Tissue Flossing Technique on Post Traumatic Elbow Stiffness.

Post traumatic or operative stiffness at elbow is quite common problem causes higher level of impairments in daily living activities i.e. use of mobile or computer, personal hygiene, dressing, eating, cooking that requires higher degree of elbow range of motion and adversely effects the quality of life (1).

The common reason of stiffness in elbow is trauma with rates ranging from 3% to 20% (1). Incidence of (PTES) is increased up to 56% after elbow trauma (2). Simultaneously radial head and elbow injuries increase incidence rate up to 90%, and 5-10% patients are effected by PTES even with an isolated injury to the radial head (3). Another study shows that exact incidence of elbow stiffness is not known but elbow injuries causes stiffness in approximately 12% of patients (1). Elbow stiffness causes can be categorized as traumatic, atraumatic and congenital (4).

Patients with well reduced and stabilized fracture are also suffer for soft tissue and capsule thickening leads to range of motion limitation. Stiff elbow has thickened capsule with high level of myofibroblast. This causes alteration in the auto-regulation of (TGF-β) transforming growth factor-beta. The influence of myofibroblasts is increased in initial period after trauma but deficient in chronic stiffness (>5 months) (4).

Treatment depends upon the cause of stiffness, stiffness time, severity of stiffness and involved movement of elbow (5). Treatment include CPM (continuous Passive motion), manipulation, stretching, active and passive exercises, mobilization, passive resistance exercises, passive mobilization with movements and PNF (proprioceptive neuromuscular facilitation technique) (6, 7). Physiotherapy is commonly used treatment both for prevention of post traumatic elbow stiffness and regain motion after surgery (7). Factors effecting PTES consist of patients and characteristics of fracture and treatment of fracture causes stiffness, pain, instability and functional limitations of elbow (4).

Clinically according to the severity, elbow stiffness is classified as very severe ( flexion/ extension arc <30), severe ( 30-60), moderate ( 61-90), minimal ( >90) (8). Diagnosis depends upon history, imaging and physical examination. Plain radiographs are useful to see joint congruity, osteophytes and myositis mass (6).

Different studies have been conducted to show influence of tissue flossing on ROM, majority of these studies have shown positive effects on range of motion (9).

A systematic and evidence based search of relevant literature was performed by utilizing Google Scholar as Search engine and the Key words used were Elbow stiffness, Tissue Flossing, Post- Operative elbow stiffness. The purpose of the Literature review is to find out the pre-existing literature regarding the Tissue flossing effects.

In 2017 kiefer et al, conducted a pilot study on the tissue flossing effects and glenohumeral flexibility and concluded that flexibility in posttest is significantly increased (10).

In 2020 Kaneda et al. conducted an experimental research on tissue flossing effect and stretching on calf muscles in which 20 healthy young men participated and concluded that prep and post changes in dorsiflexion was significantly increase with flossing compare to rest (11).

Although enough researches have not been conducted in disease population but some studies have shown its beneficial effect in reducing pain and improve range of motion in diseases population (12, 13).

In 2017, Borda and Selhorst conducted a case study on 14 years old female with chronic pain with 8/10 intensity of Achilles tendinopathy and only two session with tissue flossing shows improvement in pain with 0/10 and disability during sports (12).

In 2018, weber et al. conducted a study on 14 years old male soccer player with Osgood-Schlatter's disease and concluded that there is significant improvement on muscle functions and pain with nine weeks flossing intervention plan (13).

In 2020 by Marco et al. a pilot study was conducted on five young male athletes with knee pain and shows significant improvement on knee pain and jump performance with flossing technique (14).

In 2017 a research was conducted on twelve elite healthy tennis players in which floss band wrapped with 50% stretch on elbow joint and perform 6 passive exercises in three mints and concluded that there is significant improvement in elbow range of motion in floss band group (15).

In 2019, Stevenson conducted a research on 5 male athletes who had stiffness, tightness, heel pain or calf pain and concluded that there was a significant difference between floss group and control group (16).

In 2020, Kielur and powden perform systematic review and meta-analysis in which 6 articles were enrolled and concluded that floss band is an effective method for endurance, strength and physical functions (17)