Shoes
Orthotic Devices
Foot Deformities, Acquired
Foot
Foot Orthoses
Foot Deformities
Hallux Valgus
Walking
Tanning
Use of computed tomography and plantar pressure measurement for management of neuropathic ulcers in patients with diabetes. (1/270)
BACKGROUND AND PURPOSE: Total contact casting is effective at healing neuropathic ulcers, but patients have a high rate (30%-57%) of ulcer recurrence when they resume walking without the cast. The purposes of this case report are to describe how data from plantar pressure measurement and spiral x-ray computed tomography (SXCT) were used to help manage a patient with recurrent plantar ulcers and to discuss potential future benefits of this technology. CASE DESCRIPTION: The patient was a 62-year-old man with type 1 diabetes mellitus (DM) of 34 years' duration, peripheral neuropathy, and a recurrent plantar ulcer. Although total contact casting or relieving weight bearing with crutches apparently allowed the ulcer to heal, the ulcer recurred 3 times in an 18-month period. Spiral x-ray computed tomography and simultaneous pressure measurement were conducted to better understand the mechanism of his ulceration. OUTCOMES: The patient had a severe bony deformity that coincided with the location of highest plantar pressures (886 kPa). The results of the SXCT and pressure measurement convinced the patient to wear his prescribed footwear always, even when getting up in the middle of the night. The ulcer healed in 6 weeks, and the patient resumed his work, which required standing and walking for 8 to 10 hours a day. DISCUSSION: Following intervention, the patient's recurrent ulcer healed and remained healed for several months. Future benefits of these methods may include the ability to define how structural changes of the foot relate to increased plantar pressures and to help design and fabricate optimal orthoses. (+info)Toxic polyneuropathy of shoe-industry workers. A study of 122 cases. (2/270)
The toxic polyneuropathy observed in a group of shoe-industry workers in Italy was clinically characterised by a symmetrical prevalently distal motor deficit, with occasional marked weakness of pelvic girdle muscles, and frequently by only subjective sensory symptoms; non-specific disturbances usually preceded neurological signs. Subclinical cases of 'minimal' chronic neuropathy, characterised by alterations of a neurogenic type in the EMG without a reduction of motor nerve conduction velocity, were also observed. Worsening of the clinical picture, with further lowering of nerve conduction velocity, was noted in some cases up to four months after removal from the toxic environment. In the most severe cases clinical recovery took up to three years. The electromyographic and electroneurographic features were consistent with a mixed axonal neuropathy, with clear prevalence of the damage in the distal part of the nerve (dying-back neuropathy). Volatile substances, such as n-hexane and other low boiling point hydrocarbons found in high percentage in solvents and glues, are suggested as the causative agent. (+info)Acute systematic and variable postural adaptations induced by an orthopaedic shoe lift in control subjects. (3/270)
A small leg length inequality, either true or functional, can be implicated in the pathogenesis of numerous spinal disorders. The correction of a leg length inequality with the goal of treating a spinal pathology is often achieved with the use of a shoe lift. Little research has focused on the impact of this correction on the three-dimensional (3D) postural organisation. The goal of this study is to quantify in control subjects the 3D postural changes to the pelvis, trunk, scapular belt and head, induced by a shoe lift. The postural geometry of 20 female subjects (X = 22, sigma = 1.2) was evaluated using a motion analysis system for three randomised conditions: control, and right and left shoe lift. Acute postural adaptations were noted for all subjects, principally manifested through the tilt of the pelvis, asymmetric version of the left and right iliac bones, and a lateral shift of the pelvis and scapular belt. The difference in the version of the right and left iliac bones was positively associated with the pelvic tilt. Postural adaptations were noted to vary between subjects for rotation and postero-anterior shift of the pelvis and scapular belt. No notable differences between conditions were noted in the estimation of kyphosis and lordosis. The observed systematic and variable postural adaptations noted in the presence of a shoe lift reflects the unique constraints of the musculoskeletal system. This suggests that the global impact of a shoe lift on a patient's posture should also be considered during treatment. This study provides a basis for comparison of future research involving pathological populations. (+info)Clinical correlates of plantar pressure among diabetic veterans. (4/270)
OBJECTIVE: To assess the relationship between diabetes characteristics, medical history, foot deformity, sensory neuropathy, and plantar foot pressure. RESEARCH DESIGN AND METHODS: There were 517 subjects from a cohort of diabetic veterans enrolled in a prospective study of risk factors for foot complications who contributed 1,017 limbs for study. We interviewed subjects to collect data on demographics, diabetes characteristics, and medical history. A research nurse practitioner performed a directed physical exam of the lower extremities, assessing foot deformities and including quantitative sensory testing with a 5.07 monofilament. In-shoe foot-pressure measurements were obtained with F-scan insoles on subjects wearing their own footwear while walking 10 m at their usual pace. RESULTS: In univariate analyses, significant associations were seen between at least one measure of plantar pressure and body mass, sex, race, age, insulin use, certain foot deformities, plantar callus, and sensory neuropathy. Diabetes duration, HbA1c, and history of foot ulcer or amputation were unrelated to plantar pressure. In multiple regression analyses, body mass measured as log (weight), insulin use, white race, male sex, plantar callus, and diabetes duration were significantly related to certain pressures. Foot deformities were related primarily to forefoot pressures. With high pressure at two or more sites defined as the outcome, only body mass remained statistically significant as a predictor of this outcome in a backwards elimination logistic regression model. CONCLUSIONS: High in-shoe plantar pressure in diabetic subjects can be predicted in part from readily available clinical characteristics. The mechanisms by which these characteristics may be related to plantar pressure require further study. (+info)Change of footwear insulation at various sweating rates. (5/270)
Moisture inside the footwear can considerably affect the thermal insulation. In this study with a thermal foot model there was simulated three sweat rates (3, 5 and 10 g/h). Five types of footwear with various insulation levels (dry insulation from 0.19 to 0.50 m2. K/W) were tested. The footwear insulation reduction was calculated for 1.5 hour period. The reduction in insulation was related to sweating rate and initial insulation. The footwear with high insulation lost even in percentile more insulation than thin boots under the same conditions (9-19% at 3 g/h, 13-27% at 5 g/h and 19-36% at 10 g/h). A relationship between insulation decrease and sweating rate was established. An 8-hour sweating test (5 g/h) and a test for determining evaporative heat, losses were carried out in addition. The insulation reduction during the first 1.5 hours of the 8-hour test answered for more than half of the total reduction. (+info)Effects of footwear on measurements of balance and gait in women between the ages of 65 and 93 years. (6/270)
BACKGROUND AND PURPOSE: Footwear is not consistently standardized in the administration of the Functional Reach Test (FRT), Timed Up & Go Test (TUG), and 10-Meter Walk Test (TMW). This study was conducted to determine whether footwear affected performance on these tests in older women. SUBJECTS: Thirty-five women, aged 65 to 93 years, were recruited from assisted living facilities and retirement communities. METHODS: Each subject performed the FRT, TUG, and TMW wearing walking shoes, wearing dress shoes, and barefooted. Because of space constraints at the facilities where the testing was performed, 22 subjects performed the FRT and TUG on a linoleum floor and 13 subjects performed the tests on a firm, low-pile, carpeted floor. All 35 subjects completed the TMW on a firm, low-pile, carpeted floor. One-way repeated-measures analyses of variance (ANOVAs) and a Tukey Honestly Significant Difference test were used to compare the outcomes for the 3 footwear conditions, with separate ANOVAs conducted for the different floor surfaces for the FRT and TUG. RESULTS: Subjects performed better on the FRT when barefooted or wearing walking shoes compared with when they wore dress shoes, regardless of floor surface. Differences were found among all footwear conditions for the TUG performed on the linoleum floor and for the TMW. For these tests, the women moved fastest in walking shoes, slower barefooted, and slowest wearing dress shoes. CONCLUSION AND DISCUSSION: Footwear should be documented and should remain constant from one test occasion to another when the FRT, TUG, and TMW are used in the clinic and in research. Footwear intervention may improve performance of balance and gait tasks in older women. (+info)Kinematic synergy adaptation to microgravity during forward trunk movement. (7/270)
The aim of the present investigation was to see whether the kinematic synergy responsible for equilibrium control during upper trunk movement was preserved in absence of gravity constraints. In this context, forward trunk movements were studied during both straight-and-level flights (earth-normal gravity condition: normogravity) and periods of weightlessness in parabolic flights (microgravity). Five standing adult subjects had their feet attached to a platform, their eyes were open, and their hands were clasped behind their back. They were instructed to bend the trunk (the head and the trunk together) forward by approximately 35 degrees with respect to the vertical in the sagittal plane as fast as possible in response to a tone, and then to hold the final position for 3 s. The initial and final anteroposterior center of mass (CM) positions (i.e., 200 ms before the onset of the movement and 400 ms after the offset of the movement, respectively), the time course of the anteroposterior CM shift during the movement, and the electromyographic (EMG) pattern of the main muscles involved in the movement were studied under both normo- and microgravity. The kinematic synergy was quantified by performing a principal components analysis on the hip, knee, and ankle angle changes occurring during the movement. The results indicate that 1) the anteroposterior position of the CM remains minimized during performance of forward trunk movement in microgravity, in spite of the absence of equilibrium constraints; 2) the strong joint coupling between hip, knee, and ankle, which characterizes the kinematic synergy in normogravity and which is responsible for the minimization of the CM shift during movement, is preserved in microgravity. It represents an invariant parameter controlled by the CNS. 3) The EMG pattern underlying the kinematic synergy is deeply reorganized. This is in contrast with the invariance of the kinematic synergy. It is concluded that during short-term microgravity episodes, the kinematic synergy that minimizes the anteroposterior CM shift is surprisingly preserved due to fast adaptation of the muscle forces to the new constraint. (+info)Long-term follow-up in diabetic Charcot feet with spontaneous onset. (8/270)
OBJECTIVE: To assess the long-term results after Charcot breakdown with spontaneous onset in diabetic feet. RESEARCH DESIGN AND METHODS: This study was retrospective. A total of 115 patients (140 feet), 107 with acute deformity and 8 with chronic Charcot deformity, were followed for a median of 48 months (range 6-114). The routine treatment for acute cases was a weight-off regimen with crutches and foot protection with therapeutic shoes until skin temperature had normalized followed by increased weightbearing and the use of bespoke shoes or modification of conventional shoes. RESULTS: The incidence of Charcot deformity was 0.3%/year in the diabetic population investigated. About half of the patients were active in their jobs. Major complications were encountered in 5 (4%) of the patients that required surgical intervention: arthrodesis for unstable malaligned ankles in 3 subjects (1 bilaterally) and major amputation in 2 subjects for unstable ankle and pressure sores. Minor complications were recorded in 43% of subjects: new attacks of Charcot breakdown in 41 patients (36%) and/or foot ulceration in 43 patients (37%) that required minor surgical procedures for 11 patients. All healed except in 2 patients: 1 patient died before the Charcot fractures had healed, and 1 patient died with an unhealed ulcer. No patient lost the ability to walk independently. CONCLUSIONS: Major surgical procedures in only 4% were particularly related to patients with Charcot deformities in the ankle. Minor complications were recorded in about half of the patients. Lifelong foot care is required for diabetic patients with Charcot feet. (+info)I'm sorry for any confusion, but "shoes" are not a medical term. Shoes are items of footwear intended to protect and comfort the feet. They typically have a durable sole that provides protection from sharp objects, hot surfaces, and the effects of moisture. The upper part of a shoe can be made from various materials such as leather, plastic, or textiles, and is designed to provide coverage and support for the foot.
If you have any questions related to medical terminology or health-related topics, I'd be happy to help!
Orthotic devices are custom-made or prefabricated appliances designed to align, support, prevent deformity, or improve the function of movable body parts. They are frequently used in the treatment of various musculoskeletal disorders, such as foot and ankle conditions, knee problems, spinal alignment issues, and hand or wrist ailments. These devices can be adjustable or non-adjustable and are typically made from materials like plastic, metal, leather, or fabric. They work by redistributing forces across joints, correcting alignment, preventing unwanted movements, or accommodating existing deformities. Examples of orthotic devices include ankle-foot orthoses, knee braces, back braces, wrist splints, and custom-made foot insoles.
Foot diseases refer to various medical conditions that affect the foot, including its structures such as the bones, joints, muscles, tendons, ligaments, blood vessels, and nerves. These conditions can cause symptoms like pain, swelling, numbness, difficulty walking, and skin changes. Examples of foot diseases include:
1. Plantar fasciitis: inflammation of the band of tissue that connects the heel bone to the toes.
2. Bunions: a bony bump that forms on the joint at the base of the big toe.
3. Hammertoe: a deformity in which the toe is bent at the middle joint, resembling a hammer.
4. Diabetic foot: a group of conditions that can occur in people with diabetes, including nerve damage, poor circulation, and increased risk of infection.
5. Athlete's foot: a fungal infection that affects the skin between the toes and on the soles of the feet.
6. Ingrown toenails: a condition where the corner or side of a toenail grows into the flesh of the toe.
7. Gout: a type of arthritis that causes sudden, severe attacks of pain, swelling, redness, and tenderness in the joints, often starting with the big toe.
8. Foot ulcers: open sores or wounds that can occur on the feet, especially in people with diabetes or poor circulation.
9. Morton's neuroma: a thickening of the tissue around a nerve between the toes, causing pain and numbness.
10. Osteoarthritis: wear and tear of the joints, leading to pain, stiffness, and reduced mobility.
Foot diseases can affect people of all ages and backgrounds, and some may be prevented or managed with proper foot care, hygiene, and appropriate medical treatment.
Acquired foot deformities refer to structural abnormalities of the foot that develop after birth, as opposed to congenital foot deformities which are present at birth. These deformities can result from various factors such as trauma, injury, infection, neurological conditions, or complications from a medical condition like diabetes or arthritis.
Examples of acquired foot deformities include:
1. Hammertoe - A deformity where the toe bends downward at the middle joint, resembling a hammer.
2. Claw toe - A more severe form of hammertoe where the toe also curls under, forming a claw-like shape.
3. Mallet toe - A condition where the end joint of a toe is bent downward, causing it to resemble a mallet.
4. Bunions - A bony bump that forms on the inside of the foot at the big toe joint, often causing pain and difficulty wearing shoes.
5. Tailor's bunion (bunionette) - A similar condition to a bunion, but it occurs on the outside of the foot near the little toe joint.
6. Charcot foot - A severe deformity that can occur in people with diabetes or other neurological conditions, characterized by the collapse and dislocation of joints in the foot.
7. Cavus foot - A condition where the arch of the foot is excessively high, causing instability and increasing the risk of ankle injuries.
8. Flatfoot (pes planus) - A deformity where the arch of the foot collapses, leading to pain and difficulty walking.
9. Pronation deformities - Abnormal rotation or tilting of the foot, often causing instability and increasing the risk of injury.
Treatment for acquired foot deformities varies depending on the severity and underlying cause but may include orthotics, physical therapy, medication, or surgery.
In medical terms, the foot is the part of the lower limb that is distal to the leg and below the ankle, extending from the tarsus to the toes. It is primarily responsible for supporting body weight and facilitating movement through push-off during walking or running. The foot is a complex structure made up of 26 bones, 33 joints, and numerous muscles, tendons, ligaments, and nerves that work together to provide stability, balance, and flexibility. It can be divided into three main parts: the hindfoot, which contains the talus and calcaneus (heel) bones; the midfoot, which includes the navicular, cuboid, and cuneiform bones; and the forefoot, which consists of the metatarsals and phalanges that form the toes.
Foot orthoses, also known as orthotic devices or simply orthotics, are custom-made or prefabricated shoe inserts that are designed to support, align, correct, or accommodate various foot and ankle deformities or biomechanical issues. They can be made of different materials such as plastic, rubber, leather, or foam and are inserted into the shoes to provide extra cushioning, arch support, or realignment of the foot structure.
Custom-made foot orthoses are created based on a mold or a digital scan of the individual's foot, taking into account their specific needs and medical condition. These devices are typically prescribed by healthcare professionals such as podiatrists, orthopedic surgeons, or physical therapists to treat various conditions such as plantar fasciitis, flat feet, high arches, bunions, diabetic foot ulcers, or arthritis.
Foot orthoses can help improve foot function, reduce pain and discomfort, prevent further deformities, and enhance overall mobility and quality of life.
Foot injuries refer to any damage or trauma caused to the various structures of the foot, including the bones, muscles, tendons, ligaments, blood vessels, and nerves. These injuries can result from various causes such as accidents, sports activities, falls, or repetitive stress. Common types of foot injuries include fractures, sprains, strains, contusions, dislocations, and overuse injuries like plantar fasciitis or Achilles tendonitis. Symptoms may vary depending on the type and severity of the injury but often include pain, swelling, bruising, difficulty walking, and reduced range of motion. Proper diagnosis and treatment are crucial to ensure optimal healing and prevent long-term complications.
In medical terms, "heel" generally refers to the posterior and largest part of the foot, specifically the calcaneus bone. The heel is the first part of the foot to make contact with the ground during walking or running, and it plays a crucial role in supporting the body's weight and absorbing shock during movement.
The term "heel" can also be used to describe a structure or device that is attached to the back of a shoe or boot to provide additional height, support, or protection to the wearer's heel. These types of heels are often worn for fashion purposes or to compensate for differences in leg length.
Foot deformities refer to abnormal changes in the structure and/or alignment of the bones, joints, muscles, ligaments, or tendons in the foot, leading to a deviation from the normal shape and function of the foot. These deformities can occur in various parts of the foot, such as the toes, arch, heel, or ankle, and can result in pain, difficulty walking, and reduced mobility. Some common examples of foot deformities include:
1. Hammertoes: A deformity where the toe bends downward at the middle joint, resembling a hammer.
2. Mallet toes: A condition where the end joint of the toe is bent downward, creating a mallet-like shape.
3. Claw toes: A combination of both hammertoes and mallet toes, causing all three joints in the toe to bend abnormally.
4. Bunions: A bony bump that forms on the inside of the foot at the base of the big toe, caused by the misalignment of the big toe joint.
5. Tailor's bunion (bunionette): A similar condition to a bunion but occurring on the outside of the foot, at the base of the little toe.
6. Flat feet (pes planus): A condition where the arch of the foot collapses, causing the entire sole of the foot to come into contact with the ground when standing or walking.
7. High arches (pes cavus): An excessively high arch that doesn't provide enough shock absorption and can lead to pain and instability.
8. Cavus foot: A condition characterized by a very high arch and tight heel cord, often leading to an imbalance in the foot structure and increased risk of ankle injuries.
9. Haglund's deformity: A bony enlargement on the back of the heel, which can cause pain and irritation when wearing shoes.
10. Charcot foot: A severe deformity that occurs due to nerve damage in the foot, leading to weakened bones, joint dislocations, and foot collapse.
Foot deformities can be congenital (present at birth) or acquired (develop later in life) due to various factors such as injury, illness, poor footwear, or abnormal biomechanics. Proper diagnosis, treatment, and management are essential for maintaining foot health and preventing further complications.
Gait is a medical term used to describe the pattern of movement of the limbs during walking or running. It includes the manner or style of walking, including factors such as rhythm, speed, and step length. A person's gait can provide important clues about their physical health and neurological function, and abnormalities in gait may indicate the presence of underlying medical conditions, such as neuromuscular disorders, orthopedic problems, or injuries.
A typical human gait cycle involves two main phases: the stance phase, during which the foot is in contact with the ground, and the swing phase, during which the foot is lifted and moved forward in preparation for the next step. The gait cycle can be further broken down into several sub-phases, including heel strike, foot flat, midstance, heel off, and toe off.
Gait analysis is a specialized field of study that involves observing and measuring a person's gait pattern using various techniques, such as video recordings, force plates, and motion capture systems. This information can be used to diagnose and treat gait abnormalities, improve mobility and function, and prevent injuries.
Hallux Valgus is a medical condition that affects the foot, specifically the big toe joint. It is characterized by the deviation of the big toe (hallux) towards the second toe, resulting in a prominent bump on the inner side of the foot at the base of the big toe. This bump is actually the metatarsal head of the first bone in the foot that becomes exposed due to the angulation.
The deformity can lead to pain, stiffness, and difficulty wearing shoes. In severe cases, it can also cause secondary arthritis in the joint. Hallux Valgus is more common in women than men and can be caused by genetic factors, foot shape, or ill-fitting shoes that put pressure on the big toe joint.
Medical science often defines and describes "walking" as a form of locomotion or mobility where an individual repeatedly lifts and sets down each foot to move forward, usually bearing weight on both legs. It is a complex motor activity that requires the integration and coordination of various systems in the human body, including the musculoskeletal, neurological, and cardiovascular systems.
Walking involves several components such as balance, coordination, strength, and endurance. The ability to walk independently is often used as a measure of functional mobility and overall health status. However, it's important to note that the specific definition of walking may vary depending on the context and the medical or scientific field in question.
"Tanning" is not a medical term per se, but rather a common term used to describe the process of skin darkening as a result of exposure to ultraviolet (UV) radiation from the sun or artificial sources like tanning beds. Medically speaking, this process is known as "induction of cutaneous pigmentation."
The UV radiation stimulates the production of melanin, a pigment that absorbs and scatters UV light to protect the skin from further damage. There are two types of melanin: eumelanin (black or brown) and pheomelanin (yellow or red). The type and amount of melanin produced determine the color and tone of an individual's skin, hair, and eyes.
It is important to note that excessive sun exposure and tanning can lead to harmful health effects, including premature aging of the skin, eye damage, and increased risk of skin cancer. Therefore, it is recommended to protect the skin with appropriate clothing, hats, sunglasses, and sunscreen when exposed to UV radiation.