Dental MCQs - Multiple Choice Questions in Dentistry

SELECT THE TOPIC YOU WANT TO PRACTICE.

# LOK SEWA  AAYOG PAST QUESTIONS

Medical Entrance Preparation MCQs
# Digestive System and Nutrition MCQs
# Reproductive System MCQs
# MCQs on Sense Organs
# Nervous System MCQs
# Cardiovascular System MCQs
# Endocrine System MCQs

# Assorted Dental MCQs - Part 1

#AIIMS MDS ENTRANCE EXAM YEARWISE COLLECTION
*** AIIMS Nov 2001
*** AIIMS Nov 2002
*** AIIMS Nov 2003
*** AIIMS Nov 2004
*** AIIMS Nov 2005
*** AIIMS Nov 2006
*** AIIMS Nov 2007 Part 1
*** AIIMS Nov 2007 Part 2
*** AIIMS Nov 2008 

*** AIIMS Nov 2009

*** AIIMS Nov 2010

*** AIIMS Nov 2012

*** AIIMS Nov 2013

*** AIIMS Nov 2014

*** AIIMS Nov 2015

*** AIIMS May 2016
*** AIIMS May 2015

*** AIIMS May 2014

*** AIIMS May 2013

*** AIIMS May 2012

*** AIIMS May 2011

# DENTAL MATERIALS

*** Amalgams
*** Physical Properties

*** Metallurgy
*** Impression Materials
*** Dental Ceramics and Miscellaneous

*** Gypsum Products

*** Restorative Resins

# GENERAL ANATOMY

*** Osteology

*** Vascular Supply of Head and Neck
*** Nerve Supply of Head and Neck
*** Tongue

*** Embryology

#GENERAL PATHOLOGY

*** Cell in Health and Disease
*** Fluid and Hemodynamic Disorders
***  Growth Disorders and Neoplasia
*** Pathology of Cell Proliferation and Neoplasia

*** Pathology of Blood Cells

*** Cardiovascular Pathology

*** Pathological Deposits

*** Wound Healing and Repair

*** Acute and Chronic Infections

# PHYSIOLOGY

*** GIT and Liver
*** Respiratory System
*** Renal System
*** Cardiovascular System

*** Endocrinology Part 1

#  PHARMACOLOGY

*** Antibiotics, Antivirals and Antifungals
*** Chemotherapy - Antibiotics

*** Local and General anesthetics
*** Drugs acting on CVS, GIT and Respiratory System

*** NSAIDs and Other CNS Drugs Part 1
*** NSAIDs and Other CNS Drugs Part 2

#BIOCHEMISTRY
*** Carbohydrate Metabolism
*** Vitamins

*** Protein Metabolism

#MICROBIOLOGY
*** Bacteriology Part 1
*** Bacteriology Part 2
*** Mycology and Parasitology
*** Virology Part 1
*** Virology Part 2


# PROSTHODONTICS
# COMPLETE DENTURES
*** Impression Procedures
*** Border Moulding and Posterior Palatal Seal
*** Jaw Relations and Miscellaneous

# REMOVABLE PARTIAL DENTURES
*** Removable Partial Dentures: Introduction and Classification
*** Major and Minor Connnectors

# FIXED PARTIAL DENTURES
*** Principles of Tooth Preparation
*** Pontics and Finish Lines

# ORAL ANATOMY AND HISTOLOGY

*** Occlusion
*** Development and Growth of Teeth

*** Enamel
*** Dentin
*** Pulp

*** Cementum
*** Periodontal Ligament
*** Salivary Glands

*** Tooth eruption, Shedding and Miscellaneous

*** Oral Mucous Membrane

# ORAL MEDICINE AND PATHOLOGY

*** Developmental Disturbances
*** Acute and Chronic Infections of the Jaw
*** Skin And Vesiculobullous Diseases

*** Skin and Vesiculobullous Diseases Part 2

*** Oral Cancer and Oral Precancer
*** Benign and Malignant Tumors of Oral cavity
*** Odontogenic Cysts and Tumors
*** Diseases of the Salivary Gland
*** Dental Caries
*** Pulp and Periapical Pathology
*** Pulp and Periapical Infections
*** Pulp and Periapical Infections Part 2
*** Oral Manifestations of Systemic Disease
*** Diseases of Blood - RBC and WBC Disorders , Bleeding / clotting disorders
*** Diseases of Microbial Origin Part 1
*** Viral Infections
*** Tongue Disorders
*** Medically compromised Dental Patients - Dental Considerations

*** Diseases of Nerves and Muscles

# ORAL RADIOLOGY
*** Biological Effects of Radiation
*** Radiographic Diagnosis
*** Radiation Physics

# GENERAL SURGERY

*** Diseases of Salivary and Thyroid glands
*** Transfusion, Shock, Burns and Wound Healing

#GENERAL MEDICINE
*** Cardiovascular System
*** Hematology and Endocrinology Part 1
*** Hematology and Endocrinology Part 2
*** Respiratory System Part 1
*** Respiratory System Part 2

# ORAL AND MAXILLOFACIAL SURGERY

*** Instruments Used in Oral Surgery

*** Exodontia and Impactions
*** Local and General Anesthesia
*** Odontogenic Infections
*** Mandibular Fractures and Middle Third of Face Fractures
*** Cysts and Tumours
*** Temporomandibular Joint and Maxillary Sinus
*** Cardiopulmonary Resuscitation and Airway Maintenance

# PEDODONTICS

*** Child Psychology

*** Child Behavior Management

*** Growth and Development

# ORTHODONTICS

*** Growth and Development

*** Development of Dentition

*** Etiology of Malocclusion
*** Orthodontic Diagnosis
*** Preventive and Interceptive Orthodontics

*** Cephalometry

# CONSERVATIVE DENTISTRY AND ENDODONTICS

*** Most Important Operative Dentistry MCQs

*** Principles of Cavity Preparation
*** Cariology : Diagnosis and Treatment Planning
*** Hand Instruments and Instrumentation

*** Dental Cements

*** Anatomy of Pulp Canal

*** Diseases of the Pulp and Periradicular Tissues
*** Disinfection and Obturation

*** Biomechanical Preparation
*** Teeth Bleaching - Vital and Non Vital Bleaching
*** Traumatology and Endodontic Surgery

*** Tooth Colored Restorations

# PERIODONTOLOGY

*** Periodontal Microbiology
*** Gingiva and Tooth Supporting Structures
*** Defense Mechanisms of Gingiva and Host Response
*** Gingivitis
*** Periodontal Instrumentation

*** Periodontal Diseases Part 1

# PUBLIC HEALTH DENTISTRY
*** Epidemiology

*** Biostatistics

Different Types of Pathological Calcification

Q. Discuss the types of calcification.

The mineralisation of body tissues with calcium is a normal physiological process in tissues like bones and teeth, termed as physiological calcification. However, sometimes the visceral tissues and other soft tissues may also get calcified in many diseased states, which is called pathological calcification. In addition to the calcium salts, smaller amounts of iron, magnesium and other minerals may also be deposited.

Pathological calcification can be broadly classified into two types: Dystrophic Calcification and Metastatic Calcification.

Dystrophic calcification: When the deposition takes place in dead or dying tissues, then it is termed as dystrophic calcification. The serum calcium levels are normal and the calcium metabolism is not deranged. Though hypercalcemia is not a prerequisite for dystrophic calcification, hypercalcemia can exacerbate it. It is seen in areas of tissue necrosis of any type. It is almost always present in the atheromas of advanced atherosclerosis, associated with intimal injury in the aorta and large arteries and characterized by the accumulation of lipids. Sometimes dystrophic calcification may also indicate organ dysfunction, e.g. calcification can develop in damaged heart valves, resulting in severely compromised valve motion. Pathogenesis involves initiation and propagation where crystalline calcium phosphate is formed as the final product.


Metastatic Calcification: Due to hypercalcemia, metastatic calcification may occur in normal tissues.

 The causes of hypercalcemia may be:
- increased secretion of parathyroid hormone (due to either primary parathyroid tumors or production of parathyroid hormone–related protein by other malignant tumors)
- destruction of bone (e.g. Paget's disease, Myeloma, Leukemia, etc.)
- Vitamin D - related disorders and sarcoidosis
- renal failure, in which phosphate retention leads to secondary hyperparathyroidism

Metastatic calcification can occur widely throughout the body but principally affects the interstitial tissues of the vasculature, kidneys, lungs, and gastric mucosa.

Necrosis Vs Apoptosis

Q. Mention differences between necrosis and apoptosis.

Ans : Though both necrosis and apoptosis are events of cell death, they do differ in various ways. The differences can be observed under following parameters :

a) Cell Size
The cell is enlarged (swelling) in necrosis whereas the cell is reduced (shrinkage) in apoptosis.

b) Fate of Nucleus
In necrosis, nucleus undergoes series of changes like pyknosis ( irreversible condensation of chromatin in the nucleus of a cell ) , karyorrhexis (fragmentation of nucleus) and karyolysis (complete dissolution of the chromatin of a dying cell due to the enzymatic degradation). But, in Apoptosis, nucleus undergoes fragmentation into nucleosome size fragments

c) Plasma Membrane
The plasma membrane is disrupted and is full of leakages in case of necrosis but, it is intact in cells undergoing apoptosis. Only the orientation of lipids in plasma membrane is altered in apoptosis.

d) Cellular contents
Due to ruptured plasma membrane, cellular contents undergo digestion and may leak out of the cell in necrosis. But, the cellular contents are intact in case of apoptosis. However, they may be released in apoptotic bodies.

e) Adjacent inflammation
There is no any adjacent inflammation seen in apoptosis whereas adjacent inflammation can be seen in necrosis.

f) Physiologic or pathologic role
Apoptosis is often physiologic but necrosis is always pathologic.

Necrosis : Definition, Types and Examples

Q. Define Necrosis. Enlist its types with an example of each.

Ans: Necrosis is the type of cell death that is associated with loss of membrane integrity and leakage of cellular contents culminating in dissolution of cells, largely resulting from the degradative action of enzymes on lethally injured cells.

Types of Necrosis:
i) Coagulative Necrosis
- underlying tissue architecture is preserved,

- affected tissues take on a firm texture

- characteristic of infarcts in all of the solid organs except the brain

ii) Liquefactive Necrosis
- seen in focal bacterial or fungal (occasionally) infections

- the dead cells are digested completely, transforming the tissue into a liquid viscous mass

- seen often in hypoxic death of cells within CNS

iii) Caseous Necrosis (Caseous = Cheese like)
- Encountered most often in foci of tubercular infection

- friable yellow white appearance of the necrotic region

- area of caseous necrosis is often enclosed within a distinctive inflammatory border; this appearance is characteristic of a focus of inflammation known as a granuloma


iv) Fat Necrosis
- focal areas of fat destruction

- seen in Acute Pancreatitis

- grossly visible chalky white areas can be seen

v) Fibrinoid Necrosis
- special form of necrosis visible by light microscopy

- usually in immune reactions in which complexes of antigens and antibodies are deposited in the walls of arteries.

- a bright pink and amorphous appearance on H&E preparations called fibrinoid (fibrin-like) by pathologists

- seen in  immunologically mediated diseases (e.g. polyarteritis nodosa)

vi) Gangrenous Necrosis
- mostly the affected organ has lost its blood supply and has undergone coagulative necrosis involving multiple tissue layers

- When bacterial infection is superimposed, coagulative necrosis is modified by the liquefactive action of the bacteria and the attracted leukocytes (resulting in so-called wet gangrene)

- e.g. necrosis of a limb (mostly lower)

World Oral Health Day - 20th March 2017 - Live Mouth Smart

Poster for Oral Health Awareness : World Oral Health Day 2017 , Designed By: Raman Dhungel, BPKIHS,Dharan, Nepal.

FDI World Dental Federation (Federation Dentaire Internationale), has decided to celebrate 20th March 2017 as the world oral health day with a theme "Live mouth Smart".

The first World Oral Health Day was celebrated on 20th March 2013 by FDI World Dental Federation. Since then, every year , on 20th March it is celebrated across the globe by organising various campaigns and programs to raise Oral health awareness.

The themes for World Oral Health Day till date are:
2013: Healthy Teeth for Healthy Life
2014: Brush for a Healthy Mouth!
2015: Smile For Life!
2016: It all Starts Here. Healthy Mouth. Healthy Body
2017: Live Mouth Smart.


Good oral health leads to good overall health.
Share the message of World Oral Health Day and spread Oral Health Awareness.

MCQs on Oral Histology - Dentin Part 5

# During the formation of primary teeth:
A. Enamel forms more cervically than dentin
B. Enamel forms faster than dentin
C. Dentin forms faster than enamel
D. Processes of their cells remain in content with each other

# Matrix vesicles :
A. Are found in mantle dentin
B. Contain collagen
C. Produce alkaline phosphatase
D. Inhibit mineralization

# Transmission of stimulus across dentin is:
A. Direct activation of nerve endings
B. Correlated with the innervation density of the dentin
C. Stimulus induced fluid flow
D. There is no transmission of stimulus across dentin

# During hydrodynamic theory movement of fluids in dentinal tubules cause:
A. Movement of odontoblasts
B. Touch the nerves of the pulp to cause pain
C. Minimum effect on odontoblast
D. Stimulation of odontoblastic process


# Which of the areas of the tooth is most sensitive during cavity preparation :
A. Enamel (anterior teeth)
B. Enamel (posterior teeth)
C. Dentin
D. Dentinoenamel junction

# Matrix vesicles play important role in the mineralization of :
A. Dentin
B. Enamel
C. Pulp
D. Periodontal ligament

# False statement regarding interglobular dentin is :
A. The term interglobular dentin refers to organic matrix that remains unmineralized because the mineralising globules fail to coalesce
B. This occurs most often in the circumpulpal dentin just below the mantle dentin
C. Where the pattern of mineralization is likely to be appositional than globular
D. Large areas of interglobular dentin is a characteristic feature of childhood hypophosphatasia

<<View Part 4       PRACTICE MORE >>>

MCQs on Oral Histology - Dentin Part 4

# S-Shape of dentinal tubule is due to:
A. Incremental deposition
B. Peritubular dentin
C. Crowding of odontoblasts
D. Due to excess amount of organic component

# The formation of which of the following does not represent normal physiological process of dentin formation?
A. Primary and secondary dentin
B. Secondary dentin and Circumpulpal dentin
C. Tertiary dentin and Sclerotic dentin
D. All of the above

# All of the following is true about dentinal tubules except:
A. Inner pulpal layer contains more dentinal tubules than outer dentin layer
B. The diameter of dentin tubules ranges from 5 to 7 micrometer
C. The diameter of dentinal tubule is more at pulpal layer than outer layer
D. The bonding is more difficult is more difficult on the inner layer of dentin compared to outer surface

# Fluid flow , in and out of the dentinal tubules is proportional to the tubule diameter by:
A. Third power of the diameter
B. Sixth power of the diameter
C. Square of the diameter
D. Fourth power of the diameter

# The average diameter of coronal dentinal tubules near the pulp is :
A. 0.2-0.5 microns
B. 2-3 microns
C. 0.2-0.3 microns
D. 7 microns

# In adult teeth , the type of dentin present underlying dentino-enamel junction is:
A. Predentin
B. Mantle dentin
C. Interglobular dentin
D. Tertiary dentin


# All are the factors governing dentin permeability except:
A. Smear layer
B. Fluid Convention
C. Length of Dentinal tubules
D. Diffusion coefficient

# The most accepted theory for dentin sensitivity is :
A. Transduction theory
B. Direct neural stimulation
C. Hydrodynamic theory
D. Hydrostatic theory

# Compared to intertubular dentin , peritubular dentin is characterized by which of the following ?
A. Greater stainability
B. Lesser content of the inorganic salts
C. Greater content of the inorganic salts
D. Greater content of large collagen fibers

# One of the following statement is unique about circumpulpal dentin :
A. Collagen fibers are oriented perpendicular to DEJ
B. Von Korff fibers are present
C. Contain Phosphophoryn
D. Requires matrix vesicle for mineralisation

<<View Part 3      View Part 5>>>