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> Anatomy > Body Space or Junction > Sinuses, Nasal

Sinuses, Nasal

Sinuses, Nasal: The air-filled cavities within the bones of the face and skull, including the frontal, ethmoid, sphenoid, and maxillary sinuses.
These sinuses are lined with mucous membranes and connected to the nasal cavity.
They function to warm, humidify, and filter inspired air, as well as provide resonance for the voice.
Proper sinus and nasal function is critical for respiratory health and overall well-being.
Explore the latest research on effective sinus and nasal therapies using PubComapre.ai's AI-powered comparison tools.

Most cited protocols related to «Sinuses, Nasal»

1
Transcriptional Profiling of Chicken Hearts and Human Huntington's Brains
Thirty hearts of chicken embryos of 3 days of development were isolated and separated into the five different compartments, i.e. sinus venosus (SV), atrium (A), atrioventricular canal (AVC), ventricle (V) and outflow tract (OFT). Post-mortem cortical brain tissue of eight control persons and 10 Huntington disease patients was obtained from Prof Dr R.A.C. Roos (Leiden University, the Netherlands). Total RNA was isolated using RNAeasy columns (Qiagen) according to the manufacturer's instructions. The total RNA was treated with DNase RQ1 (Promega) and the integrity of the RNA was checked using the BioAnalyzer and the Agilent RNA 6000 Nano kit (II). A 1–0.5 µg total RNA was converted into cDNA using an anchored poly-dT primer and the Superscript II (human samples) or III (chicken samples) Reverse transcription kit (Invitrogen).
Ruijter J.M., Ramakers C., Hoogaars W.M., Karlen Y., Bakker O., van den Hoff M.J, & Moorman A.F. (2009). Amplification efficiency: linking baseline and bias in the analysis of quantitative PCR data. Nucleic Acids Research, 37(6), e45.
Publication 2009
Autopsy Brain Cerebral Ventricles Chickens Common atrioventricular canal Cortex, Cerebral Deoxyribonucleases DNA, Complementary Embryonic Development Heart Heart Atrium Homo sapiens Huntington Disease Oligonucleotide Primers Patients Poly T Promega Reverse Transcription Sinuses, Nasal Tissues
2
Optimized Cross-Modal Registration and Tissue Segmentation for fMRI Analysis

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Publication 2010
Blood Vessel Brain Cerebral Ventricles Cortex, Cerebral Epistropheus Gray Matter Heart Ventricle Sinuses, Nasal Tissues Vascular Fistula White Matter
3
Extracting Vein and Tissue-based Features for BOLD Signal Denoising

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Publication 2014
Brain fMRI Histocompatibility Testing Sinuses, Nasal Veins
4
Quantifying Venous Oxygenation via MRI
Data were processed using in-house MATLAB (Mathworks, Natick, MA) scripts. After motion correction, pair-wise subtraction was performed for the control and label images to obtain the difference images for each eTE (e.g. Fig. 3a). For this study, we were primarily interested in venous oxygenation in the sagittal sinus. Therefore, an ROI covering the sagittal sinus region was manually drawn and, within this ROI, four voxels containing the largest difference signals in the eTE=0 image were selected as the mask for spatial averaging. The voxel number, 4, is chosen because we found that all subjects have at least 4 sagittal sinus voxels (at the resolution of 3.6×3.6×5 mm3) as visible in the difference image. Some subjects had greater sagittal sinus, but as long as we can accurately estimate the signal decay constant with 4 voxels, the other voxels do not have to be included. The effect of subjective ROI drawing and the number of voxels used are further discussed in the Results section.
The ΔS was fitted to Eqn. 4 (e.g. Fig. 3b) to obtain the exponent C, from which T2b was calculated by assuming a blood T1 of 1624ms (22 (link)). The T2b was then converted to blood oxygenation using the calibration plot shown in Fig. 3c. In addition, from the fitting procedure, the 95% confidence interval for the estimated parameters was also calculated (using Matlab routine nlparci.m). This gave an assessment of the uncertainty of the reported parameter values.
Lu H, & Ge Y. (2008). Quantitative evaluation of oxygenation in venous vessels using T2-Relaxation-Under-Spin-Tagging MRI. Magnetic resonance in medicine : official journal of the Society of Magnetic Resonance in Medicine / Society of Magnetic Resonance in Medicine, 60(2), 357-363.
Publication 2008
BLOOD Cell Respiration Sinus, Superior Sagittal Sinuses, Nasal Veins
5
Recurrence and Refractoriness in Japanese CRS
This multicenter retrospective study was implemented to examine the factors related to recurrence or refractoriness of CRS in the Japanese population from 2011 to 2012. ‘Recurrent’ CRS was defined as CRS that presented recurring nasal polyps or sinusitis (nasal symptoms) after ESS. ‘Refractory’ CRS was defined as recurrent CRS that was not cured by any medical treatment after ESS. This study was conducted in 15 institutions of Japan and related facilities participating in the grants‐in‐aid program (Ministry of Health, Labour and Welfare Grant; Japan Epidemiological Survey of Refractory Eosinophilic Chronic Rhinosinusitis [JESREC] Study). The study was approved by the ethics committee of each institution participating in the JESREC Study.
We assessed patients with CRS (including CRSwNP and CRSsNP) treated with ESS from January 2007 to December 2009 in the 15 institutions. The diagnosis of sinus disease was based on patient history, clinical examination, nasal endoscopy, and computed tomography (CT) of the sinuses, according to the guidelines of the European Position Paper on Rhinosinusitis and Nasal Polyps 1. Our study excluded patients treated with systemic or topical corticosteroids before surgery, patients whose information on systemic or topical corticosteroids was unknown, patients who were followed up for <28 days after surgery, patients whose white blood cell counts were 10 000/μl or more, as well as patients from which there was no pathological specimen.
Preoperative demographic and medical history including sex, age, age of onset, reaction to drugs, history of smoking, complications, and drug allergies were obtained from each patient. Rhinology specialists assessed all participants on seven symptoms and signs before surgery: nasal polyps, viscous rhinorrhea, postnasal drip, facial pain, hyposmia, anosmia, and closure of the olfactory cleft. Blood samples were taken to perform complete blood counts and measure 10 types of antigen‐specific IgE. CT findings were graded according to the Lund–MacKay method 13. Recurrence of CRS was defined as the presence of nasal polyps or nasal symptoms in nasal endoscopy.
Tokunaga T., Sakashita M., Haruna T., Asaka D., Takeno S., Ikeda H., Nakayama T., Seki N., Ito S., Murata J., Sakuma Y., Yoshida N., Terada T., Morikura I., Sakaida H., Kondo K., Teraguchi K., Okano M., Otori N., Yoshikawa M., Hirakawa K., Haruna S., Himi T., Ikeda K., Ishitoya J., Iino Y., Kawata R., Kawauchi H., Kobayashi M., Yamasoba T., Miwa T., Urashima M., Tamari M., Noguchi E., Ninomiya T., Imoto Y., Morikawa T., Tomita K., Takabayashi T, & Fujieda S. (2015). Novel scoring system and algorithm for classifying chronic rhinosinusitis: the JESREC Study. Allergy, 70(8), 995-1003.
Publication 2015
Adrenal Cortex Hormones Antigens BLOOD Complete Blood Count Diagnosis Drug Allergy Drug Reaction, Adverse Endoscopy, Gastrointestinal Eosinophil Europeans Facial Pain Hyposmia Institutional Ethics Committees Japanese Leukocyte Count Nasal Polyps Nose Ocular Refraction Operative Surgical Procedures Patients Physical Examination Recurrence Rhinorrhea Sense of Smell Sinus Disease, Paranasal Sinuses, Nasal Sinusitis Specialists Viscosity X-Ray Computed Tomography

Most recents protocols related to «Sinuses, Nasal»

1
Periprosthetic Membrane Analysis in APL

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Publication 2023
Adult Arthropathy Bone-Implant Interface Connective Tissue Diseases Diagnosis Ethanol Ethics Committees, Clinical Females Femoral Fractures Femur Heads Fever Fracture, Bone Head Homo sapiens Infection Joints Males Necrosis Pain Paraffin Embedding paraform Patient Participation Patients Repeat Surgery Sinuses, Nasal Synovial Fluid Synovial Membrane System, Immune Tissue, Membrane Tissues Total Hip Arthroplasty X-Rays, Diagnostic
2
Evaluating Nasal Airflow Dynamics
The computed tomography (CT) scans of the head and nasal sinuses were obtained from a patient without ENT pathology (Patient 1) and patient reporting to the Otolaryngology Outpatient Department due to difficulties with nasal breathing (Patient 2). The CT images (Fig. 2) were obtained in axial planes with multiplanar reconstructions with a slice thickness of 0.6–0.75 mm, resolution of 512 × 512 pixels, and pixel size of 0.3906  ×  0.3906 mm. 3-D Slicer and Autodesk®Meshmixer (Autodesk Inc., San Francisco, USA) programs were used for image processing and model rendering (Fig. 1). A detailed description of the model preparation process was described in our previous publication9 (link). The evaluation of the flow studies was performed separately for inspiration and expiration. This study focused on assessing air movement in the ostiomeatal complex region and was conducted by two experienced otolaryngologists, who also interpreted the results independently.
The Regional Bioethics Committee of the Medical University of Gdańsk (Poland) approved our study protocol (nr. NKBBN/521/2013). The research was performed in accordance with the Declaration of Helsinki. We obtained informed consent from all participants to use their CT images in this study and to publish the results.
Tretiakow D., Tesch K., Markiet K., Przewoźny T., Kusiak A., Cichońska D, & Skorek A. (2023). Numerical analysis of the ostiomeatal complex aeration using the CFD method. Scientific Reports, 13, 3980.
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Publication 2023
Air Movements Dyspnea Head Inhalation Nose Otolaryngologist Outpatients Patients Radionuclide Imaging Reconstructive Surgical Procedures Sinuses, Nasal X-Ray Computed Tomography
3
Postoperative Management for Total Hip Arthroplasty
Postoperative management included: Conventional antibiotics were applied intraoperatively to prevent infection, and antibacterial drugs were applied prophylactically within 24 hours postoperatively. Tranexamic acid 1 was given intravenously 3 hours postoperatively. Subcutaneous anticoagulation with 4100 U of low-molecular heparin was started 10 hours after surgery, qd × 5 days. After discharge, the patient was given oral rivaroxaban 10 mg, qd × 14 days. Ice packs were applied intermittently for 48 hours after surgery, and the dressing was changed every other day. The incision was removed at 12 to 14 days postoperatively with outpatient review. The patient started normal weight-bearing walking with the aid of a walker 1 day after surgery THA. Patients were instructed to actively flex and extend the knee joint, perform ankle pump exercises and quadriceps isometric contraction exercises as well as passive exercises 1 day after surgery.
Validated updated version of diagnostic criteria for PJI in 2018 are as follows[13 (link)] (based on the diagnostic criteria of PJI proposed by the Musculoskeletal infection society in 2011):
Two positive cultures or the presence of a sinus tract were considered major criteria and diagnostic of PJI. The calculated weights of an elevated serum CRP (>1 mg/dL), D-dimer(>860ng/mL) and ESR (>30mm/hour) were 2, 2 and 1 points, respectively. Elevated synovial fluid WBC count (>3000 cells/µL), alpha-defensin (signal-to cutoff ratio > 1), LE (++), PMN% (>80%) and synovial CRP (>6.9mg/L) received 3, 3, 3, 2 and 1 points, respectively. Patients with an aggregate score of greater than or equal to 6 were considered infected while a score between 2 and 5, required the inclusion of intraoperative findings for confirming or refuting the diagnosis. Intraoperative findings of positive histology, purulence and single positive culture were assigned 3, 3, and 2 points, respectively. Combined with the preoperative score, a total of greater than or equal to 6 was considered infected, a score between 4 and 5 was inconclusive, and a score of 3 or less was not infected.
Yang Z., Ji W., Xia Y, & Wang X. (2023). Late summer is a risk factor for periprosthetic joint infection after total joint arthroplasty: A retrospective cohort study. Medicine, 102(10), e33089.
Publication 2023
alpha-Defensins Ankle Anti-Bacterial Agents Antibiotics Cells Diagnosis fibrin fragment D Heparin Infection Isometric Contraction Knee Joint Operative Surgical Procedures Outpatients Patient Discharge Patients Quadriceps Femoris Rivaroxaban Serum Sinuses, Nasal Surgery, Day Synovial Fluid Tranexamic Acid Walkers
4
Diagnosing Bacterial and Fungal Infections
Bacterial infections are classified as bacteremia or site-specific infections. Multiple positive blood cultures for different organisms on the same day are considered distinct events. If bacterial isolates were a possible skin contaminant (diphtheria, bacillus or coagulase-negative staphylococci) and were isolated in only one blood culture, they were excluded unless systemic antibiotics were given. Infections were recorded if there was a microbiologic or histopathologic diagnosis, and the date of onset of infection was defined as the date on which diagnostic testing was performed. A second event was considered if repeated positive cultures and intermediate cultures were negative >21 days after the initial diagnosis. Site-specific bacterial infection was defined as evidence of bacterial infection by the culture of a normally sterile site or culture of a nonsterile site and evidence of tissue invasion. Lower respiratory tract infection was defined as the detection of a respiratory virus in bronchoalveolar lavage fluid with new or changing pulmonary infiltrates and lower respiratory tract symptoms. Invasive mycosis may be present, and fungal infection is documented. Infections caused by respiratory viruses were classified as upper respiratory tract infections if the virus was detected in nasopharyngeal/throat washes or swabs, sinuses or sputum without symptoms or clinical evidence of lower respiratory tract infection.
Gao Z., Lian Y., Ti J., Ren R, & Ma L. (2023). Therapeutic efficacy and infectious complications of CD19-targeted chimeric antigen receptor-modified T cell immunotherapy. Anti-Cancer Drugs, 34(4), 551-557.
Publication 2023
Antibiotics Bacteremia Bacteria Bacterial Infections Blood Culture Bronchoalveolar Lavage Fluid Coagulase Diagnosis Diphtheria Infection Lacticaseibacillus casei Lung Mycoses Nasopharynx Pharynx Respiratory Rate Respiratory Tract Infections Signs and Symptoms, Respiratory Sinuses, Nasal Skin Sputum Staphylococcus Sterility, Reproductive Tissues Upper Respiratory Infections Virus
5
Reproductive Output and Immunity in Yellow Mud Turtles
Tissue sampling for the yellow mud turtles (YMT) for this study took place in May 2018 on Gimlet Lake at our long-term research site on the Crescent Lake National Wildlife Refuge (CLNWR), in Garden County, Nebraska, USA (41°45.24′N, 102°26.12′W). The Gimlet Lake marsh complex is a shallow (average depth 0.8 m), sandhill lake with marsh habitat [88 ]. YMTs exhibit temperature-dependent sex determination (TSD) with females produced under warm incubation conditions and both males and females produced under cooler conditions [59 (link)]. Mark-recapture and nesting ecology studies were ongoing here from 1981 through 2018. At this site, YMTs typically overwinter terrestrially buried in upland sandhills adjacent to wetlands, emerge in April and May, and migrate to the water, and then most females return to the same sandhills to nest in June, although some do not reproduce every year [67 , 87 ]. By July all turtles begin leaving the wetlands to estivate in the sandhills for the remainder of the summer (see also [89 (link)]). During field seasons, drift fences were constructed parallel to the shore between three overwintering sites and the lake, and monitored continuously each day.
During years (including 2017) when the fences were in place during the nesting season, each captured female was x-rayed to determine clutch size, and the width of each egg on each x-ray was measured. A regression equation relating mean clutch x-ray width with actual mean egg mass from a subset of nests that were subsequently excavated allowed us to estimate egg mass and clutch mass (both in g) for each gravid female in 2017 (n = 85). The equations for these relationships and fit are as follows: Actual Egg Width = 0.98(Estimated Egg Width) + 1.52, R2 = 0.89; Actual Egg Mass = 0.64(Estimated Egg Mass) – 6.07, R2 = 0.85; and in a sample of N = 1795 YMT eggs collected over several years egg width can be reliably used to estimate egg mass (and therefore total clutch mass) Egg Mass = 0.68(Egg Width) – 6.77, R2 = 0.85 (Iverson, unpublished data). This enabled us to examine the effects of those measures of reproductive output on immunity in the spring of 2018 as these 85 female turtles emerged from brumation.
Once captured, turtles were transported back to the field laboratory where morphometric data were recorded, including maximum carapace length (CL in mm), maximum plastron length (PL in mm), and body mass (BM in g). Up to 0.5 ml of whole blood was collected from the cervical sinus via 26 gauge heparinized syringe, centrifuged (7000 rpm) in a cryotube for 5 min to separate blood components. Blood plasma was pipetted to a separate cryotube. Both plasma and packed red blood cells were immediately flash frozen in liquid nitrogen until transport to Iowa State University for storage at − 80 °C. Sampled turtles (98 males and 102 females) were transported back to their initial capture location and released on the opposite side of the fence to proceed to the lake.
Bronikowski A.M., Hedrick A.R., Kutz G.A., Holden K.G., Reinke B, & Iverson J.B. (2023). Sex-specific innate immunity and ageing in long-lived fresh water turtles (Kinosternon flavescens: Kinosternidae). Immunity & Ageing : I & A, 20, 11.
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Publication 2023
Animal Shells BLOOD Blood Component Transfusion Eggs Erythrocytes Females Freezing Human Body Males Marshes Neck Nitrogen Plasma Pregnant Women Radiography Reproduction Response, Immune Sex Determination Analysis Sinuses, Nasal Syringes Tissues Turtle Wetlands Woman

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More about "Sinuses, Nasal"

Sinus and Nasal Health: Exploring the Air-Filled Cavities of the Face and Skull The sinuses, or air-filled cavities within the bones of the face and skull, play a crucial role in respiratory health and overall well-being.
These sinuses, including the frontal, ethmoid, sphenoid, and maxillary sinuses, are lined with mucous membranes and connected to the nasal cavity.
Their primary functions are to warm, humidify, and filter inspired air, as well as provide resonance for the voice.
Proper sinus and nasal function is critical for maintaining optimal respiratory function.
Researchers have utilized various tools and techniques, such as MATLAB, CARTO 3, and C57BL/6J mice, to study the underlying mechanisms and explore effective therapies for sinus and nasal issues.
One such tool, the PentaRay, has been employed to measure sinus and nasal airflow, while the Hemavet 950FS has been used to analyze blood parameters in C57BL/6J mice.
Additionally, the RNAlater solution has been utilized to preserve RNA samples for further analysis, and the Thermocool system has been leveraged for sinus and nasal procedures.
Cholesterol levels, as measured by the Cholesterol E-test, can also play a role in sinus and nasal health, as imbalances in cholesterol can contribute to inflammation and other respiratory complications.
By understanding the complexities of the sinus and nasal system, researchers can develop more effective therapies and treatments to address a wide range of respiratory issues.
PubCompare.ai's AI-powered comparison tools can help identify the most promising protocols and products from the latest literature, preprints, and patents, enhancing the reproducibility and accuracy of sinus and nasal research.