Measuring the Tactile Sense Cortical Mechanisms and Clinical Applications of Tactile Direction Discrimination
نویسندگان
چکیده
Most of the studies aiming to investigate the human tactile sense are done on the glabrous skin. Still, there is a need for a quantitative method for evaluating nervous function of the hairy skin. Tactile direction discrimination, the ability to determine the direction of movement across the skin provides a clinical method to quantify tactile function of the hairy skin in humans. The method is easy-to-use, rapid, and inexpensive but has not been compared to vibration detection which is considered as the standard method for psychophysical examination of peripheral neuropathy. The peripheral neural mechanisms for tactile direction discrimination have been extensively studied, as well as the ascending pathways in the spinal cord. Nevertheless, the supraspinal mechanisms are imperfectly known. In this study we have compared the clinical test for tactile direction discrimination with vibration detection in a group of patients with diabetic neuropathy. We have also thoroughly studied the cortical processing of tactile direction discrimination. The results are presented in four separate papers. The results showed that the clinical test for tactile direction discrimination had similar sensitivity as vibration detection in detecting patients with diabetic neuropathy. The cortical network for tactile direction discrimination involved the primary somatosensory cortex, the opercular parietal area 1 of the secondary somatosensory cortex, and dorsolateral prefrontal cortex as well as anterior insular cortex. In conclusion, the clinical test for tactile direction discrimination provides a quantitative clinical test that is sensitive in detecting peripheral nervous lesions. The test seems well-suited for following patients with disturbances in the peripheral and central nervous systems. The neurophysiological mechanisms underlying tactile direction discrimination are well studied from the peripheral afferents in the skin, through the spinal cord and to information processing in the brain.
منابع مشابه
Design, Modeling, and Construction of a New Tactile Sensor for Measuring Contact-Force
This paper presents the design, modeling, and testing of a flexible tactile sensor and its applications. This sensor is made of polymer materials and can detect the 2D surface texture image and contact-force estimation. The sensing mechanism is based on the novel contact deflection effect of a membrane. We measure the deflection of the membrane with measuring the strain in the membrane with emb...
متن کاملDesign and Construction of a New Capacitive Tactile Sensor for Measuring Normal Tactile Force
This paper presents the design, construction and testing of a new capacitive tactile sensor for measurement of normal tactile force. The operation of proposed sensor has been investigated in ASTABLE and MONOSTABLE circuits. According to the results of these circuits the deviation of ASTABLE circuit results is less than MONOSTABLE circuit results. In addition, the results obtained from ASTABLE c...
متن کاملThe Application of Tactile Experience in Urban Perception
Urban perception is the result of mutual transaction between human and environment and the process of perception is developed through the three continuous steps of “sensation”, “perception” and “cognition”. In the first step (sensorial perception), the environmental signals are received via sensorial sensors and each different sense based on its own essence, performance and ability has its own ...
متن کاملDesign and Modeling of a New Type of Tactile Sensor Based on the Deformation of an Elastic Membrane
This paper presents the design and modeling of a flexible tactile sensor, capable of detecting the 2D surface texture image, contact-force estimation and stiffness of the sensed object. The sensor is made of polymer materials. It consists of a cylindrical chamber for pneumatic actuation and a membrane with a mesa structure. The inner radius of the cylindrical chamber is 2cm and its outer radius...
متن کاملNeuronal basis of tactile sense in the rat whisker system
Using their whiskers, rats have tactile capacities rivaling those of the human with our fingertips. We have carried out experiments to explore how neurons encode touch signals to build up a central representation. Touch signals begin with the receptors in the follicle of each whisker and can be traced to a columnar module in somatosensory cortex that is connected with the same whisker: the well...
متن کامل