BACKGROUND: Pain and sensory disability are greatly affected by subjective factors, there are no quantitative indexes to evaluate cervical spondylotic radiculopathy(CSR). The judgment on clinical body examination and ...BACKGROUND: Pain and sensory disability are greatly affected by subjective factors, there are no quantitative indexes to evaluate cervical spondylotic radiculopathy(CSR). The judgment on clinical body examination and chief complaint always causes nonobjective results with great individual differences. Quantitative sensory testing (QST) can be used to judge the nerve function of fibril. The application of QST for the quantitative evaluation of peripheral nervous system disease needs to be further studied. OBJECTIVE: The cold-thermal sensation and pain of patients with CSR are quantitatively analyzed by using QST technology in order to evaluate the nerve function of fibril in patients with CSR. DESIGN: Case-control observation. SETTING: Pain Center of Beijing Hospital of Ministry of Health. PARTICIPANTS: Twenty patients with CSR, including 8 males and 12 females, aged from 33 to 70 years, who received treatment between January and April 2005 in Pain Center of Beijing Hospital of Ministry of Health were involved in CSR group. All the involved patients presented symptoms in unilateral upper extremity (left side 10 patients, right side 10 patients). They did not undergo physical therapy or nerve block therapy in 1 week before examination. Eight non-CSR patients who received treatment in Pain Center concurrently were involved in the control group (2 patients with trigeminal neuralgia, 4 with osteoarthrosis of knee joint and 2 with lumbar intervertebral disc protrusion), and another 12 healthy volunteers were involved. Four non-CSR patients and 12 healthy volunteers, 8 male and 12 female, were aged from 23 to 75 years. The informed consents were obtained from all the involved subjects. METHODS: The volar thresholds of cold sensation, thermal sensation, cryalgesia of thenar eminence of both upper extremities of all the subjects were examined separately by limit method with type TSA-Ⅱ temperature sensation analysator made by Medco Company (Israel). The subjects were pre-examined to be familiar with the method for sensory discrimination and affirmation. Thenar eminence vola of bilateral upper extremities were detected. The infrared detector of a semiconductor was contacted with skin. The infrared detector could be used to heat and cool skin. A group of cold-heat water circulation device was given electric current to produce temperature gradient, which was higher or lower than skin temperature. The initial temperature of infrared detector was 32 ℃, stimulation temperature was increased or decreased progressively at 1 ℃/s, and temperature change range was 0 to 50 ℃. In the first step, subjects pressed down the button to stop the stimulation when the temperature of infrared detector was decreased progressively until the subjects felt, and the threshold of cold sensation was obtained; In the second step, the threshold of thermal sensation was obtained when the temperature of infrared detector was increased progressively until the subjects felt; In the third step, the threshold of cryalgesia was obtained when the temperature of infrared detector was decreased progressively until subjects felt; and in the fourth step, the threshold of thermalgesia was obtained when the temperature of infrared detector was increased progressively until subjects felt. Each step was conducted 4 times and the mean threshold was obtained. Before each measurement, the temperature was made to rebound to the initial temperature and kept for 10 s. MAIN OUTCOME MEASURES: The thresholds of cold sensation, thermal sensation and cryalgesia, thermalgesia of thenar eminence vola of bilateral upper extremities of all the subjects. RESULTS: Twenty patients with CSR and 20 healthy subjects participated in the final results. ① In the CSR group, the threshold of cold sensation of affected side was lower than that of intact side [(29.00±1.26) ℃ vs.(30.00±1.06) ℃, P < 0.05], and the threshold of thermal sensation of affected side was higher than that of intact side [(35.04±0.87) ℃ vs. (34.14±0.99) ℃, P < 0.05]. There were no significant differences in the thresholds of cold and thermal sensation between affected side and intact side (P > 0.05). ②In the CSR group, the difference of threshold of cold sensation, thermal sensation, cryalgesia and thermalgesia between affected side and intact side was (-1.01±0.57), (0.89±0.39), (2.49±1.10) and (-1.62±0.86) ℃, respectively , the absolute value of which was higher than that of control group, respectively [(0.04±0.28),(0.05±0.26),(0.28±1.79),(0.17±1.10) ℃,P < 0.01]. In the CSR group, the threshold of cold sensation and thermalgesia of affected side was lower than that of intact side, respectively; and the threshold of thermal sensation and cryalgesia of affected side was higher than that of intact side, respectively. CONCLUSION: The superficial sensation of affected extremity of patients with CSR is lessened as compared with that of intact extremity. There are dysfunctions of small myelinated fiber (Aδ fiber) and demyelinated fiber (C fiber) in the affected-side extremity. QST, as a mean for quantitatively evaluating the function of Aδ fiber and C fiber, plays an objective evaluative role in the diagnosis and therapeutic effect observation of CSR.展开更多
Objective: To quantitatively identify and grade trigeminal sensory functions after 3 major surgical procedures of trigeminal neuralgia using a newly developed quantitative sensory testing technique, current perceptio...Objective: To quantitatively identify and grade trigeminal sensory functions after 3 major surgical procedures of trigeminal neuralgia using a newly developed quantitative sensory testing technique, current perception threshold measurement (CPTM). Methods: In the current study, there were 48 trigeminal neuralgia patients without history of prior surgical treatment. These patients received one of the following 3 surgical procedures, microvascular decompression (MVD), peripheral nerve block with alcohol (PNB), or percutaneous radiofrequency thermocoagulation (PRFT). The quantitative sensory testing measurement, CPTM, and conventional qualitative sensory testing measurements were performed preoperatively and postoperatively to evaluate and grade the trigeminal sensory functions All 3 major cutaneous sensory fiber types, large myelinated fibers (A beta), small myelinated fibers (A delta) and unmyelinated fibers(C) were allowed to quantitatively evaluate and grade by CPTM. The results of the measurements were statistically analyzed using a one-way analysis of variance (single factor). Each subject was his/her own control for comparison of the preoperative to postoperative state on the asymptomatic and symptomatic sides. Subjects were tested 48 h preoperatively and 4 weeks postoperatively. Results: PNB with alcohol and PRFT caused significant sensory dysfunction postoperatively in every fiber type, indicating damage to all fibers. On the contrary, the sensory function in all 3 fiber types was unchanged after MVD management. Conclusion: Among the 3 major surgical procedures tested, only MVD preserves sensory function in trigeminal system. CPTM is of quantitative nature on the evaluation of sensory functions of nerve fibers展开更多
BACKGROUND: Clinical diagnosis of various neurological disorders involving the sensory nerves depends primarily on subjective description, which cannot be quantitatively evaluated, and is also less reproducible and s...BACKGROUND: Clinical diagnosis of various neurological disorders involving the sensory nerves depends primarily on subjective description, which cannot be quantitatively evaluated, and is also less reproducible and specific. Quantitative sensory testing methods can overcome these shortcomings and is currently used to identify the function of the C- and A-fibers. OBJECTIVE: To apply the quantitative sensory testing method for analyzing changes in temperature sensation, cryalgesia, thermalgesia, and vibration sense on the skin surface of hemiplegic patients with post-stroke shoulder-hand syndrome, and to analyze the relationship between these changes and shoulder-hand syndrome. DESIGN, TIME AND SETTING: A non-randomized, concurrent, control study was performed at the Clinic and Inpatient Department of the Third Xiangya Hospital, Central South University, between June 2000 and April 2001. PARTICIPANTS: Thirty post-stroke, hemiplegic patients were divided into shoulder-hand syndrome and control groups, according to whether patients exhibited shoulder-hand syndrome, with 15 patients in each group. METHODS: A TSA2001 quantitative sensory testing device (Medoc, Israel) was used for quantitative sensory testing. All sensory testing employed limits, testing temperature sense on the palm thenar eminence and vibration sense on the thumb metacarpal. Cold threshold was ≤ 28 ℃, warmth threshold was ≥ 36 ℃, cold-evoked pain threshold was ≤ 5 ℃, heat-evoked pain threshold was ≥ 51 ℃, vibration threshold was ≥ 5 μm/s; if a patient met one of these items, he/she was considered to be hypoanesthesia. MAIN OUTCOME MEASURES: Cold, warm, cold-evoked pain, heat-evoked pain and vibration threshold changes on skin from the paralyzed upper extremity was measured in the shoulder-hand syndrome and control groups. RESULTS: Incidence of sensory disability in the shoulder-hand syndrome group increased more significantly than in the control group (P 〈 0.05), with the primary manifestations being decreased cold threshold (P 〈 0.05) and increased warmth threshold (P 〈 0.05). The value differences between cold and cold-evoked pain thresholds, as well as between warmth and heat-evoked pain thresholds, decreased significantly in the shoulder-hand syndrome group (P 〈 0.05). There were no significant differences between the two groups in cold-evoked pain, heat-evoked pain, or vibration thresholds. CONCLUSION: The primary manifestations of sensory impairment in hemiplegic patients with post-stroke shoulder-hand syndrome were displayed as thermohypesthesia and hyperalgesia. Functional impairments of nerve fibers that control pain and temperature sense may play an important role in the pathogenesis of post-stroke shoulder-hand syndrome.展开更多
文摘BACKGROUND: Pain and sensory disability are greatly affected by subjective factors, there are no quantitative indexes to evaluate cervical spondylotic radiculopathy(CSR). The judgment on clinical body examination and chief complaint always causes nonobjective results with great individual differences. Quantitative sensory testing (QST) can be used to judge the nerve function of fibril. The application of QST for the quantitative evaluation of peripheral nervous system disease needs to be further studied. OBJECTIVE: The cold-thermal sensation and pain of patients with CSR are quantitatively analyzed by using QST technology in order to evaluate the nerve function of fibril in patients with CSR. DESIGN: Case-control observation. SETTING: Pain Center of Beijing Hospital of Ministry of Health. PARTICIPANTS: Twenty patients with CSR, including 8 males and 12 females, aged from 33 to 70 years, who received treatment between January and April 2005 in Pain Center of Beijing Hospital of Ministry of Health were involved in CSR group. All the involved patients presented symptoms in unilateral upper extremity (left side 10 patients, right side 10 patients). They did not undergo physical therapy or nerve block therapy in 1 week before examination. Eight non-CSR patients who received treatment in Pain Center concurrently were involved in the control group (2 patients with trigeminal neuralgia, 4 with osteoarthrosis of knee joint and 2 with lumbar intervertebral disc protrusion), and another 12 healthy volunteers were involved. Four non-CSR patients and 12 healthy volunteers, 8 male and 12 female, were aged from 23 to 75 years. The informed consents were obtained from all the involved subjects. METHODS: The volar thresholds of cold sensation, thermal sensation, cryalgesia of thenar eminence of both upper extremities of all the subjects were examined separately by limit method with type TSA-Ⅱ temperature sensation analysator made by Medco Company (Israel). The subjects were pre-examined to be familiar with the method for sensory discrimination and affirmation. Thenar eminence vola of bilateral upper extremities were detected. The infrared detector of a semiconductor was contacted with skin. The infrared detector could be used to heat and cool skin. A group of cold-heat water circulation device was given electric current to produce temperature gradient, which was higher or lower than skin temperature. The initial temperature of infrared detector was 32 ℃, stimulation temperature was increased or decreased progressively at 1 ℃/s, and temperature change range was 0 to 50 ℃. In the first step, subjects pressed down the button to stop the stimulation when the temperature of infrared detector was decreased progressively until the subjects felt, and the threshold of cold sensation was obtained; In the second step, the threshold of thermal sensation was obtained when the temperature of infrared detector was increased progressively until the subjects felt; In the third step, the threshold of cryalgesia was obtained when the temperature of infrared detector was decreased progressively until subjects felt; and in the fourth step, the threshold of thermalgesia was obtained when the temperature of infrared detector was increased progressively until subjects felt. Each step was conducted 4 times and the mean threshold was obtained. Before each measurement, the temperature was made to rebound to the initial temperature and kept for 10 s. MAIN OUTCOME MEASURES: The thresholds of cold sensation, thermal sensation and cryalgesia, thermalgesia of thenar eminence vola of bilateral upper extremities of all the subjects. RESULTS: Twenty patients with CSR and 20 healthy subjects participated in the final results. ① In the CSR group, the threshold of cold sensation of affected side was lower than that of intact side [(29.00±1.26) ℃ vs.(30.00±1.06) ℃, P < 0.05], and the threshold of thermal sensation of affected side was higher than that of intact side [(35.04±0.87) ℃ vs. (34.14±0.99) ℃, P < 0.05]. There were no significant differences in the thresholds of cold and thermal sensation between affected side and intact side (P > 0.05). ②In the CSR group, the difference of threshold of cold sensation, thermal sensation, cryalgesia and thermalgesia between affected side and intact side was (-1.01±0.57), (0.89±0.39), (2.49±1.10) and (-1.62±0.86) ℃, respectively , the absolute value of which was higher than that of control group, respectively [(0.04±0.28),(0.05±0.26),(0.28±1.79),(0.17±1.10) ℃,P < 0.01]. In the CSR group, the threshold of cold sensation and thermalgesia of affected side was lower than that of intact side, respectively; and the threshold of thermal sensation and cryalgesia of affected side was higher than that of intact side, respectively. CONCLUSION: The superficial sensation of affected extremity of patients with CSR is lessened as compared with that of intact extremity. There are dysfunctions of small myelinated fiber (Aδ fiber) and demyelinated fiber (C fiber) in the affected-side extremity. QST, as a mean for quantitatively evaluating the function of Aδ fiber and C fiber, plays an objective evaluative role in the diagnosis and therapeutic effect observation of CSR.
文摘Objective: To quantitatively identify and grade trigeminal sensory functions after 3 major surgical procedures of trigeminal neuralgia using a newly developed quantitative sensory testing technique, current perception threshold measurement (CPTM). Methods: In the current study, there were 48 trigeminal neuralgia patients without history of prior surgical treatment. These patients received one of the following 3 surgical procedures, microvascular decompression (MVD), peripheral nerve block with alcohol (PNB), or percutaneous radiofrequency thermocoagulation (PRFT). The quantitative sensory testing measurement, CPTM, and conventional qualitative sensory testing measurements were performed preoperatively and postoperatively to evaluate and grade the trigeminal sensory functions All 3 major cutaneous sensory fiber types, large myelinated fibers (A beta), small myelinated fibers (A delta) and unmyelinated fibers(C) were allowed to quantitatively evaluate and grade by CPTM. The results of the measurements were statistically analyzed using a one-way analysis of variance (single factor). Each subject was his/her own control for comparison of the preoperative to postoperative state on the asymptomatic and symptomatic sides. Subjects were tested 48 h preoperatively and 4 weeks postoperatively. Results: PNB with alcohol and PRFT caused significant sensory dysfunction postoperatively in every fiber type, indicating damage to all fibers. On the contrary, the sensory function in all 3 fiber types was unchanged after MVD management. Conclusion: Among the 3 major surgical procedures tested, only MVD preserves sensory function in trigeminal system. CPTM is of quantitative nature on the evaluation of sensory functions of nerve fibers
基金This study belongs under the sub-topic of"Treatment and assessment of stroke under biol-ogy-psychology-society pattern" that has received the Third-class Award of Medical Science and Technology of Hu’nan Province, No. 200203-U-08
文摘BACKGROUND: Clinical diagnosis of various neurological disorders involving the sensory nerves depends primarily on subjective description, which cannot be quantitatively evaluated, and is also less reproducible and specific. Quantitative sensory testing methods can overcome these shortcomings and is currently used to identify the function of the C- and A-fibers. OBJECTIVE: To apply the quantitative sensory testing method for analyzing changes in temperature sensation, cryalgesia, thermalgesia, and vibration sense on the skin surface of hemiplegic patients with post-stroke shoulder-hand syndrome, and to analyze the relationship between these changes and shoulder-hand syndrome. DESIGN, TIME AND SETTING: A non-randomized, concurrent, control study was performed at the Clinic and Inpatient Department of the Third Xiangya Hospital, Central South University, between June 2000 and April 2001. PARTICIPANTS: Thirty post-stroke, hemiplegic patients were divided into shoulder-hand syndrome and control groups, according to whether patients exhibited shoulder-hand syndrome, with 15 patients in each group. METHODS: A TSA2001 quantitative sensory testing device (Medoc, Israel) was used for quantitative sensory testing. All sensory testing employed limits, testing temperature sense on the palm thenar eminence and vibration sense on the thumb metacarpal. Cold threshold was ≤ 28 ℃, warmth threshold was ≥ 36 ℃, cold-evoked pain threshold was ≤ 5 ℃, heat-evoked pain threshold was ≥ 51 ℃, vibration threshold was ≥ 5 μm/s; if a patient met one of these items, he/she was considered to be hypoanesthesia. MAIN OUTCOME MEASURES: Cold, warm, cold-evoked pain, heat-evoked pain and vibration threshold changes on skin from the paralyzed upper extremity was measured in the shoulder-hand syndrome and control groups. RESULTS: Incidence of sensory disability in the shoulder-hand syndrome group increased more significantly than in the control group (P 〈 0.05), with the primary manifestations being decreased cold threshold (P 〈 0.05) and increased warmth threshold (P 〈 0.05). The value differences between cold and cold-evoked pain thresholds, as well as between warmth and heat-evoked pain thresholds, decreased significantly in the shoulder-hand syndrome group (P 〈 0.05). There were no significant differences between the two groups in cold-evoked pain, heat-evoked pain, or vibration thresholds. CONCLUSION: The primary manifestations of sensory impairment in hemiplegic patients with post-stroke shoulder-hand syndrome were displayed as thermohypesthesia and hyperalgesia. Functional impairments of nerve fibers that control pain and temperature sense may play an important role in the pathogenesis of post-stroke shoulder-hand syndrome.
