Small pox virus [autosaved]
VamsiIntellectual
378 views
53 slides
Nov 15, 2021
Slide 1 of 53
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
About This Presentation
Attuluri Vamsi Kumar, MLT, SMAS, Galgotais Unversity.
Slide Content
Module-5
Topic name
Small Pox
Sub code: BMLT5001
Sub Name: Virology and mycology
Department:Department of MLT, SMAS
Faculty:A. Vamsi Kumar
Designation : Assistant professor
Sem-V
Topic name
Small Pox
Sub code: BMLT5001
Sub Name: Virology and mycology
Department:Department of MLT, SMAS
Faculty:A. Vamsi Kumar
Designation : Assistant professor
Sem-V
SYLLABUS OVERVIEW
Unit-1 Mycology 8 hours
Introduction to medical mycology, basic concepts about superficial and deep mycoses taxonomy , classification &
general characteristics of Various medically important fungi.
Unit-2 Fungal infection 8 hours
Names of fungi & diseases caused by them; superficial mycoses, candida, dermatophytes, opportunistic fungi,
subcutaneous mycoses
Unit-3 Virology 7 hours
Introduction, classification of virus, collection, Transport, & Storage of sample for Viral diagnosis. Staining Techniques
used in virology,
Processing of sample for viral diagnosis (Egg Inoculation & Tissue culture)
Unit-4 RNA Viruses 9 hours
RNA Viruses: Polio myelitis, Rhino virus, Influenza, Rabies, Arboviruses, Measles Mumps, Rubella, HIV, COVID-19
Unit-5 DNA Viruses 8 hours
DNA viruses: Small Pox, HSV, CMV, EBV, Varicella Zoster, Hepatitis, Adeno virus
Unit -6 Next generation PCR and it’s modrenapplications 8 Hours
PCR and Next genrationDNA Secquencingtechniques to identify viral genome: History of PCR, Pricipleof PCR, Stages
of PCR, procedure of PCR, Concept of optimization of PCR, Applications of PCR, Advancements in PCR technology, DNA
sequecingtechniques, Methods of DNA Sequencing, Next generation DNA sequencing techniques
Unit-1 Mycology 8 hours
Introduction to medical mycology, basic concepts about superficial and deep mycoses taxonomy , classification &
general characteristics of Various medically important fungi.
Unit-2 Fungal infection 8 hours
Names of fungi & diseases caused by them; superficial mycoses, candida, dermatophytes, opportunistic fungi,
subcutaneous mycoses
Unit-3 Virology 7 hours
Introduction, classification of virus, collection, Transport, & Storage of sample for Viral diagnosis. Staining Techniques
used in virology,
Processing of sample for viral diagnosis (Egg Inoculation & Tissue culture)
Unit-4 RNA Viruses 9 hours
RNA Viruses: Polio myelitis, Rhino virus, Influenza, Rabies, Arboviruses, Measles Mumps, Rubella, HIV, COVID-19
Unit-5 DNA Viruses 8 hours
DNA viruses: Small Pox, HSV, CMV, EBV, Varicella Zoster, Hepatitis, Adeno virus
Unit -6 Next generation PCR and it’s modrenapplications 8 Hours
PCR and Next genrationDNA Secquencingtechniques to identify viral genome: History of PCR, Pricipleof PCR, Stages
of PCR, procedure of PCR, Concept of optimization of PCR, Applications of PCR, Advancements in PCR technology, DNA
sequecingtechniques, Methods of DNA Sequencing, Next generation DNA sequencing techniques
Unit-4 RNA Viruses 9
hours
RNA Viruses: Polio myelitis, Rhino virus, Influenza, Rabies,
Arboviruses, Measles, Mumps, Rubella, HIV, COVID-19
Unit 4
hours
RNA Viruses: Polio myelitis, Rhino virus, Influenza, Rabies,
Arboviruses, Measles, Mumps, Rubella, HIV, COVID-19
Unit 4
Unit-5 DNA Viruses
DNA viruses: Small Pox, HSV, CMV, EBV, Varicella Zoster,
Hepatitis, Adeno virus
Unit -5Unit -5
DNA viruses: Small Pox, HSV, CMV, EBV, Varicella Zoster,
Hepatitis, Adeno virus
Unit -5Unit -5
Families of viruses
DNA Viruses RNA Viruses
HAP3
Herpes viridae
1.Alpha –HS1, HS2, EBV
2.Beta –CMV
3.Gama -VZ
DNA “HAS” the potential
ii. Adenovirus
iii. Small pox
iv. Hepatitis
PR2OCBT
H H
PCR2MMR3 –IH
1.Polio virus
2.Corona virus
3.Rhino virus
4.Rota virus
5.Measles virus
6.Mumps virus
7. Rubella
8. Rabis
9. Influenza
10. HIV
AIDS
DNA Viruses RNA Viruses
HAP3
Herpes viridae
1.Alpha –HS1, HS2, EBV
2.Beta –CMV
3.Gama -VZ
DNA “HAS” the potential
ii. Adenovirus
iii. Small pox
iv. Hepatitis
PR2OCBT
H H
PCR2MMR3 –IH
1.Polio virus
2.Corona virus
3.Rhino virus
4.Rota virus
5.Measles virus
6.Mumps virus
7. Rubella
8. Rabis
9. Influenza
10. HIV
AIDS
Families of viruses
DNA Viruses
HAP3
Herpes viridae
1.Alpha –HS1, HS2, EBV
2.Beta –CMV
3.Gama -VZ
DNA “HAS” the potential
ii. Adenovirus
iii. Small pox
iv. Hepatitis
H
DNA Viruses
HAP3
Herpes viridae
1.Alpha –HS1, HS2, EBV
2.Beta –CMV
3.Gama -VZ
DNA “HAS” the potential
ii. Adenovirus
iii. Small pox
iv. Hepatitis
H
General points
1.Introduction
2.Classification
3.Morphology(General properties)
•Size
•Shape
•Symmetry
•Capsomers
•Genome
•Envelop
•Special viral proteins
4.Susceptibility & Resistance
5.Isolation / Cultivation -Animal/tissue/cell
culture
6.Pathogenesis+ mode of transmission +
Mechanism + incubation period
7.Signs & Symptoms+ Complications
8. Laboratory diagnosis
•Sample collection (antemortem + Post
mortem )
•Transport
•Direct microscopy
•Culture / isolation of virus
•Cytopathic effects
•Inclusion bodies or other tests
•Immunofluorescence tests
•Molecular tests
•Ag detection tests
•Detection of viral specific antibodies
9. Prophylaxis(Vaccination)
•Active immunization
•Passive immunization
10. Treatment
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.Introduction
2.Classification
3.Morphology(General properties)
•Size
•Shape
•Symmetry
•Capsomers
•Genome
•Envelop
•Special viral proteins
4.Susceptibility & Resistance
5.Isolation / Cultivation -Animal/tissue/cell
culture
6.Pathogenesis+ mode of transmission +
Mechanism + incubation period
7.Signs & Symptoms+ Complications
8. Laboratory diagnosis
•Sample collection (antemortem + Post
mortem )
•Transport
•Direct microscopy
•Culture / isolation of virus
•Cytopathic effects
•Inclusion bodies or other tests
•Immunofluorescence tests
•Molecular tests
•Ag detection tests
•Detection of viral specific antibodies
9. Prophylaxis(Vaccination)
•Active immunization
•Passive immunization
10. Treatment
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
INTRODUCTION
Timeline of small pox
Notes
General points
1.Introduction
2.Classification
3.Morphology(General properties)
•Size
•Shape
•Symmetry
•Capsomers
•Genome
•Envelop
•Special viral proteins
4.Susceptibility & Resistance
5.Isolation / Cultivation -Animal/tissue/cell
culture
6.Pathogenesis+ mode of transmission +
Mechanism + incubation period
7.Signs & Symptoms+ Complications
8. Laboratory diagnosis
•Sample collection (antemortem + Post
mortem )
•Transport
•Direct microscopy
•Culture / isolation of virus
•Cytopathic effects
•Inclusion bodies or other tests
•Immunofluorescence tests
•Molecular tests
•Ag detection tests
•Detection of viral specific antibodies
9. Prophylaxis(Vaccination)
•Active immunization
•Passive immunization
10. Treatment
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.Introduction
2.Classification
3.Morphology(General properties)
•Size
•Shape
•Symmetry
•Capsomers
•Genome
•Envelop
•Special viral proteins
4.Susceptibility & Resistance
5.Isolation / Cultivation -Animal/tissue/cell
culture
6.Pathogenesis+ mode of transmission +
Mechanism + incubation period
7.Signs & Symptoms+ Complications
8. Laboratory diagnosis
•Sample collection (antemortem + Post
mortem )
•Transport
•Direct microscopy
•Culture / isolation of virus
•Cytopathic effects
•Inclusion bodies or other tests
•Immunofluorescence tests
•Molecular tests
•Ag detection tests
•Detection of viral specific antibodies
9. Prophylaxis(Vaccination)
•Active immunization
•Passive immunization
10. Treatment
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
Introduction
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
Classification
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
Morphology
1.Size-300 ˣ 200 ˣ 100nm
2.Shape-Brick shaped
3.Symmetry-Complex (dumbbell
shaped)
4.Genome-dsDNA
5.Envelop –Present
6.Special proteins –Lateral Bodies
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.Size-300 ˣ 200 ˣ 100nm
2.Shape-Brick shaped
3.Symmetry-Complex (dumbbell
shaped)
4.Genome-dsDNA
5.Envelop –Present
6.Special proteins –Lateral Bodies
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
Susceptibility & Resistance
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
Cultivation
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
1.I
2.C
3.M
4.S&R
5.Cul
6.Patho
7.Signs
8.LD
9.Px
10.T
Pathogenesis
Mode of Transmission
Mode of Transmission
Pathogenesis
Eradication of smallpox
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 378
- Slides 53
- Favorites 2
- Age 1477 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
30 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
32 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
30 views
14
Fertility awareness methods for women in the society
Isaiah47
29 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
26 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
28 views