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By: Lars I. Eriksson, MD, PhD, FRCA

• Professor and Academic Chair, Department of Anaesthesiology and Intensive Care Medicine, Karolinska University Hospital, Solna, Stockholm, Sweden

Though I did not work with him gastritis from not eating purchase renagel 800 mg on line, Eric Kandel gastritis diet ãóãë discount 400 mg renagel, through his publications and towering influence at Columbia gastritis symptoms constipation buy renagel 800 mg with amex, drew me there to gastritis esophagitis diet 400 mg renagel fast delivery better understand the project he championed - a wish to integrate biology, psychiatry, and psychoanalysis. Some of the ideas on neuroplasticity in this book were first discussed in those publications. Jay Grossman, Dan Kiesel, James Fitzpatrick, and Yaz Yamaguchi were very helpful to me during this period and charitable with their time and conversation. Among those I interviewed who are not mentioned in chapters, or are mentioned only in passing, I thank Martha Burns for spending much time with me on brain exercises, and Steve Miller and William Jenkins of Scientific Learning, Jeff Zimman and Henry Mahncke of Posit Science, and Gitendra Uswatte of the Taub Therapy Clinic. Gerald Edelman, Nobel laureate, who has developed the most ambitious theory of consciousness that gives neuroplasticity a central role, was generous with his time when I visited him. Though there is no single chapter in this book devoted to his work - because I chose to describe plasticity by matching the work of a scientist or clinician with a patient whenever possible, and his work is theoretical - Dr. A number of academics and other learned people responded to e-mail questions, including Walter J. Friedman, Thomas Pangle, Ian Robertson, Nancy Byl, Orlando Figes, Anna Gislen, Cheryl Grady, Adrian Morrison, Eric Nestler, Clifford Orwin, Allan N. I am immensely grateful to Chris Calhoun, my agent at Sterling Lord, for his wit, enthusiasm, intellectual interest, and spirited guidance throughout. At Viking, editor Hilary Redmon did an extraordinary job as she went over the manuscript, giving numerous helpful suggestions to unify it. I thank Janet Biehl and Bruce Giffords for their astute and erudite copyediting and editorial production (and Bruce for being so levelheaded, supportive, patient, and meticulous throughout the process), and Holly Lindem and Jaya Miceli for the magical cover, which captures, in a single image, what this book is about and even the mood I hope the book creates. Finally, I would like to thank my daughter, Brauna Doidge, for help with transcripts and my son, Joshua Doidge, who tried different kinds of brain exercises with me, and showed me that they really work. Despite this mountain of support, to err is as human as the wish to evade responsibility for errors. Diet is one of those things, and I believe that diet and the lack of the right exercise are the main reasons for the widespead prevalence of obesity, diabetes and heart disease. I have always liked meat the best of all foods, and as a child I never wanted to eat my vegetables, other than the usual starchy things like bread and potatoes. As I grew out of my teens my weight suddenly shot up from 125 pounds to 186 in about six months. I was out on my own and trying to eat on the cheap, which naturally resulted in a rather carbohydrate-rich diet. I went on restricted calories and lost weight down to about 150, but it was very difficult to get below that. When I became interested in ballet, and started to take classes, I found the extra weight a liability, but was unable to lose and still eat enough to have the energy for the strenuous exertions of ballet. I think that there are very few types of athletic activities with the demands of ballet training. The article was a review of a book titled Eat Fat and Grow Slim by an English physician, Dr. As a kid I had the idea that we ate veggies because meat was expensive and rationed (which it was during the war). Eat Fat and Grow Slim had as its basis the writings of an arctic explorer and anthropologist Vilhalmur Stefansson. Macarness was also familiar with the traditional cure for diabetes, which was to place the patient on a diet with virtually no carbohydrates. Since we did not evolve eating carbs in the modern constant-intake fashion, our pancreas is subject to failure from over work, and perhaps it is sometimes destroyed by our own immune system due to the damage the constant flow of insulin does to the blood vessels. Remember the immune system is there to find and destroy the source of damage to our body. Diabetics, once the pancreas quits, suffer severe and rapid damage to their bodies from the high levels that injected insulin produces. Macarness also referred to a diet known as the Blanding diet used traditionally for the reduction in weight of very obese people. The book by Stefansson was in its third edition in 1961, the date on the copy I now have, and this may have been the end of the publishing run, for I have not seen any copies later than this. The Macmillan company has gone though a lot of changes since the time of the publication, and now no one at the firm seems to know anything about the book. Recently I have heard that there is a doctor in Hollywood who is putting entertainment people on this basic meat diet and getting phenomenal results in rapid weight reduction. The nice thing about this diet is that the human body does not seem to be able to store fat that is eaten in the food, so the fat you eat must be burned up.

The study also recommends continued monitoring of demo plots and uptake of introduced technologies gastritis diet for toddlers renagel 800mg on line. We are also grateful for logistic support received from other partners namely; Kenya Forest Service and State 515 Department of Livestock Development gastritis symptoms depression purchase renagel 400 mg mastercard. Lastly gastritis diet sweet potato buy 800mg renagel fast delivery, special gratitude goes to gastritis diet virut buy renagel 800mg fast delivery the local communities, who willingly collaborated with project implementers. A nested-intensity design for surveying plant diversity Biodiversity and Conservation, 12, 255­278 Chinduiyo, E. The environmental impacts of charcoal production in tropical ecosystems of the world: A synthesis, Energy Sustain Dev. Ministry of State for Planning, National Development & Vision 2030, and Office of the Deputy Prime Minister and Ministry of Finance. Forage diversity and impact of grazing management of rangeland ecosystem in Mbeere District, Kenya. Land cover change and woodland degradation in a charcoal producing semi-arid area in Kenya. The role of enclosures in the recovery of woody vegetation in degraded dryland hillsides of Central and Northern Ethiopia. Charcoal production and strategies to enhance its sustainability in Kenya, Dev Pract, 23(3), 359-371 Ndegwa, M. Charcoal production through selective logging leads to degradation of dry woodlands: a case study from Mutomo District, Kenya. The impact of charcoal production on forest degradation: a case study in Tete, Mozambique. Rehabilitation of degraded forest and woodland ecosystems in Ethiopia for sustenance of livelihoods and ecosystem services. Monitoring degradation in arid and semi-arid forests and woodlands: the case of the Argan woodlands (Morocco). These species are valued by farmers for their products including fuelwood, fruits, timber, fencing and ornamental. About 81 % of respondents face various constraints in tree growing such as drought, pest attack, theft, high cost of seedlings, poor soils animal browsing and trees competition with crops. Despite the constraints, 93 % of respondents have plans to plant more trees in future, with preferred species being G. Most of the farmers with future tree planting plans preferred boundaries planting. Key words: Opportunities, constraints, tree species, Muranga, agroforestry Introduction High population densities, intensive cultivation, fragmentation of family land and rapid decrease in land available for farming are some of the major causes of soil erosion, soil nutrient depletion, and wood fuel and timber shortages in the highland areas of Kenya (Ngugi and Brabley, 1986). It is encouraging that farmers in Kenya, in response to loss of forest cover, have been successful in cultivating and managing trees in and around their farms. Trees on farm or agroforestry systems and practices come in many forms including; improved fallows, Taungya or Shamba system, home gardens, among others. Farm Forestry Rules (2009) require farmers to establish and maintain farm forestry on at least ten percent of every agricultural land holding. Grevillea robusta has been well adopted such that it forms a near monoculture in central Kenya highlands, particularly in Kirinyaga District where it was found to be grown on about 96 % of farms (Tyndall, 1996). According to Njuguna, (2011), the species is under threat from a widespread canker and dieback disease and a host to over forty fungal species, some of which cause serious diseases of other woody species as well as agricultural species. Diversification of tree species composition is therefore important and can lead to enhancements of stability and productivity of ecosystems (Cottingham et al. Careful and efficient collection of information on agroforestry practices has a great contribution either to promote or to improve important agroforestry practices. Thus the survey was conducted with the objective of describing and understanding various agroforestry practices, identifying and characterizing major tree species, identifying reasons for tree growing, what tree species farmers most want to plant in their farms and also identifying and prioritizing major constraints related to tree planting. It covers an area of 2,558 square kilometers and borders Nyandarua County to the west, Embu County to the east, Nyeri County to the north, Kiambu County to the south and Kirinyaga County to the north east (Figure 1). The agro ecological zone one consists of the highest potential zones where forestry, tea and tourism industry form the most important economic activities. Agro-ecological zones two and three are the lowlands east of Aberdares and are generally suitable for both coffee and dairy farming. The flatter area of Makuyu division of Maragwa constituency is characterized by arid and semi-arid conditions. A summary of households representation status per elevation class in the study areas Sub county Households frequency (%) per altitude range (m) Total 2201-2900 1801-2200 1281-1800 700-1280 Muranga north 11 (22) 33 (66) 6 (12) 0 (0) 50 (100) Muranga south 0 (0) 0 (0) 47 (94) 3 (6) 50 (100) Muranga east 0 (0) 1 (2) 39 (96) 1 (2) 41 (100) Elevation categories (Jaetzold and Schidt (1983)) > 2900 m = Afro-alpine highland 2201-2900 = Upper highland 1801-2200 = Lower highland 1281-1800 = Upper midland 700-1280 = Lower midland < 700 = Inland lowland Most of the households surveyed in Muranga north lies in the upper highland category while majority of the studied farms in Muranga south and east are in the upper midlands.

Finally gastritis xantomatosa buy discount renagel 800 mg on line, these mixtures have short shelf lives and only effective for a few hours after mixing because the active ingredients precipitate out of solution 7 day gastritis diet generic renagel 800mg otc. Users unaware of this may be in fact applying completely ineffective products in the belief that they are still effective gastritis kako se leci purchase 400 mg renagel with visa. Zoono take great pride in manufacturing and in the results we are able to chronic gastritis malabsorption buy renagel 400 mg fast delivery deliver. We encourage our customers to explore the depth of our research and we welcome the opportunity to showcase our results and product efficacy. However, given that everything is "toxic" to a degree, it is important to understand just how toxic products are because the relative toxicity is important. As you will see from the chart below, Zoono has the relative toxicity comparable to Vitamin "C". Packaging facilities in both countries are fully accredited and pack all Zoono brands to exacting specifications and standards. Page 6 of 9 Efficacy and Testing the ground breaking Zoono technology includes the length of time Zoono remains active and the non-toxic way in which Zoono operates. Any claims made by Zoono in relation to product efficacy and performance, are supported by independent 3rd party Test Results from internationally certified Laboratories (all with Good Laboratory Practice Certification) in many different countries. Zoono is built on a quaternary ammonium chloride compound, specifically: 3-Trimethoxysilyl propyl dimethyl octadecyl Ammonium Chloride · · · · · Water-based Zoono bonds permanently to the target surface ­ even to polyester Physical vs. Page 8 of 9 the Zoono Guarantee Zoono brands are manufactured and packaged in both New Zealand and the United States of America. Zoono does not compromise on quality and guarantees every product meets specification. Mycobacterium tuberculosis Mycobacterium smegmatis Propionibacterium acnes Staphylococcus aureus * Staphylococcus epidermidis Streptococcus faecalis Streptococcus mutans Streptococcus pneumonia Streptococcus pyogenes Reference 5, 6, 11 1, 13 5, 6, 11 2, 5, 15 14, 36 14 5 2, 3, 5, 6, 10, 11, 13, 24, 15, 21 2, 5, 6, 7, 11, 13, 14, 15 2, 5, 6, 7, 11, 13, 14 5, 6, 7, 11 1 5, 6, 7, 11 Gram Negative Bacteria Acinetobacter calcoaceticus Aeromonas hydrophilia Citrobacter deversus Citrobacter freundi Enterobacter aerogenes Enterobacter aglomerans Enterobacter cloacae Enterococcus Escherichia coli Klebsiella oxytoca Klebsiella pneumoniae Klebsiella terriena Legionella pneumophila Morganella morganii Proteus mirabilis Proteus vulgaris Pseudomonas aeruginosa Pseudomonas fluorscens Salmonella cholera suis Salmonella typhi Salmonella typhimurium Serratia liquifaciens Serratia marcescens Xanthomonas campestris Reference 2, 5, 6, 11, 14, 15 5, 6, 11 5, 6, 11 5, 6, 11 5, 6, 7, 11 2, 5, 14, 15 5, 6, 7, 11 10 1, 2, 3, 5, 6, 7, 10, 11, 13, 14 5, 6, 11, 14 3, 5, 6, 7, 9, 10, 11, 13, 14 19 1 5, 6, 7, 11 5, 6, 7, 11 5, 6, 7, 11 2, 3, 5, 6, 7, 11, 13, 14 5, 6, 7, 10, 11 5, 6, 7, 11, 14 5, 6, 7, 11, 14 1, 5, 6, 7, 11 5, 6, 7, 11 5, 6, 7, 11 5, 6, 7, 11 Contd. Aspergillus flavus Aspergillus niger Aspergillus sydowi Aspergillus terreus Aspergillus versicolor Aspergillus verrucaria Aureobasidium pullans Candida albicans Candida pseudotropocalis Chaetomium globsum Cladosporium cladosporioides Chlorella vulgaris Dreschslera australiensis Epidermophyton s p. Microsporum audouinii Monilia grisea Oscillatoria Penicillium chrysogenum Pencillium commune Penicillium funiculosum Penicillium pinophilium Reference 8,12 22 2, 5, 6, 7, 11, 14 2, 5, 6, 7, 8, 11, 12, 13, 14 5, 6, 7, 11 5, 6, 7, 11, 14 2, 5, 6, 7, 11 14 5, 6, 7, 8, 11, 12 1, 2, 5, 6, 7, 14 5, 6, 7, 11 1 8, 12 19 8, 12 9 8, 12 5, 6, 7, 11 9 21 8, 12 20 5, 6, 7, 11 8, 12 1, 2, 5, 6, 7, 11, 14 5, 6, 7, 11 Contd. Fungi, Algae, Mould, Yeast, Spores Penicillium variable Phoma fimeti Pithomyces chartarum Poria placenta Scenedesmus Saccharonyces cerevisiae Scolecobasidium humicola Selenastrum s p. Trichoderma viride Trichophyton interdigitale Trichophyton maidson Trichophyton mentogrophytes Trichophyton sp. Zoono products have been successfully tested against a variety of pathogens for up to 30 days on surfaces and 24 hours on hands. These viruses cause a broad spectrum of animal and human disease and are particularly difficult to inactivate. Proceedings V World Avocado Congress (Actas V Congreso Mundial del Aguacate) 2003. Llobell2 Hispano Luso de Investigaciones Agrarias, Edificio Departamental, lab 208, Universidad de Salamanca. This biocontrol agent has not harmful effects on humans, wild life and other beneficial organisms. Trichoderma strains used as biocontrol agents can act: a) colonizing the soil and/or parts of the plant, occupying a physical space and avoiding the multiplication of the pathogens; b) producing cell wall degrading enzymes against the pathogens; c) producing antibiotics that can kill the pathogens; d) promoting the plant development and e) inducing the defensive mechanisms of the plant. Antifungal formulations based on Trichoderma strains and proteins require, as in the case of chemical fungicides, a costly and sound registration process previous to their commercialization. For this reason, many of these biological products are being offered to the farmers under the category of fertilizers and other commercial products that are not tightly regulated, and, hence, they do 725 V Congreso Mundial del Aguacate not offer sufficient guarantee of quality and sanitary control. This fraud must be prosecuted since most of these wrongly registered formulations have not got a Trichoderma inoculum, shelflife or other properties stated in their label. We have developed Trichoderma formulations against the main avocado root pathogens: Phytophthora cinnamomi and Dematophora necatrix. Strains within this genus include a wide spectrum of evolutionary solutions that range from very effective soil colonizers with high biodegradation potential, to non-strict plant symbionts that colonize the rhizosphere.

The two agroforestry technologies were more profitable in Lelan than in Chepareria diet while having gastritis purchase renagel 800 mg with visa. However gastritis and chest pain buy 400 mg renagel, profitability of home-garden gastritis gluten generic renagel 800 mg visa, woodlot gastritis diet øðåê cheap 800 mg renagel fast delivery, scattered trees, and alley technologies did not vary significantly between the two sub-locations. Relative profitability (B/C ratio) among agroforestry technologies / practices Agroforestry Technology/Practice Lelan Chepareria a Boundary planting technology 9. Pair-wise analysis of agroforestry technologies B/C in Chepareria sub-location Homegarden (3. Pair-wise analysis of agroforestry technologies B/C in Lelan sub-location Homegarden Woodlot Scattered Strip Fodder (3. The costs can be grouped into purchase of tools and equipments, land preparation costs, purchase of planting materials like seedlings, maintenance costs like weeding, harvesting and storage costs and costs emanating from damages on other farm components by agroforestry components. This concurs with Garrett and Godsey (2008) that undertaking successful agroforestry requires adequate understanding of involved variable and fixed costs. The benefits accrued from agroforestry technologies and practices are many including; food products, environmental services like water purification and protection against strong winds. Therefore, agroforestry can help in land reclamation, carbon sequestration, and secure peoples livelihood especially in the rural areas (Mbow et al. Different agroforestry technologies have different tree arrangement patterns that affect profitability of a technology as it results to difference in tree-crop interface (Noordwijk and Hairiah, 2000). For instance, boundary tree planting where trees are planted at the perimeter of the farm prevents soil erosion, demarcate land and provide protection to crops as well as houses from strong winds (Nolet et al. The ability of boundary planting to shelter houses from destruction by strong winds makes it more profitable in Lelan and Chepareria sub-locations compared to other agroforestry technologies and practices. However, boundary planting is slightly profitable in Lelan compared to Chepareria because Lelan is considered a zone for growing a variety of crops and building permanent houses that require protection from strong winds. Contrary, scattered trees on farm are slightly profitable in Chepareria than Lelan because of higher perceived value of shade provided by scattered trees for herders in Chepareria than Lelan. In Lelan, trees scattered on farms are perceived destructive because they compete with other farm crops like maize for light and nutrients, making it less profitable (Mandila et al. The profitability of any agroforestry system may be influenced by prevailing environmental conditions like wind velocity, rainfall and terrain, and higher costs of setting up trees, maintaining them and opportunity costs (Nolet et al. For example, strip planting may have lower profitability in areas with average rainfall less than 800 mm (Tengnas, 1994). Trees in agroforestry systems have both positive and negative interaction based on the management practices, eventually affecting the profitability of the technology. Well-managed trees increase profitability by contributing to increased soil biomass which adds organic matter to the soil, hence improving soil condition and productivity (Batish et al. For instance, the presence of well managed leguminous tree species on farms inform of strip planting aids in increasing soil nitrogen that improves soil fertility, and provide nutritious fodder to dairy cattle (Bekele-Tesemma, 2007). Strip planting technology trees also provide the benefits of weed suppression and soil conservation in terms of erosion control across the slope though the technology was still young. However, poorly managed practices especially scattered trees may compete with food crops for light, hence lowering their potential benefits (Mandila et al. Agroforestry contributes to microclimate amelioration which 598 favored crops and animals within the farm. This is because agroforestry trees provide shade that lower soil surface temperature and reduces evapotranspiration of soil moisture (Tewari, 2008). Conclusions and Recommendations Conclusions Profitability of agroforestry technologies in the semi-arid regions of West-Pokot County based on B/C ranges from 9. Boundary planting is the most profitable technology/practice because of its major benefit of protecting houses and farm crops from strong wind damages. Scattered tree technology/practice is the least profitable because of its potential cost emanating from its potential to compete with farm crops for light, nutrients and hindrance to farm mechanization. In general, all identified technologies/practices in West-Pokot County have B/C >1 apart from scattered trees on farm. Famers should be trained on agroforestry tree management options like pollarding and pruning that reduces competition for light between trees/shrubs with crops especially on scattered trees on farms to reduce the costs of some agroforestry technologies. Acknowledgement We appreciate the University of Kabianga Research and Extension Committee for financial support.

But it may provide a manure or waste processing framework that is also amenable to gastritis duration generic 400mg renagel separate nitrogen and salts11 into a shippable gastritis snacks buy 800 mg renagel overnight delivery, nutrient-accountable gastritis zucker generic renagel 800 mg without prescription, and marketable product gastritis diet çàãàäêè buy 800 mg renagel free shipping. The dual challenge of reducing overall N inputs to cropland by reducing synthetic fertilizer use while converting manure N to a product that can effectively mimic synthetic fertilizer is not unique to the 11 Salt is another significant water quality concern associated with land application of manure. In the long-term, salinization of groundwater resources, unlike nitrate contamination, is detrimental not only to drinking water but also to irrigation water quality. Beyond California, this is also a global challenge, driven by population growth, economic improvements in threshold countries, and the likely doubling of the demand for food, especially milk and meat products, fiber, and biofuel production over the next four decades, while expansion of global cropland area is expected to be very limited. Already, irrigated agriculture produces 40% of global food and fiber supplies on 20% of all cropland. Without significant shifts in national and global consumer food choices, global markets, in the long-term, will continue to provide incentives for further intensification of irrigated crop and animal production systems, in California, in the United States, and in agricultural regions around the world. The following sections provide further detail on how the results presented in this first section were obtained. They also provide detailed description of individual source categories contributing to groundwater nitrate, how we conceptualized sources, the nitrogen fluxes associated with the operation of individual source categories, and a review of the literature on the nitrate contribution from these sources. Section 2 introduces the nitrogen cycle and provides the mathematical basis for the mass balance approach used on cropland, which receives nitrogen from many agricultural and urban sources. Section 3 describes current, historic, and future land uses with a focus on cropland as sources of groundwater nitrate, describes the methodology behind estimating cropland fertilizer use and harvest removal, and reviews groundwater loading estimates described in the literature. Section 4 focuses on animal sources, especially dairies, which constitute the overwhelming source of animal manure in the study area. Section 5 reviews nitrate loading from the urban landscape, specifically from turfgrass. Section 6 reviews other urban sources of groundwater nitrate including wastewater treatment plants and food processors, leaky sewer systems, and septic system leach fields. Section 9 reviews the role of active, abandoned, and dry wells as sources and conduits of nitrate to shallow and deep groundwater. Technical Report 2: Nitrogen Sources and Loading to Groundwater 52 2 Nitrogen Cycling and Mass Balance 2. Like other key elements essential for life, nitrogen flows through environmental systems in a dynamic biogeochemical cycle in which microorganisms and plants are an integral part. Plants require greater amounts of fixed nitrogen for growth than other essential nutrients. When soils are deficient in nitrogen and the requirement of plants is not adequately met, plant growth and health are depressed. In a unique biological relationship, specialized microorganisms that inhabit terrestrial and aquatic environments have evolved the ability to fix nitrogen and make it available for plants to utilize for photosynthesis and growth. Modern agricultural management practices have leveraged the nitrogen requirement of plants to increase food production and to provide an adequate supply of food for consumption by humans and livestock. The application of nitrogen-based fertilizers, soil amendments, and the co-cultivation of leguminous cover crops provide nitrogen to deficient soils and dramatically augments crop yield. Technological advances in agriculture, as well as in industrial manufacturing and urban practices, have disrupted the biogeochemical nitrogen cycle, principally by generating "fixed". Emerging from this modern disruption of balanced nitrogen cycling is a wide array of adverse environmental effects and ecological impacts. The most remarkable impacts- which are ever increasing in magnitude on a global scale-include the leaching of nitrate that contaminates groundwater reserves, the eutrophication of surface waters and resultant "dead zones," atmospheric deposition that acidifies terrestrial, freshwater and coastal ecosystems, and the emission of the greenhouse gas, nitrous oxide (N2O), that is also the dominant stratospheric ozone substance (Ravishankara et al. Moreover, these environmental changes are widespread and of high severity, and are increasingly associated with deleterious human health effects. The direct and indirect human health effects of human alteration to the global nitrogen cycling include acute poisoning, chronic exposure to newly emerged infectious diseases, and malnutrition facilitated by increased pestilence of food crops (see Fan and Steinberg 1996, Galloway et al. Over geological Technical Report 2: Nitrogen Sources and Loading to Groundwater 53 and evolutionary time (and until the advent of human agriculture), these biogeochemical cycles have provided the necessary nutrients in the proper amounts to support life on Earth. Nitrogen, as one of the major essential elements, participates in a global biogeochemical nutrient cycle in which the element exists in a continuous state of transformation and translocation within and among the atmosphere, hydrosphere, and biosphere.

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References:

• https://www.ncjrs.gov/pdffiles1/nij/grants/198320.pdf
• https://www.aphl.org/AboutAPHL/publications/Documents/FS_2012April_Guidance-for-PHLs-Isolation-and-Characterization-of-Shiga-Toxin-Producing-Escherichia-coli-STEC-from-Clinical.pdf
• https://www.gundersenhealth.org/app/files/public/6784/Lab-Policies-RegionalAffiliate-Urine-Culture-Lab-8842.pdf
• https://www.jstor.org/stable/pdf/43281444.pdf
• https://www.chicagohan.org/documents/14171/212838/Rochester+UTI+Treatment+Guidelines.pdf/53b2080b-5d3b-4dc7-b054-e3438391ffcf