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STUDENT DIGITAL NEWSLETTER ALAGAPPA INSTITUTIONS |
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Jorge I. de la Torre, MD, FACS
If motorized mechanical traction is utilized medications known to cause seizures order mentat 60caps amex, the choice of seated versus supine traction will depend on patient response 3 medications that affect urinary elimination generic mentat 60 caps line. The supine position provides improved muscle relaxation medications that cause tinnitus generic mentat 60caps without a prescription, vertebral separation and easier countertraction and is therefore preferred medications hypertension buy mentat 60caps cheap. When in the sitting position, the patient should be supported through the lower extremities, pelvic girdle, lumbar and thoracic spine, and upper extremities. Flexion is applied by use of a posterior tilting traction chair or by the use of pillows behind the low back, sliding the hips forward and resulting in forward flexion of the neck when the traction force is vertical. If contact is made with the chin, be sure that the amount of pressure is equalized between the chin and occiput. A piece of gauze placed between the molars can be used as a mandibular splint if there is concern. The usual baselines will be pain severity, degree of peripheral-ization and any neurological deficits which may be present. These should also be monitored during treatment application and right after the procedure has been completed. For example, Erhard (Conley 1994) recommends that reflexes (if depressed) be checked at 5-10 minute intervals. Temporary increase in central pain may indicate a change in irritation to nerve root. May indicate sudden decompression of a space occupying lesion or nerve root or sudden cord damage. Continue traction protocol Continue traction protocol Stop Stop Severe cervical pain suddenly resolves during the treatment. The traction can be sustained or intermittent and, on occasion, can be combined with mobilization or a quick thrust. Manual traction also allows for pressure over trigger points for pain control as traction is being applied. Immediate feedback regarding changes in muscle tone is possible with this technique. Muscle relaxation achieved by manual traction may allow more successful manipulative therapy. On the other hand, in cases where applying traction results in aggravating symptomatic areas in the thoracic spine, the practitioner may wish to stop and treat the thoracic joint dysfunction first, before resuming the cervical traction. When performing manual traction, the practitioner should explore a variety of neck positions. Traction is usually applied at about 20-30 degrees of flexion, but it may be important to explore other angles of flexion as well (including neutral), monitoring patient response. For example, Cyriax (1984) suggested axial traction in extension for central lesions and in lateral bending for posterolateral lesions. There is no evidence that one form or dosage of traction is more effective than another. A common approach (Murphy 2000) is as follows: the patient lies supine with the head (and head piece) flexed at about 15-20 degrees. Intermittent traction is applied for up to 15 minutes at alternating intervals of 10 seconds of sustained tension and 10 seconds with reduced or no tension. Application and release of the tension should be done smoothly and gradually to prevent rebound pain. Cervical Traction Page 2 of 13 the traction can be timed with the exhalation during a breathing cycle providing the tractional force during exhalation. The practitioner may perform manual cervical traction using a towel or other device. This set up is easier for the practitioner if the proper doctor position is maintained. Using this technique, however, also can generate higher forces and so caution is advised. Step 2: Remove earrings, glasses, or anything that may interfere with the halter/harness. Motorized traction can be used to exert a pulling force through a rope and various halters and straps. The traction force results in a gliding and longitudinal separation of the cervical spinal segments. This can be done by simply asking patients or weighing them in the Cervical Traction Page 4 of 13 office. Apply the head halter under the mandible and on the occiput and attach it to the spreader bar. The patient should feel the halter snug around the occipital area, not the chin or any other structure. The rope must be slack to attach the spreader bar, but remove the slack prior to initiating treatment. Adjust the halter so that approximately 70% of the pull is absorbed by the occiput. If the line of pull is set too far anterior to the posterior neck structures, the traction will pull the neck into extension. A halter placed and tightened too low on the neck will result in head on neck extension and the inability to eliminate the cervical lordosis. A halter placed too high on the head, past the occiput, or placed too loosely will slip off when a traction force is applied. Ideally, the occipital pad is placed directly on the occiput and tightened snugly enough to prevent slipping. Stabil-ization is provided by a head strap and posterior pads that are tightened against the occiput and the mastoid processes. If the segment to be treated is below C-2, position the cervical spine in 20є-30є of flexion, just sufficient to flatten the lordotic curve. To effect 20є30є of flexion, the rope angle will need to approach 45є due to the flexibility of the rope resulting in a sagging with the weight of the head. If the C1-C2 segment is treated, allow the normal lordotic curve to remain and treat patient in 0є of flexion Unilateral traction. Traction may be given unilaterally to patients demonstrating unilateral signs and symptoms. This option is most successful when applied manually or with a Saunders or similar device. The table and traction unit may be angled to produce a greater side-bending and rotation. When a halter is used, there is Cervical Traction Page 5 of 13 a tendency for it to slide around and reposition, so uniform pull is not possible. Intermittent traction would commonly have 60 second holds with a 10-20 second rest applied for 10-15 minutes. If the treatment is too long, intradiscal pressure may increase from imbibition of too much fluid, and symptoms may be aggravated following treatment. Patients can tolerate greater poundage with intermittent traction as compared to sustained traction because the rest periods of intermittent reduce the load on the tissues. Electrical silence from stretching occurs only after 3 minutes of sustained stretch. There is a greater degree of ligament deformation with a slow rate of loading compared to a more rapid rate. This may be of importance if hypomobility and/or soft tissue shortening accompanies the muscle Page 6 of 13 Sustained Traction: A steady constant tension is applied at a prescribed load (weight). Sustained traction is well suited for disc herniations, muscle spasms other soft tissue tightness. Intermittent traction: Tension is applied for a "hold" period at a prescribed load (weight) for a prescribed amount of time (seconds) followed by a "rest" period at a lower load (weight) for a prescribed amount of time (seconds). Intermittent traction works well for joint hypomobility and degenerative disc disease with shorter rest and hold times (mobilizing effect). For intermittent traction, generally there is a 20-30% difference in the "maximal" amount of tension during the "hold" period and the "minimal" amount of tension during the "rest" period. Releasing the tension during the "rest" period by a relatively small percentage of the maximum assures that some tension will always act on the tissues without causing irritation or placing too high a demand on them. Nerve root compression: Intermittent traction is suggested: 7 seconds hold and 7 seconds rest time for 20-30 minutes. Sustained traction will restore a greater degree of mobility than intermittent traction in these cases.
However medicine norco discount 60caps mentat amex, as glucose is rapidly absorbed in the upper small intestine medicine 101 generic mentat 60caps mastercard, it fails to detect distal intestinal overgrowth medicine 3d printing discount mentat 60caps otc. However medications breastfeeding generic mentat 60caps online, only about 20% of the bacterial species and strains that inhabit the gut are have been identified by conventional culture techniques. The term functional was originally introduced to support the concept that these disorders are characterized by gut dysfunction in the absence of organic causes identifiable by common investigations. Recent growing evidence indicates that subtle, organic abnormalities can be detected along the brain-gut axis, including the intestinal tract, the central nervous and the neural-hormonal system connecting them. These abnormalities include altered composition of the luminal milieu, dysfunction of epithelial tight junctions leading to increased intestinal permeability, abnormal gut endocrine system signaling and low-grade mucosal inflammation. In this scenario, the putative role of gut microbiota is receiving increasing interest. A current working hypothesis suggests that changes in gut microbiota participate in abnormal fermentation of dietary substrates, predominantly carbohydrates. Microbiota would also elicit excessive stimulation of the mucosal immune system through a leaky gut. The consequent low-grade inflammation and release of inflammatory mediators would ultimately affect gut motor responses and elicit visceral hypersensitivity. The composition of the fecal microbiota and its correlation with psychological factors and bowel physiology has been studied. The usefulness of these changes as biomarkers for research and diagnostic purposes has yet to be defined. Interestingly, these microbial profiles are associated with the mucosal expression of several host genes, including some involved in the inflammatory response and cell junction integrity, suggesting an impact of the altered microbiota on the immune system and impaired epithelial barrier function. A reduction in luminal Bifidobacteria may also be important as the severity of abdominal pain is inversely correlated with their fecal concentrations. On the other hand, gut microbiota takes advantage of dietary substrates to survive, and grow. As a result of this process, the microbiota delivers to the intestinal microenvironment numerous end-products that have a profound impact on digestive functions. According to recent data, luminal bacteria would produce abnormal levels of short chain fatty acids and other products, which, in turn, perturb gut sensory and motor function hence contributing to symptomatology, including abdominal pain and bloating. The translation of this knowledge into clinically useful information is just starting but seems extremely promising. Scanning electron micrograph showing scattered and clustered groups of bacteria on the mucosal surface of the rat colon (Rattus norvegicus). Mucosal contact with luminal contents, and particularly microbes, is essential for recurrent terminal ileal disease. There is no mucosal inflammation when the fecal stream is diverted by an ileostomy proximal to the ileocolonic anastomosis, but ulceration promptly recurs after restoration of ileal continuity. Interestingly, most of these animal models of colitis depend on the presence of a gut microbiota. When maintained germfree, the animals do not develop disease, reinforcing the role of the microbiota in fueling the intestinal inflammation. Finally, spontaneous colitis in some genetically modified mice has been shown to be transmissible to wild type (genetically normal) mice through the gut microbiota. This suggests that, under the influence of an abnormal genetic background, the microbiota might become pathogenic by itself. Recently, it has been shown that topography of disease, and particularly involvement of ileum, is associated with specific alterations in microbiota composition. The bacteria composing the gut microbiota being, by nature, very prompt to adapt to any change in their environment, are attractive candidates. Indeed, published data suggest that microbiota composition changes long time before clinical relapse. Thus it might be used to predict disease flare, allowing treatment adjustment and avoiding onset of clinical symptoms. These modifications in gut microbiota composition induce a disequilibrium between pro- and anti-inflammatory bacteria with potential functional consequences (Figure 2). For example, Faecalibacterium prausnitzii, which is a major member of the Firmicutes phylum, has been shown to have anti-inflammatory effects both in vitro and in vivo. On the other hand, increased number of enterobacteria, such as Escherichia coli, might trigger and fuel inflammation. Phenotypic characteristics of these bacteria include their ability to adhere and to invade intestinal Caco-2 epithelial cells. Importantly, environmental changes induced by intestinal inflammation have an effect on the microbiota. The intestinal microbiota in inflammatory bowel diseases: time to connect with the host. Host-microbe interactions have shaped the genetic architecture of inflammatory bowel disease. In addition and more recently, the concept of "enterotypes" has been proposed: the analysis of the microbial composition of human fecal samples revealed that their bacterial population can be stratified into three robust clusters. Abundance is a measure of the relative proportion of each bacterial phyla inside an ecosystem, while diversity takes into account the number of bacterial phyla identified (richness) in addition to their relative abundance. Despite being very useful descriptors of the bacterial ecosystem in general, neither of these seems to be reliable indicators of the diabetic status of the host [10]. Although animal experiments show a clear separation between diabetic and non-diabetic subjects based on their microbiota profiles, the inter-individual variability in human subjects most likely masks these wide scale differences. Therefore, it appears that, in addition to these quantitative modifications of microbial phyla, obesity and some related metabolic diseases might be associated with modifications of microbial genes expression and, therefore, to the modulation of metabolic functions of the gut microbiota. The microbiome is now considered as a new therapeutic target against obesity and its linked diseases [11]. In fact, changes in dietary habits and, especially, an enrichment in some bioactive food components present in whole grain cereals are able to modify the composition of gut microbiota and could be helpful in the prevention of chronic diseases, including obesity and related disorders such as type 2 diabetes [12]. Wu et al have shown that microbiome composition may change 24 hours after initiating a high fat/low fiber or a high fiber/low fat diet, but that enterotype identity remained stable during a ten day nutritional intervention [13]. They suggest that nutrients like dietary fibers, which are not digested by host enzymes but are fermented by gut bacteria, could modulate the gut microbiome in a relatively short period of time, independent of the effect of their effect on gut transit time. O Introduction besity is defined as a massive expansion of the adipose tissue and is typically associated with a wide cluster of metabolic alterations, including glucose homeostasis disorders. The majority of these alterations likely results from a combination of variable associations between genetic and environmental factors. Low-grade chronic inflammation appears to be a common feature that may contribute to the development of insulin resistance, type 2 diabetes and cardiovascular diseases [2]. However, the mechanisms underlying obesity, fat mass development and the development of inflammation are not fully defined. The gut microbiota may be a key exteriorised organ that can contribute to the onset of these metabolic dysregulations (for review, see references [3-5]. The gut microbiota is now considered a full organ that is involved in the regulation of numerous physiological pathways by impacting different functions of the host [6]. Among these regulations, the influence of gut microbes on energy metabolism is of particular interest because it has been suggested to be a driving force in the pathogenesis of metabolic diseases, particularly obesity. In this chapter, we will shortly discuss recent evidence supporting the hypothesis that the gut microbiota can influence host metabolism using various mechanisms and that changes in microbiota composition trigger modifications of metabolic behaviour. Among the mechanisms explaining the development of low grade inflammation, we identified several links between the gut barrier and the gut microbiota (for review see [6, 15]. Regarding the inadequate composition of the gut microbiota, obese and overweight people were initially characterized by a change in the Firmicutes/Bacteroidetes ratio. However, a number of studies, including very recent human cohorts, reported no variations in this ratio between diabetic or obese patients and controls. These endocrine peptides represent an interesting pathway involved in the cross-talk between gut microbes and host cell. More importantly, they are considered as potential targets regulate endocrine peptides through the gut microbiota. These findings indicate that targeting enteroendocrine function may be a novel therapeutic approach for treating the inflammatory phenotype associated with obesity and type 2 diabetes. Although the enteroendocrine function of L-cells is an important mechanism in regulating gut barrier function, molecular links between the gut microbiota and enteroendocrine function of the gut remain unknown. Additionally, these metabolites can circulate in the blood and act thus on peripheral targets to modulate insulin sensitivity and whole host energy metabolism. Additionally, there is a growing interest in the study of the intestinal mucus layer and its interactions with microbiota. We have recently demonstrated the key role played by the gut microbiota and its interaction with the mucus layer in the context of diet-induced obesity and type 2 diabetes.
The use of canonical correlation analysis can support the formulation of hypothesisbased studies by accurately identifying those genes active in commensal microbiome and host activities (Schwartz et al symptoms uterine cancer generic 60 caps mentat otc. Oligosaccharides are the third most predominant component Copyright © National Academy of Sciences treatment juvenile arthritis generic 60caps mentat mastercard. In the colon treatment xeroderma pigmentosum safe mentat 60caps, they potentially function in a variety of ways medicine kim leoni discount mentat 60caps without a prescription, including as substrates for fermentation and the production of short-chain fatty acids. Additionally, the availability of noninvasive methods of assessing outcomes in human infants (Chapkin et al. Most food animals are grown very intensively, including through the use of animal feeds that contain antibiotics. These values were calculated by the Center for a Livable Future based on data provided by the Food and Drug Administration. This is a new phenomenon in the history of antimicrobials and one with significant implications for what Silbergeld referred to as the "resistome. Genes within the resistome encode molecular changes that confer phenotypic resistance to both general and specific antibiotic molecules. They are often clustered in cassettes and are transferable by plasmids, creating a pleiotropic efficacy. An important feature of the resistome is that resistance genes are readily transferred from one bacterial cell to another via horizontal, or lateral, gene transfer (usually via plasmid-mediated transfers but also by conjugation). The classic model of antibiotic resistance describes a population of diverse organisms encountering antibiotic pressure, with some organisms being susceptible and some resistant and with the susceptible organisms dying and the resistant organisms persisting (Sommer and Dantas, 2011). However, that model does not account for the dynamic nature of horizontal gene transfer and the fact that a population of initially susceptible bacteria can accumulate expressible resistance genes over time. Even after a stressor is withdrawn, this system can be permanently altered by the experience. In a study of humans exposed to ciprofloxacin, Dethlefsen and Relman (2011) showed that resistant phenotypes persisted even after exposure ended. Increasingly, horizontal gene transfer involves not just the sharing of single genes, but also the sharing of cassettes of multiple genes. Silbergeld explained how the extensive use of antimicrobials exerts multiple and repeated pressures on bacterial populations, resulting in sequential acquisition of resistance genes and buildup of multigene cassettes (Canton and Ruiz-Garbajosa, 2011). As empirical evidence of the buildup of transferable multigene cassettes, Silbergeld mentioned U. Not only is the resistome accruing more resistance genes, either singly or bundled in multigene cassettes, it also appears to be accumulating networks of preferential horizontal gene transfers, or "cliques" (Skippington and Ragan, 2011). Again, extensive antimicrobial use is exerting selective pressure, in this case for more active networks of horizontal gene transfer. Silbergeld described the resistome as being analogous to cloud computing, because it is a resource that can be externalized and accessed by various groups of bacteria and because the transfer of resistance genes via horizontal gene transfer is like transferring downloaded bytes of data. She stressed the importance of recognizing that the resistome encompasses both pathogenic and nonpathogenic bacteria and may include most of the bacteria in a specific microbiome. From the Modern Livestock Farm to Humans: Implications for the Resistome Selective pressures exerted by extensive antibiotic use abound in the modern livestock farm, which Silbergeld described as an "impressive laboratory for driving microbial evolution. However, it is not just the flora that is changing in the face of increased antimicrobial pressure. Researchers are also reporting an increased prevalence of antibiotic-resistant phenotypes in food animals fed antibiotic-containing diets (Looft et al. Importantly, the increased prevalence of resistant phenotypes being observed in the guts of farm animals persists not just in their microbiome but in the resistome at large, mainly because of the practice of land disposal of animal wastes without required pretreatment. Eventually, humans can potentially become exposed to those same resistance genes via several routes. Some experts consider antibiotic-resistant genes to be environmental pollutants that bioaccumulate over time (Martinez, 2009). Although antibiotics are generally not very persistent in the environment, if humans Copyright © National Academy of Sciences. Bioaccumulation of antibiotic resistance also occurs through the expansion of microbial populations, and this makes sense evolutionarily, according to Silbergeld. Scientists used to think of antimicrobial resistance as being costly for a microbe to maintain in the absence of antimicrobial pressure, but work by Levin et al. This fact, Silbergeld said, may partly explain why resistant bacteria are so persistent even after the antimicrobial stressor is removed. Because of the large number of antimicrobials now in the environment, this may be an efficient evolutionary strategy, as suggested by Martinez (2009). Silbergeld agreed with Vincent Young, Richard Darveau, and other speakers that the bad-bugsgood-drugs paradigm is too simplistic. There are many useful microbes, amongst which the lactic bacilli have an honorable place. Second, for a microorganism to be considered a probiotic, it has to be administered in adequate amounts. Versalovic listed several potential mechanisms of action: stimulation of 7 this section summarizes the presentation of James Versalovic. Stimulation of Immunity Probiotics can directly stimulate both adaptive and innate immunity (Thomas and Versalovic, 2010). They can also indirectly impact host immunity by enhancing host ability to digest and absorb nutrients that have an impact on the immune system. Both the direct and the indirect effects have been described in detail in a number of studies published over the past couple of decades. Indeed, it has been proposed that a key function of the gut microbiome might be to serve as a "treadmill" for the host immune system (Madara, 2004). By "tickling" Toll-like receptors and other receptors and signaling pathways that build host immunity, gut microbes might be keeping the host immune system "finely tuned and fit" and preparing the immune system for new challenges. Interferon-gamma production has been associated with protection against allergic disease early in life (Macaubas et al. Breast milk immunoglobulin A (IgA) levels were significantly elevated at both 1 week and 3 months of age in the children of women who took either a B. Although the difference in IgA levels between the children of the experimental and control women disappeared by 6 months of age, infants fed breast milk with elevated IgA levels early on may be receiving a critical head start in gaining passive immunity. According to Versalovic, the correlation has been found in a variety of other cell lines as well. Several research groups have identified three genes involved in histidine-to-histamine biosynthesis: hdcA, hdcB, and hdcP (Copeland et al. The next step, Versalovic noted, is to add more histidine to the diet via modified mouse chow and see if that enhances the anti-inflammatory effect of the wild-type probiotic. The "other part of the punch line" is that histamine operates as an immunomodulatory compound only in the presence of the H2 receptor. So the effect of histamine-and histidine-in the diet is dependent on the relative distribution of H2 versus H1 receptors. Not only is it a widely used probiotic, it is also an indigenous member of the human microbiome (Reuter, 2001). Promotion of the Intestinal Epithelium In addition to their impact on host immunity, probiotics also impact development of the intestinal epithelium. Administering two different strains of Lactobacillus reuteri led to about a 1-day reduction in disease duration, which is a significant amount of time in the case of acute infection. It is not clear what the signals are, that is, how these microbes are enhancing the ability of the epithelium to differentiate. Other Mechanisms of Action In addition to host immunity and intestinal epithelium development, probiotics can also influence human health and disease by enhancing microbiome diversity or, more compellingly, by changing microbiome gene expression. Versalovic suggested that a probiotic antimicrobial strategy could replace the widespread use of antibiotics in animal farms. The Future Rapidly advancing knowledge of the microbiome could be used to create "designer strains" of probiotics that enhance health or prevent disease (Preidis and Versalovic, 2009). Alternatively, it might be possible to select natural strains of probiotics that make foods even more effective and functional than they already are in terms of health maintenance and disease prevention. Most of this expanding research activity is focused on health promotion or disease reduction. There are several well-established major dietary sources of prebiotics, primarily fructins (including chicory root extract, inulin, oligofructose, and short-chain fructooligosaccharides). Two other major dietary sources of prebiotics are the galactooligosaccharides and the stool softener lactulose.
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