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> Disorders > Disease or Syndrome > Dehydration

Dehydration

Dehydration is a condition where the body loses more fluid than it takes in, leading to an imbalance in the body's water and electrolyte levels.
It can be caused by various factors, such as excessive sweating, diarrhea, vomiting, or fever.
Symptoms of dehydration may include thirst, dry mouth, fatigue, headache, and dizziness.
Severe dehydration can be life-threatening and requires prompt medical attention.
Proper hydration, electrolyte replacement, and addressing the underlying cause are key to managing dehdyration.
Researchers and clinicians can utilize advanced AI-driven platforms like PubCompare.ai to optimize dehydration research protocols, identify the most effective treatments, and stay up-to-date with the latest scientific findings.

Most cited protocols related to «Dehydration»

1
Hindbrain Whole-Mount Endomucin Staining
Hindbrains were dissected clean from surrounding tissue followed by fixation steps, dehydration and rehydration steps as described [3] (link), prior to being whole-mount stained using a rat anti endomucin antibody (Santa Cruz Biotechnology). Samples were analysed from the ventricular side. Several overlapping photographs were taken of each hindbrain imaged using an epifluorescence microscope (CellR, Olympus). Images were assembled using Photoshop software.
Zudaire E., Gambardella L., Kurcz C, & Vermeren S. (2011). A Computational Tool for Quantitative Analysis of Vascular Networks. PLoS ONE, 6(11), e27385.
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Publication 2011
Antibodies, Anti-Idiotypic Dehydration Endomucins Heart Ventricle Hindbrain Microscopy Rehydration Tissues
2
Whole-mount in situ hybridization of planarians
Unless otherwise noted, asexual planarians 1–5 mm in length were processed for WISH essentially as described [21 (link)] with the following significant modifications: the reduction step prior to dehydration was omitted. Bleaching was performed for 2 hours in formamide bleaching solution (1.2% H2O2, 5% formamide, and 0.5xSSC [32 ]). For regenerating planarians, the Proteinase K/post fixation steps were replaced with a 10 minute boiling step in 10 mM sodium citrate pH 6.0 with 0.05% Tween20, followed by a 20 minute room temperature incubation in PBSTx (Phosphate Buffered Saline [32 ], 0.3% Triton X-100) with 1% SDS. Blocking and antibody incubation for peroxidase-conjugated anti-digoxigenin (1:2,000 [Roche]), anti-fluorescein (1:2,000 [Roche]), and anti-dinitrophenol (1:300 [PerkinElmer]) were performed with 5% horse serum and 0.5% RWBR in TNTx (100 mM Tris pH 7.5, 150 mM NaCl, 0.3% Triton X-100). For chromogenic detection using alkaline phosphatase-conjugated anti-digoxigenin antibody (1:2,000 [Roche]), antibody incubation and blocking were performed with 5% horse serum in TNTx, and post-antibody washes were with TNTx prior to development as described in [21 (link)].
King R.S, & Newmark P.A. (2013). In situ hybridization protocol for enhanced detection of gene expression in the planarian Schmidtea mediterranea. BMC Developmental Biology, 13, 8.
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Publication 2013
Alkaline Phosphatase Antibodies, Anti-Idiotypic azo rubin S Dehydration Digoxigenin Dinitrophenols Endopeptidase K Equus caballus Fluorescein formamide Immunoglobulins Peroxidase Peroxide, Hydrogen Phosphates Planarians Saline Solution Serum Sodium Chloride Sodium Citrate Triton X-100 Tromethamine Tween 20
3
Lineage Tracing of Pancreatic Tumor Models

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Publication 2012
Abdomen Alleles Animals Anophthalmia with pulmonary hypoplasia Ascites Carcinoma Cells Ceruletide Dehydration Dexamethasone Disease Progression fluoromethyl 2,2-difluoro-1-(trifluoromethyl)vinyl ether Hypertrophy Mice, Inbred NOD Mice, Laboratory Neoplasms Pancreas Pancreatitis Pathologists PDX1 protein, human SCID Mice Strains Sulfoxide, Dimethyl Transplantation
4
Preoperative Frailty Assessment in Veterans
As part of a quality improvement initiative at the Veterans Affairs Nebraska–Western Iowa Heath Care System, we adapted the MMRI-R for use in surgical populations. We eliminated the single survey item assessing current or recent dehydration because we thought that this question would be difficult to assess and interpret in the preoperative population. We also modified the item probing admission to a nursing home in the past 3 months to capture anyone living in a setting other than independent living. We though this would more expansively capture the range of nonindependent living situations prevalent among surgical populations that might indicate frailty associated risk. The RAI-C questionnaire includes 14 questions assessing 11 variables and 2 statistical interactions with scores ranging from 0 to 81 (eFigure in the Supplement). The survey is administered by clinical staff based on patient history and report and scored using parameters developed for the MMRI in an MDS sample of nursing home residents.
Pilot testing demonstrated the feasibility of this abbreviated survey. Because most of the questions were already part of standard nursing interviews, it took clinical staff less than 2 minutes to complete and was easily incorporated into the standard intake procedures at surgical clinics. Based on these findings, on July 1, 2011, we began measuring the RAI-C for every patient presenting to outpatient surgery clinics at the Veterans Affairs Nebraska–Western Iowa Health Care System, requiring the score as a precondition for scheduling any elective surgery.
Responses to each item of the RAI-C were recorded along with patient identifiers. As described elsewhere, patients with an RAI-C score of at least 21 were subjected to administrative review aimed at improving perioperative decision making and outcomes.18 (link) In some cases, this administrative review led to repeated calculation of the RAI-C, often informed by more detailed medical histories. As such, the database includes sequential measurements of the RAI-C on some patients, but for the purposes of this analysis, we used the single RAI-C measurement for each patient that was closest to and antecedent from the date of surgery.
Hall D.E., Arya S., Schmid K.K., Blaser C., Carlson M.A., Bailey T.L., Purviance G., Bockman T., Lynch T.G, & Johanning J. (2017). Development and Initial Validation of the Risk Analysis Index for Measuring Frailty in Surgical Populations. JAMA surgery, 152(2), 175-182.
Publication 2017
Dehydration Dietary Supplements Elective Surgical Procedures Operative Surgical Procedures Patients Population Group Veterans
5
Predictors of Activity Limitation in Older Adults
Predictors of ADL dependency included International Classification of Diseases, Ninth Revision Clinical Modification (ICD-9) diagnosis and procedure codes as well as Current Procedural Terminology (CPT) and Healthcare Common Procedure Coding System (HCPC) codes. Codes were captured in the 8 month window prior to the Health Survey administered in the last four months of 2006. Because the same diagnostic or procedure construct can be described with multiple codes and the number of outcomes was limited relative to the number of potential covariates, similar codes were aggregated. For example, all strokes and head injury codes were considered together. We chose codes congruent with frailty theories, such as codes for weakness, difficulty walking, and weight loss. Additional diagnosis codes were chosen based on their likely association with frailty, including decubitus ulcers, heart failure, and dementia. All candidate aggregated claims codes formed indicator variables for inclusion in the models and are listing in Appendix 2. Our final potential predictors included demographics (age—centered at age 65, age-centered squared, sex, and race) and diagnostic codes (present or absent) related to high-risk disease states (stroke, heart failure, cancer), geriatric syndromes (falls, hip fracture, pneumonia, dehydration, fecal impaction, delirium), durable medical equipment charges (home hospital bed, wheelchair, home oxygen, walker). Also added were codes thought to be inversely associated with frailty, such as cancer screening and coronary revascularization.17 (link) After initial aggregation, all code groups were examined for prevalence in the sample. Those with less than 1% prevalence were re-aggregated or dropped from consideration. Finally, because race may not always be available in administrative claims data, the model was evaluated again without this variable. We also checked the performance of the models across the four census-defined regions of the United States: Northeast, Midwest, South, and West.
Faurot K.R., Funk M.J., Pate V., Brookhart M.A., Patrick A., Hanson L.C., Castillo W.C, & Stürmer T. (2014). Using Claims Data to Predict Dependency in Activities of Daily Living as a Proxy for Frailty. Pharmacoepidemiology and drug safety, 24(1), 59-66.
Publication 2014
Asthenia Cerebrovascular Accident Congestive Heart Failure Craniocerebral Trauma Dehydration Delirium Dementia Diagnosis Durable Medical Equipment Heart Hip Fractures Malignant Neoplasms Oxygen Pneumonia Pressure Ulcer Syndrome Walkers Wheelchair

Most recents protocols related to «Dehydration»

1
Sensing Vasopressin and Sodium for Dehydration
Not available on PMC !

Example 3

With reference to FIG. 1, the sensor 120 senses vasopressin, and the sensor 124 senses Na+, which is an indicator of sweat generation rate. The sensor 124 could therefore provide a leading warning of possible dehydration before dehydration occurs as recorded by sensor 220, which measures changes in levels of vasopressin.

US11857313B2. Sweat biosensing companion devices and subsystems (2024-01-02). University of Cincinnati [US]. Inventors: Jason C. Heikenfeld [US].
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Patent 2024
AVP protein, human Companions Dehydration Medical Devices Sweat
2
Acclimation and Housing of Female ICR Mice
Not available on PMC !

Example 6

SPF female ICR mice were obtained at 3 weeks of age from Taconic Farms (Hudson, NY), and used for the experiments after one-week acclimation. Mice were housed at the Isolation Unit of the Central Animal Facility (University of Guelph) in a temperature controlled environment with a 12 h light/dark cycle. Animal care was provided in accordance with the animal utilization protocol no. 04R030 (University of Guelph) and the Guide to the Care and Use of Experimental Animals (1). Mice were fed sterilized solid rodent chow and water. When needed, water was supplemented with Amp and Km at a concentration of 400 mg L−1 and 200 mg L−1, respectively. Each mouse was assessed daily for weight, body temperature, signs of dehydration, posture and alertness.

US11857581B2. Antiviral methods and compositions comprising probiotic bacterial molecules (2024-01-02). MicroSintesis Inc. [CA]. Inventors: Mansel Griffiths [CA].
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Patent 2024
Acclimatization Animals Body Temperature Dehydration Females isolation Mice, House Mice, Inbred ICR Rodent
3
Sepsis Modeling in Mice Using N. meningitidis Strains
Not available on PMC !

Example 7

Sepsis modeling was performed as described by Gorringe A. R., Reddin, K. M., Voet P. and Poolman J. T. (Methods Mol. Med. 66, 241 (Jan. 1, 2001)) and Johswich, K. O. et al. (Infect. Immun. 80, 2346 (Jul. 1, 2012)). Groups of 6 eight-week-old C57BL/6 mice (Charles River Laboratories) were inoculated via intraperitoneal injection with N. meningitidis strain B16B6, B16B6 Δtbpb, or B16B6 Δnmb0313 (N=2 independent experiments). To prepare inoculums, bacterial strains for infection were grown overnight on GC agar, resuspended and then grown for 4 h in 10 ml of Brain Heart Infusion (BHI) medium at 37° C. with shaking. Cultures were adjusted such that each final 500 μl inoculum contained 1×106 colony forming units and 10 mg human holo-transferrin. Mice were monitored at least every 12 h starting 48 h before infection to 48 h after infection for changes in weight, clinical symptoms and bacteremia. Mice were scored on a scale of 0-2 based on the severity of the following clinical symptoms: grooming, posture, appearance of eyes and nose, breathing, dehydration, diarrhea, unprovoked behavior, and provoked behavior. Animals reaching endpoint criteria were humanely euthanized. Animal experiments were conducted in accordance with the Animal Ethics Review Committee of the University of Toronto.

FIG. 7 shows the results obtained. FIG. 7A shows a solid phase binding assay consisting of N.men cells fixed with paraformaldehyde (PFA) or lysed with SDS and were spotted onto nitrocellulose and probed with α-TbpB antibodies. ΔSLAM/tn5 refers to the original strain of SLAM deficient cells obtained through transposon insertion. ΔSLAM describes the knockout of SLAM in Neisseria meningitidis obtained by replacing the SLAM ORF with a kanamycin resistance cassette. FIG. 7B shows a Proteinase K digestion assay showing the degradation of TbpB, LbpB and fHbp only when Nm cells are SLAM deficient (ΔSLAM). Nm cells expressing individual SLPs alone and with SLAM were incubated with proteinase K and Western blots were used to detect levels of all three SLPs levels with and without protease digestion (−/+). Flow cytometry was used to confirm that ΔSLAM cells could not display TbpB (FIG. 7C) or fHbp (FIG. 7D) on the cell surface. Antibodies against TbpB and fHbp were used to bind surface exposed SLPs followed by incubation with a α-Rabbit antibody linked to phycoerythrin to provide fluorescence. The mean fluorescent intensity (MFI) of each sample was measured using the FL2 detector of a BD FACS Calibur. The signal obtained from wildtype cells was set to 100% for comparison with signals from knockout cells. Error bars represent the standard error of the mean (SEM) from three experiments. Shown in FIG. 7E are the results of mice infections with various strains. Mice were infected via intraperitoneal injection with 1×106 CFU of wildtype N. meningitidis strain B16B6, B16B6 with a knockout of TbpB (ΔtbpB), or B16B6 with a knockout of nmb0313 Δslam and monitored for survival and disease symptoms every 12 h starting 48 hr pre-infection to 48 h post-infection and additionally monitored at 3 hr post-infection. Statistical differences in survival were assessed by a Mantel-Cox log rank test (GraphPad Prism 5) (*p<0.05, n.s. not significant). These results show a marked reduction in post-infection mortality in mice infected with the knockout of nmb0313 Δslam strain.

US11872275B2. SLAM polynucleotides and polypeptides and uses thereof (2024-01-16). ENGINEERED ANTIGENS INC. [CA]. Inventors: Trevor F. Moraes [CA], Christine Chieh-Lin Lai [CA], Yogesh Hooda [CA], Andrew Judd [CA], Anthony B. Schryvers [CA], Scott D. Gray-Owen [CA].
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Patent 2024
Agar Animals Antibodies Bacteremia Bacterial Infections Biological Assay Brain Cells Cultured Cells Dehydration Diarrhea Digestion Endopeptidase K Eye Flow Cytometry Fluorescence Genes Heart Homo sapiens Immunoglobulins Infection Injections, Intraperitoneal Jumping Genes Kanamycin Resistance Mice, Inbred C57BL Mus Neisseria Neisseria meningitidis Nitrocellulose Nose paraform Peptide Hydrolases Phycoerythrin prisma Rabbits Rivers Sepsis Strains Transferrin Virulence Western Blot
4
Ultrastructural Analysis of HCEC-B4G12 Cells
Using a dose of 50 μg/mL, the five types of Mt (Na-Mt, H-Na-Mt, C-H-Na-Mt, Ca-Mt, and MMt) were respectively used to treat HCEC-B4G12 cells for 24 h, after which the cells were seeded in 6-cm-diameter dish and cultured overnight at 37 °C in a 5%-CO2 incubator. The cells were washed three times with PBS and collected, then fixed overnight with 2.5% glutaraldehyde solution at 4 °C. After undergoing gradient dehydration and embedding, the sample cells were sectioned by ultrathin slicer, stained and dried, and examined with transmission electron microscope (TEM; Hitachi H7650, Japan).
Liu J., Yang S., Zhao L., Jiang F., Sun J., Peng S., Zhao R., Huang Y., Fu X., Luo R., Jiang Y., Li Z., Wang N., Fang T, & Zhang Z. (2023). ROS generation and p-38 activation contribute to montmorillonite-induced corneal toxicity in vitro and in vivo. Particle and Fibre Toxicology, 20, 8.
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Publication 2023
3-hydroxycholest-7-ene-14-carbaldehyde Cells Dehydration Glutaral Hyperostosis, Diffuse Idiopathic Skeletal Transmission Electron Microscopy
5
Neuroimaging of Anesthetized Ferrets

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Publication 2023
Agar Anesthesia Anesthetics Animals Bone Screws Brain Cerebrospinal Fluid Cortex, Cerebral Craniotomy Cranium Dehydration Dura Mater Eye Movements Ferrets Glucose Isoflurane Ketamine Lactated Ringer's Solution Operative Surgical Procedures Oxide, Nitrous Oxygen Pentobarbital Sodium physiology Punctures Rate, Heart Reading Frames Respiratory Rate Rocuronium Bromide Saline Solution Saturation of Peripheral Oxygen Scalp Temporal Muscle Tissues Trachea Tracheostomy Visual Cortex Xylazine

Top products related to «Dehydration»

1
Glutaraldehyde by Merck Group
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Glutaraldehyde is a chemical compound used as a fixative and disinfectant in various laboratory applications. It serves as a cross-linking agent, primarily used to preserve biological samples for analysis.
2
H 7650 by Hitachi
Sourced in Japan, United States, Germany, United Kingdom, China, France
The Hitachi H-7650 is a transmission electron microscope (TEM) designed for high-resolution imaging of materials. It provides a core function of nanoscale imaging and analysis of a wide range of samples.
3
Ht7700 by Hitachi
Sourced in Japan, United States, Germany, China, United Kingdom
The HT7700 is a high-resolution transmission electron microscope (TEM) designed for materials analysis and characterization. It provides advanced imaging and analytical capabilities for a wide range of applications in materials science, nanotechnology, and life sciences. The core function of the HT7700 is to enable high-resolution, high-contrast imaging and elemental analysis of nanoscale structures and materials.
4
Image pro plus 6 by Media Cybernetics
Sourced in United States, Japan, Germany, United Kingdom, China, Hungary, Singapore, Canada, Switzerland
Image-Pro Plus 6.0 is a comprehensive image analysis software package designed for scientific and industrial applications. It provides a wide range of tools for image capture, enhancement, measurement, analysis, and reporting.
5
Paraformaldehyde (pfa) by Merck Group
Sourced in United States, Germany, United Kingdom, China, Italy, France, Macao, Australia, Canada, Sao Tome and Principe, Japan, Switzerland, Spain, India, Poland, Belgium, Israel, Portugal, Singapore, Ireland, Austria, Denmark, Netherlands, Sweden, Czechia, Brazil
Paraformaldehyde is a white, crystalline solid compound that is a polymer of formaldehyde. It is commonly used as a fixative in histology and microscopy applications to preserve biological samples.
6
Microtome by Leica
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A Microtome is a precision instrument used to cut extremely thin sections of material, typically for microscopic examination. It operates by moving a sample through a sharp blade, producing uniform slices of the desired thickness. The core function of a Microtome is to enable the preparation of high-quality samples for various microscopic techniques.
7
Embed 812 by Electron Microscopy Sciences
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Embed 812 is a high-quality embedding medium used in electron microscopy sample preparation. It is a cross-linking epoxy resin that provides excellent support and preservation of ultrastructural details in biological and material science specimens.
8
Em uc7 by Leica
Sourced in Germany, Austria, United States, Japan, Switzerland, China, France
The Leica EM UC7 is an ultramicrotome designed for cutting ultrathin sections of samples for transmission electron microscopy (TEM) analysis. It features a precision-engineered cutting mechanism that allows for the preparation of high-quality ultrathin sections with thicknesses ranging from 15 to 500 nanometers.
9
S 4800 by Hitachi
Sourced in Japan, United States, China, Germany, United Kingdom, Spain, Canada, Czechia
The S-4800 is a high-resolution scanning electron microscope (SEM) manufactured by Hitachi. It provides a range of imaging and analytical capabilities for various applications. The S-4800 utilizes a field emission electron gun to generate high-quality, high-resolution images of samples.
10
Ultramicrotome by Leica
Sourced in Germany, United States, Austria, Japan, Switzerland, United Kingdom, Canada
The Ultramicrotome is a precision instrument designed for the preparation of ultrathin sections of materials for transmission electron microscopy (TEM) analysis. It employs a diamond knife to slice samples into extremely thin sections, typically less than 100 nanometers thick, enabling the detailed examination of the internal structure and composition of a wide range of materials.

More about "Dehydration"

Dehydration is a state of water-electrolyte imbalance where the body loses more fluids than it takes in, leading to a disruption in the body's water and electrolyte levels.
This condition can be caused by various factors, such as excessive sweating, diarrhea, vomiting, or fever.
Common symptoms of dehydration include thirst, dry mouth, fatigue, headache, and dizziness.
Severe dehydration can be life-threatening and requires prompt medical attention.
Proper hydration, electrolyte replacement, and addressing the underlying cause are essential for managing dehydration.
Researchers and clinicians can utilize advanced AI-driven platforms like PubCompare.ai to optimize dehydration research protocols, identify the most effective treatments, and stay up-to-date with the latest scientific findings.
PubCompare.ai is a powerful tool that can help researchers and clinicians optimize their dehydration research protocols.
This AI-driven platform allows users to easily locate the best protocols from literature, pre-prints, and patents using advanced AI comparisons.
By leveraging PubCompare.ai, researchers and clinicians can identify the most effective dehydration protocols and products, ensuring they stay at the forefront of the latest scientific advancements.
In addition to dehydration research, PubCompare.ai can also be used to explore related topics, such as the use of Glutaraldehyde, H-7650, HT7700, Image-Pro Plus 6.0, Paraformaldehyde, Microtome, Embed 812, EM UC7, and S-4800 Ultramicrotome in various research and clinical applications.
By incorporating insights from these related fields, researchers can gain a more comprehensive understanding of the complex mechanisms underlying dehydration and develop more effective treatment strategies.
Whether you're a researcher investigating the latest dehydration treatments or a clinician seeking to optimize patient care, PubCompare.ai is an invaluable tool that can help you stay ahead of the curve and deliver the best possible outcomes for your patients or research participants.