Prosthetic Cosmetic Leg Covers
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Prosthetic cosmetic leg covers are devices designed to improve the appearance of prosthetic legs. They are essentially decorative sleeves that fit over the prosthetic limb to make it look more like a natural leg. These covers are often made from materials such as silicone or foam and can be customized to match the color and texture of the wearer's skin.
There are several benefits to using prosthetic cosmetic leg covers. Firstly, they can help to improve the wearer's self-esteem and confidence by making their prosthetic limb look more like a natural leg. Additionally, they can help to reduce the stigma that is sometimes associated with prosthetic limbs, particularly in social situations.
Prosthetic Cosmetic Leg Covers Benefit And Features
Prosthetic cosmetic leg covers, also known as prosthetic covers, are designed to improve the appearance of prosthetic legs and enhance the confidence of amputees. Here are some of the benefits and features of prosthetic cosmetic leg covers:
Improved appearance: One of the primary benefits of prosthetic covers is that they improve the appearance of prosthetic legs. They come in various colors, patterns, and designs, allowing amputees to choose a cover that matches their skin tone or personal style.
Increased confidence: Amputees often feel self-conscious about their prosthetic legs, but prosthetic covers can help them feel more confident and comfortable in their own skin. The covers can help hide the prosthetic components and make the limb look more natural.
Protection: Prosthetic covers can also protect the prosthetic limb from damage caused by weather, dirt, and other environmental factors.
Easy to use: Prosthetic covers are easy to use and can be quickly attached or removed from the prosthetic leg. They are typically made from lightweight materials, making them easy to carry around.
Customizable: Prosthetic covers can be customized to fit the individual needs of the amputee. They can be designed to cover specific parts of the prosthetic leg, or they can be made to fit a particular shape or size.
Product Description
Item no AKFC-6P21 Material Foam / Sponge Type Strong Weight 540g Height 85cm Max body weight 100-125kgAK Cosmetic Foam Cover(Strong) applies to the above knee amputees
Foam cover have : AK and BK
AK for above knee , Bk for below knee
The Foam Cover size : M / S / L
Features : Optimum finish, Light weight ,Less maintenance
AK foam cover : AK Cosmetic Foam Cover(Ordinary) ,AK Cosmetic Foam Cover(Strong),AK Cosmetic Foam Cover(Water proof), AK Cosmetic Foam Cover(Pre-shape)
BK foam cover : BK Cosmetic Foam Cover(Ordinary) ,BK Cosmetic Foam Cover(Strong) ,BK Cosmetic Foam Cover(Water proof)
Packaging Details
1. in plastic bag packaging
2. then in carton packing
3. then in palletizingor
or as your demand
we are very safety packing for sea and air shipment
Our Services
1. More than 15 years experience in prosthetic Manufature.
2. ODM AND OEM Service.
3. We has all kinds of certificates you need for import(CE, ISO, FDA, FREE SALE CERTIFICATE).
4. products warranty:
a. prosthetic foot: warranty one and a half years from purchase.
b. Prosthetic pneumatic knee joint: warranty for three years from purchase.
c. Prosthetic knee joint : warranty for two year from purchase.
d. Prosthetic adaptor: warranty for two year from purchase.
5. We can received the payment by kinds of way, company account, western union, paypal, money gram, China bank card.
6. For all your inquires about us or our products, we will reply you in detailed within 12 hours.
7. We own well-trained and passional sales & after- sale services.
8. We offer OEM services.We can print your own logo on products.
9. We have very experienced engineers and we help you better use our products.
About Us
Shijiazhuang perfect prosthetic manufacture co., was found in . we are the parter of china association of rehabilitation on December 11th, , now become the leading integrated company. CPF products the prosthetic lower, orthotic parts and some adapters, to-gether with research and development.
We persevere and work with Europe, southeast Asia and south America more than 50 countries, research nearly 100 products. It has great praise with the high quality and preferential price in the domestic and foreign.
Target Market
---------------------Distribution network
Top 4 Markets:
Western Europe --------- 20% South America ---------- 20%
Africa ---------------------15% North America -----------20%
If you want to learn more, please visit our website prosthetic leg coverings.
Port: Tianjin or Beijing.
We insist on people-oriented, strives for the survival by the quality, with innovation and technology for development.
We have rich experienced on manufacturing, Private Custom, and Technology Research and development.
We have ourself casting factory, CNC Machine factory, Assemble workshop and Technology Research and Development Center. all of the products Design and made by ourself, we can control the cost price very well! So we can supply you the best quality, best price and best after-sell service.
Our Principle is: Do our best to give you all best!
We have get the CE Certificate for quality control and ISO Certificate for management, and Free Sale Certificate for selling in the market.
Welcome warmly all of the friends from all of the world visit my company, to establish a good and long term cooperation.
FAQ
Q: Are you trading company or manufacturer?
A: We are factory.
Q: How long is your delivery time?
A: Generally it is 5-10 days if the goods are in stock. Or it is 15-20 days if the goods are not in stock, it is according to quantity.
Q: Do you provide samples? Is it free or extra?
A: Yes, we could offer the sample for free charge but do not pay the cost of freight.
Q: What is your terms of payment?
A: Payment<=USD, 100% in advance. Payment>=USD, 30% T/T in advance, balance before shippment.
If you have another question, pls feel free to contact us as below.
In recent years technical innovations have combined to make artificial limbs much more comfortable, efficient, and lifelike than earlier versions. Future innovations are likely to depend on the interaction between three powerful forcesamputees' demands, advances in surgery and engineering, and healthcare funding sufficient to sustain development and application of technological solutions. This article looks at the innovative new prostheses that are currently available and discusses future developments.
This paper is based on the clinical experience of the authors in Britain and the United States, a review of the literature, and information gathered from colleagues in rehabilitation medicine throughout the world.
In developed countries the main cause of lower limb amputation is circulatory dysfunction. The prime reason for this is atherosclerosis, although up to a third of patients have concomitant diabetes. These people are usually in their sixth decade (or older), and most have additional health problems that limit their walking ability. In the United Kingdom there are about new major amputations a year.1
This is in sharp contrast with developing countries, where most amputations are caused by trauma related either to conflict or to industrial or traffic injuries. Global extrapolations are problematic, but a recent US study states that the amputation rate among combatants in recent US military conflicts remains at 14-19%2 and the devastation caused by land mines continues, particularly when displaced civilians return to mined areas and resume agricultural activities.3
An amputation is a permanent disfigurement. For some, the relief from pain or disease in the affected limb may be welcome, but, for those losing a sound limb, resentment is understandable. Despite modern prosthetics, some adaptation is required, and people vary in their ability to adjust to the change in body image and, sometimes, lifestyle.
Several decades ago, the Swedish physician Per Branemark astounded the dental profession by developing a surgical technique to permanently anchor artificial teeth into the jaw. Despite numerous outcries about the futility of such efforts at the outset, his methods are now accepted worldwide as a routine method of dental restoration. In the past few years he has turned his attention to achieving similar results for upper and lower limb amputees and has generated similar controversy.15 Preliminary results, and enthusiastic feedback from participating amputees, justify further exploration of this technique (fig ).
Open in a separate windowOpen in a separate windowIf these prostheses prove successful long term (at least 10 years) direct attachment of an artificial limb to the skeleton may avoid difficulties inherent in creating custom-designed prosthetic sockets, where fitting comfort depends on volumetric matching to the amputation stump. Being a dynamic organ, the stump tends to shrink (atrophy) over time, though it may also swell with heat or weight gain, which can lead to chafing. With osseointegration, the prosthesis fit is unaffected by such volume changes.
The drawbacks of this technique are that it requires two stage surgery to attach the titanium implant to bone. The procedure carries the risk of osteomyelitis or infection at the abutment of the implant, and meticulous personal hygiene is a prerequisite in patient selection. On a practical note, the typical Western person with a lower limb amputation, elderly and with poor circulation, is not likely to be a candidate for such an involved surgical procedure. It is primarily the subset of younger individuals, often with traumatic amputations, for whom this technique holds the greatest promise.
Comparative trials of the technique are not possible. To date, the patients selected for the procedure have had high level, above knee amputations for which all other prosthetic fitting techniques had failed. However, three year follow up of several dozen participants suggests that amputees with an osseointegrated prosthesis quickly develop superior control over the limb, at least in part because of enhanced sensation, termed osseoperception by Branemark. This combination of increased comfort, perception, and control is expected to drive the next round of technological innovations, just as superior socket designs did previously.
Although some amputees like the robotic appearance of prosthetic components, most prefer a limb that is lifelike and therefore inconspicuous. The same silicone materials that contribute to socket comfort have also been used to create incredibly realistic external coverings for both upper and lower limb devices.
The present state of the art is the creation of a carefully sculpted match for the opposite limb, with individual colouring to give a lifelike finish.16 Unfortunately, such custom made prosthetic skins are costly (about £ ($)), particularly since they need replacement after a few years because of unavoidable wear and tear from normal use.
Silicone is also a relatively heavy material, so the search continues for a lightweight alternative, ideally offering greater flexibility and durability. Because of the costs involved, most amputees currently receive semi-custom external coverings that are mass produced industrially from less expensive materials and provide only a generic external appearance.
Modern industrial fabrication, particularly with injection moulded plastics, can create lightweight, low cost components with sufficient function for limited walking, and this might be quite sufficient for today's typical elderly amputee. Some designs may also be made moisture resistant and therefore suitable for use in the shower or on the beach. The lower manufacturing costs of such devices may permit their use in developing economies, where the cost of more complex technology is prohibitive. The Shower Limb, developed by Blatchford, is an example of this trend. The company has also developed a special line of plastic Atlas Prostheses designed specifically for use in tropical climates.
The International Committee of the Red Cross has established an initiative to produce low cost polypropylene plastic prostheses, made by unskilled local workers, for areas where conflict or environmental catastrophes have resulted in large numbers of traumatic amputations (see www.icrc.org). These devices are well accepted clinically, although some problems have been reported with their durability.17,18
The future development of prostheses will depend greatly on demand. The market for low cost, limited function devices will continue to expand in an effort to meet the needs of the developing world as well as the funding restrictions that are increasingly common in all economies. At the same time, innovative technologies will continue to be adapted from the aerospace and computer industries and applied to high performance artificial limbs whose function will more and more closely approximate to the missing limb.
Initially, prosthetic innovations are often used sparingly, primarily by amputees with private fundingparticularly those who are competitive athletes. As experience is gained, manufacturers discover how to apply the same principles to moderate cost devices intended for less active individuals, and the performance of prostheses in general will gradually improve as a result.
Similarly, some of the newer materials and applications will be used for the benefit of amputees in developing countries, despite differences in the cause of amputation and people's needs. It is really financial constraints that limit the rate of advancement in prosthetic rehabilitation, and one of the greatest challenges for the new millennium will be to find the will and the way to fund widespread application of prosthetic innovations.
Bowker JH, Michael JW, eds. Atlas of limb prosthetics: second edition. St Louis, MO: Mosby,
Internet Gateway. www.oandp.com
British Association of Prosthetists and Orthotists website. www.bapo.com/companies.htm
International Society for Prosthetics and Orthotics website. www.i-s-p-o.org
Limbless Association website. www.limbless-association.org
Competing interests: JWM has been employed by Otto Bock. Since , he has been an independent consultant in prosthetics and orthotics and therefore may have a consulting relationship with any of the companies mentioned in this article. He has received payment for organising educational programmes, speaking, or consulting from Otto Bock and from Flex-Foot, which was recently acquired by Ossur.
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