Co-digestion of energy crops and industrial confectionery by-products with cow manure: batch-scale and farm-scale evaluation.

The possible co-digestion of energy crops and industrial confectionery by-products with cow manure was evaluated firstly, through long-term batch experiments and secondly, in a farm-scale digester. In batch assays, digestion with mesophilically digested cow manure as inoculum resulted in specific methane yields (m3 kg(-1) VS added waste) of 0.35 for grass hay (particle size <1.0 cm); 0.26 for oats (0.5 cm) and 0.21 for clover (2.0 cm) harvested at vegetative stage and 0.14 (2.0 cm) for clover harvested at flowering stage. Specific methane yields (m3 kg(-1) VS added waste) for confectionery by-products were 0.37 for chocolate, 0.39 for black candy and 0.32 for confectionery raw material. Out the three particle sizes (2.0, 1.0 and 0.5 cm) tested, particle size of 1.0 cm was found ideal for digestion of grass hay and clover while, particle size reduction did not influence methane production from oats. Stage of the crop influenced the methane yields, with clover harvested at vegetative stage yielding 33% higher methane than when harvested at flowering stage. An approximate 60% enhancement in methane yield was noticed with the co-digestion of industrial confectionery wastes with cow manure in a full-scale farm digester.

Response properties of neurons in the rostroventromedial medulla of neuropathic rats: attempted modulation of responses by [1DMe]NPYF, a neuropeptide FF analogue.

We determined whether chronic neuropathy changes response properties of neurons in the rostroventromedial medulla of rats, and whether (d-Tyr)L(Me-Phe)QPQRF-amide, a neuropeptide FF analogue, in the periaqueductal gray produces changes in responses of rostroventromedial medullary neurons that might underlie its antiallodynic effect described earlier. Single unit recordings of medullary neurons were performed in lightly anesthetized neuropathic and control animals. Spontaneous activity and the responses to noxious thermal and mechanical stimulation of the hind paw were determined with and without administration of (d-Tyr)L(Me-Phe)QPQRF-amide. The neurons were classified into three groups: ON-neurons increased, OFF-neurons decreased, and NEUTRAL-neurons did not change their discharge rate prior to a limb withdrawal induced by noxious stimulation of the skin. Spontaneous activity and heat-evoked responses of ON-neurons were not different between neuropathic and control animals, whereas their mechanically evoked responses were reduced in neuropathy. Response properties of OFF-neurons were not different between neuropathic and control animals. Spontaneous activity of NEUTRAL-neurons was not different between neuropathic and control animals. (d-Tyr)L(Me-Phe)QPQRF-amide in the periaqueductal gray had no significant effect on evoked responses or spontaneous activity of ON- or OFF-neurons, independent of the experimental group. However, (d-Tyr)L(Me-Phe)QPQRF-amide produced a significant attenuation of spontaneous activity of NEUTRAL-neurons in neuropathic animals. In a behavioral study performed in unanesthetized animals it was found that intrathecal administration of methysergide, a serotonin antagonist, selectively attenuated neuropathic symptoms. Also, light pentobarbitone anesthesia markedly attenuated, but did not abolish, behaviorally determined neuropathic symptoms. From these results we suggest that NEUTRAL-neurons of the rostroventromedial medulla may have a role in neuropathy and they may be involved in attenuation of mechanical hypersensitivity by (d-Tyr)L(Me-Phe)QPQRF-amide in the periaqueductal gray. It is proposed that in neuropathy the synaptic effects of descending impulses from medullary NEUTRAL-neurons on their axonal targets in the spinal cord are changed so that this contributes to mechanical hypersensitivity, due to mechanisms that are at least partly serotoninergic.

Modulation of visceral nociceptive responses of rat spinal dorsal horn neurons by sympathectomy.

We determined whether sympathectomy modulates visceral nociception under physiological or inflammatory conditions. Recordings of sacral spinal dorsal horn neurons with sustained responses were performed in pentobarbitone-anesthetized rats. Graded colorectal distension (CRD, 20-100 mmHg) was used as a visceral nociceptive stimulus. Inflammation was induced by intracolonic instillation of turpentine (25%). Sympathectomy was produced by administering 6-hydroxydopamine. Inflammation produced an increase in the CRD-evoked responses. The CRD-evoked responses were attenuated following sympathectomy both under control and inflammatory conditions. These changes in the CRD-evoked responses were associated with corresponding changes in spontaneous discharge rate. The convergent input evoked by noxious pinch of the skin was not changed by any of the experimental conditions. The results indicate that sympathectomy attenuates visceral nociceptive responses and spontaneous activity of sacral spinal cord neurons, without effect on convergent cutaneous inputs, both under physiological and inflammatory conditions.

Pain behavior and response properties of spinal dorsal horn neurons following experimental diabetic neuropathy in the rat: modulation by nitecapone, a COMT inhibitor with antioxidant properties.

We attempted to characterize a spinal neuronal correlate of painful neuropathy induced by diabetes mellitus (DM). Pain behavior and response properties of spinal dorsal horn neurons were determined in rats with a streptozocin-induced DM. A catechol-O-methyltransferase inhibitor with potent antioxidant properties, nitecapone, was used in an attempt to attenuate neuropathic symptoms. Behaviorally DM induced mechanical hypersensitivity that was markedly attenuated by oral treatment with nitecapone. The antihyperalgesic effect of nitecapone was not reversed by naloxone, an opioid antagonist, or atipamezole, an alpha-2-adrenoceptor antagonist. Electrophysiological recordings performed in pentobarbitone-anesthetized animals revealed that the most distinct abnormality in response properties of spinal dorsal horn wide-dynamic range (WDR) neurons was the increase in their spontaneous activity observed in untreated but not in nitecapone-treated DM rats. Conditioning electrical stimulation and a lidocaine block of the rostroventromedial medulla (RVM) had a similar modulatory effect on evoked responses of spinal dorsal horn WDR neurons in all experimental groups. The response properties of spinal dorsal horn nociceptive-specific or low-threshold mechanoreceptive neurons were not markedly different between the experimental groups. The results indicate that increased spontaneous activity in spinal dorsal horn WDR neurons may be causally related to behaviorally observed mechanical hypersensitivity in DM. Attenuation of the increased spontaneous activity in WDR neurons may explain the antihyperalgesic effect by nitecapone, due to naloxone- and alpha-2-adrenoceptor-insensitive mechanisms. DM or nitecapone treatment did not produce significant changes in phasic or tonic descending pain regulation originating in the RVM.

Selective and segmentally restricted antinociception induced by MPV-2426, a novel alpha-2-adrenoceptor agonist, following intrathecal administration in the rat.

BACKGROUND: MPV-2426 (radolmidine) is a novel alpha-2-adrenoceptor agonist developed for spinal pain therapy. In the present study we determined the segmental distribution and selectivity of the antinociceptive effect induced by MPV-2426 following i.t. administration in rats. METHODS: The experiments were performed in lightly anesthetized rats with an i.t. catheter for administration of drugs into the lumbar spinal cord level. To determine segmental distribution of antinociception, the withdrawal latency of the tail and forepaw from a hot water bath was measured. To determine selectivity of reflex modulation, the effect of i.t. MPV-2426 on the innocuous H-reflex was determined. RESULTS: In the hot water immersion test MPV-2426 produced a dose-dependent (0.3-3.0 microg) prolongation of tail withdrawal latency whereas the effect on forepaw withdrawal latency was short of significance. Dexmedetomidine, the reference alpha-2-adrenoceptor agonist, produced a significant dose-related prolongation of both the tail and the forepaw withdrawal (0.3 and 1.0 microg). MPV-2426 (1.0 and 3.0 microg) produced no significant change in the amplitude of the H-reflex or M-response induced by electrical stimulation of the tibial nerve, nor any change in the modulation of the H-reflex amplitude induced by conditioning sural nerve stimulation. The antinociception induced by MPV-2426 was completely reversed by atipamezole (1 mg/kg s.c.), an alpha-2-adrenoceptor antagonist. CONCLUSION: MPV-2426 produces a selective and segmentally more restricted antinociceptive effect than dexmedetomidine following i.t. administration. The antinoception induced by MPV-2426 is due to action on spinal alpha-2-adrenoceptors.