Additional Effects of Sensory Integration Along With Focused Regimen Exercises on Kinaesthesia & Proprioception in Diabetic Peripheral Neuropathy.

Overview

This study aims to evaluate Additional Effects of sensory integration along with focused regimen exercises on kinaesthesia \& proprioception in Diabetic peripheral neuropathy Peripheral neuropathy a Condition occur when the nerves outside the brain and spinal cord are damaged. It affects the upper and lower extremity. The estimated prevalence of peripheral neuropathy in patients with diabetes in Pakistan is around 43%. The condition is more common in those who have poorly controlled diabetes. Signs and symptoms include Numbness, tingling, Pain, which may be burning, stabbing or shooting, unusual touch-based sensations (dysesthesia), Muscle weakness, Total or partial loss of sensation in feet, like not feeling pain from foot injuries, loss of position and movement sense. Kinaesthesia and proprioception are defined as awareness of the position and movement of the body parts by sensory organs (proprioceptors) in the muscles and joints. Uncoordinated movement, clumsiness, poor postural control are common symptoms. Multiple treatment options are available for training kinaesthesia and proprioception impairments in peripheral neuropathy including use of electrotherapeutic agents, proprioception exercises, sensory integration, and focused regimen exercises. Current study will be RCT on 40 participants recruited on the basis of inclusion criteria which are Diagnosed as Type 2 Diabetic peripheral neuropathy (DPN) by physician in the age group of 45-65 Years in Both genders with type 2 Diabetes. Patients with moderate neuropathy according to Michigan nephropathy screening tool and having the ability to walk with or without assistance. Participants will be randomly and equally divided into two groups; group A will be receiving focused regimen exercises and group B will be receiving both sensory integration exercises along with focused regimen exercises. The treatment will be given for 45min, 3 days a week for total of 8 weeks. The assessment will be conducted at baseline by (Michigan neuropathy screening tool, Brief kinaesthesia test (BKT), Modified Clinical Test of Sensory Interaction for balance (mCTSIB), Norfolk quality of life for diabetic neuropathy), and final assessment will be conducted after 8 weeks of treatment.

Peripheral neuropathy a Condition occurs when the nerves outside the brain and spinal cord are damaged. It affects the upper and lower extremity. The estimated prevalence of peripheral neuropathy in patients with diabetes in Pakistan is around 43%. The condition is more common in those who have poorly controlled diabetes. Signs and symptoms include Numbness, tingling, Pain, which may be burning, stabbing or shooting, unusual touch-based sensations (dysesthesia), Muscle weakness, Total or partial loss of sensation in feet, like not feeling pain from foot injuries, loss of position and movement sense. Although there are many possible causes of peripheral neuropathy, the most prevalent subtype, diabetic peripheral neuropathy (DPN), can lead to significant complications ranging from paresthesia to loss of limb and life. Early assessment of symptoms of peripheral polyneuropathy helps avoid neuropathic foot ulcers to combat potential morbidity and mortality resulting from the pathophysiologic poor wound healing potential, which can lead to limb compromise, local to systemic infection, septicemia, and even death. Early peripheral neuropathy may present as sensory alterations that are often progressive, including sensory loss, numbness, pain, or burning sensations in a "stocking and glove" distribution of the extremities. Later stages may involve proximal numbness, distal weakness, or atrophy. Early peripheral neuropathy may present as sensory alterations that are often progressive, including sensory loss, numbness, pain, or burning sensations in a "stocking and glove" distribution of the extremities. Later stages may involve proximal numbness, distal weakness, or atrophy. kinesthetic sensation or joint sensation and movement of limbs has been a subject of surmise for more than 400 years. It is defined as awareness of the position and movement of the parts of the body by means of sensory organs (proprioceptors) in the muscles and joints. It is a function through which the investigators can tell where our body parts are located even when our eyes are closed or when the investigators are not looking at our body. It is basically controlled by muscle spindles, joint and skin receptors. According to the hypothesis by Yin4 , basal ganglia control the speed of movement through kinesthetic re-afferent input. The entire nervous system is responsible for kinesthetic sense. kinesthesia is important component in muscle memory and coordination. Burning and stabbing pain in the feet and lower limbs can have a significant impact on the activities of daily living, including walking, climbing stairs and sleeping. Peripheral neuropathy in particular is often misdiagnosed or under-diagnosed because of a lack of awareness among both patients and physicians. The underestimation of peripheral neuropathy is highly prevalent in the South-East Asia region due to a lack of consensus guidance on routine screening and diagnostic pathways. Joint position sense is important to maintain stability. Rehabilitation of impaired kinesthesia includes use of different textures, shapes, weight in order to assist sensory reeducation. To integrate proprioception balance training is used. Repetitive practice of stimulation is frequently practiced. In physiotherapy management the investigators mostly concentrate on neuropathic pain, weakness but neglect proprioceptive problems. Identifying them and treating at right time is very important to avoid progression as well as complications of the disease. Sensory nerves carry important proprioceptive information about the position of our body parts in relation to each other and to the surrounding environment. Proprioceptive signals are derived from mechanoreceptors located in the skin, joints, tendons, ligaments, and muscles. In particular, muscle spindles play a major role in the sense of proprioception throughout the range of joint motion. Collectively, the action potentials generated from the mechanoreceptors are carried through afferent nerve fibers and processed in the central nervous system (CNS) to provide the sense of proprioception. Proprioceptive disorders may occur when thick fibers are affected in diabetic neuropathy. This can lead to impaired joint stabilization and increased risk of falls and fractures. Loss of foot-sole input goes along with large-fiber dysfunction in intrinsic foot muscles. Diabetic patients have an elevated risk of falling, and vision and vestibular compensation strategies may be inadequate. The investigators touch on the effects of nerve stimulation onto cortical and spinal excitability, which may participate in plasticity processes, and on exercise interventions to reduce the impact of neuropathy. Even if the short-term effect of a sensory volley produced by electrical stimulation of a peripheral nerve (either cutaneous or muscular261) reaching the sensory motor cortex is far beyond the scope of this short article, the investigators would like to remind that this mere direct input plays a remarkable role in modifying the cortical excitability. These effects (e.g., short-latency afferent inhibition, afferent facilitation, and long-latency afferent inhibition) have been attributed a role in cortical plasticity. A large number of mechanoreceptors and sensory fibers are recruited when stimulated by TENS at various frequencies, intensities and durations. Proprioceptors being specialized mechanoreceptors relay continuous detailed knowledge about the positions of the various body parts to the cortex, aiding in their spatial position. High frequency TENS when applied to the lower limb had a positive influence over the postural sway in a study done by Dickstein et al. They concluded that electrical stimulations decrease the mechanoreceptor thresholds and thus improve proprioception. studies suggest that there is postural instability in people with DPN which increases with age and duration of diabetes. Multidirectional postural sway was observed in most of the studies with medio-lateral instability encountered in more cases. Significant improvement in timed up and go test, single leg stance test, Berg balance scale, and other outcome measures post physiotherapy intervention were reported. Literature suggests that multidirectional postural instability is present in DPN patients.