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Sun Ho Kim

Bio: Sun Ho Kim is an academic researcher from University of Texas Medical Branch. The author has contributed to research in topics: Medicine & Allodynia. The author has an hindex of 4, co-authored 4 publications receiving 3638 citations.

Papers
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Journal ArticleDOI
01 Sep 1992-Pain
TL;DR: Results suggested that the surgical procedure in all 3 groups produced a long-lasting hyperalgesia to noxious heat and mechanical allodynia of the affected foot and there were behavioral signs of the presence of spontaneous pain in the affectedFoot.
Abstract: SummaryWe attempted to develop an experimental animal model for peripheral neuropathic pain Under sodium pentobarbital anesthesia, both the L5 and L6 spinal nerves (group 1) or the L5 spinal nerve alone (group 2) of one side of the rat were tightly ligated For comparison, a parallel study was cond

3,305 citations

Journal ArticleDOI
01 Oct 1993-Pain
TL;DR: The data suggest that the rats in the model exhibit behavioral signs of neuropathic pain that are sympathetically maintained, which is in contrast to previous work which suggested that these signs were driven by mechanical allodynia.
Abstract: The aim of this study was to determine the effects of sympathectomy on our previously developed animal model for neuropathic pain. The neuropathy was produced by a unilateral tight ligation of the L5 and L6 spinal nerves in 81 rats, all of which showed a marked increase in frequency of paw lifting in response to innocuous mechanical stimuli and a shortened latency of paw withdrawal in response to noxious radiant heat stimuli on the affected limb. We interpreted these as behavioral signs of mechanical allodynia and heat hyperalgesia. Surgical sympathectomy was performed by removing the sympathetic chain bilaterally from the L2 to L6 levels at 1 week prior to and 1, 3 and 5 weeks after nerve injury. In addition, the effect of sympathetic block was tested by systemically injecting guanethidine or phentolamine. Surgical sympathectomy relieved the signs of both mechanical allodynia and heat hyperalgesia. The effect of sympathectomy for mechanical allodynia is estimated to be almost fully expressed within 30 min after the operation. Sympathetic block by chemical agents reversibly relieved the mechanical allodynia. These data suggest that the rats in our model exhibit behavioral signs of neuropathic pain that are sympathetically maintained.

212 citations

Journal ArticleDOI
TL;DR: The responses of the EPN R neurons to heat stimulation of the skin showed decreased thresholds and increased responses to suprathreshold stimuli, resulting in a significant leftward shift of the stimulus-response curve compared with both reference and control groups.
Abstract: 1. An experimental peripheral neuropathy (EPN) was induced in three monkeys (Macaca fascicularis) by ligation of spinal nerve L7. Behavioral responses to innocuous mechanical stimuli were tested before and after the surgery. Two weeks after the nerve ligation, the activity of spinothalamic tract (STT) neurons was recorded on both sides of the spinal cord with the animal under general anesthesia. Responses of the STT neurons to the following stimuli applied to the skin were recorded: graded mechanical stimuli (brush, press, pinch and squeeze), von Frey filaments of different bending forces (0.077-19.05 g), 5-s heat stimuli ranging from 39 to 53 degrees C, and 15 s cold stimuli (32-8 degrees C). 2. Innocuous mechanical stimulation of the foot did not evoke hindlimb withdrawal in the animals before surgery. Within 24-48 h after nerve ligation, the animals showed hindlimb withdrawal to the same innocuous stimuli. This behavior was more pronounced on the side of the ligation than on the sham-operated side and more frequent during the second week after the surgery. 3. Responses of 51 STT neurons recorded on the side of the ligation (EPN all group) were compared with responses of 33 STT cells recorded on the sham-operated side (control group) and with records from STT neurons in unoperated animals obtained earlier (reference group). Neurons from the EPN all group were divided into two sets according to their rostrocaudal location (EPN R, rostral to L6/7 border, n = 40; EPN C, caudal to L6/7 border, n = 11). 4. Neurons from the EPN all and EPN R groups had significantly higher background frequencies than those from the control and reference groups. Innocuous brush stimuli evoked mean discharge frequencies of approximately 35 Hz in EPN R neurons and only approximately 15 Hz in both control and reference groups. Increased responsiveness of EPN R neurons to innocuous stimuli was also demonstrated by lower thresholds and higher discharge frequencies to von Frey filament stimulation and by discriminative analysis of the responses evoked by graded mechanical stimuli. 5. The responses of the EPN R neurons to heat stimulation of the skin showed decreased thresholds and increased responses to suprathreshold stimuli, resulting in a significant leftward shift of the stimulus-response curve compared with both reference and control groups. The neurons from the control group showed responses comparable to reference group values. 6. Neurons from the reference group tested with the cooling stimuli showed no evoked response above background.(ABSTRACT TRUNCATED AT 400 WORDS)

132 citations

Journal ArticleDOI
01 Feb 1994-Pain
TL;DR: These behavioral phenomena are similar to those seen in humans diagnosed with peripheral neuropathic pain and are discussed in relation to the responses of spinothalamic tract cells recorded from primates with the same peripheral nerve injury.
Abstract: A goal of the present study was to document the behavioral changes observed in a model of painful neuropathy in the primate (Macaca fascicularis). A neuropathic state was induced by tight ligation of the L7 spinal nerve, just distal to the L7 dorsal root ganglion. Sensory testing was done on the ventral surface of the foot, a region that includes the L7 dermatome. Within 1 week following surgery, all monkeys (n = 3) developed a marked sensitivity to mechanical stimulation (with a camel hair brush and von Frey hairs), indicating the presence of mechanical allodynia. In 2 animals, the increased sensitivity to mechanical stimulation was also observed on the contralateral side. The threshold for withdrawal to a heat stimulus decreased, indicating the presence of heat hyperalgesia. Presentation of various cooling stimuli, such as acetone and cold water baths, suggested that cold allodynia had also developed. These behavioral phenomena are similar to those seen in humans diagnosed with peripheral neuropathic pain. The behavioral abnormalities are discussed in relation to the responses of spinothalamic tract cells recorded from primates with the same peripheral nerve injury (Palecek et al. 1992).

108 citations


Cited by
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Journal ArticleDOI
TL;DR: Threshold measurement using the up-down paradigm, in combination with the neuropathy pain model, represents a powerful tool for analyzing the effects of manipulations of the neuropathic pain state.

6,560 citations

Journal ArticleDOI
TL;DR: A review of the basic neuroscience processes of pain (the bio part of biopsychosocial, as well as the psychosocial factors, is presented) and on the development of new technologies, such as brain imaging, that provide new insights into brain-pain mechanisms.
Abstract: The prevalence and cost of chronic pain is a major physical and mental health care problem in the United States today. As a result, there has been a recent explosion of research on chronic pain, with significant advances in better understanding its etiology, assessment, and treatment. The purpose of the present article is to provide a review of the most noteworthy developments in the field. The biopsychosocial model is now widely accepted as the most heuristic approach to chronic pain. With this model in mind, a review of the basic neuroscience processes of pain (the bio part of biopsychosocial), as well as the psychosocial factors, is presented. This spans research on how psychological and social factors can interact with brain processes to influence health and illness as well as on the development of new technologies, such as brain imaging, that provide new insights into brain-pain mechanisms.

2,566 citations

Journal Article
TL;DR: It is concluded that although the neural basis of the most used tests is poorly understood, their use will be more profitable if pain is considered within, rather than apart from, the body's homeostatic mechanisms.
Abstract: The study of pain in awake animals raises ethical, philosophical, and technical problems. We review the ethical standards for studying pain in animals and emphasize that there are scientific as well as moral reasons for keeping to them. Philosophically, there is the problem that pain cannot be monitored directly in animals but can only be estimated by examining their responses to nociceptive stimuli; however, such responses do not necessarily mean that there is a concomitant sensation. The types of nociceptive stimuli (electrical, thermal, mechanical, or chemical) that have been used in different pain models are reviewed with the conclusion that none is ideal, although chemical stimuli probably most closely mimic acute clinical pain. The monitored reactions are almost always motor responses ranging from spinal reflexes to complex behaviors. Most have the weakness that they may be associated with, or modulated by, other physiological functions. The main tests are critically reviewed in terms of their sensitivity, specificity, and predictiveness. Weaknesses are highlighted, including 1) that in most tests responses are monitored around a nociceptive threshold, whereas clinical pain is almost always more severe; 2) differences in the fashion whereby responses are evoked from healthy and inflamed tissues; and 3) problems in assessing threshold responses to stimuli, which continue to increase in intensity. It is concluded that although the neural basis of the most used tests is poorly understood, their use will be more profitable if pain is considered within, rather than apart from, the body's homeostatic mechanisms.

1,929 citations

Journal ArticleDOI
01 Aug 2000-Pain
TL;DR: The spared nerve injury model differs from the Chung spinal segmental nerve, the Bennett chronic constriction injury and the Seltzer partial sciatic nerve injury models in that the co‐mingling of distal intact axons with degenerating axons is restricted, and it permits behavioral testing of the non‐injured skin territories adjacent to the denervated areas.
Abstract: Peripheral neuropathic pain is produced by multiple etiological factors that initiate a number of diverse mechanisms operating at different sites and at different times and expressed both within, and across different disease states. Unraveling the mechanisms involved requires laboratory animal models that replicate as far as possible, the different pathophysiological changes present in patients. It is unlikely that a single animal model will include the full range of neuropathic pain mechanisms. A feature of several animal models of peripheral neuropathic pain is partial denervation. In the most frequently used models a mixture of intact and injured fibers is created by loose ligation of either the whole (Bennett GJ, Xie YK. A peripheral mononeuropathy in rat that produces disorders of pain sensation like those seen in man. Pain 1988;33:87-107) or a tight ligation of a part (Seltzer Z, Dubner R, Shir Y. A novel behavioral model of neuropathic pain disorders produced in rats by partial sciatic nerve injury. Pain 1990;43:205-218) of a large peripheral nerve, or a tight ligation of an entire spinal segmental nerve (Kim SH, Chung JM. An experimental model for peripheral neuropathy produced by segmental spinal nerve ligation in the rat. Pain 1992;50:355-363). We have developed a variant of partial denervation, the spared nerve injury model. This involves a lesion of two of the three terminal branches of the sciatic nerve (tibial and common peroneal nerves) leaving the remaining sural nerve intact. The spared nerve injury model differs from the Chung spinal segmental nerve, the Bennett chronic constriction injury and the Seltzer partial sciatic nerve injury models in that the co-mingling of distal intact axons with degenerating axons is restricted, and it permits behavioral testing of the non-injured skin territories adjacent to the denervated areas. The spared nerve injury model results in early ( 6 months), robust (all animals are responders) behavioral modifications. The mechanical (von Frey and pinprick) sensitivity and thermal (hot and cold) responsiveness is increased in the ipsilateral sural and to a lesser extent saphenous territories, without any change in heat thermal thresholds. Crush injury of the tibial and common peroneal nerves produce similar early changes, which return, however to baseline at 7-9 weeks. The spared nerve injury model may provide, therefore, an additional resource for unraveling the mechanisms responsible for the production of neuropathic pain.

1,915 citations

Journal ArticleDOI
TL;DR: A global account of mechanisms involved in the induction of pain is provided, including neuronal pathways for the transmission of nociceptive information from peripheral nerve terminals to the dorsal horn, and therefrom to higher centres.

1,752 citations