วันอาทิตย์ที่ 27 พฤศจิกายน พ.ศ. 2565

12 basic Flat feet rehabilitation and therapeutic exercises

 

Ref: https://health.clevelandclinic.org/

The foot ankle complex includes bone, muscle and ligament which support the medial 

longitudinal arch which gives shape, strength and stability to the joint. Flat feet are determined by the collapse or over - flattening of the medial longitudinal arch of the foot. Most previous studies have concluded the indications of flatfoot to be related to the collapse of the medial longitudinal arch caused by abnormal bone structure in the foot or the relaxation of muscle ligaments. 

  Joint ligament relaxation was also a critical factor in the occurrence of flatfoot in children, adolescents or adults. The occurrence of flat feet was shown to be affected by internal factors (age, sex, nutritional status, genetics, race, and development differences) and other external factors (shoe shape, environmental conditions, and physical activities). 


Flat feet's shoes shape
(Ref: https://sgbonedoctor.com/)


I think of creep's phenomenal deformity biomechanics. It is visco - elastic properties of foot soft tissue, especially ligament that creates a deformation in the soft tissues (muscles, tendon, and ligaments). It is the non-recoverable strain energy that results in the permanent deformation or resting length change of the feet tissues. 

Flat feet was divided into two types: congenital and acquired. A rigid flat feet or congenital flat feet is characterized by a stiff, collapsed arch in both weight-bearing and non-weight-bearing positions. The acquired flat feet was mainly affected by external factors, such as physical activity level, shoe-wearing habits, and living area. 


Flexible flat feet when full weight and heel off
(Ref: https://orthoinfo.aaos.org/)


The flexible flat feet or acquired flat feet is characterized by a normal - appearing arch when the foot is not bearing weight but by a flattened arch when weight - bearing. Flexible flat feet are the most common type of flat foot. 

Most of my patients have flexible flat feet that have different complaints. I have seen 2 most common flat feet characters while standing in the clinic, including small arch and full flat. All flat feet were evaluated carefully by me to get specific mechanics of impairment that consists of internal and external factors. This information will be designed to be customized therapeutic exercise and accessory support for each single case.


Mild flat feet or flat feet first degree (the second from the left)
(Ref: https://www.runningshoesguru.com/)


Basic 12 therapeutic strengthening exercises to treat flat feet.

 

Each exercise needs 10 - 15 reps with 3 sets for 3 - 5 days a week.


Exercise #1: Achilles tendon stretching: You can follow stretching on previous topic that is https://yimphysionearme.blogspot.com/2022/07/physiotherapy-with-9-options-to-stretch.html The stretching leading to 30 sec hold and was repeated 5 times each session. I would like to recommend to who have pain, should follow stretching exercise #1. Whereas, patients who do not have pain, should follow exercise #3 or exercise #8, or exercise #9.


Exercise #2: Toe extension exercises: You are in a sitting or standing position and lift the big toe away from the floor with hold 5 seconds in each rep. You can apply some resistance by a very light elastic band if you want. You can be in a long sitting and tight the band away from your toes.



Exercise #3: Toe flexion exercise: You are in a sitting or standing position and bend the big toe away from the shin with hold 5 seconds in each rep. You can apply some resistance by a very light elastic band if you want. You can be in a long sitting and hold the band away by your hands.



Exercise #4: Toe abduction exercises: You are in a sitting or standing position and shall be instructed to stabilize the ball of the foot on the ground while lifting and spreading out the toes, with hold 5 seconds in each rep. Or you can be long sitting if you want.



Exercise #5: Ankle Dorsiflexion: You are in a sitting position or standing position and bend the foot away from the floor with hold 5 seconds in each rep. You can apply some resistance by a light elastic band if you want. 



Exercise #6: Ankle Inversion with plantar flexion: You are in the long sitting position on a mat with back supported and bend the foot away from the floor with hold 5 seconds in each rep. You can apply some resistance by a light elastic band if you want. Or you can be long sitting if you want.



Exercise #7: Foot abduction:  Sit on a chair with feet touching the floor. One end of the exercise band is fixed around the feet, and the other end of the band is held by the other foot to maintain resistance. Bending needs to hold 5 seconds in each rep. You can do active bending if the exercise band is too heavy for you. Or you can be long sitting if you want.



Exercise #8: Short foot exercises: Place the foot flat on the ground, and draw the metatarsals inwards creating an arch with progression which holds 5 seconds in each rep.



Exercise #9: Heel raises with ball: You are in a standing position near a wall or stable furniture, with ball placed between the malleolus of left and right side, then raise the heel up - down slowly. 



Exercise #10: Heel raises waking: You are in a standing position performing heel raises. Then walk forward with the heel raise (without shoes).



Exercise #11: Towel curls: You are in a sitting or standing position and bend your toes to pick and slide towels into you. 



Exercise #12: Objects curls: You are in a sitting or standing position and bend your toes to pick objects and put them in the box.




Although foot exercise may be able to improve foot arch posture permanently, stronger soft tissue may increase pain or injury threshold. I have always encouraged foot exercise in patients with flat feet. Not only therapeutic exercise, but also control risk factors may be an essential component to help to treat flat feet. 

The distinct limitation of this study design is that no separate the external and internal factors affecting flatfoot, which is likely to be a significant confounder, as more external and internal factors progressions increase the risk of flatfoot development.


Factors such as age, gender, foot length, familial history, practicing the usage of footwear early in infanthood, body mass index (BMI), comorbid illness, associated with pain, fatigue in women, and urban residence were reported to be associated with flat feet. Flat feet are also seen secondary to ligamentous laxity, neuromuscular disorders, hereditary conditions (osteogenesis imperfecta, Down syndrome, and Marfan syndrome), collagen disorders (Ehlers‑Danlos syndrome). Biomechanical causes (ankle equinus, valgus deformities, accessory navicular bone) are potential to develop flexible flat feet may relate to secondary injuries like ankle sprains, plantar fasciitis also deformities include hallux valgus . It is often difficult to identify the exact reason for flat feet in every individual because of the existence of various factors associated with developing it. 


One of Marfan syndrome clinical
(Ref: https://www.istockphoto.com/th)


Adolescents who are not fully developed should avoid taking part in overloaded labor (such as burden-bearing) and sports (such as weight lifting). They could engage in high leg lifting, jumping activities (such as rope skipping, long jump, high jump, vertical take-off, etc.), and climbing activities (such as climbing ladders, using balance beams, rope climbing, pole climbing, etc.) to fully exercise the muscles and ligaments of the arch of the foot.

According to one theory, failure of muscles supporting the arch leads to flat foot; according to the second theory, weakness of passive ligamentous support around the arch leads to flat foot; and according to the third theory, failure of both muscles and ligaments leads to flat foot. Many studies demonstrate weakness of intrinsic foot muscles and extrinsic foot muscles that the posterior tibialis tendon is the main dynamic stabilizer of the arch with lesser contributions from the peroneus longus, flexor digitorum longus, and flexor hallucis longus. 


Long tendon from posterior shin muscles
(Ref: https://www.howtorelief.com/)


Tightness or any changes in Achilles tendon is associated with dysfunction of tarsal alignment that leads to dorsolateral displacement of the navicular bone causing chronic stress on posterior tibialis tendon eventually, leading to microtrauma and degeneration in the later stages.

Intrinsic foot muscles are contained in the foot bone. To strengthen such as short foot and toe abduction exercises, help to prevent pronation related injuries and integrity of the medial longitudinal arch. This helps in reducing navicular drop scores and plantar arch index scores. They help to maintain not only longitudinal arch, but also transverse arch. 


Intrinsic foot muscles and tendon of extrinsic muscles anatomy
(Ref: https://quizlet.com/)


Although intrinsic muscle helps in maintaining arch, the tibialis posterior plays an essential role in maintaining the medial longitudinal arch during dynamic weight‑bearing and balance activities. For these reasons, strengthening of the tibialis posterior muscle is more preferred in individuals with flat feet than the intrinsic muscles. However, I will provide an exercise program for all of them if necessary. 

The function of the posterior tibialis tendon is essential to maintain the gait pattern without any abnormal deviations. During gait cycle, the posterior tibialis tendon function is critical during the push‑off phase. Posterior tibialis contracts to invert the foot and maintains the transverse tarsal joints in a closed pack position. Weakness of posterior tibialis tendon leads to failure of stability in the transverse tarsal joints during the push‑off phase. The unopposed peroneal muscles abduct the forefoot due to weakness of the posterior tibialis tendon. 


Muscle activities during walking that tibialis posterior works in stance phase
(Ref: https://www.researchgate.net/figure/Representation-of-muscle-activity-during-a-gait-cycle-The-grey-color-indicates-periods_fig5_297048967)


Long‑term goal of any flat foot rehabilitation program aims at strengthening the posterior tibialis muscle. Strengthening program begins with isometric and progresses to isotonic exercises. Concentric and eccentric types of exercises were routinely implemented in strengthening programs. 

Orthoses and taping were always suggested to diminish the demand of the posterior tibialis tendon during the stance phase of gait cycle. In the clinic, I have made rigid taping to stabilize and support the foot arch in patients with pain. To tape is a very good way to help these patients, but patients may feel annoyed and dirty from the adhesive. Moreover, it is not convenient for patients who are lazy to tape and unskilled to tape. 


Low - dye tape technique to stabilize foot arch
(Ref: https://clinmedjournals.org/) 


For this reason, I suggest they get insoles or stable shoes to support the foot arch. Running shoes are the easiest to suggest which is motion control running shoes. However, patients with mild flat feet may comply to select a stability running shoe which is lighter than motion control. 


Insoles for flat feet


For children, the correct choice of footwear is especially important because their growth and development are characterized by the evolutionary dynamics of the locomotor system and by the physical activity to which the lower body is subjected. However, this choice is often influenced by aesthetic, economic, or marketing issues, rather than by considerations of health. To raise awareness of the importance of these questions, and to enable parents and others to reach suitable decisions, research is needed to highlight the direct influence of the shoe on the movement of the foot and on its functionality. The design of children’s shoes should be based on the barefoot model, prioritizing impact absorption and load distribution, in the understanding that overly rigid and/or tight-fitting footwear can provoke injuries or deformities. 


Kids shoes


I do not involve people who do not have pain or poor quality of life from flat feet especially in the athlete population. Because some athletes are accustomed to sports specific skill with flat feet. Their performance may be dropped if their flat feet are changed that make worse than better. 


Reference:

https://www.ijhsr.org/IJHSR_Vol.12_Issue.1_Jan2022/IJHSR015.pdf 


https://www.semanticscholar.org/paper/Evaluation-and-Retraining-of-the-Intrinsic-Foot-for-Jam/5d8c4a3d6dfabf6060a16a57c5316d935647616f 


https://www.sjosm.org/article.asp?issn=1319-6308;year=2022;volume=22;issue=2;spage=74;epage=81;aulast=Ravichandran 


https://online.boneandjoint.org.uk/doi/abs/10.1302/0301-620X.74B4.1624509


https://www.drkinast.com/wp-content/uploads/2006-pinney-Current-concept-AFFD.pdf


https://www.mdpi.com › pdf 


https://www.researchgate.net/publication/330381128_Influence_of_Shoe_Characteristics_on_the_Development_of_Valgus_Foot_in_Children 


วันอาทิตย์ที่ 20 พฤศจิกายน พ.ศ. 2565

Flat Feet: short overview by sports physiotherapist.

 

Flat feet
(Ref: https://www.fixflatfeet.com/)

Flat foot is a common postural deformity that we have seen flat feet ordinary. We have thought flatfeet would always cause foot problems. This topic would be a bit deeper review of flat feet such as arch development, type of flat feet, and musculoskeletal disorders.

Prevalence of flat feet in children is inversely proportional with age. Higher prevalence (21% to 57%) has been reported among children of 2 to 6 years that the prevalence declines in primary school children (13.4% to 27.6%). While prevalence of flat feet in adults has been reported to be between 13.6% to 26.62%. 


Type of flat feet

Flatfoot is characterized clinically by hindfoot valgus or eversion, forefoot supination in relation to the hindfoot, and a diminished or nonexistent medial longitudinal arch. Flat - feet that we have seen in normal life, however, the conditions can be divided into two types including rigid and flexible. 

A rigid flat foot is characterized by a stiff, collapsed arch in both weight-bearing and non-weight-bearing positions. The differential diagnosis of Pediatric flat foot deformity consists of Rigid flatfoot with tarsal coalition, Rigid flatfoot without tarsal coalition, so - called peroneal spastic flatfoot, Inflammatory arthritic flatfoot, Neoplastic flatfoot.


Rigid flat feet that be flat both of non - weight and during weight bearing
(Ref: https://samantha153.wordpress.com/category/flat-feet/) 


Whereas a flexible flat foot is characterized by a normal - appearing arch when the foot is not bearing weight but by a flattened arch when weight - bearing. Flexible flat feet are the most common type of flat foot. Harris and Beath have classified the flexible flat feet account for approximately 2/3 of all flat - foot occurrences. 

A flexible flat foot results in hyperpronation, plantar flexion, adduction of the talus, and calcaneal eversion. If a flexible flat foot is neglected, it can worsen to become a rigid flat foot, resulting in a loss of flexibility, hindfoot eversion, and joint deformity with pain. From a biomechanical point of view, a flexible flat foot can cause some musculoskeletal problems because they require more energy consumption when performing movements such as walking, and running. The differential diagnosis of Pediatric flat foot deformity consists of Flexible flatfoot including Physiologic flexible flatfoot, Physiologic flexible flatfoot with short tendo - Achilles, Flexible flatfoot associated with accessory navicular, Paralytic (spastic and flaccid) flatfoot. 


Soft flat feet that have arch with non - weight (above) and no arch with weight (below)
(Ref: https://www.semanticscholar.org/paper/Clinical-examination-of-the-foot-and-ankle.-Young-Niedfeldt/29bf0a47859ba614110d2e17270f54d503930fcf)

Evolution of foot arch

We have seen that every baby does not have a foot arch, maybe, because the baby's age is not about time to stand and walk. Standing, walking, running, or jumping have to be supported by feet that human feet have important roles in supporting, moving and balancing the body. The feet must not only support the weight of the body but must also have the elasticity to absorb the burden associated with supporting an excessive body weight. Foot elasticity is a function of the arched shape of the foot and the associated bone, ligament, tendon, and muscle structures, which form what is called the foot arch. 

The medial longitudinal arch typically starts to develop around the age of 2 years with development continuing until age 6 - 10 years, at which point approximately 20 - 25% of individuals remain flatfooted. Most children’s feet are, and remain, pain free whether or not they develop a longitudinal arch. Some young children with physiologic flatfeet present with bilateral non- localized activity - related and/or nocturnal foot and/or leg pain without any findings of redness, swelling, tenderness, or warmth. Early fatigue and rapid shoe breakdown may be reported.


Baby feet 
(Ref: https://www.bioped.com/)


In 90% of the children aged older than 2 years, an anatomic variation resembling flatfoot can be seen which is due to infantile adipose cushion formation localized on the medial part of the foot. Besides, toddlers who start to walk can assume a flatfoot posture. In fact they try to walk with their feet resting entirely on the ground so as to maintain a balanced posture. Consequently, they shift their weight-bearing axis to the first or second tarsometatarsal joint which may induce a flatfoot posture. In most of the children normal longitudinal arch develops at 3 - 5 years of age, and in only 4% of them flatfoot persists after 10 years of age.


Child feet
(Ref: https://www.doreenfac.com.au/)


In nearly 23% of the adult population collapse of the medial longitudinal arch of the foot can be seen. However it is not an isolated entity, and in 2/3 of the cases, subtalar complex, hyperflexible ankle joint, and in one-fourths contracture of the triceps surae muscle have been observed. Probably these combined pathologies cause patients’ complaints rather than collapse of the medial longitudinal arch.

Prevalence of flat feet varies with age, type of population and the presence of comorbidities. Flat feet have been associated with family history, wearing footwear during childhood, urban residence obesity, age, gender, BMI, and foot length. Flat feet could also be secondary to various conditions, such as ligament laxity, Rheumatoid arthritis, Diabetes, foot or ankle injury, posttraumatic arthritis, peroneal spastic flat foot, Charcot foot and posterior tibial tendon dysfunction. These factors can develop flat feet change in adults and elders, especially in high BMI groups.  


Overweight feet
(Ref: https://policyinpractice.co.uk/)

Pathoanatomy/Biomechanics of Flatfoot Deformity

 the subtalar joint complex (STJC), recognizing that the talo-calcaneal joint (the true subtalar joint) is the most important joint, and the location of all major foot deformities that can only move in combination with the talo-navicular joint.  

The axis of motion of the STJC is a constrained ball and socket-type joint that rotates three-dimensionally around a fixed oblique axis. Imagery between subtalar joint and hip joint, in the hip, the femoral head rotates within the acetabulum. In the subtalar joint, the acetabulum pedis (socket), which comprises the navicular, the anterior and middle articular facets of the calcaneus, and the spring ligament, rotates around the talar head (ball). 


Subtalar joint complex (Blue line) (Ref: https://ankleandfootcentre.com.au/)


More recently, the concept of the acetabulum pedis (AP) has been expanded to develop that of the calcaneopedal unit (CPU), which is a term used to describe the entire foot including that beyond the acetabulum pedis or subtalar joint complex. All major foot deformities, including flatfoot, have rotationally opposite static deformities within the CPU in relationship to the subtalar joint deformity. In flat feet, the hindfoot assumes a valgus position with eversion of the STJC, or more accurately, external rotation, dorsiflexion, and pronation of the AP/CPU around the talus. In flatfoot, the rotationally opposite direction deformity within the CPU is supination. These rotationally opposite direction deformities enable a flatfoot to maintain a plantar-grade tripod configuration. Valgus/eversion (pronation) of the hindfoot with rotationally opposite direction supination of the forefoot enable weightbearing on the plantar-medial corner of the calcaneus and the first and fifth metatarsal heads. 


The hindfoot assumes a valgus position with eversion of the STJC in flat feet (Left). Contrast with high arch shows a varus position (Right) (Ref: https://www.pinterest.com/)


Among those structures, the medial longitudinal arch (MLA) of the human foot has multiple functions, including absorbing and distributing load forces and providing stability. However, if the MLA structure collapses, which may be due to various causes such as posterior tibial tendon dysfunction or tight gastrocnemius soleus complex, a flat-foot condition occurs. In flat - foot cases, downward forces are deflected toward the inside of the foot, including the forefoot and the medial column, due to excessive pronation (hyperpronation).


Medial longitudinal arch (Upper), Lateral longitudinal arch (middle), Transverse arch (lower)
(Ref: https://epos.myesr.org/)


The 3 lesion levels of flat feet pathophysiology are the talonavicular, tibiotarsal and midfoot joints. The subtalar joint is damaged by the consequent rotational defects. Clinical examination determines deformity and reducibility, and assesses any posterior tibialis muscle deficit, the posterior tibialis tendon and spring ligament being frequently subject to degenerative lesions. 


Flat feet clinical presentation

Many people with flat feet are asymptomatic or never have trouble. By theory, however, the deformities concomitant with flat feet may cause pain, instability, uneven plantar pressure distribution, gait problems and foot fatigue which may have a significant influence on daily activities. All these changes can subsequently lead to slower walking speed, decreased stride length and cadence and increased stance duration all of which reduces functionality and overall well - being. The features of flat feet are an extremely low arch that increases the risk of hallux valgus, hammer toes, patellofemoral pain, and other musculoskeletal complications including low back pain. 

Flatfoot is considered pathological only when symptomatic. Pain is generally located in 

the medial part of the hindfoot, along the posterior tibial tendon, sometimes associated with effusion into the tendon sheath. Pain may be plantar and deep, suggesting spring ligament lesion. Even so, such pain may be caused by another pathology, such as talocalcaneal synostosis coalition or talonavicular, subtalar or mediotarsal osteoarthritis. Pain may also be lateral, due to fibulocalcaneal impingement in severe tibiotalar valgus, calcaneocuboid impingement in severe forefoot abduction, or impingement between the lateral tubercle of the talus and dorsal angle of Gissane of the anterior apophysis of the calcaneus in case of rotation and slippage of the talus.


The posterior tibialis tendon and spring ligament (Ref: https://coa.org/2017/presentations/Sunday/8SitlerDavidUpdate2.pdf)


Fundamental of flat feet treatment

3 majors treatment of flat feet consists of operative, insole, and exercises. The golden period of children must be before 6 years old and not greater than 10 years old. In physiotherapy, we have always suggested arch support insoles and exercise that focus on exercises. 

Flatfoot exercises are analyzed in two main headings: weight - bearing, and non - weight -  bearing exercises Exercises performed while seated are non - weight - bearing exercises which include rotating the feet, trying to grip the objects on the floor with foot, holding knees, and feet in extension, forcing the toes for abduction, and adduction, and crossing one foot over the other. Similarly, walking on tiptoes or on the outside edge of the foot, standing on tiptoes on an elevated surface, and walking with flexed feet are some of the weight - bearing exercises. If contracture of the Achilles tendon is present, stretching exercises, and Thera - Band exercises should be performed by the parents or if compliant by the patients themselves. 


Toe standing and walking
(Ref: https://lermagazine.com/)


 


Reference: 

https://jag.journalagent.com/nci/pdfs/NCI_1_1_57_64.pdf  


https://www.dovepress.com/the-prevalence-and-factors-associated-with-low-back-pain-among-people--peer-reviewed-fulltext-article-IJGM  


https://www.jposna.org/index.php/jposna/article/view/112  


https://www.ijhsr.org/IJHSR_Vol.10_Issue.2_Feb2020/30.pdf 


https://www.jfasap.com/doi/JFASAP/pdf/10.5005/jp-journals-10040-1149 


https://www.sciencedirect.com/science/article/pii/S1877056814003314 


http://aassjournal.com/article-1-929-en.pdf 


Sports physiotherapy management for tennis elbow and other treatment options.

Ultrasound therapy in tennis elbow treatment (Ref: https://nesintherapy.com/) Tennis elbow is degeneration of the tendons that attach to t...