The role of the dorsolateral funiculi in the pain relieving effect of spinal cord stimulation: a study in a rat model of neuropathic pain.

Activation of the dorsal columns is relayed to supraspinal centers, involved in pain modulation, probably via the descending fibers in the dorsolateral funiculi (DLF). The present study examines the role of the DLF in the attenuation of pain-related signs by spinal cord stimulation (SCS). Several groups of rats were subjected to nerve injury and to chronic bilateral DLF lesions at C5-7 level. In each animal, two sets of miniature electrodes were implanted, a caudal system placed in the dorsal epidural space at low thoracic level and another implanted over the dorsal column nuclei, rostral to the lesions. Stimulation (50 Hz, 0.2 ms; 70 % of motor threshold) was applied for 5 min via either of the electrodes. Behavioral tests were used to assess the effects of SCS on the nerve injury-induced mechanical and cold hypersensitivity and heat hyperalgesia. Prior to application of SCS, antagonists to either of GABAA or B, 5-HT1 or 1-2 or α/ß-adrenergic receptors were injected i.p. Both stimulations produced comparable decreases (80-90 % of the control) of neuropathic manifestations in rats with intact spinal cords. DLF lesions attenuated the effects of both types of stimulation by about 50 %. Pretreatment with receptor antagonists differentially counteracted the effects of rostral and caudal stimulation; the inhibition with rostral stimulation generally being more prominently influenced. These results provide further support to the notion of important involvement of brainstem pain modulating centers in the effects of SCS. A major component of the inhibitory spinal-supraspinal-spinal loop is mediated by fibers running in the DLF.

Exploration of supraspinal mechanisms in effects of spinal cord stimulation: role of the locus coeruleus.

The neurobiological mechanisms of spinal cord stimulation (SCS) when applied for neuropathic pain are still incompletely known. Previous research indicates that brainstem circuitry is pivotal for the SCS effect. The present study aims at exploring the possible contribution to the SCS effects of the pain controlling system emanating from the locus coeruleus (LC) in the brain stem. Experiments were performed on the rat-spared nerve injury pain model. After evaluation of the attenuation of mechanical hypersensitivity induced by SCS, the effects of SCS on neuronal activity in the LC and on the noradrenaline (NA) content in the dorsal spinal cord were analyzed. SCS produced a significant increase in the discharge rate of LC neurons only in rats behaviorally responding to SCS as compared to non-responding and control animals. The NA content in the dorsal quadrant of the spinal cord ipsilateral to the nerve injury was analyzed using enzyme-linked immunosorbent assay in responding, non-responding and intact control rats both immediately following SCS and without SCS. No differences were found between these groups. In awake animals, lidocaine silencing of the ipsilateral LC or blocking of spinal noradrenergic system by intrathecal administration of α1,2 adrenoceptor antagonists failed to influence the antihypersensitivity effect of SCS. The present results indicate that the SCS-induced control of hypersensitivity in an experimental animal model of peripheral neuropathic pain may not be explained by the activation of direct spinal projections of noradrenergic LC neurons, while supraspinal projections of LC neurons still may play a role in the SCS effect.

The rostroventromedial medulla is engaged in the effects of spinal cord stimulation in a rodent model of neuropathic pain.

The neurobiological mechanisms underlying the suppression of neuropathic pain by spinal cord stimulation (SCS) are still incompletely known. The present study aims at exploring whether the descending pain control system in the rostroventromedial medulla (RVM) exerts a role in the attenuation of neuropathic pain by SCS. Experiments were performed in the rat spared nerve injury (SNI) pain model. The effects of SCS on neuronal activity of pronociceptive ON-like, antinociceptive OFF-like, and neutral cells, including 5-HT-like cells, in the RVM were analyzed in SCS responding and SCS non-responding SNI animals as well as in naïve controls. Decreased spontaneous activities in OFF-like cells and increased spontaneous activities in ON-like cells were observed in SNI animals, whereas the spontaneous activities of 5-HT-like and neutral cells were unchanged. SCS produced a prominent increase in the discharge of OFF- and 5-HT-like cells in SCS responding, but not in non-responding SNI animals or controls. Discharge rates of ON-like and neutral cell were not affected by SCS. In awake SNI animals, microinjection of a GABAA receptor agonist, muscimol, into the RVM significantly attenuated the antihypersensitivity effect induced by SCS while a non-selective opioid receptor antagonist, naltrexone, was ineffective. It is concluded that SCS may shift the reciprocal inhibitory and facilitatory pain modulation balance controlled by the RVM in favor of inhibition. This increase in the descending antinociceptive effect operates in concert with segmental spinal mechanisms in producing pain relief.

Spinal segmental and supraspinal mechanisms underlying the pain-relieving effects of spinal cord stimulation: an experimental study in a rat model of neuropathy.

Spinal cord stimulation (SCS) may alleviate certain forms of neuropathic pain; its mechanisms of action are, however, not fully understood. Previous studies have mainly been focused onto segmental spinal mechanisms, though there is evidence indicating a supraspinal involvement. This study aims to evaluate the relative importance of segmental and supraspinal mechanisms related to the activation of the dorsal columns (DCs). Rats were used to induce the spared nerve injury neuropathy and simultaneously subjected to chronic bilateral DC lesions at the C6-C8 level. Two pairs of miniature electrodes were implanted in each animal, with a monopolar system placed in the dorsal epidural space at a low thoracic level (below lesion) and a bipolar system placed onto the dorsal column nuclei (above lesion). Stimulation (50 Hz, 0.2 ms, 2-4V, 5 min) was applied via either type of electrodes, and tests for sensitivity to tactile and thermal stimuli were used to assess its inhibitory effects. Various receptor antagonists {bicuculline (GABA(A)), saclofen (GABA(B)), ketanserine (5HT(2)), methysergide (5HT(1-2)), phentolamine (α-adrenergic), propranolol (ß-adrenergic), sulpiride (D(2)/D(3) dopamine) or saline were injected prior to the SCS. Rostral and caudal stimulations produced a comparable inhibition of neuropathic manifestations, and these effects were attenuated by about 50% after DC lesions. Pretreatment with the various receptor antagonists differentially influenced the effects of rostral and caudal stimulation. Our findings suggest that both supraspinal and segmental mechanisms are activated by SCS, and that in this model with DC lesions, rostral and caudal stimulations may activate different synaptic circuitries and transmitter systems.

Multicentre European study of thalamic stimulation for parkinsonian tremor: a 6 year follow-up.

AIM: To evaluate the results of ventral intermediate (Vim) thalamic deep brain stimulation (DBS) in patients with tremor predominant Parkinson's disease (PD) at 6 years post surgery. METHODS: This was a prolonged follow-up study of 38 patients from eight centres who participated in a multicentre study, the 1 year results of which have been published previously. Total scores as well as scores for individual items of the motor part and the disability part of the Unified Parkinson's Disease Rating Scale were used for evaluation. RESULTS: Tremor was still effectively controlled by DBS and appendicular rigidity and akinesia remained stable compared with baseline. Axial scores (speech, gait and postural instability), however, worsened, and in parallel the initial improvement in activities of daily living scores at the 1 year follow-up had disappeared at 6 years, despite sustained improvement of tremor. Remarkably, neither daily doses of dopaminergic medication nor fluctuations and dyskinesias had changed at 6 years compared with baseline in this particular patient group. CONCLUSION: This study confirms that patients with tremor dominant PD who do not present with fluctuations and dyskinesias may have a relatively benign progression of the disease. Vim DBS, although having no effect on akinesia and rigidity, is a relatively lenient surgical procedure and may still have a place for long term symptomatic control of PD tremor in selected patients.

Endoscopic transthoracic sympathicotomy and peripheral microcirculation: effects of electric sympathetic chain stimulation, thermocoagulation and anaesthetic agents.

BACKGROUND: During endoscopic transthoracic sympathicotomy (ETS) in patients with hyperhidrosis it is useful to assess the effect of surgery peroperatively. However, the autonomic system is affected in various ways by different anesthetic agents. In the present study, the effect of ETS during either isoflurane or propofol anesthesia was evaluated by measuring changes in the finger pulp microcirculation using laser Doppler flowmetry (LDF). Electric stimulation of the sympathetic chain was used for identifying the sympathetic chain and to explore whether the anesthetic agents differentially influenced the LDF response to stimulation. METHODS: From a group of 12 patients with incapacitating palmar hyperhidrosis, six were randomly assigned to isoflurane and six to propofol anesthesia. LDF probes were attached to the ipsilateral finger pulp for continuous recording of peripheral blood flow during the ETS procedure. Electric stimulation (1 Hz, 10 Hz, and 100 Hz) was applied to the sympathetic paravertebral chain at the levels of the 2nd and 3rd sympathetic ganglia via a custom designed bipolar electrode. In eight of the patients LDF recordings were also performed in the awake state and compared with records obtained from eight healthy subjects. FINDINGS: In patients anesthetized with isoflurane, the base line finger pulp blood flow did not significantly differ from that of awake normal subjects, while those anesthetized with propofol had a lower base line flow, similar to that of awake subjects with hyperhidrosis. Stimulation of the sympathetic chain induced marked reduction of finger pulp microcirculation in both anesthetic groups, and this effect was frequency dependent during isoflurane anesthesia. After ETS a significant increase in flow was recorded only in the propofol group. Interpretation. The study demonstrates that the completeness of the sympathicotomy can only be peroperatively evaluated if an anesthetic agent with relatively low vasodilatory capacity, as e.g. propofol, is utilized.

Neurosurgical approaches to pain treatment.

In a multidisciplinary approach to the management of chronic pain, neurosurgical methods are an indispensable part of the therapeutic armamentarium. With the exception of percutaneous interventions for trigeminal neuralgia and facet joint syndromes, most ablative pain surgery procedures (neurotomy, rhizotomy, sympathectomy, etc.) have been replaced by neuromodulatory approaches such as electrical stimulation of the central nervous system (CNS). However, cordotomy is still a valuable operation for certain forms of cancer related pains (Pancoast's syndrome, breakthrough pain) which are relatively resistant to pharmacotherapy. Another example of ablative surgery is the dorsal root entry zone (DREZ) operation, which is generally the only treatment option for pain due to root avulsion and segmental pain in spinal cord injury. Spinal cord stimulation (SCS) has proven to be most useful for the management of pain following peripheral nerve injury (including complex regional pain syndromes) and rhizopathy. For these conditions which are otherwise often therapy resistant, SCS may produce substantial and long-lasting pain relief in 60-70% of the patients. Considering that such pains are common and the fact that SCS has been shown to be cost-effective, this treatment is no doubt at present underused. Complications and side-effects are very rare. SCS has also been found to be useful for pain in peripheral vascular disorders and angina pectoris. In the latter condition the overall results are favorable in about 80% of patients with a significant reduction of the frequency and severity of angina attacks and the need for nitrates. Stimulation of the motor cortex is a novel and promising treatment of central, post-stroke pain and painful trigeminal neuropathy.

Mechanisms of spinal cord stimulation in neuropathic pain.

The understanding of the mode of action of spinal cord stimulation (SCS) as treatment of neuropathic pain is still fragmentary. SCS evolved from the gate-control theory postulating a spinal modulation of noxious inflow, but there is little evidence that SCS influences nociceptive pain; pain relief in peripheral vascular disease and angina pectoris is presumably secondary to other SCS effects. In man, SCS may effectively abolish both continuous and evoked pain (tactile/thermal allodynia) whereas induced, acute nociceptive pain is unaffected. Recent SCS studies performed on rat models of mononeuropathy have demonstrated a preferential effect on A beta fiber mediated functions, and the hyperexcitability of wide-dynamic-range dorsal horn neurons was attenuated. These effects were coupled to increased release of GABA and reduced glutamate and aspartate release in the dorsal horn. Intrathecal administration of GABA, baclofen and adenosine enhanced the SCS effect on tactile allodynia even in previously non-responsive rats. Preliminary results indicate that gabapentin may have a similar effect. GABAergic and adenosine-related mechanisms conceivably represent only examples of a number of putative receptor systems involved in SCS. Clinical trials have been initiated exploring the possibility to improve the efficacy of SCS by concomitant pharmacotherapy.

Regulation of galanin and neuropeptide Y in dorsal root ganglia and dorsal horn in rat mononeuropathic models: possible relation to tactile hypersensitivity.

The expression of galanin and neuropeptide Y in rat lumbar 5 (L5) dorsal root ganglia and dorsal horn (L4-5) was studied after four types of peripheral nerve injury using immunohistochemistry and in situ hybridization. The possible correlation between these two peptides and tactile allodynia-like behaviour was analysed as well. The models employed were the Gazelius (photochemical lesion) and Seltzer and Bennett (constriction lesions) models, as well as complete sciatic nerve transection (axotomy). Two weeks after surgery, the Gazelius model rats more frequently displayed a greater tactile allodynia than the rats from the Seltzer and Bennett models. Tactile allodynia was not observed in any of the axotomized rats. A marked increase in the number of galanin-immunoreactive and galanin messenger RNA-positive neuron profiles was observed in ipsilateral dorsal root ganglia in all types of models. The increase in allodynic rats (Gazelius, Seltzer and Bennett models) was less pronounced than that after axotomy. In addition, in the Bennett model the number of galanin-immunoreactive neurons was significantly lower in allodynic rats as compared to non-allodynic rats, and the same tendency, but less obvious was found in the Seltzer model. Furthermore, an increase in galanin-immunoreactive fibres was found in the superficial laminae of the ipsilateral dorsal horn in all lesion models, especially in lamina II. A dramatic increase in the number of neuropeptide Y and neuropeptide Y messenger RNA-positive neuron profiles was also found in the ipsilateral dorsal root ganglia in all models, but no significant difference was found in peptide levels between allodynic and non-allodynic rats in any of the models. The present results suggest that the levels of endogenous galanin may play a role in whether or not allodynia develops in the Bennett model.

Spinal cord stimulation attenuates dorsal horn neuronal hyperexcitability in a rat model of mononeuropathy.

The mechanisms underlying the relief of neuropathic pain of peripheral origin by spinal cord stimulation (SCS) are poorly understood. The present study was designed to investigate the effects of SCS on evoked and spontaneous discharges in dorsal horn neurons in intact and in nerve-injured rats subjected to partial sciatic nerve ligation according to Seltzer et al. (1990). Tactile sensitivity in the hind paw was assessed in behavioral tests using von Frey filaments. The presence of 'allodynia' was defined as a withdrawal response to a filament of 10 g or less. Under halothane/oxygen anesthesia the effects of SCS (50 Hz, 0.2 ms, 80-620 microA, 5 min.) on mechanically evoked (brush and innocuous press on the hind paw) responses and spontaneous discharges were investigated in wide-dynamic range (WDR) neurons in three groups of animals: (1) rats that displayed 'allodynia' after nerve ligation (2) rats without signs of 'allodynia' after surgery and (3) control, intact rats. A significantly increased frequency of spontaneous discharge and of responsiveness to brush and press was found in the group of allodynic, as compared with non-allodynic and control rats. The majority (63%) of the investigated neurons in these animals displayed afterdischarge in response to press stimulation. SCS induced a significant depression of both the principal response and the afterdischarge in allodynic rats: the discharge during brush stimulation was reduced to 86 +/- 8.2% and during press to 77.4 +/- 4.5% as compared with the prestimulation value. These depressive effects on evoked responses in allodynic rats outlasted SCS by 10.5 +/- 1.7 min during which time the responses gradually recovered. The frequency of spontaneous discharge was markedly decreased in approximately one third of the neurons, whereas in another third it was increased. In non-allodynic and control rats, SCS had no significant depressive effects on the evoked responses and spontaneous discharge. The results suggest that SCS may provide a suppressive action on dorsal horn neuronal hyperexcitability associated with signs of peripheral neuropathy. The suppressive effect of SCS on tactile allodynia, as previously observed in behavioral experiments, presumably corresponds to a normalization of the excitability of WDR cells in response to innocuous stimuli.

Lesion topography and outcome after thermocapsulotomy or gamma knife capsulotomy for obsessive-compulsive disorder: relevance of the right hemisphere.

OBJECTIVES: Obsessive-compulsive disorder is a common mental disorder, notorious for its chronicity and intractability. Stereotactic lesions within the anterior limb of the internal capsule have been shown to provide symptomatic relief in such refractory cases, but only few systematic evaluations have correlated anatomic lesion location with individual postoperative outcome. PATIENTS AND METHODS: Between 1976 and 1989, extremely disabled and otherwise intractable patients with a chronic deteriorating clinical course of obsessive-compulsive disorder underwent bilateral thermocapsulotomy (n = 22) or radiosurgical gamma knife capsulotomy (n = 13) at the Karolinska Hospital, Stockholm. Clinical morbidity was monitored prospectively pre- and postoperatively by using standardized psychiatric rating scales. In 29 patients (thermocapsulotomy, n = 19; gamma knife capsulotomy, n = 10), both psychiatric and magnetic resonance imaging follow-up data (median, 8.4 yr) were available. RESULTS: A right-sided anatomically defined lesion volume was identified in all successfully treated patients. This common topographic denominator was defined in the approximate middle of the anterior limb of the internal capsule on the plane parallel to the anterior commissure-posterior commissure line at the level of the foramen of Monro and 4 mm above on the plane defined by the internal cerebral vein. This region was unaffected in patients with poor outcomes. On the left side, no particular lesion topography was associated with clinical outcome. Topographic differences of lesion overlap between good and poor outcome groups were significant for the right side (Fisher's exact test, P < 0.005). CONCLUSION: The current anatomic long-term analysis after thermocapsulotomy or gamma knife capsulotomy for obsessive-compulsive disorder reveals common topographic features within the right-sided anterior limb of the internal capsule independent of treatment modality.

Effect of spinal cord stimulation on tactile hypersensitivity in mononeuropathic rats is potentiated by simultaneous GABA(B) and adenosine receptor activation.

In rats with abnormally low withdrawal thresholds ('allodynia') in one hindpaw induced by a photochemical sciatic lesion, an intrathecal catheter was inserted to the lumber enlargement and an epidural electrode was implanted at T11. I.t. administration of GABA(B) or adenosine A1 receptor agonists (baclofen, R(-)-N6-(2-phenylisopropyl)adenosine (R-PIA)) suppressed allodynia in a dose-dependent fashion. When the two agonists were given together, each in an ineffective dose, there was a normalization of the thresholds. Rats, in which spinal cord stimulation (SCS) could not suppress the allodynia (non-responders), were transformed into SCS-responders by injection of baclofen and R-PIA in low, ineffective doses, combined with SCS. In SCS responding rats, combination of a selective GABA(B) and an adenosine A1 receptor antagonist (CGP 55845, CPT) in low, ineffective doses abolished the SCS-induced threshold normalization. These results indicate that GABAergic and adenosine-dependent mechanisms are involved in the SCS effect and further suggest a strategy for enhancing the therapeutic efficacy of SCS.

Spinal cord stimulation attenuates augmented dorsal horn release of excitatory amino acids in mononeuropathy via a GABAergic mechanism.

Neuropathic pain may be effectively relieved by electric stimulation of the spinal cord (SCS). However, the underlying mechanisms for the ensuing pain relief are poorly understood. In a rat model of neuropathy displaying hypersensitivity to innocuous tactile stimuli, (allodynia), we have earlier demonstrated that SCS may normalise withdrawal response thresholds. In the present study, using microdialysis, it is shown that SCS induces a decreased release of the dorsal horn excitatory amino acids (EAA), glutamate and aspartate, concomitant with an increase of the GABA release. Local perfusion with a GABA(B)-receptor antagonist in the dorsal horn transiently abolishes the SCS-induced suppression of the EAA release. Thus, the effect of SCS on neuropathic pain and allodynia may be due to an activation of local GABAergic mechanisms inhibiting the EAA release which is chronically elevated in such conditions.

Adenosine receptor activation suppresses tactile hypersensitivity and potentiates spinal cord stimulation in mononeuropathic rats.

The aim of the present study was to investigate the intrathecal (i.t.) action of a selective A1-adenosine receptor agonist, R-phenylisopropyl adenosine (R-PIA), on tactile withdrawal thresholds in a rat model of mononeuropathy produced by sciatic chronic constriction injury (CCI). An additional aim was to examine whether adenosine receptor activation is involved in the effects of spinal cord stimulation (SCS), which activates low-threshold fibers and suppresses touch-evoked pain both in patients and in experimental animals with neuropathy. Animals presenting hindlimb withdrawal to von Frey filaments with a bending force of < 7.5 g on the lesioned side (compared to > or = 35 g in the normal limb), were considered as having tactile hypersensitivity ("allodynia'). R-PIA (1-10 nmol i.t.) induced a dose-dependent suppression of the tactile allodynia without producing impairment of motor function. The effect of R-PIA (3 nmol i.t.), a clearly submaximal dose, was abolished by concomitant treatment with the selective A1-adenosine receptor antagonist cyclopentylxanthine (10 nmol i.t.). In animals where SCS failed to influence tactile allodynia, concomitant i.t. administration of R-PIA (3 nmol) and SCS induced a clear-cut and long-lasting suppression of the hypersensitivity to tactile stimulation. In conclusion, adenosine receptor stimulation antagonizes tactile hypersensitivity in a CCI model of mononeuropathy and potentiates the action of spinal cord stimulation.

Obsessive compulsive disorder and the right hemisphere: topographic analysis of lesions after anterior capsulotomy performed with thermocoagulation.

Considerable but uncontrolled evidence suggests that stereotactic capsulotomy by means of thermolesions may provide symptomatic relief for patients with otherwise therapy refractory "malignant" obsessive compulsive disorder (OCD). Unlike in other functional stereotactic interventions, target localization for capsulotomy is based upon anatomical definition only. Few systematic attempts have been made to correlate the site and size of the capsular lesions with postoperative clinical outcome. Between 1976 and 1989 bilateral thermo-capsulotomy (TC) was performed in 22 OCD patients. In 19 patients complete quantitative pre- and postoperative psychiatric rating of OCD symptoms and long-term postoperative MRI studies were available. Cohorts of patients fulfilling criteria for good or poor outcome were contrasted, cases with intermediate treatment effect being excluded. Median postoperative MRI follow-up was 8.4 years (2.4-20.3 y). 9/19 patients fulfilled criteria for good postoperative outcome. In these patients all lesion sites overlapped covering a small area within the right anterior limb of the internal capsule. Lesions within the group of patients with poor outcome (n = 5) were located elsewhere, mostly further anterior in the internal capsule. Differences of lesion overlap between the two outcome groups were significant for the right side (Fisher's Exact Test: p < 0.005). Common topographic features of lesion sites within the right internal capsule were identified in OCD patients responding favourably to capsulotomy.

Modulation of spinal pain mechanisms by spinal cord stimulation and the potential role of adjuvant pharmacotherapy.

Experimental studies indicate that the effects of spinal cord stimulation (SCS) on 'hypersymptoms' in neuropathic pain conditions may at least partly be mediated via GABAergic and adenosine-dependent mechanisms. Concomitant intrathecal administration of receptor-active drugs modulating the function of the GABA and adenosine systems may both depress and enhance the effects of SCS. The first few patients with simultaneous intrathecal administration of the GABAB agonist baclofen and/or adenosine together with SCS, when the stimulation alone proved insufficient, are reported.

Incidence of mononeuropathy in rats is influenced by pre-emptive alteration of spinal excitability.

Both clinical and experimental data support the notion that the development of neuropathic pain is related to the state of excitability at the time of nerve injury. The present study was performed to investigate whether altering spinal excitability immediately before creation of a chronic constriction nerve injury in rats can influence the incidence of tactile hypersensitivity ('allodynia') by using pre-emptive: (1) intrathecal injection of a GABAB agonist or antagonists; (2) intrathecal lidocaine; or (3) C-fibre activation by electric stimulation. The incidence of tactile hypersensitivity was significantly reduced by the GABA(B) agonist baclofen while it was markedly enhanced by the administration of the GABA(B) antagonists 5-AVA and CGP 55845, as well as by C-fibre stimulation. Intrathecal administration of lidocaine did not influence the incidence of hypersensitivity. The results suggest that GABAergic mechanisms play an important role in the development of tactile hypersensitivity, and suggest that GABA(B) receptor agonists may be used as pre-emptive treatment to prevent the development of postinjury neuropathic pain.