Tag Archives: amputation

Putting Amputees Back in the Driver’s Seat

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For some people, an automobile is a necessity not a luxury.

To have a full life in America requires mobility -not just the ability to walk or run, but the ability to travel greater distances with more convenience and flexibility than public transportation provides.

For many lower-limb amputees, however, the lack of feet makes driving impossible in a conventionally equipped vehicle. Hand controls along with left foot gas pedals provide the solution. They make it possible for lower-limb amputees and people with other disabilities to enjoy the prosperity and independence that comes with vehicle ownership and use.

Different types of hand controls
Basic hand controls usually consist of a lever attached to a bracket and mounted under the steering column on cars equipped with automatic transmissions. The lever is moved to operate throttle and brakes. Usually the left hand operates the control, allowing the right hand to steer and operate the vehicle’s accessories. The three most common types of hand controls are push/rock, push/twist, right angle pull, and push/pull.

The push rock and push twist hand control works by twisting the handle to apply the gas and pushing it to apply the brakes. The right angle pull hand control works by moving the lever down towards the driver’s lap for acceleration. To apply the brakes, the driver pushes the handle forward towards the front of the car. The push/pull hand control works by pulling on the handle to apply the gas, and pushing for the brakes. Most hand controls, except for a very few, apply the brakes by pushing.

Most hand controls are hand-powered, using linkages or cables to operate the gas and brakes. Some models are power-assisted to make it easier on the hand and arm. Cars are designed for the driver’s foot to operate the gas and brake, so the force required to operate the hand control can be tiring to the hand during long drives. Power-assist options for hand controls range from very complex devices such as an electric joystick, to relatively simple ones that use vacuum power like power brakes. Most hand controls are dual-action devices that permit the simultaneous application of throttle and brake. Dual-action controls are helpful when the car is stopped on a steep hill or when making tight maneuvers on steep grades. The throttle can be applied a little before releasing the brake to prevent the car from coasting backward before moving forward. While most users prefer dual-action, some prefer single-action units because they eliminate the chance of accidentally applying the throttle during braking.

Which is best for you?
The best choice of hand controls for a person depends on a number of factors, such as the car’s layout, expected driving conditions, and the driver’s size, disability, and preference.

Push/twist
Push/twist hand controls are a good choice if either a large driver, a small car, or both, limit space. Economical use of space is achieved because the lever only needs to be moved to apply the brake. Throttle control is achieved by twisting the grip in the same manner as operating a motorcycle.

Push/twist controls provide a precise, sporty feel. By necessity, push/twist hand controls are often power-assisted. Without power-assistance, the twisting motion tends to feel stiff, and the hand tires. With a good quality power-assisted twist control, very little effort is required to maintain a throttle setting; simply resting the hand on the handle should provide enough force. This results in less fatigue on long drives.

Push/twist controls are good in tight turns and on rough roads. Throttle surges, which can be experienced with a push/pull or right angle pull device, as the driver and his or her arm bumps, sways, leans, or lurches going through curves and over bumps tend not to occur with a push/twist. Most push/twist controls are dual-action units.

These controls are not recommended for people with grip problems or those with amputated fingers or hands. Good left-hand dexterity is required for safe driving with push/ twist controls.

Right angle pull
Right angle pull controls are the most widely used form of hand control. They are relatively inexpensive and, usually, easy to install and adjust. Operation is simple and intuitive for these strictly mechanical units.

Space, however, can be a problem. Throttle application requires that the lever be moved down toward the driver’s lap. If the driver is large or the car is small, a push/twist or even a push/pull control may be more suitable. Because the lever is connected to the gas pedal with mechanical linkages, the underside of the dashboard will often require trimming.

For those missing fingers, hands, or with reduced grip strength, various handles, wrist straps, grips, etc., can be adapted for the right angle pull control. Specialized handles can be configured for use with a prosthesis. Right angle pull controls are usually dual-action, but also can be single-action.

Push/pull
Push/pull hand controls are by definition single-action. Since the lever is pulled for gas and pushed for brakes, the gas and brakes can never be operated at the same time.

This is the easiest hand control to learn to use. Senior citizens like the push/pull because there is no confusion when learning, after using the foot pedals all their lives. Power-assisted and non-power-assisted models are available. The driver’s hand can rest directly on the lever without causing the throttle to surge.

As with the right angle pull control, different handles can be adapted to the driver to permit safe and easy operation. Power-assisted push/pull hand controls equipped with handle adaptations are recommended for people with limited arm strength and poor manual dexterity.

Some other factors to consider
When shopping for hand controls, aesthetics is also a factor to consider. Car owners can be surprised to find that a section of the dashboard was cut away during the installation process. Most hand controls are mounted under the dash with a support extending into the driver space under the steering column where the lever is connected. A panel under the dashboard is removed during installation. If the hand control’s design and the dashboard layout permit, the panel can be returned allowing the mounting bracket to be hidden. Sometimes, however, the hand control’s hardware protrudes into the passenger space, and the panel cannot be reinstalled without cutting a window in it. Each installation varies with the model of automobile and the particular hand-control unit. Check with your dealer about what you can expect to see when you get your car back.

Many of us share cars with other family members. It is important that the pedals can still be used with the hand control installed and that there are as few impediments to using them as possible. Most good controls provide room for a pedal-pushing driver. Ask the installer what to expect.

Driving should be fun. Poorly designed hand controls, or a badly performed installation, can cause the driver to be distracted or preoccupied with the control, lead to frustration, and reduce safety. Good hand controls, professionally installed, will allow enjoyable, safe driving.

Installation
No matter what type of hand controls you use, you are making a significant modification to your vehicle. It is, therefore, important to have a trained and qualified person perform the installation.

The installer should cut a minimum amount of the dashboard. The handle should be located in a comfortable position so that the driver can hold on to the hand control and hook a thumb over the steering wheel. This position helps to stabilize the steering wheel and the throttle. The whole assembly should feel solid and sturdy. If the installation is done properly using a high-quality control, driving will be easy and fun.

Everyone is different, and each person is a special case. If you are uncertain about your condition and your abilities, consult a Certified Driving Rehabilitation Specialist (CDRS). A CDRS knows about different disabilities and can advise you about the best solution to your driving needs. Contact a CDRS through your rehabilitation facility or through your local amputee support group.

Whether you are a first-time buyer or already drive with hand controls, it is good to know what is out there and what to look for. High-quality hand controls are available, as are skilled mobility technicians who understand the quality and safety issues involved with their installation.

Spend a few extra dollars to purchase a high-quality product and have it professionally installed. You already have made a significant investment in your vehicle. A quality set of hand controls will surely enhance your driving experience and, above all, your safety.

Putting Amputees Back in the Driver’s Seat

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For most of us, an automobile is a necessity rather than a luxury.

Hand Controls putting amputees back in the drivers seat

Hand Controls putting amputees back in the drivers seat

To have a full life in America requires mobility -not just the ability to walk or run, but the ability to travel greater distances with more convenience and flexibility than public transportation provides.

For many lower-limb amputees, however, the lack of feet makes driving impossible in a conventionally equipped vehicle. Hand controls along with left foot gas pedals provide the solution. They make it possible for lower-limb amputees and people with other disabilities to enjoy the prosperity and independence that comes with vehicle ownership and use.

Different types of hand controls

Basic hand controls usually consist of a lever attached to a bracket and mounted under the steering column on cars equipped with automatic transmissions. The lever is moved to operate throttle and brakes. Usually the left hand operates the control, allowing the right hand to steer and operate the vehicle’s accessories. The three most common types of hand controls are push/rock, push/twist, right angle pull, and push/pull.

The push rock and push twist hand control works by twisting the handle to apply the gas and pushing it to apply the brakes. The right angle pull hand control works by moving the lever down towards the driver’s lap for acceleration. To apply the brakes, the driver pushes the handle forward towards the front of the car. The push/pull hand control works by pulling on the handle to apply the gas, and pushing for the brakes. Most hand controls, except for a very few, apply the brakes by pushing.

Most hand controls are hand-powered, using linkages or cables to operate the gas and brakes. Some models are power-assisted to make it easier on the hand and arm. Cars are designed for the driver’s foot to operate the gas and brake, so the force required to operate the hand control can be tiring to the hand during long drives. Power-assist options for hand controls range from very complex devices such as an electric joystick, to relatively simple ones that use vacuum power like power brakes. Most hand controls are dual-action devices that permit the simultaneous application of throttle and brake. Dual-action controls are helpful when the car is stopped on a steep hill or when making tight maneuvers on steep grades. The throttle can be applied a little before releasing the brake to prevent the car from coasting backward before moving forward. While most users prefer dual-action, some prefer single-action units because they eliminate the chance of accidentally applying the throttle during braking.

Which is best for you?

The best choice of hand controls for a person depends on a number of factors, such as the car’s layout, expected driving conditions, and the driver’s size, disability, and preference.

Push/twist

Push/twist hand controls are a good choice if either a large driver, a small car, or both, limit space. Economical use of space is achieved because the lever only needs to be moved to apply the brake. Throttle control is achieved by twisting the grip in the same manner as operating a motorcycle.

Push/twist controls provide a precise, sporty feel. By necessity, push/twist hand controls are often power-assisted. Without power-assistance, the twisting motion tends to feel stiff, and the hand tires. With a good quality power-assisted twist control, very little effort is required to maintain a throttle setting; simply resting the hand on the handle should provide enough force. This results in less fatigue on long drives.

Push/twist controls are good in tight turns and on rough roads. Throttle surges, which can be experienced with a push/pull or right angle pull device, as the driver and his or her arm bumps, sways, leans, or lurches going through curves and over bumps tend not to occur with a push/twist. Most push/twist controls are dual-action units.

These controls are not recommended for people with grip problems or those with amputated fingers or hands. Good left-hand dexterity is required for safe driving with push/ twist controls.

Right angle pull

Right angle pull controls are the most widely used form of hand control. They are relatively inexpensive and, usually, easy to install and adjust. Operation is simple and intuitive for these strictly mechanical units.

Space, however, can be a problem. Throttle application requires that the lever be moved down toward the driver’s lap. If the driver is large or the car is small, a push/twist or even a push/pull control may be more suitable. Because the lever is connected to the gas pedal with mechanical linkages, the underside of the dashboard will often require trimming.

For those missing fingers, hands, or with reduced grip strength, various handles, wrist straps, grips, etc., can be adapted for the right angle pull control. Specialized handles can be configured for use with a prosthesis. Right angle pull controls are usually dual-action, but also can be single-action.

Push/pull

Push/pull hand controls are by definition single-action. Since the lever is pulled for gas and pushed for brakes, the gas and brakes can never be operated at the same time.

This is the easiest hand control to learn to use. Senior citizens like the push/pull because there is no confusion when learning, after using the foot pedals all their lives. Power-assisted and non-power-assisted models are available. The driver’s hand can rest directly on the lever without causing the throttle to surge.

As with the right angle pull control, different handles can be adapted to the driver to permit safe and easy operation. Power-assisted push/pull hand controls equipped with handle adaptations are recommended for people with limited arm strength and poor manual dexterity.

Some other factors to consider

When shopping for hand controls, aesthetics is also a factor to consider. Car owners can be surprised to find that a section of the dashboard was cut away during the installation process. Most hand controls are mounted under the dash with a support extending into the driver space under the steering column where the lever is connected. A panel under the dashboard is removed during installation. If the hand control’s design and the dashboard layout permit, the panel can be returned allowing the mounting bracket to be hidden. Sometimes, however, the hand control’s hardware protrudes into the passenger space, and the panel cannot be reinstalled without cutting a window in it. Each installation varies with the model of automobile and the particular hand-control unit. Check with your dealer about what you can expect to see when you get your car back.

Many of us share cars with other family members. It is important that the pedals can still be used with the hand control installed and that there are as few impediments to using them as possible. Most good controls provide room for a pedal-pushing driver. Ask the installer what to expect.

Driving should be fun. Poorly designed hand controls, or a badly performed installation, can cause the driver to be distracted or preoccupied with the control, lead to frustration, and reduce safety. Good hand controls, professionally installed, will allow enjoyable, safe driving.

Installation

No matter what type of hand controls you use, you are making a significant modification to your vehicle. It is, therefore, important to have a trained and qualified person perform the installation.

The installer should cut a minimum amount of the dashboard. The handle should be located in a comfortable position so that the driver can hold on to the hand control and hook a thumb over the steering wheel. This position helps to stabilize the steering wheel and the throttle. The whole assembly should feel solid and sturdy. If the installation is done properly using a high-quality control, driving will be easy and fun.

Everyone is different, and each person is a special case. If you are uncertain about your condition and your abilities, consult a Certified Driving Rehabilitation Specialist (CDRS). A CDRS knows about different disabilities and can advise you about the best solution to your driving needs. Contact a CDRS through your rehabilitation facility or through your local amputee support group.

Whether you are a first-time buyer or already drive with hand controls, it is good to know what is out there and what to look for. High-quality hand controls are available, as are skilled mobility technicians who understand the quality and safety issues involved with their installation.

Spend a few extra dollars to purchase a high-quality product and have it professionally installed. You already have made a significant investment in your vehicle. A quality set of hand controls will surely enhance your driving experience and, above all, your safety.

Driving Specific Considerations – Amputation

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Driving Specific Considerations – Amputation

Foot Steering Wheelchair Van Massachusetts

Amputation

  • is the removal of all or part of a limb
  • can be the result of trauma or illness
  • or limb deficiency may also be present at birth
  • is not progressive but the advancement of disease can lead to additional amputation(s)

Potential Deficit Areas

  • loss of function at or above the amputation site
  • decreased range of motion and/or strength of the residual limb
  • decreased sensation at the amputation site
  • hypersensitivity at the amputation site
  • phantom Pain

Impact on Driving/Transportation

  • A modified vehicle, wheelchair lift or transfer seat may be needed for a person who now requires a scooter or wheelchair for mobility or has difficulty transferring into an unmodified vehicle.
  • The site of the amputation will determine if the person will need adaptive equipment to return to driving.
  • Adaptive driving equipment allow the person to compensate for an impaired ability to reach primary and secondary driving controls
  • Prior to driving with adaptive equipment, the person will need a driving evaluation.

Possible Vehicle Equipment Needs

Left Arm Loss
  • Automatic transmission
  • Power steering
  • Steering device
  • Directional cross over
  • Electric turn signal
  • Foot parking brake release modification
Left Leg Loss
  • Automatic transmission
  • Parking brake extension
  • Chest strap
Right Arm Loss
  • Automatic transmission
  • Power steering
  • Steering device
  • Electronic ignition
  • Crossover and/or gear shift extension
  • Wiper control modification
  • Console parking brake modification
  • Secondary/dash modification
  • Key extension
  • Electric ignition
Right Leg Loss

Possible Vehicle Equipment Needs

Loss of Both Arms
Loss of Three or Four Limbs
Loss of Both Legs

Amputee Driving Controls South of Boston, MA

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Amputee Driving Controls South of Boston, MA

2013 GM Equinox Hand Controls Boston Amputee Driving Controls

VMi New England and Automotive Innovations promotes full implementation of the Americans with Disabilities Act, and other legislation which guarantees full participation in society for all people, regardless of disability. We are dedicated to helping with motor vehicle modifications to meet the needs and concerns of amputees.

Support:

We will do our best to provide motor vehicle mobility solutions and resources for people who have experienced the loss of a limb and those involved with their lives. We are a supplier and installer of handicap and amputee driving devices.

Driving after Amputation: Automotive Mobility Equipment for Amputees
Driving after amputation is possible with the right equipment and vehicle modifications

After a limb has been amputated, for any reason, a person is typically not able to drive an automobile the same way they did before. However, there are several adaptive devices that can enable an amputee to continue driving and maintain his or her independence. The site of amputation(s) will determine exactly what type of vehicle an amputee is able to drive, and what other types of adaptive mobility equipment will be necessary. Here is a general overview of the various amputations and what equipment might be necessary with each one:

VMi New England and Automotive Innovations Bridgewater, MA has installed the following amputee driving equipment for over 25 years:

Hand Controls Boston, MA

RIGHT LEG

•Amputee Left foot gas pedal
Hand Controls 
•Automatic Transmission
•Power Braking

BOTH LEGS

•Hand Controls for brake and accelerator
•Amputee Spinner Knob
•Automatic Transmission
•Emergency Brake Extension
•Chest Strap

EITHER ARM

•Automatic Transmission
•Amputee Steering Device
Reduced Effort Steering
Zero Effort Steering
Zero Effort Brake
•Modified Gear Shifter
•Electric Gear Shifter
Electric Parking Brake
•Modified Secondary Controls (turn signals, dimmers)

Not every vehicle can be modified appropriately, and if the amputee is also a permanent wheelchair user a lowered floor minivan or mobility van may be their only option. That is why it is necessary to first be evaluated by a driver rehab specialist and then follow up with a certified mobility specialist to look at all of your adaptive equipment options as recommended by your driving evaluator.

2012 VW Van Left Foot Gas Pedal

VMi New England and Automotive Innovations sells and installs all of the above equipment.
Set up an appointment to meet with a mobility specialist today and let us help you regain your independence after amputation.

From the Department of Veterans Affairs: Automobile Adaptive Equipment (AAE)

The Automobile Adaptive Equipment (AAE) program permits physically challenged persons to enter, exit, and/or operate a motor vehicle or other conveyance.

Veterans are trained, through the VA Driver’s Rehabilitation Program, how to safely operate their vehicle on our nation’s roadways.

The VA also provides necessary equipment such as platform wheelchair lifts, UVLs (under vehicle lifts), power door openers, lowered floors/raised roofs, raised doors, hand controlsleft foot gas pedalsreduced effort and zero effort steering and braking, and digital driving systems.

Additionally, VA’s program provides reimbursements for standard equipment including, but not limited to, power steering, power brakes, power windows, power seats, and other special equipment necessary for the safe operation of an approved vehicle.

PDF application for adaptive equipment

Automotive Innovations has a substantial inventory of wheelchair accessible vans in Bridgewater, MA, and would be happy to set up a time for a demonstration. Every day is a Abilities Expo just south of Boston with access to factory direct inventory of hundreds of wheelchair vans in every make, model, and color available.

The Left Foot Accelerator, like model 3545S, is an accelerator pedal for persons with limited or no use of the right leg requiring them to drive with their left leg. It is equipped with a guard to prevent the driver from inadvertently resting their right foot on the accelerator pedal. The Left Foot Accelerator incorporates a quick release mechanism and is easily removable without tools.

LFA The (LFA) was designed for the driver that has lost control of only his right foot.

Left Foot Accelerator By Automotive Innovations is a  leader in design & quality. The (LFA) is extremely adjustable allowing it to be used in virtually any vehicle. The (LFA) is also equipped with a quick disconnect allowing (LFA) to be released and removed from the vehicle when not in use. Only the mounting plate is permanently mounted to the floor.

2012 Toyota Camry Left Foot gas Pedal

A left foot accelerator pedal device which allows persons lacking sufficient functionality of the right foot or right leg to operate a motor vehicle accelerator pedal using their left foot. The device incorporates an accelerator pedal activator which engages the motor vehicle accelerator pedal and is operable attached by a main shaft to a left side accelerator pedal. The main shaft is supported by a base unit which is removable attached to a base plate affixed to the vehicle floor. By depressing left side accelerator pedal a person lacking functionality of the right foot may operate the vehicle while the device may be easily removed from base plate allowing a person of normal functionality to operate the vehicle.

Automotive Innovations is New England’s premier mobility controls dealer. A Quick Release Left Foot Gas Pedal with Pedal Guard allows the driver to accelerate with the left foot. This pedal is installed on the left side and is mechanically linked to the original manufacturers pedal. The Pedal Guard shields the original pedal thereby making it inoperable. This quality crafted pedal is fully adjustable. The lightweight design of the pedal along with its quick release feature makes it quick and easy to remove and install, as the Left Foot Accelerator Pedal with Pedal Guard slides in and out of a base that is bolted to the floor. This makes the a Left Foot Accelerator Pedal with Pedal Guard is a smart choice.

Pedal Extensions

Automotive innovations gas and brake pedal extensions adjust to allow 6″ to 12″ or longer if necessary of extended reach. Made of durable lightweight aluminum or steel, Pedal Extensionsprovide comfortable driving after installation. Pedal Extensions fold down out of the way to allow other persons to operate the vehicle. Pedal extensions must be installed by authorized dealers. They fit most American cars and vans. Call now for more information on price and available appointment times.

Left Foot Gas Pedal

Designed for people with limited or no use of their right foot, the quick release left foot gas pedal enables those drivers to utilize their left foot for gas operation. The pedal can be installed in any vehicle with an automatic transmission. No adjustments are necessary after installation, and the unit can easily be removed to allow other drivers to operate the vehicle. A pedal stop is part of the unit, and will not allow the right foot to inadvertently apply throttle.

Block Pedal Extensions

Our pedal extensions are fabricated from structural aluminum tubing with a non-skid surface. They have adjustable slots for two stainless steel clamps that go around the gas and brake pedals (can also be modified for clutch pedal extensions). Standard sizes range from 1″ to 4″ high. This is a semi-permanent installation.

Custom Foot Pedal Extensions

Automotive Innovations carries a full line of custom gas, brake, and clutch pedal extensions for all driver’s needs.

Left-Foot Gas Pedals:
Your vehicle can be modified to allow you to use your left foot to control the gas pedal. This modification is designed for quick installation and removal so your vehicle can be shared with other drivers not in need of this adaptation.

508-697-6006

info@VMiNewEngland.com