UMLS:C0344307 - FACTA Search

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Query: UMLS:C0344307 (analgesia)
28,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antinociceptive and hypothermic effects of intracisternal administration of 11 endogenous neuropeptides and morphine were evaluated in mice. Of the substances tested, only neurotensin (NT) and beta-endorphin exerted significant antinociceptive and hypothermic effects; NT was the most potent in inducing hypothermia whereas beta-endorphin was the most potent antinociceptive agent via this route of administration. Both NT, and beta-endorphin were, on a molar basis, considerably more potent antinociceptive agents than morphine, [Met]enkephalin, or [Leu]enkephalin. NT-induced analgesia and hypothermia both were significantly dose-dependent. Substance P was found to produce significant hyperalgesia and hyperthermia. Bombesin produced a significant hypothermic effect, whereas somatostatin and luteinizing hormone-releasing hormone (luliberin) produced hyperthermia. None of the other peptides studies [bradykinin, thyrotropin-releasing factor (thyroliberin), melanocyte-stimulating hormone release-inhibiting factor (melanostatin), somatostatin, [Met]enkephalin, and [Leu]enkephalin] produced any significant alterations in colonic temperature or response to a noxious stimulus with the doses tested. These data demonstrate that NT and beta-endorphin, two endogenous brain peptides, are potent in inducing hypothermia and in producing an antinociceptive state.
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PMID:Alterations in nociception and body temperature after intracisternal administration of neurotensin, beta-endorphin, other endogenous peptides, and morphine. 29 52

The latency to tail-flick response in the rat was significantly prolonged by cerebroventricular infusion of 1.0 microgram of somatostatin (SRIF) and more so with 10.0 microgram. The D-tryptophan analog was less effective than native SRIF. Pretreatment with naloxone eliminated analgesia but not seizures induced by SRIF. Recording of the EEG activity enabled determination of the specific state of the sleep-waking cycle in which the repeated tail-flick responses were tested: latency was generally longer in both control and test animals when tail immersion was performed during the state of sleep or drowsiness rather than during the awake state. Although animals receiving SRIF were less likely to fall asleep between subsequent test trails, the average latency was actually longer than after control saline infusion when the animals slept more. SRIF, unlike other releasing factors and peptides tested, showed significant activity in an opiate radioreceptor assay. The blockade of SRIF action by naloxone pretreatment, along with binding of SRIF to opiate receptors in vitro, suggest opiate receptors to be involved in the mediation of analgesia observed in present study.
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PMID:Opiate-like naloxone-reversible actions of somatostatin given intracerebrally. 63 75

The combined effect of continuous blockade of glucagon and cortisol by somatostatin and etomidate and thoracic epidural analgesia on hepatic conversion of amino nitrogen was studied in eight patients who underwent elective cholecystectomy on day 1 after operation and was compared with 16 patients who underwent operation without blockade. Surgery increased the plasma clearance of total alpha-amino nitrogen from 5.2 +/- 0.3 to 6.6 +/- 0.3 ml/sec (mean +/- sem; p less than 0.05). This increase was due to increased elimination by the liver, because the hepatic effectiveness for amino nitrogen conversion measured by the functional hepatic nitrogen clearance increased from 9 +/- 2 to 16 +/- 4 ml/sec (p less than 0.05). In contrast, during the combined neural and hormonal blockade, surgery decreased the plasma clearance of amino nitrogen from 5.3 +/- 0.3 to 3.9 +/- 0.3 ml/sec (p less than 0.05), and the blockade prevented the postoperative increase in functional hepatic nitrogen clearance. The results suggest that glucagon, cortisol, and afferent neural reflexes are mediators of the hepatic contribution to catabolism after operation.
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PMID:Hormonal and neural blockade prevents the postoperative increase in amino acid clearance and urea synthesis. 135 Aug 68

Blood plasma levels of "pain substances" (serotonin, histamine, prostaglandin F2 alpha, adrenaline /A/) and neuropeptides (beta-endorphin, somatostatin) have been evaluated in 39 patients during the early postoperative period after lung and mediastinum surgery. The studies have shown that the content of these biologically active substances increases considerably. Following stellate ganglion blockade A concentration decreased significantly, the uptake of narcotic analgesics used for postoperative analgesia reduced 1.7-fold, however the levels of "pain substances" and neuropeptides remained unchanged. It is believed that postoperative pain syndrome develops due to the elevation of the levels of the substances under study. Stellate ganglion blockade produces only sympatholytic effect, which shows the necessity of the elaboration of drug therapeutic techniques blocking "pain" receptors and using "pain substance" antagonists.
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PMID:[The role of humoral factors in the pathogenesis of the postoperative syndrome]. 146 32

Sharp pain is conducted rapidly by myelinated delta A fibers and diffused pain slowly by nonmyelinated C fibers to pseudobipolar neurons in the posterior ganglion and from there to neurons located in the posterolateral horn of the spinal cord. From here on nociferous impulses are transmitted by excitatory peptides (e.g. substance P) or amino acids (e.g. glutamate, aspartate) through interconnecting neurons of the pain pathways, primarily on the contralateral side, to the brain stem and from there to the sensory cortex, where they are appreciated and acted upon. There are specific inhibitory receptors located on axon terminals, near to the release sites of the excitatory amino acids and peptides. Stimulation of these receptors by their appropriate ligands such as endogenous (e.g. enkephalis, endorphins) or exogenous opioids, clonidine, serotonin, somatostatin inhibits the release of excitatory neurotransmitters and relieves pain. There are at least 3 different opioid receptors, called mu-, kappa- and delta-receptors in the spinal cord. These can be differentiated from one another by their specific affinity toward different endogenous or exogenous opioids and the pure narcotic antagonist, naloxone. It appears that the nociferous impulses transmitted by parallel pathways equipped with different inhibitory receptors have to be integrated to produce pain sensation and partial inhibition of transmission in different pathways or complete inhibition in one of the pathways may relieve pain. In recent years the concept of "selective spinal analgesia" has been applied clinically for the relief of postoperative, obstetrical and chronic pain. At first it was expected that the intrathecal or peridural administration of morphine will produce analgesia without the side effects of systemically administered morphine. It soon became evident, however, that intrathecally and peridurally administered morphine after several hours of delay reaches the fourth ventricle and by stimulating mu-receptors may cause respiratory depression and other undesired effects (e.g. nausea, vomiting, pruritus). Several different approaches are being investigated for the production of selective spinal analgesia without side effects. They include: a. the use of more lipophilic, long-lasting opioids (e.g. lofentanil) which would be almost completely absorbed by the spinal cord and therefore would not reach the medullary centers; b. the development of opioids with specific affinity to kappa- and for delta- and little or no affinity to mu-receptors, primarily responsible for side effects; and c. combining lower doses of opioid agonists with alpha 2-adrenergic agonists (e.g. clonidine) or with somatostatin. It is conceivable that in the not-too-distant future, it will be possible to achieve through these measures, selective spinal analgesia without side effects.
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PMID:Pain control with intrathecally and peridurally administered opioids and other drugs. 168 73

The distribution of somatostatin (SST) throughout the nervous system suggests that this tetradecapeptide may play a physiological role in CNS in the mediation of analgesia. The present study was undertaken to evaluate the antinociceptive properties of intrathecal (IT) injection of SST in the comparison of morphine sulfate (MS) in a primate model. The study was conducted after institutional approval and adhered to the regulations of the animal research committee. Seven adult monkeys (Maccaca cyclopis Swinhoe) weighing 4-6 kg were used. In each animal a L5 laminectomy window was created to facilitate IT injection. No neurological damage from surgery was noted. With the monkey standing in a specially constructed cage, all animals randomly received the following agents at one-week interval: (1) MS 1 mg, IT; (2) SST 50 micrograms, IT; (3) SST 250 micrograms, IT; and (4) SST 250 micrograms, IT + intramuscular (IM) naloxone 400 micrograms. The measured withdrawal latency (HPWL) was converted to the maximal percentage effect (MPE %) for comparison. The HPWL was measured at predrug and 5, 15, 30, 45, 60, 90 and 120 min after injection. Venous blood sample was obtained every 15 min to determine the plasma SST level by radioimmunoassay (RIA) technique in group 3 only. The results showed that MS (1 mg, IT) produced potent antinociception (MPE 100%) for more than 2 h. Intrathecal SST 50 micrograms, however, induced mild antinociception (MPE 43%) for only a short period and a 5-fold larger dose (250 micrograms) did not significantly change the nociceptive threshold with MPE only up to 47%.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The antinociceptive effect of intrathecal somatostatin in monkeys]. 168 26

Nociceptive response induced by 0.5% Formalin in the hindpaw of mice had two peaks, 0-5 min (first phase) and 15-20 min (second phase). By using the distinct biphasic response, the nature of the transmitter systems activated by Formalin in the spinal cord was studied for the purpose of determining the difference of the role of substance P (SP) and somatostatin (SST). The injection of (D-Pro2, D-Trp7,9)SP, (D-Arg1, D-Pro2, D-Trp7,9, Leu11)SP and SP antiserum inhibited only the first phase response. The i.t. injection of -Aminoheptanoyl-Phe-D-Trp-Lys-(OBz)-Thr- (an SST antagonist), SST antiserum and cysteamine (an SST depletor) inhibited only the second phase. This result indicates that SP is involved in the transmission of the first phase, and SST is involved in the transmission of the second phase of the Formalin-induced nociceptive response. With regard to other nociceptive stimuli, two i.t. SP antagonists produced a significant analgesia in the hot plate and tail pinch tests but had no effect in the acetic acid writhing test. However, i.t. SST antagonist and cysteamine produced a significant analgesia in the writhing test but had no effect in the hot plate and tail pinch test. These results suggest that SP participates in the transient pain induced by such acute stimuli as hot plate, tail pinch and the first phase of Formalin response and that SST participates in the prolonged and inflammatory pain induced by stimuli such as acetic acid and the second phase response.
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PMID:Roles of substance P and somatostatin on transmission of nociceptive information induced by formalin in spinal cord. 169 Aug 1

Somatostatin analogue (Sandostatin; SMS 201-995) is utilized as a therapy in acromegaly because of its efficiency in inhibiting GH secretion; it induces some clinical improvements, such as headache remission in acromegalic patient, which seem to be unrelated to Gh normalization. We have examined 8 acromegalic patients, suffering from headache, after injection of saline solution and subsequently of SMS 201-995 (100 y), in order to study the mechanism of analgesic effect induced by Sandostatin administration. Headache, by autovaluation test, heart rate frequency, PAO, sistolic and diastolic blood velocity in medial cerebral artery, by utilizing Transcranial Doppler Sonography (SDSV), have been measured before and after saline and after SMS 201-995. GH and beta-endorphin have been also assayed in plasma samples. All patients have shown a rapid and complete improvement in headache after Sandostatin administration. At the same time we have observed an increase in SDSV and a parallel slight increase in PAO values, more evident in the diastolic phase. Plasma beta-endorphin assay has shown rather conflicting results after SMS 201-995 administration. Our results confirm an important and rapid analgesis effect of Sandostatin on acromegaly headache unrelated to GH normalization. The cerebral emodinamic changes suggest their involvement in Sandostatin induced analgesia.
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PMID:[Analgesic effect of Sandostatin (SMS 201-995) in acromegaly headache]. 227 13

This paper reports the phenomenon of dependence to a somatostatin octapeptide analog used for the treatment of acromegaly and severe headache. The mechanism of this dependence is still unknown, but could be based on the interaction of the somatostatin analog with opioid receptors. Analgesia may be at least partially supported by the opioid modulation of pain transmission, but also by general "appetitive" behavioral activation due to the effect of somatostatin on its receptors.
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PMID:The development of dependence to an octapeptide somatostatin analog: contribution to the study of somatostatin analgesia. 254 10

We are reporting the results of a light and electron microscopic study of somatostatin (SOM) immunoreactive (I) structures in lamina II of the lumbar spinal cord of the rat. At the light microscopic level, the observed distribution and morphology of SOM-I cell bodies and fibers confirmed published studies. At the electron microscopic level, SOM immunostaining in perikarya was localized to the golgi region. Immunostaining in cell bodies could be enhanced by colchicine treatment and after such treatment, it was noticeably increased in the cytoplasm. Synaptic contacts on SOM-I cell bodies were rare and SOM-I axons contacted unlabeled somata in lamina II. Some SOM-I dendrites participate in glomerular arrangements and they exhibited postsynaptic densities adjacent to the central profile of the glomerulus. Nonglomerular SOM-I dendrites and spines were postsynaptic to vesicles containing axons. Vesicle containing SOM-I axons presynaptic to larger dendrites were also observed in the outer portion of lamina II. Somatostatin has been implicated in nociception and some of the SOM-I structures reported here may be the anatomical substrates for SOM-induced analgesia.
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PMID:An electron microscopic study of somatostatin immunoreactive structures in lamina II of the rat spinal cord. 256 54

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