Day: November 23, 2015

Plantar Heel Fat Pad Atrophy

Posted on by Staff

The fat pad under the heel protects the foot by providing cushioning and shock absorption. A problem can arise if that fat pad atrophies and it can result in heel pain.

Heel fat pad atrophy is a condition where the thick, cushioning pad of fibroadipose tissue under your calcaneus thins, shifts, or loses its elasticity. That pad normally acts like a built-in gel insert: it absorbs impact every time your heel strikes the ground. When it wears down, bone and skin take the force instead, and walking turns into a painful, bone-on-floor experience.

What causes the fat pad to break down?
The heel pad is a honeycomb of sealed fat chambers held by fibrous septa. Age is the most common culprit. After 40, collagen and elastin in the septa degrade, and the chambers deflate or rupture, so the pad becomes thinner and less springy. But age is not the only driver.

Common contributing factors:

  • Repetitive loading: Runners, nurses, retail workers, and anyone on hard surfaces for hours daily stress the pad until the septa fail.
  • Steroid injections: Multiple corticosteroid injections for plantar fasciitis can accelerate fat pad degeneration as a side effect.
  • Trauma or surgery: A calcaneal fracture or heel surgery can disrupt the fat chambers permanently.
  • Systemic disease: Diabetes, rheumatoid arthritis, and peripheral neuropathy reduce tissue quality and blood flow to the pad.
  • High BMI: Extra weight increases peak pressure on a finite area of tissue with every step.
  • Genetics and foot structure: A high-arched foot or a foot that supinates places more load on the heel than a neutral foot.

How it feels and how it differs from plantar fasciitis
People with heel fat pad atrophy describe a deep, bruised ache directly under the heel bone. It hurts most with barefoot walking on tile, concrete, or wood, and gets worse the longer you are on your feet. Unlike plantar fasciitis, the pain is central in the heel, not along the arch, and it is usually absent or mild with the first steps in the morning. Pressing straight up on the center of the heel reproduces the pain. You might also notice that the heel looks thinner and you can feel the calcaneus more prominently.

A podiatrist or orthopedic specialist can confirm it on exam. Ultrasound or MRI will show reduced fat pad thickness, often under 10 mm when unloaded, compared to a healthy 15-20 mm. They will also rule out calcaneal stress fracture, bursitis, or nerve entrapment.

Management and treatment options
There is no way to regenerate the fat pad naturally once the septa are gone, so treatment focuses on protection and pressure redistribution. Because this involves symptom assessment and ongoing management, you should work with a podiatrist, orthopedist, or physical therapist to tailor a plan.

Key strategies:

  1. Cushioning: Gel or silicone heel cups, U-shaped pads, and shoes with a thick, shock-absorbing midsole reduce peak pressure. Avoid minimalist shoes and barefoot walking.
  2. Offloading: Custom orthotics can shift weight to the midfoot. Taping techniques provide temporary relief for activity.
  3. Activity modification: Limit time on hard surfaces, use anti-fatigue mats if you stand for work, and cross-train with cycling or swimming to maintain fitness.
  4. Weight management: Reducing body mass directly lowers ground reaction force on the heel.
  5. Advanced options: For severe cases, some specialists offer fat grafting, dermal filler injections, or allograft implants to replace volume. These are surgical or office-based procedures with mixed long-term data, so risks and benefits should be discussed with a qualified surgeon.

Prognosis and daily living
Heel fat pad atrophy is a chronic, mechanical problem. Most people get substantial relief by combining footwear changes, cushioning, and load management. It rarely “heals” on its own, but it can be managed well enough to walk and exercise with minimal pain. If pain persists despite conservative care, or if you have diabetes and notice skin breakdown, seek care promptly to prevent ulcers.

Strengthening the intrinsic foot muscles and calf stretching will not regrow the pad, but they improve shock absorption throughout the leg and reduce compensatory stress.

In short, heel fat pad atrophy is wear-and-tear of your natural heel cushion. Catch it early, pad it well, and adjust your loads. A medical professional can measure your pad, rule out other causes, and guide you toward orthotics or procedural options if needed.

Most Useful Resources:
Heel fat pad atrophy (Foot Health Forum)
heel pad atrophy HELP (Foot Health Forum)
Fat pad atrophy (PodiaPaedia)
Heel Fat Pad Atrophy (Foot Health Friday)
Heel Fat Pad Atrophy Cushioning Pad (FootStore)
Fat Pad Atrophy (Croydon Foot)

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The Determinants of Gait

Posted on by Staff

The Determinants of Gait are the biomechanical strategies that the body uses in order to maintain the center of gravity in the horizontal plane, as well as increase efficiency and to decrease the expenditure of energy when walking and running

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The Determinants of Gait are a set of six distinct movements that occur during the gait cycle to minimize the vertical and horizontal displacement of the body’s center of gravity. The primary purpose of these movements is to make walking more energy-efficient and smooth. Without these determinants, a person’s walk would be an inefficient “compass gait,” characterized by a significant up-and-down motion. The selected text from the Canvas document describes the general gait cycle, but doesn’t go into these specific, energy-saving movements.

 

The six classic determinants of gait are:

  • Pelvic Rotation: The pelvis rotates forward on the side of the swinging leg. This action lengthens the stride and reduces the peak of the body’s center of gravity, smoothing out the vertical path.
  • Pelvic Tilt (or Pelvic Obliquity): During the swing phase, the pelvis on the non-weight-bearing side drops slightly. This also helps to lower the body’s center of gravity, preventing an excessive rise as the body moves over the stance leg.
  • Knee Flexion in Stance Phase: As the foot makes contact with the ground, the knee flexes slightly. This acts as a shock absorber and prevents the body’s center of gravity from rising too high during the middle of the stance phase.
  • Foot and Ankle Mechanisms: This refers to the coordinated movements of the ankle and foot. The plantarflexion of the foot at heel strike and the subsequent dorsiflexion work to smooth the path of the body’s center of gravity.
  • Knee and Ankle Interaction: The way the knee and ankle move together also contributes to maintaining a smooth center of gravity. The knee begins to flex after heel strike and extends later in the stance phase, while the ankle’s rotation also changes the effective length of the leg, keeping the body’s center of gravity from oscillating too much.
  • Lateral Pelvic Displacement: The body shifts from side to side over the stance leg to keep the center of gravity over the base of support. This reduces the lateral, or side-to-side, displacement of the center of gravity.

Together, these six determinants work to create the smooth, undulating path of the body’s center of gravity, which is essential for an efficient and effortless walk.

Most Useful Resources:
Determinants of gait (Foot Health Forum)
Determinants of gait discredited? (Podiatry Arena)
The Determinants of gait (Podiatry Arena)
Determinants of Gait (PodiaPaedia)
Determinants of Gait (Podiatry TV)
The Six Determinants of Gait (Podiatry Ninja)

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