Plantar Fasciitis — Diagnosis and Natural Treatment Options
Mercola, J. (2018, December 28). Plantar Fasciitis — Diagnosis and Natural Treatment Options. Mercola Peak Fitness. https://fitness.mercola.com/sites/fitness/archive/2018/12/28/plantar-fasciitis-diagnosis-natural-treatment-options.aspx
- Plantar fasciitis (heel pain) is a common occurrence, especially among runners. While the pain is typically believed to be caused by inflammation in the ligament that runs along the sole of your foot, some research suggests other issues are at play
- Possible underlying causes and/or contributing factors include inflammation or microscopic tears in the plantar fascia, stress fractures, enlargement of the plantar fascia, tight Achilles tendon, and loss of arch support if you have flat feet
- Anything that places stress on the plantar fascia is a risk factor for plantar fasciitis, including both intrinsic and extrinsic factors
- The pain of plantar fasciitis is typically gradual in onset, and most noticeable when you’re taking your first steps after getting out of bed in the morning or after prolonged sitting
- Treatment recommendations include rest, plantar fascia stretches, ice massage, dorsiflexion splint, platelet-rich plasma injections, soundwave therapy, laser therapy, and possibly acupuncture
Plantar fasciitis (heel pain) is a common occurrence, especially among runners. Unfortunately, the exact underlying cause is still being debated. While the pain is typically believed to be caused by inflammation in the ligament that runs along the sole of your foot, connecting your heel bone to your toes, some research has shown plantar fascia pain can occur even in the absence of inflammation. According to one such study:1
“Findings include myxoid degeneration with fragmentation and degeneration of the plantar fascia and bone marrow vascular ectasia. Histologic findings are presented to support the thesis that ‘plantar fasciitis’ is a degenerative fasciosis without inflammation, not a fasciitis. These findings suggest that treatment regimens such as serial corticosteroid injections into the plantar fascia should be reevaluated in the absence of inflammation and in light of their potential to induce plantar fascial rupture.”
Possible Causes of Plantar Fasciitis
It appears plantar fasciitis can be triggered in a number of different ways, some involving inflammation and others not. Possible underlying causes and/or contributing factors include:2
|Inflammation of the plantar fascia due to excessive stress placed on the heel bone and soft tissues. The ligament attachment is located at the bottom of your heel bone, which is why the pain is felt in your heel.
Improper footwear is typically part of the problem, and research3 by Michael Warburton, a physical therapist in Australia, found that running barefoot decreases the likelihood of plantar fasciitis
|Microscopic tears in the plantar fascia
|Stress fractures to the bones of your heel
|Myxoid degeneration (this is when the connective tissue is replaced by a gelatinous substance)
|Collagen necrosis (a form of cell injury that results in the premature death of the cells, in this case collagen, a crucial component of connective tissue)
|Hyperplasia of the plantar aponeurosis (enlargement of the plantar fascia)
|Overly tight Achilles tendon
|Loss of arch support (if you’re flat-footed)
As noted in the 2016 paper, “Management of Plantar Fasciitis in the Outpatient Setting,”4 anything that places stress on the plantar fascia is a risk factor for plantar fasciitis, and these risk factors can be divided into intrinsic and extrinsic factors. Additional factors are also mentioned in a systematic review5 of diagnostic and treatment strategies for athletes.
- Intrinsic factors include obesity, flat-footedness (pes planus), excessively high arches (pes cavus), reduced range of ankle dorsiflexion, tight calf muscles, overpronation, leg-length discrepancy, excessive lateral tibial torsion and/or femoral anteversion, tight Achilles tendon, weakness in the foot muscles, heel fat pad atrophy or aging, and plantar fascia stiffness
- Extrinsic factors include overuse, running on hard surfaces, walking barefoot, a sudden increase in running intensity and/or volume, prolonged walking or standing, and inadequate footwear
The pain of plantar fasciitis is typically gradual in onset, and most noticeable when you’re taking your first steps after getting out of bed in the morning or after prolonged sitting. Aside from the presentation of pain in your heel, other diagnostic elements include:6
- Evaluation of intrinsic and extrinsic risks
- Blood testing, checking for inflammation markers
- Ultrasonography imaging of your plantar fascia. According to the outpatient treatment guidelines, this “is a very useful and reliable tool in diagnosing plantar fasciitis.” That said, imaging is typically unnecessary unless the problem is resistant to treatment, or to rule out other heel pathology.7
The plantar fascia thickness in asymptomatic healthy adults ranges from 3.3 millimeter (plus or minus 0.3 mm) to 3.9 mm (plus or minus 0.5 mm). A thickness greater than 4.0 mm is considered abnormal
Treatment recommendations for plantar fasciitis — some of which I will describe further in sections below — include:8,9,10
|Rest and activity modification — If you’re a runner and you feel mild pain in your heel, know that this is a warning sign and if you keep running, it’s only going to get worse as the plantar fascia gets increasingly irritated.11
Orthopedic experts will often recommend avoiding running for four to six weeks, and doing non-weight-bearing exercises such as cycling, swimming, or rowing instead. Once you’re asymptomatic (no longer in pain), you can gradually return to load-bearing activities.
|Plantar fascia stretch — As described in “Management of Plantar Fasciitis in the Outpatient Setting:”12
“The plantar fascia-specific stretch is performed by dorsiflexing the toes with one hand (taking advantage of the windlass mechanism) and palpating the plantar fascia with the other hand to ensure that it is taut.
The stretch is held for a count of 30 seconds and repeated at least three times in each session. This should be done daily, especially before taking the first step in the morning and before standing following a period of prolonged sitting.”
|Ice massage — A simple way to massage the area with ice is to freeze a bottle of water (leave airspace as water expands when frozen and can cause the bottle to burst) and then simply roll it underfoot with moderate pressure for up to 10 minutes at the end of each day.
|Using a dorsiflexion splint at night — Many patients notice improvement after four weeks of use and resolution of symptoms within 12 weeks
|Platelet-rich plasma injections
|Extracorporeal shockwave therapy (ESWT) — Recommended for chronic cases (pain lasting six months or longer)
|Laser therapy — Like ESWT, class 4 laser therapy also speeds your body’s natural healing and reduces pain and inflammation
|Acupuncture — In one small trial,13 patients who received five acupuncture treatments per week for two weeks reported improvement in plantar fasciitis pain
While cortisone and anti-inflammatory drugs are also typically prescribed, I would suggest exercises and other non-drug alternatives first, which is the focus of this article. Aside from offering only temporary relief, side effects of corticosteroid injections include fat pad atrophy and plantar fascia rupture.14
Exercises for Plantar Fasciitis
Aside from the plantar fascia stretch described above, other exercises that target your foot, calf, and Achilles tendon are recommended. The featured video demonstrates a program consisting of five exercises that target plantar fascia pain:
- Wall stretch, to stretch and elongate your calf muscles
- Tennis ball massage, to stretch your plantar fascia
- Pick up a sock or towel with your toes, to tone your plantar fascia
- Seated calf stretch
- Belt stretch
Shockwave Therapy — ‘Closest Thing to Miracle Cure’ for Plantar Fasciitis
While surgery is sometimes recommended for stubborn cases that are resistant to treatment, ESWT (extracorporeal shock wave therapy)15 may be a far preferable alternative, and may eliminate the need for surgery altogether. As previously noted by podiatrist Dr. John E. Mancuso:16
“… Manhattan Podiatry has been using … ESWT for patients who did not respond to conservative treatments. ESWT uses high-intensity sound waves to heal the injured plantar fascia. In our practice, this innovative treatment has reduced the need for invasive surgical treatments by approximately 90 percent.”
The high-pulse sound waves are mechanical, not electric, and basically speed up your body’s natural healing processes by increasing blood flow to the area. A course of three treatments, one to two weeks apart is typically recommended, and research shows the earlier you do it the better.17
ESWT does have some caveats; for example, you should not undergo ESWT if you are pregnant, have bone cancer, are taking anticoagulants or have had a steroid injection within the past 12 weeks. You also may experience some pain or discomfort, which is usually manageable, although some doctors may administer a local anesthetic to help make you comfortable.18,19 According to Dr. Amol Saxena, a podiatrist specializing in sports medicine at the Palo Alto Medical Foundation and sports medicine editor of the International Advances in Foot and Ankle Surgery journal, ESWT “is the closest thing we have to a miracle cure” for plantar fasciitis.20
Another Surgical Alternative — Ultrasound Therapy
Another alternative is ultrasound-assisted treatment of the damaged tissue with a hollow needle. Sedation isn’t necessary with this procedure since it takes only about a minute and a half to do. In one study, patients reported a 90 percent improvement or more after two weeks. As reported by Medicinenet.com:21
“[T]he … ultrasound therapy … uses ultrasonic energy to cut and remove damaged, pain-generating tissue while sparing healthy foot tissue. In the study, [Dr. Rahul] Razdan's team tested the procedure on 65 patients who sought care at an interventional radiology clinic in 2013 and 2014. All had chronic plantar fasciitis, and all had failed to respond to standard treatments. During the ultrasound therapy, doctors guided a hollow needle tip into an area of ‘problem’ tissue by means of ultrasound guidance.
Once in position, the tip targeted a combination of high frequency/low amplitude sound to the damaged foot region. That broke up the pain-generating tissue, which was then extracted out of the foot. In total, average treatment time was about a minute and a half, and sedation was not used.”
Eat an Anti-Inflammatory Diet
While the pain will typically resolve in a few weeks or months, the problem can sometimes turn chronic. A foundational aspect of addressing most inflammation-related pain is to make sure you’re eating an anti-inflammatory diet high in healthy fats and low in sugars and non-vegetable carbohydrates.
Specific herbs and individual foods are also known for their anti-inflammatory contributions. These include but are not limited to:
- Herbs and spices such as garlic, cloves, ginger, rosemary, and turmeric
- Berries such as blueberries, strawberries, and cherries
- Animal-based omega-3 fats found in sardines, anchovies, mackerel, wild-caught salmon, fish roe, and krill oil
- Shiitake mushrooms
- Fermented vegetables and traditionally cultured foods (which quell inflammation by reseeding your gut with beneficial bacteria that help optimize your immune function)
Foods to avoid, as they increase the inflammatory response in your body, include:
- All forms of sugar (glucose, fructose, high fructose corn syrup, sucrose) and artificial sweeteners
- Refined carbohydrates
- Excessive alcohol (as it too turns into sugar)
- Artificial trans fats and processed vegetable and seed oils, such as corn oil and canola oil
- Processed meats
Collagen for Soft Tissue Injury and Repair
As mentioned earlier, collagen necrosis is one possible cause of plantar fasciitis, but even if it isn’t, taking extra collagen is probably going to be a good idea if you have plantar fasciitis. I recently interviewed Mark Sisson about the importance of collagen for soft tissue injury and repair, and you can find more information in that article.
In short, tendons, ligaments, cartilage, and fascia — basically connective tissue — are all collagen-based tissue that tend to get weaker and less elastic with age. These connective tissues require very specific raw materials, namely animal-based collagen such as gelatin and bone broth (sourced from organic grass-fed animals), in order to heal.
This collagen material is amino acids that get incorporated into your body to become this matrix of connective tissue. There are no hard and fast rules on dosage though. When treating his Achilles tendinosis, Sisson opted for a larger-than-normal dose and took 20 grams of collagen twice a day to start. After a few months, he cut down to a maintenance dose of 20 grams a day. Within four months, his Achilles’ were much improved.