherapy Physics (Marks 5)
• Definitions And Classification
• Radionuclides And Their Properties
• Dosimetry
• Clinical Practice
• Advanced Brachytherapy Systems
14. Materials For Implant Applications (Marks 5)
• Biological Performance Of Materials And Characterization Techniques
• Classes Of Materials Used In Medicine
• Ophthalmologic Applications And Drug Delivery Systems
• Artificial Orthopeadic And Dental Material
• Cardiovascular Materials
15. Diagnostic And Therapeutic Laboratory- II (Marks 10)
■ Quality Assurance Of A Diagnostic X-Ray Machine.
■ Evaluation Of Characteristics Of A Radiographic Image.
■ Study And Calibration Of Thyroid Uptake Measurement Unit.
■ Dose Output Measurement Of Photon ( Co Gamma Rays And High Energy X-Rays)
■ Beams Used In Radiotherapy Treatment.
■ Dose Output Measurement Of Electron Beams Used In Radiotherapy Treatment.
■ Determination Of Percentage Depth Dose Of Photon And Electron Beams.
■ Integrity Check And Calibration Of Low Activity Brachytherapy Sources.
■ Aks/ Rakr Measurement Of An Hdr Brachytherapy Source Using Well Type
■ And Cylindrical Ionisation Chambers
In-Phantom Dosimetry Of A Brachytherapy Source.
■ Familiarisation With Treatment Planning Procedure Using A Computerised
■ Radiotherapy Treatment Planning System.
■ Survey Of A Radioisotope Laboratory And Study Of Surface And Air Contamination.
■ Protection Survey Of Neutron Installations – Calibration And Evaluation Of
■ Neutron Badge.
■ Protection Survey Of Industrial Radiography Camera.
■ Absorption And Backscattering Of Gamma Rays – Determination Of Hvt.
■ Radiation Protection Survey Of Teletherapy Installations.
■ Radiation Protection Survey Of Diagnostic Radiology Installations.
■ Treatment Planning Of Parallel Opposing Techniques
■ Treatment Planning Of Three Field Techniques
■ Treatment Planning Of Four Field Box Techniques
■ Treatment Planning Of Four Field Cross Field Technique
■ Treatment Planning Of Wedge Field Techniques
16. Advanced Clinical Radiation Therapy Physics (Marks 5)
• Conformal Radiotherapy With Multi Leaf Collimator
• Intensity Modulation Radiation Therapy
• Special Techniques In Radiation Therapy
• Image Guided Radiation Therapy
• Volumetric Modulated Arc Therapy
17. Biological Effects Of Ionizing Radiation (Marks 5)
• Action Of Radiation On Living Cells
• Cell Respons To Irradiation And Its Radi
• Somatic Effects Of Radiation
• Genetic Effects Of Radiations
• Radiobiological Basis Of Radiotherapy
18. Biomedical Optical Spectroscopy (Marks 3)
• Tissue Optics
• Light Propogation In Turbid Media
• Opto Electronic Devices
• Optical Spectroscopy In Medicine
• Optical Imaging Of Cells And Tissues
19. Biosensors (Marks 3)
• Biosensor Transducers
• Biosensor Fabrication
• Types Of Biosensors
• Detection In Biosensors/ Biorecognition System
• Biosensors For Medical Applications
20. Industrial Radiography (Marks 3)
• Radiation Sources
• Image Formation
• Exposure And Exposure Time Estimation
• Testing Methods For Different Applications
• Neutron Radiography
21. Medical Applications Of Lasers (Marks 2)
• Laser Characteristic As Applied To Medicine And Biology
• Studies Of Cell Biological Functions And Structure Using Lasers
• Surgical Applications Of Lasers
• Lasers In Diagnosis And Therapy
• Laser Safety Regulations
22. Medical Imaging Techniques (Marks 5)
• Advanced X-Ray Imaging Systems
• Magnetic Resonance Imaging
• Diagnostic Ultrasound
• Radioisotopes In Diagnosis
• Thermography And Other Imaging Techniques
23. Monte Carlo Techniques In Dosimetry (Marks 2)
• Elements Of Monte Carlo Tecnhique
• Monte Carlo Techniques For Photon And Neutron Transport
• Monte Carlo Techniques For Electron Transport
• Monte Carlo Modeling Of Light Transport In Tissues
24. Nanotechnology For Biomedical Applications (Marks 2)
• Fundamentals Of Micro Fabrication
• Micro Fluidic Patterning And Biopolymer Patterning
• Nanofabrication
• Nano-Biotechnology
• Nanobiosensors
25. Nuclear Medicine (Marks 2)
• Physics Of Nuclear Medicine And Radio Pharm
• Rectilinear Scanners And Gamma Cameras
• Clinical Scanning Of Different Organs
• Display Systems
• Dynamic Studies Using Radioisotopes And Advanced Imaging Systems
26. Radiation Hazards Evaluation And Control (Marks 5)
• Radiation Protection Standards
• Evaluation Of External And Internal Hazards
• Planning And Shielding Calculations
• Adioactive Waste Disposal And Transport Of Radionuclides
• Radiation Emergencies, Medical Management & Legislation
27. Ultrasonics In Medicine (Marks 2)
• Generation And Detection Of Ultrasound
• Pulse Echo And Nic Diagnostic Techniques
• Signal Processing, Display And Safety
• Ultrasound In Obstetrics And Gynaecology Vascular System
• Ultrasound In Ophthalmology And Echocardiography
Annexure “D”
Syllabus for Clinical Psychologist
Part – I Marks 120 /Time 02 Hours
Psychosocial Foundation of Behavior and Psychopathology
• Introduction
• Mental health and illness
• Epidemiology
• Self and relationships
• Family influences
• Societal influences
• Disability
• Rehabilitation
• Policies and Acts
Psychopathology
• Introduction to psychopathology
• Psychological theories
• Indian thoughts
Statistics and Research Methodology
• Introduction
• Sampling
• Concept of probability
• Hypothesis testing
• Tests of significance – Parametric tests:
• Tests of significance – Non-parametric tests
• Experimental design
• Epidemiological studies
• Multivariate analysis
• Sample size estimation
• Qualitative analysis of data
• Use of computers
• Signs and symptoms
• Psychoses
• Neurotic, stress-related and somatoform disorders
• Disorders of personality and behavior
• Organic mental disorders
• Behavioral, emotional and developmental disorders of childhood and adolescence: types, clinical features, etiology and management.
• Mental retardation
• Neurobiology of mental disorders
• Therapeutic approaches
• Consultation-liaison psychiatry
• Special populations/Specialties
Practical : Psychological Assessments including Viva Voce
• Introduction
• Tests of cognitive functions
• Tests for diagnostic clarification
• Tests for adjustment and personality assessment
• Rating scales
• Psychological assessment of children
• Tests for people with disabilities
• Neuropsychological assessment
Part – II
Biological Foundations of Behavior
(Anatomy, Physiology and Biochemistry)
• Anatomy of the brain
• Structure and functions of cells
• Biochemistry of the brain
• Neurobiology of sensory-motor systems and internal environment
• Regulation of Internal Environment
• Neurobiology of Behaviour
• Neurotransmitters and behavior (Neuropsychology)
Introduction
• Temporal lobe syndrome
• Parietal and occipital lobe syndromes
• Neuropsychological profile of neuro-psychiatric conditions
• Functional human brain mapping
• Neuropsychological assessment
• Neuropsychological rehabilitation
Psychotherapy and Counseling
• Introduction to Psychotherapy
• Therapeutic Relationship
• Interviewing
• Affective psychotherapies
• Behavior therapies
• Cognitive therapies
• Systemic therapies
• Physiological therapies
• Counseling
• Therapy in special conditions
• Therapy with children
• Psychoeducation (therapeutic education)
• Psychosocial rehabilitation
• Indian approaches to Psychotherapy
• Contemporary issues and research
Behavioral Medicine
• Introduction
• Central nervous system
• Cardiovascular system
• Respiratory system
• Gastrointestinal system
• Genitourinary/renal/reproductive system
• Dermatology
• Oncology
• HIV/AIDS
• Pain
• Terminally ill
• Other general clinical conditions
• Contemporary Issues
Annexure “E”
Syllabus for Remedial Therapist and Special Educator
Marks 120 Time : 02 Hours
SEMESTER – I (Marks 30)
• Human Growth and Development.
• Contemporary India and Education
• Introduction to Sensory Disabilities (VI, HI, Deaf-blind)
• Introduction to Neuro Developmental Disabilities (LD,ID / MR, ASD)
• Introduction to locomotor & Multiple Disabilities (Deaf -blind, CP, MD)
• Assessment and Identification of Needs.
• Practical : Cross Disability and Inclusion.
SEMESTER – II (Marks 30)
• Learning, Teaching and Assessment.
• Pedagogy of school subjects (Any One from Part – I to Part V)
• Pedagogy of school subjects (Any One from Part – I to Part V)
• Inclusive Education
• Curriculum Designing, Adaptation and Evaluation.
• Practical : Disability specialization
SEMESTER – III (Marks 30)
• Educational Intervention and Teaching Strategies.
• Technology and Disability
• Psycho Social and Family Issues
• Practical : Disability Specialization.
• Main Disability special school (Related in Area C)
• Reading and Reflecting on Tests (EPC)
• Drama and Art in Education (EPC)
SEMESTER – IV (Marks 30)
• Skill based Optional Course (Cross Disability and inclusion) ANY ONE
• Skill based optional course (specialization disability) Any ONE
• Basic Research & Basic Statistic (EPC)
• Practical : Cross Disability and Inclusion
• Other disability special school
• Inclusive school
Annexure “F”
Syllabus for Sanitary Inspector
Sanitary Inspector : A Paramedical worker primarily trained for ensuring standards of cleanliness in and around public places but with capabilities to handle or be part of most routine health care activities. The Course is designed to develop among students an understanding of health disease and other health related phenomenon so that they are able to contribute effectively in the delivery of health care to reduce the magnitude as well the impact of disease in the community.
PART- I
A) Anatomy
• Basic Concepts
• Organ Systems Elementary Knowledge
B) Physiology
• Basic concepts
• Various systems Elementary Knowledge.
C) Community Medicine
i) History of Community Medicine and Public Health
ii) Basic concepts
• Concept of health
• Concept of disease
• Concept of prevention
iii)Epidemiology – Basic concepts
iv)Infectious Disease.
• Dynamics of transmission
• Concept of control
• Immunity and Immunization
• Disinfection
v) Essentials of Outbreak Investigation
vi) Non Communicable Disease
• General concepts
• Prevention of Hypertension, Diabetes, Stroke, Blindness
v) Environmental Health
• Basic Concepts
• Water – Physical , Chemical and Biological standards for potable water sources and nature of pollution of water, hazards of water pollution, purification of water on large and small scale, sanitary well and tube well, water supply and storage system at community and household level.
• Air-sources of air pollution, estimation of level of pollutants, green house effect, thermal comfort, radiation.
• Noise pollution.
• Housing – standards for healthy housing.
• Athropods of public Health Importance.
• Solid Waste management – classification of solid waste, harmful effect of solid waste system of collection and
disposal of solid waste.
• Liquid Waste management – classification, quality of different type of waste, hazards, sanitary sewerage system.
• Night Soil Disposal – Hazards of insanitary disposal, types of latrines in use, Borehole, Dug well, RCA and Septic tank latrines,
sanitation of trenching ground.
vi)Disaster Management
• Basics
vii) Bio Medical Waste Management
• Basics
PART – II
1. Health Communication (Marks 05)
• Basics
• Approaches in Health Education
• Methods
• Contents
• Planning an IEC
2. Nutrition (Marks 10)
• Food components
• Nutritional Assessment
• Deficiency diseases
• Food adulteration
• Food borne diseases
• Food hygiene
• Nutritional Programs
3. Sanitation and Hygiene (Marks 10)
• Sanitation of Public places and Hospitals
• Slaughter House
• Eating Establishment
4. Health Administration (Marks 05)
• Health Care delivery System
• National Health Programs (Selected)
• Health Statistics
• Role of Sanitary Inspector
5. MCH and Family Planning (Marks 10)
• Ante Natal Care
• INC, PNC, Under five Care
• Family and Demography
• Methods of FP
6. Occupational Health (Marks 05)
• Hazards
• Diseases
7. International Health (Marks 05)
8. Drug Therapy (Marks 05)
• Basic concepts
• Classification of drugs
• Brief description of common drugs at primary level
9. First Aid during (Marks 05)
• Common Ailments
• Injuries, Fractures, RTA
• Burns, Drowning, Bites, Poisoning
10. Store Keeping- Basics(Marks 05)
11. Organization and functioning of Municipal Corporations (Marks 05)
Annexure “G”
Syllabus for Food Safety Officer
Total Marks 120 Time 02 Hours
• Indian and International Food Laws Marks 10
• FSSAI – Role, Functions, Initiatives (A General Under Stand : I (Marks 10)
• Food Safety Eco System in India (Marks 15)
• Principles and Basics of Food Chemistry and their role in Human Nutrition.
• Food Microbiology & General Principles of Food Hygiene (Marks 15)
• Food , Science and Nutrition (Marks 15)
• Food Quality (Marks 10)
• General concept of Food Analysis and Testing (Marks 10)
• Food Processing and Preservation (Marks 10)
• Principles of Food Preservation, Processing and Packaging (Marks 10)
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