Difference between revisions of "Dental Extraction Power Equipment - Small Animal"

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[[File:High speed dental drill.jpg|right|200px|thumb|High speed dental drill with a tapered fissure cross cut bur<small>''© Lisa Milella 2013''</small>]]
 
[[File:High speed dental drill.jpg|right|200px|thumb|High speed dental drill with a tapered fissure cross cut bur<small>''© Lisa Milella 2013''</small>]]
 
[[File:Contra-angle hand piece.jpg|right|200px|thumb|Slow speed, contra-angle hand piece with a latch grip attachment.<small>''© Lisa Milella 2013''</small>]]
 
[[File:Contra-angle hand piece.jpg|right|200px|thumb|Slow speed, contra-angle hand piece with a latch grip attachment.<small>''© Lisa Milella 2013''</small>]]
A micromotor unit is a small electric motor that connects to an e-fitting handpiece. Micromotors can be used for polishing teeth as well as sectioning them. The control box has a forward and reverse switch and a speed control knob. Micromotor units do not generally include water cooling of the bur and an external source (e.g. assistant applying coolant continuously to the tissues) is required to prevent thermal damage. For sectioning teeth, the micromotor should be set at maximum speed (30 000 rpm).
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A micromotor unit is a small electric motor that connects to an e-fitting handpiece. Micromotors can be used for polishing teeth as well as sectioning them. The control box has a forward and reverse switch and a speed control knob. Micromotor units do not generally include water cooling of the bur and an external source (e.g. assistant applying coolant continuously to the tissues) is required to prevent thermal damage. For sectioning [[:Category:Teeth - Anatomy & Physiology|teeth]], the micromotor should be set at maximum speed (30 000 rpm).
  
 
==Compressed Air Driven Unit==
 
==Compressed Air Driven Unit==
 
The basic compressed air driven unit consists of a '''high-speed hand piece with water cooling''', a slow-speed hand piece (with or without water cooling) and a combination air/water syringe, driven by a air compressor.<br><br>
 
The basic compressed air driven unit consists of a '''high-speed hand piece with water cooling''', a slow-speed hand piece (with or without water cooling) and a combination air/water syringe, driven by a air compressor.<br><br>
A high-speed hand piece facilitates extraction by allowing easy sectioning of multi-rooted teeth and bone removal prior to extraction. It allows accurate application of coolant water to the end of the drill tip. The turbine spins at about 300000-400000 rpm. It is designed for high speed and low-torque and should be used with the foot pedal fully depressed to achieve this. The cartridge in the head of the handpiece is driven by compressed air. The cartridge is a turbine, mounted on bearings around a clutch mechanism that holds the bur in place. Investing in a high-speed hand piece with fibre-optic light is strongly recommended.<br><br>
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A high-speed hand piece facilitates extraction by allowing easy sectioning of multi-rooted teeth and [[Bone - Anatomy & Physiology|bone]] removal prior to extraction. It allows accurate application of coolant water to the end of the drill tip. The turbine spins at about 300000-400000 rpm. It is designed for high speed and low-torque and should be used with the foot pedal fully depressed to achieve this. The cartridge in the head of the handpiece is driven by compressed air. The cartridge is a turbine, mounted on bearings around a clutch mechanism that holds the bur in place. Investing in a high-speed hand piece with fibre-optic light is strongly recommended.<br><br>
 
The slow-speed hand pieces are driven by an air motor, driven by the compressor. Each handpiece can be adjusted for direction (forward and reverse) and speed. The air motor speed has a maximum of 25000 -30000 rpm. The slow speed handpiece accommodates the contra-angle hand piece used for polishing the teeth as well as straight or nose-cone handpieces. The contra-angle handpieces are slightly offset, and have  a latch grip mechanism to hold burs or polishing heads/brushes. Contra-angle handpieces most commonly used in veterinary practice are 1:1 meaning that the output speed is the same as the air motor speed. Speed increasing handpieces are available and are better for sectioning teeth, whilst speed reducing handpieces are also available and more commonly used for restorative dental procedures.<br><br>
 
The slow-speed hand pieces are driven by an air motor, driven by the compressor. Each handpiece can be adjusted for direction (forward and reverse) and speed. The air motor speed has a maximum of 25000 -30000 rpm. The slow speed handpiece accommodates the contra-angle hand piece used for polishing the teeth as well as straight or nose-cone handpieces. The contra-angle handpieces are slightly offset, and have  a latch grip mechanism to hold burs or polishing heads/brushes. Contra-angle handpieces most commonly used in veterinary practice are 1:1 meaning that the output speed is the same as the air motor speed. Speed increasing handpieces are available and are better for sectioning teeth, whilst speed reducing handpieces are also available and more commonly used for restorative dental procedures.<br><br>
The three-way syringe can deliver either a stream of water or a spray of water and air, or air only. It is used to irrigate/ lavage the mouth (water or water/air spray) and to dry the teeth (air only). Suction is also available with some units.<br><br>
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The three-way syringe can deliver either a stream of water or a spray of water and air, or air only. It is used to irrigate/ lavage the [[Oral Cavity Overview - Anatomy & Physiology|mouth]] (water or water/air spray) and to dry the teeth (air only). Suction is also available with some units.<br><br>
 
Investing in a compressed air driven unit from the outset is recommended. The high-speed hand piece greatly facilitates tooth sectioning and the three-way syringe (for lavage and drying) will aid in the removal of debris and improve visibility during examination and any procedure.
 
Investing in a compressed air driven unit from the outset is recommended. The high-speed hand piece greatly facilitates tooth sectioning and the three-way syringe (for lavage and drying) will aid in the removal of debris and improve visibility during examination and any procedure.
  
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The most commonly used shapes in veterinary dentistry are tapered fissure burs and round burs. Fissure burs can be either cylindrical or tapered with cutting surfaces on the side of the bur. Round burs are ball shape and have cutting surfaces around the whole surface of the ball. Other shapes are available and include pear shaped, inverted cones amongst others.
 
The most commonly used shapes in veterinary dentistry are tapered fissure burs and round burs. Fissure burs can be either cylindrical or tapered with cutting surfaces on the side of the bur. Round burs are ball shape and have cutting surfaces around the whole surface of the ball. Other shapes are available and include pear shaped, inverted cones amongst others.
Burs suitable for use in a high speed handpiece are called friction grip burs (FG). Latch grip (RA) burs are suitable for contra-angle handpieces and burs suitable for straight handpieces are HP burs.
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Burs suitable for use in a high speed handpiece are called friction grip burs (FG). Latch grip (RA) burs are suitable for contra-angle handpieces and burs suitable for straight handpieces are HP burs.<font color=£red">Needs explanation</font color>
  
  
  
 
[[Category:Dental Instruments]]
 
[[Category:Dental Instruments]]
[[Category:To Do - Dentistry Images]]
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[[Category:To Do - Dentistry questions]]
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[[Category:To Do - Dentistry preMars]]

Revision as of 16:54, 9 September 2013

Micromotor Unit

High speed dental drill with a tapered fissure cross cut bur© Lisa Milella 2013
Slow speed, contra-angle hand piece with a latch grip attachment.© Lisa Milella 2013

A micromotor unit is a small electric motor that connects to an e-fitting handpiece. Micromotors can be used for polishing teeth as well as sectioning them. The control box has a forward and reverse switch and a speed control knob. Micromotor units do not generally include water cooling of the bur and an external source (e.g. assistant applying coolant continuously to the tissues) is required to prevent thermal damage. For sectioning teeth, the micromotor should be set at maximum speed (30 000 rpm).

Compressed Air Driven Unit

The basic compressed air driven unit consists of a high-speed hand piece with water cooling, a slow-speed hand piece (with or without water cooling) and a combination air/water syringe, driven by a air compressor.

A high-speed hand piece facilitates extraction by allowing easy sectioning of multi-rooted teeth and bone removal prior to extraction. It allows accurate application of coolant water to the end of the drill tip. The turbine spins at about 300000-400000 rpm. It is designed for high speed and low-torque and should be used with the foot pedal fully depressed to achieve this. The cartridge in the head of the handpiece is driven by compressed air. The cartridge is a turbine, mounted on bearings around a clutch mechanism that holds the bur in place. Investing in a high-speed hand piece with fibre-optic light is strongly recommended.

The slow-speed hand pieces are driven by an air motor, driven by the compressor. Each handpiece can be adjusted for direction (forward and reverse) and speed. The air motor speed has a maximum of 25000 -30000 rpm. The slow speed handpiece accommodates the contra-angle hand piece used for polishing the teeth as well as straight or nose-cone handpieces. The contra-angle handpieces are slightly offset, and have a latch grip mechanism to hold burs or polishing heads/brushes. Contra-angle handpieces most commonly used in veterinary practice are 1:1 meaning that the output speed is the same as the air motor speed. Speed increasing handpieces are available and are better for sectioning teeth, whilst speed reducing handpieces are also available and more commonly used for restorative dental procedures.

The three-way syringe can deliver either a stream of water or a spray of water and air, or air only. It is used to irrigate/ lavage the mouth (water or water/air spray) and to dry the teeth (air only). Suction is also available with some units.

Investing in a compressed air driven unit from the outset is recommended. The high-speed hand piece greatly facilitates tooth sectioning and the three-way syringe (for lavage and drying) will aid in the removal of debris and improve visibility during examination and any procedure.

Burs

Dental burs are made of a variety of materials and are available in a range of sizes and shapes. For veterinary use only a few patterns and sizes are actually needed.

The cutting surface of the bur is made of stainless steel, tungsten-carbide steel or diamond. tungsten carbide and stainless steel types have cutting blades. The fastest bur is a tungsten carbide bur. Diamond burs have a coating of tiny diamonds embedded in resin on the bur shank. As the diamonds are lost, the bur becomes less efficient at cutting.

Shapes of burs:
The most commonly used shapes in veterinary dentistry are tapered fissure burs and round burs. Fissure burs can be either cylindrical or tapered with cutting surfaces on the side of the bur. Round burs are ball shape and have cutting surfaces around the whole surface of the ball. Other shapes are available and include pear shaped, inverted cones amongst others. Burs suitable for use in a high speed handpiece are called friction grip burs (FG). Latch grip (RA) burs are suitable for contra-angle handpieces and burs suitable for straight handpieces are HP burs.Needs explanation