Uber die Welch-Fraenkelschen Bazillen und ihre Verwandten im Darmkanal

Der Welch-Fraenkelsche Bazillus, der sich als ein Bodenbakterium weit im Boden verbreitet, ist obligater Anaerobier, und bekannt als Erreger des Gasoedems, welches eine chirurgisch und insbesonders kriegschirurgisch wichtige Wundinfektionskrankheit ist. Die Tatsache, dass dieses Stabchen nicht nur aus dem Boden, sondern auch aus menschlichem Darm gezuchtet wird, hat viele Autoren schon bisweilen beschaftigt. Dieser Bazillus ist Gram-positiv, gross und kraftig, abgerundet, unbeweglich und sporuliert nicht im gewohnlichen Nahrboden. Die Milch wurde sturmisch mit Gasbildung vergoren. Schon nach 20 Stunden schwamm das Kasein deutlich geschieden in truber, immer klarer werdender Molke. Die Kaseingerinnsel wurden ferner nicht wieder durch Peptonisierung gelost, noch kam es nach dem leicht sauerlich bleibenden Geruch zu Eiweissfaulniss. Die oben beschriebene Eigenschaft, die sog. Sturmische Gerinnung , ist charakteristisches Merkmal zur Diagnose-stellung des Welch-Fraenkelschen Bazillus. Der Verfasser hat aus 172 Faeces der Menschen 244 Stamme der Welch-Fraenkelschen Bazillen und 39 ahnliche Stamme, die von erstem Bazillus deutlich voneinander in Eigenstumlichkeit abweicht gezuchtet; d. h. dem Letzteren fehlt die sturmische Gerinnung. Diesen Bazillus nennt der Verfasser einen Verwandten der Welch-Fraenkelschen Bazillen , und vergleicht dieses Stabchen morphologisch und biologisch mit den Welch-Fraenkelschen Bazillen, welche er aus menschlichen Faeces und klassischem Gasoedem isoliert hat. Morphologie: Die Verwandten sind ebenso mit abgerundetem Ende 0.8-1.0μ breit, 4.0-1.0μ, nicht haufig 15μ in der Lange, zuweilen leicht gekrummt, und werden zarter als Welch-Fraenkelche Bazillen beobachtet. Sporen und Kapseln: Nicht nur in gewohnlichen Nahrboden, sondern auch in den alkalischen-, natriumphosphathaltigen Nahrsubstraten und im Hirnbrei nahm der Verfasser keine Sporen oder Kapseln wahr. Aber nur bei aus Gasoedem gezuchtetem Stamm beobachtete er beide im spezifischen antiserumhaltigen Nahrboden. Kolonientypen: Auf d

Predicting structural, electronic, and optical properties of mixed-phase LiMg0.5X0.5PO4 (X = lanthanide) via first-principles study

Optically Stimulated Luminescence (OSL) has emerged as the preferred technique for a wide range of applications in radiation dosimetry, including personal monitoring, environmental surveillance, retrospective dosimetry, space dosimetry, and more. Over recent decades, LiMgPO4, a phosphate material, has garnered significant attention due to its superior characteristics compared to commercially available OSL dosimeters like Al2O3: C and BeO. In this paper, we systematically investigate the structural, electronic, and optical properties of mixed-phase LiMg0.5X0.5PO4 (X = Dy, Eu, Nd, Gd, Pm, Sm, Tb, and Tm) using a first-principles method based on density functional theory. Our calculations reveal that both LiMgPO4 and LiMg0.5Eu0.5PO4 exhibit insulating characteristics with direct band gap values of 5.47 eV and 4.99 eV, respectively. In contrast, for the other seven LiMg0.5X0.5PO4 (X = Dy, Nd, Gd, Pm, Sm, Tb, and Tm), their band gap values converge to zero eV, indicating a transition from insulator to metal. The reduction in the bandgap has led to the emergence of smaller peaks in the absorption coefficient at lower energy ranges while maintaining enhanced performance in optical absorption at higher energy ranges. Our computational results demonstrate consistent trends with the incorporation of various lanthanides. These materials exhibit stable structures, and the reduction in band gap enhances sensitivity and expands the energy response range. These findings offer valuable insights for future experimental and theoretical investigations in radiation dosimetry using mixed-phase phosphate materials

Dynamic Changes of Tyrosine Hydroxylase and Dopamine Concentrations in the Ventral Tegmental Area-Nucleus Accumbens Projection During the Expression of Morphine-Induced Conditioned Place Preference in Rats

Our previous study demonstrated that morphine dose- and time-dependently elevated dopamine (DA) concentrations in the nucleus accumbens (NAc) during the expression of morphine-induced conditioned place preference (CPP) in rats. However, still unknown are how DA concentrations dynamically change during the morphine-induced CPP test and whether tyrosine hydroxylase (TH) activity in the ventral tegmental area (VTA) plays a vital role in this process. In the present study, we measured dynamic changes in TH and phosphorylated TH serine 40 (pTH Ser(40)) and pTH Ser(31) proteins in the VTA, and DA concentrations in the NAc at 5 min intervals during a 30 min morphine-induced CPP test. Rats that underwent morphine-induced CPP training significantly preferred the morphine-paired chamber during the CPP expression test, an effect that lasted at least 30 min in the drug-free state. DA concentrations in the NAc markedly increased at 15 min when the rats were returned to the CPP boxes to assess the expression of preference for the previously drug-paired chamber. DA concentrations then declined 2 h after the CPP test. TH and pTH Ser(40) levels, but not pTH Ser(31) levels, in the VTA were enhanced during the CPP test. These results indicated that TH and the phosphorylation of TH Ser(40) in the VTA may be responsible for DA synthesis and release in the NAc during the behavioral expression of conditioned reward elicited by a drug-associated context.</p

Top-down control of the medial orbitofrontal cortex to nucleus accumbens core pathway in decisional impulsivity

Decisional impulsivity is one of the risk factors for occurrence and development of many mental disorders, and that the dysfunctions of orbitofrontal cortex (OFC) and nucleus accumbens core (NAcC) are at least involved. Although previous studies have shown that the role of OFC as a whole in regulating decision-making impulse behavior is inconsistent, it&rsquo;s still unclear that the roles of the subregions of OFC including their projections to the NAcC in decisional impulsivity. The present study was designed to investigate the roles of OFC subregions, medial OFC (mOFC) and lateral OFC (lOFC) and their projections to the NAcC in decisional impulsivity in free-moving rats. We found that rats with low level of decisional impulsivity (LI) showed higher neuronal activity in both the mOFC and lOFC, and more neurons in mOFC but not lOFC projecting to the NAcC were activated, compared with high level of decisional impulsivity (HI) rats. The mOFC-NAcC projections of LI rats showed stronger information communication in beta and low gamma oscillations in the expected reward choice and delay time windows. Further, specific activation (in HI rats) or inhibition (in LI rats) of the mOFC-NAcC pathway could partly reverse their decisional impulsive behaviors. The findings first demonstrated that the mOFC-NAcC pathway was more important than the lOFC-NAcC pathway to the top-down control in decisional impulsivity, which could be a new neural physiological mechanism for psychiatric disorders associated with decisional impulsivity.</p

Catechol-O-methyltransferase polymorphisms do not play a significant role in pain perception in male Chinese Han population

Catechol-O-methyltransferase polymorphisms do not play a significant role in pain perception in male Chinese Han population. PhysiolGenomics 44: 318&ndash;328, 2012. First published January 17, 2012; doi:10.1152/physiolgenomics.00162.2011.&mdash;Polymorphisms in the human catechol-O-methyltransferase (COMT) gene have been widely studied for their role in pain and analgesia. In this study, sensitivity to potassium iontophoresis, visual analog scale measurements for fixed twofold pain threshold stimulation and pain threshold changes induced by transcutaneous electrical acupoint stimulation (TEAS) were assessed in a population of healthy Chinese males. These results were correlated with the alleles of six single nucleotide polymorphisms (SNP) or diplotypes of common haplotypes designated as low pain sensitive, average pain sensitive, and high pain sensitive in the COMT gene of these subjects. Our results reveal that the alleles of each SNP are not significantly correlated with pain perception except for the rs4633 allele in the 2 Hz TEAS session (P _ 0.05). In addition, the six diplotypes of COMT haplotypes, which cover 92.5% of the Chinese population, are also not correlated with pain perception. Moreover, there were no significant differences in pain threshold changes induced by 2 and 100 Hz TEAS among the diplotypes of each SNP or the various haplotypes. These results suggest that COMT activity do not play a significant role in pain perception and TEAS-induced analgesia in the Chinese Han male population.</p

Manipulation of and Sustained Effects on the Human Brain Induced by Different Modalities of Acupuncture: An fMRI Study

<div><p>The javascript:void(0)manipulation and sustained effects of acupuncture have been investigated in multiple studies, but several findings are inconsistent with one another. One possible explanation for these discrepancies is that different modalities of acupuncture were utilized in these studies. In the present study, we investigated both the manipulation and sustained effects of acupuncture in different modalities, including manual acupuncture (MA), electroacupuncture (EA) and transcutaneous electrical acupoint stimulation (TEAS). MA, EA, TEAS and sensory control stimulation were applied to 18 healthy subjects, and combined block-designed and resting-state fMRI scans were performed. In analyzing these data, the block-designed datasets were used to assess the manipulation effect by employing a modified general linear model. The data from the resting states, before and after stimulation, were used to explore the brain networks involved in the sustained effect. The results showed that the two 1-min stimulation periods produced similar activation patterns in the sensory control with positive activation in the sensorimotor areas and negative activation in the default mode areas. Although similar patterns could be detected in the first stimulation period in MA, EA and TEAS, no positive activation result was observed in the second stimulation period, and EA showed a more extensive deactivation compared to MA and TEAS. Additionally, all three of the modalities of acupuncture stimulation could increase the instinct brain network in rest. A more secure and spatially extended connectivity of the default mode network was observed following MA and EA, and TEAS specifically increased the functional connectivity in the sensorimotor network. The present study suggested that different brain mechanisms might be recruited in different acupuncture modalities. In addition, the findings from our work could provide methodological information for further research into the mechanism of acupuncture.</p></div

Differences in Neural-Immune Gene Expression Response in Rat Spinal Dorsal Horn Correlates with Variations in Electroacupuncture Analgesia

<div><h3>Background</h3><p>Electroacupuncture (EA) has been widely used to alleviate diverse pains. Accumulated clinical experiences and experimental observations indicated that significant differences exist in sensitivity to EA analgesia for individuals of patients and model animals. However, the molecular mechanism accounting for this difference remains obscure.</p> <h3>Methodology/Principal Findings</h3><p>We classified model male rats into high-responder (HR; TFL changes >150) and non-responder (NR; TFL changes ≤0) groups based on changes of their pain threshold detected by tail-flick latency (TFL) before and after 2 Hz or 100 Hz EA treatment. Gene expression analysis of spinal dorsal horn (DH) revealed divergent expression in HR and NR after 2 Hz/100 Hz EA. The expression of the neurotransmitter system related genes was significantly highly regulated in the HR animals while the proinflammation cytokines related genes were up-regulated more significantly in NR than that in HR after 2 Hz and 100 Hz EA stimulation, especially in the case of 2 Hz stimulation.</p> <h3>Conclusions/Significance</h3><p>Our results suggested that differential regulation and coordination of neural-immune related genes might play an important role for individual variations in analgesic effects responding to EA in DH. It also provided new candidate genes related to EA responsiveness for future investigation.</p> </div