dedup-isc-ft-v107-score float64 0.3 1 | uid stringlengths 32 32 | text stringlengths 1 17.9k | paper_id stringlengths 8 11 | original_image_filename stringlengths 7 69 |
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0.462884 | 6cde5da4650246a9b30c993fc3e72ebd | Main interactions between global hemodynamics (HR and MAP), EEG based-parameters, REG geometric features (CBF lin) and REG Poincaré plot (CBF PP) parameters during steady state anesthesia. The post hoc non-parametric U Mann-Whitney test and statistical significance level p-value < 0.005 were considered. | PMC10013012 | fnetp-02-912733-g005.jpg |
0.485106 | 16924ad078ba406a939897f8ca8d4a8f | Causal interactions from (A) CePropo to: (A1) EEG based-parameters (δ, θ, α, ß) and global hemodynamics (HR, MAP), (A2) REG geometric features and (A3) REG Poincaré plot features. (B) Causal interactions between global hemodynamics, EEG based-parameters, REG geometric features (CBF lin) and REG Poincaré plot (CBF PP) p... | PMC10013012 | fnetp-02-912733-g006.jpg |
0.489109 | 4849fbcb5dc64ceebd5120694e2c0b8c | Causal interactions from (A) CeRemi to: (A1) EEG based-parameters (δ, θ, α, ß) and global hemodynamics (HR, MAP), (A2) REG geometric features and (A3) REG Poincaré plot features. (B) Causal interactions between global hemodynamics, EEG based-parameters, REG geometric features (CBF lin) and REG Poincaré plot (CBF PP) pa... | PMC10013012 | fnetp-02-912733-g007.jpg |
0.408761 | 2e9553a49b4d4117af2e74d2d5cdce6a | Causal interactions between global hemodynamics, EEG based-parameters, REG geometric features (CBF lin) and REG Poincaré plot (CBF PP) parameters (A) in atropine infusion and (B) in ephedrine infusion. The post hoc non-parametric U Mann-Whitney test and statistical significance level p-value < 0.005 were considered. | PMC10013012 | fnetp-02-912733-g008.jpg |
0.420116 | 8675457e83154ecf867236c5e5de6477 | Causal interactions between global hemodynamics, EEG based-parameters, REG geometric features (CBF lin) and REG Poincaré plot (CBF PP) parameters (A) during Trendelenburg positioning and (B) during passive leg raising. The post hoc non-parametric U Mann-Whitney test and statistical significance level p-value < 0.005 we... | PMC10013012 | fnetp-02-912733-g009.jpg |
0.443524 | 7da33f52c3894ac6b00fd971a9eacb10 | Classes of p-value histograms.(A) Examples of p-value histogram classes. Red lines denote the algorithmic threshold separating p-value histograms into discrete classes. (B) Summary of p-value histograms identified from GEO supplementary files. One p-value set was randomly sampled from each GEO series where p-values wer... | PMC10013925 | pbio.3002007.g001.jpg |
0.440661 | 69d1a601c8ee4a2e83deecea5d31c350 | Association of the p-value histogram class with a differential expression analysis tool.(A) Time courses for proportions of different p-value histogram classes for the 5 most frequently used DE analysis platforms. Lines denote best fit of the model [class ~ year + (year | de_tool), categorical likelihood]. Shaded areas... | PMC10013925 | pbio.3002007.g002.jpg |
0.41559 | 740bfb0f9d2145e7a1ca60d8109dbad3 | Association of the proportion of true null effects (π0) with DE analysis tool.(A) Histogram of π0 values estimated from anti-conservative and uniform p-value sets. N = 1,188. The data file is in S3 Data. (B) Robust linear model [pi0 ~ de_tool, beta likelihood] indicates an association of π0 with the DE analysis tool. P... | PMC10013925 | pbio.3002007.g003.jpg |
0.419944 | 9349617b7d9c4c91838c76ea345e64b9 | The sample sizes of HT-seq DE experiments indicate low power.(A) Histogram of 2,393 sample sizes. The data file is in S7 Data. (B) Statistical power simulations using different π0 settings (shown as shades of blue coloring) and 2 different biological variation settings (“Gilad” corresponds to human liver samples and “B... | PMC10013925 | pbio.3002007.g004.jpg |
0.42786 | e8030570a80848789ec40dfee25a40e0 | Association of the sample size of the HT-seq DE experiment with p-value distributional class.(A) Increasing sample sizes are associated with an increased fraction of anti-conservative p-value distributions. Logistic model [anticons ~ N], Bernoulli likelihood, N = 2,392. The data file is in S9 Data. (B) Non-anti-conserv... | PMC10013925 | pbio.3002007.g005.jpg |
0.46392 | 8594e1ee4aef4f9d9973b38ea714204e | π0-s calculated from anti-conservative p-value sets do not behave in accordance to statistical theory.(A) Calculated π0-s (on the y-axis) from simulated data vs. given “true” proportions of DE-features (on the x-axes). Sample sizes are indicated in color code. The dotted line shows the perfect correspondence between th... | PMC10013925 | pbio.3002007.g006.jpg |
0.413903 | 6c8639ab93be41b79cc3a9a21ed4db67 | Removal of low-count features results in an increasing proportion of anti-conservative p-value histograms.(A-F) Sankey charts of transformation of p-value histogram shape. Ribbon size is linearly proportional to the number of p-value sets that change their distributional class. Only the 3,426 experiments that could be ... | PMC10013925 | pbio.3002007.g007.jpg |
0.479101 | bcfed2270b77450eb4441c7e943d5a92 | Pedigree chart with age of the patient and family members in years. Maternal uncle was diagnosed with anaplastic thyroid cancer at the age of 44 years and died from metastatic disease at the age of 45 years. Patient was diagnosed with papillary thyroid carcinoma and B-ALL at the age of 12 years. | PMC10014590 | fped-11-1067131-g001.jpg |
0.415766 | e587689cd8094adeb447fed16b10e961 | (A) Thyroidectomy reveals thyroid tissue with focal chronic inflammation and a papillary carcinoma (H&E stain, 100×). (B) Representative bone marrow biopsy reveals hypocellular marrow with trilineage hematopoiesis and no overt dysplasia (H&E stain, 400×). (C) Representative bone marrow aspirate reveals few erythroid an... | PMC10014590 | fped-11-1067131-g002.jpg |
0.427525 | e395fcea237d4df19778a257ccdf37df | Timeline of clinical events. | PMC10014590 | fped-11-1067131-g003.jpg |
0.406385 | 55f9c7750dd94cc99e13b13feffd1d7c | The pipeline of the human EMMI system.a An MRI scan is performed while the subject is wearing up to 24 MRI patches containing up to 192 markers. b An optical 3D scan of the body surface is performed while the subject is wearing electrode patches in the corresponding positions as the MRI patches. c Body surface electrom... | PMC10015052 | 41467_2023_36440_Fig1_HTML.jpg |
0.449573 | 97f10201ed344ebe8568af03005e5200 | Quantification of contractions with 3D uterine surface potential maps.a A representative body surface EMG was measured at the location labeled as star (*) in Subject #2 experiencing a uterine contraction in the latent phase of labor. One segment from ~18th second to 41st second was magnified. b–e Sequential potential m... | PMC10015052 | 41467_2023_36440_Fig2_HTML.jpg |
0.433532 | 4876450bf9924b959cc1408353a4d26d | Quantification of contractions with electrograms on the uterine surfaces.a For a contraction in Subject #2 that the clinical TOCO monitor confirmed, b the electrical activations are defined as the initiation of UEB in the multichannel electrograms at about 320 uterine sites covering the entire uterine surface. In the 5... | PMC10015052 | 41467_2023_36440_Fig3_HTML.jpg |
0.508659 | 34d3b76d2aea4b78af5873cc8d3f71c1 | EMMI activation patterns of uterine contractions during active labor in nulliparous women.a In Subject #1, the cervical dilation changed from 3.5 cm to 4 cm during the electrical recording and the cervix fully dilated to 10 cm 7.01 h after the recording was completed. The cervical dilation rate was calculated at 0.86 c... | PMC10015052 | 41467_2023_36440_Fig4_HTML.jpg |
0.494343 | 3e10e427c6c944f695ef05d497ad895d | EMMI activation patterns of uterine contractions during active labor in multiparous women.a In Subject #6, the cervical dilation remained at 4 cm and reached 10 cm in 6.95 h after the EMMI recording was completed. b–e Results for Subjects #7, #8, #9, and #10. Same format with Subject #6. 3D three-dimensional, EMMI elec... | PMC10015052 | 41467_2023_36440_Fig5_HTML.jpg |
0.41156 | 5f2b3f3387e9429699150d403828ab6c | Chest X-ray showing cardiomegaly with prominent bronchovascular markings | PMC10015394 | APC-15-412-g001.jpg |
0.460816 | 33ae0d6231f941a487ee499a5dfa9ca5 | Axial section of contrast-enhanced computed tomography of the chest showing pericardial effusion with prominent bronchovascular markings | PMC10015394 | APC-15-412-g002.jpg |
0.43889 | a127806137e944e08c9d43559fc38e5f | (a and b) T2-weighted image axial section showing pericardial effusion and hyperintensities along with thickening along peribronchovascular regions, interlobular septa, and lymphatics (blue arrow), suggestive of lymphangiectasia | PMC10015394 | APC-15-412-g003.jpg |
0.420008 | 31818719190a4bf29dac4cc1c564e3d1 | Reports of Markovnikov-selective
epoxide hydrogenation. | PMC10015984 | om2c00503_0002.jpg |
0.452754 | 9551369fbfca415a832f6f8fd4aa6206 | MEPs for the RuPNP- and RuPNN-catalyzed
hydrogenation of propylene oxide. Throughout this work, atoms in bold
and blue represent the atoms principally involved in bond-breaking
and bond-forming events in transition states. Energies given represent
free energies in kcal/mol at 356.15 K (83 °C), corrected to 1.0
M concen... | PMC10015984 | om2c00503_0003.jpg |
0.461505 | ea985662a48f46c88c0ea8fa69e8a2d6 | Comparison of the branched (left) and linear (right) pathways
for
epoxide ring-opening. For both the RuPNP and RuPNN systems, the branched pathway is preferred by approximately 4 kcal/mol. | PMC10015984 | om2c00503_0004.jpg |
0.46651 | 3850aa6bbf824ae3be63ed94dc4c6f49 | Comparison of SN2 (left) and Noyori-like
(right) transition
states for epoxide ring-opening. For both RuPNP and RuPNN systems, the SN2 pathway is preferred by
approximately 23 kcal/mol. | PMC10015984 | om2c00503_0005.jpg |
0.458335 | 62752add73f047bfb28731aa1b020570 | Kinetic data
for 1-tetradecene oxide hydrogenolysis catalyzed by RuMACHO-BH. The top plots (points) show the time course of
epoxide concentration using different initial concentrations of the
Ru complex, hydrogen pressures, and initial concentrations of the
epoxide. The solid lines represent linear fits to the natural ... | PMC10015984 | om2c00503_0006.jpg |
0.44465 | 35ae9ac18dfb474fa62d02a6f2a996f9 | Kinetic data for tetradecene oxide hydrogenolysis catalyzed
by RuPNNimine. The top plots
(points)
show the time course of epoxide conversion using different initial
concentrations of the Ru complex, hydrogen pressures, and initial
concentrations of the epoxide. The solid lines represent linear fits
to the logarithm of ... | PMC10015984 | om2c00503_0007.jpg |
0.570422 | 77563538303e4bfc95117328b2cdb8ff | Mechanistic
Overview of Noyori-Type Catalytic Hydrogenation | PMC10015984 | om2c00503_0008.jpg |
0.531307 | 34e7058913a345dea6f5f7d5c3e89ada | Simplified
Scheme Determining the Kinetics for Epoxide Hydrogenolysis
for the RuPNN System | PMC10015984 | om2c00503_0009.jpg |
0.485071 | 699ec660d6a3462c890823b742df5384 | Standard Conditions for Kinetic Experiments | PMC10015984 | om2c00503_0010.jpg |
0.429409 | ba4fe4f468fd4b1baa7a977175091163 | Soundscape recording stations in the Northern Adriatic Sea; vessel traffic (a) and bathymetry (b) are highlighted. Vessel traffic is represented as total number of vessel passages in 2020, obtained from EMODnet Human Activities, Vessel Density Map. (revision date 2022-03-21). | PMC10016184 | 41597_2023_2033_Fig1_HTML.jpg |
0.483936 | c2c2f0ce589f4607bdf1a25a60a225df | Workflow of the acquisition and processing of underwater noise data to obtain SPL20,60 dataset. | PMC10016184 | 41597_2023_2033_Fig2_HTML.jpg |
0.470395 | 3c1e852115fe4d6fa4ef76fcaecfea88 | Sketch of the SOUNDSCAPE standard rig deployed on the seafloor, with hydrophone set at ~3 m above the seafloor (range from 2 to 6 m). | PMC10016184 | 41597_2023_2033_Fig3_HTML.jpg |
0.428454 | 92ed181e6d7847dc90c4958032ffa8d0 | Examples of SPL20,60 data post processing outputs generated applying the Python post processing script to the released dataset. | PMC10016184 | 41597_2023_2033_Fig4_HTML.jpg |
0.419268 | 6070bd31e9454129924c737e0f02ea0d |
(A) Traumatic ear defect preserving the concha, ear lobe, and root of helix. (B) Posterior auricular view of ear defect.
| PMC10016212 | toj-22-0045-figure1.jpg |
0.483455 | 2004fcb4c127464c860aad082bd150dc |
Anterior view of the amputated ear segment.
| PMC10016212 | toj-22-0045-figure2.jpg |
0.454586 | 816881173cbc44c89176d3742f87ecf3 |
Preserved de-skinned amputated cartilage.
| PMC10016212 | toj-22-0045-figure3.jpg |
0.405165 | da4e4ac2378d4cfdb44008f204477b25 |
(A) Pre-pocket burial approximation of the reconstruction plan. (B) Superior and (C) anterior view of pre-pocket burial native cartilage approximation. (D) Posterior view of pre-pocket burial approximation, revealing the future defect that will require full-thickness skin grafting.
| PMC10016212 | toj-22-0045-figure4.jpg |
0.442449 | 9415d527e70d4acea4a66c487dfaffcc |
Postoperative result of stage 1: de-skinned amputated ear cartilage buried in posterior auricular pocket with native ear wound closure and bacitracin dressing.
| PMC10016212 | toj-22-0045-figure5.jpg |
0.452164 | e2e43ff1aed14b02b21eb35680acf228 |
Anterior view of healed pocket burial.
| PMC10016212 | toj-22-0045-figure6.jpg |
0.460319 | 5a4fd69c6339446f83ce324fe1346731 |
Anterior view of the helical rim showing suture wrapped around the edge of the helix.
| PMC10016212 | toj-22-0045-figure7.jpg |
0.437364 | 7c858e960fdf42edbfb8f259b438d507 |
(A) Ear reconstruction at 2 weeks postoperatively. (B) Ear reconstruction at 3 months postoperatively.
| PMC10016212 | toj-22-0045-figure8.jpg |
0.437914 | a14fc9704397426a8b66feddc3f46151 | PRISMA flowchart. | PMC10017178 | gr1_lrg.jpg |
0.470022 | e40c68cb7db146598a8fd0e7687b46cc | Forest plot of overall and stratified pooled prevalence estimates by individual professions. | PMC10017178 | gr2_lrg.jpg |
0.448307 | 8c984fe0afe14a7abdf291c73b723246 | Forest plot of subgroup analysis by study level characteristics. | PMC10017178 | gr3_lrg.jpg |
0.380507 | 978a8fa142ae498a8f58a831337bb27b | Risk of bias summary. | PMC10017178 | gr4_lrg.jpg |
0.425634 | ff83a96e9e6e4c6a8b498d6afc495423 | Forest plot of subgroup analysis by JBI risk of bias criteria. | PMC10017178 | gr5_lrg.jpg |
0.443977 | 589ca2cdbd6c4ad88cc3c4ee38a12ba0 | Forest plot of odds ratio comparing the prevalence of probable mental health disorders in Hospital HCWs working in high risk and low risk units. | PMC10017178 | gr6_lrg.jpg |
0.436289 | 52bf86f7632a434eb8672099551eced1 | Forest plot of prevalence odds ratio comparing the prevalence of probable mental health disorders in Hospital HCWs providing direct care and no direct care. | PMC10017178 | gr7_lrg.jpg |
0.431174 | e53dc97233fc406497d287bc80f3d626 | Forest plot of prevalence odds ratio comparing the prevalence of probable mental health disorders in women and men. | PMC10017178 | gr8r1_lrg.jpg |
0.51606 | 092a01be9cc4475ea3b8c35394bda481 | FlowchartCRT, conformal radiotherapy; ITT, intention-to-treat; TACE, transcatheter arterial chemoembolisation. | PMC10017427 | gr1.jpg |
0.451535 | 1b42fde08be34e54903c6cc9e673e530 | Kaplan–Meier curves showing (A) liver PFS and (B) liver TTP in the ITT population evaluated without and after PS.CRT, conformal radiotherapy; ITT, intention-to-treat; PFS, progression-free survival; PS, propensity score; TACE, transcatheter arterial chemoembolisation; TTP, time to tumour progression. | PMC10017427 | gr2.jpg |
0.473261 | 441b8867deff4f5cb1d9c528f70ed5d4 | Kaplan–Meier curves showing treated liver PFS and TTP in the per-protocol population without and after PS.CRT, conformal radiotherapy; ITT, intention-to-treat; PFS, progression-free survival; PS, propensity score; TACE, transcatheter arterial chemoembolisation; TTP, time to tumour progression. | PMC10017427 | gr3.jpg |
0.484192 | c8012918e950462a934528883e694e5c | Kaplan–Meier curves showing probability of portal hypertension-related grade III–IV adverse event in the ITT population without and after PS.CRT, conformal radiotherapy; ITT, intention-to-treat; PS, propensity score; TACE, transcatheter arterial chemoembolisation. | PMC10017427 | gr4.jpg |
0.496296 | ac6e8a603888492ba5b3a55a357fa2dd | OS in the ITT population without and after PS.CRT, conformal radiotherapy; ITT, intention-to-treat; OS, overall survival; PS, propensity score; TACE, transcatheter arterial chemoembolisation. | PMC10017427 | gr5.jpg |
0.39276 | f9fc82a91dd24766b8089b6ab08e8fc1 | Csf1r-expressing fetal definitive progenitors give rise to adult testicular macrophages.a Strategy for 4-hydroxytamoxifen-induced (4-OHT) lineage-tracing and harvesting of testes from Csf1r-creER; Rosa-Tomato embryos and juvenile/adult mice. The embryo image was created with BioRender.com software (BioRender.com). b–n ... | PMC10017703 | 41467_2023_37199_Fig1_HTML.jpg |
0.363755 | 392866076ada418dad8602aee718be95 | Contribution of AGM-derived HSCs to adult testicular macrophages occurs within a specific recruitment window during fetal development.a Strategy for 4-OHT-induced lineage-tracing and harvesting of testes from KitcreER; Rosa-Tomato embryos and juvenile/adult mice. Embryo image was created with BioRender.com software (Bi... | PMC10017703 | 41467_2023_37199_Fig2_HTML.jpg |
0.404063 | 3a2a1622b957482daa2300ebe3519c75 | Flt3-expressing fetal HSC-derived multipotent progenitors give rise to adult testicular macrophages.a–h Representative images (n = 3 independent gonads) of Flt3-cre; Rosa-Tomato testes at E14.5 (a), E16.5 (b), E18.5 (c), P7 (d), P30 (e, f), and P90 (g, h). Arrowheads denote Tomato-expressing F4/80+ macrophages and arro... | PMC10017703 | 41467_2023_37199_Fig3_HTML.jpg |
0.422878 | 8d8c7f67704b43bcb6908b37a996feeb | Fetal testis monocytes gradually differentiate into testicular macrophages after birth.a Strategy for 4-OHT-induced lineage-tracing and harvesting of testes from Cx3cr1creER; Rosa-Tomato embryos and juvenile/adult mice. The embryo image was created with BioRender.com software (BioRender.com). b–j Representative images ... | PMC10017703 | 41467_2023_37199_Fig4_HTML.jpg |
0.418013 | acb126ee843e494f8e3dbebafca3d0ef | Sertoli cells regulate testicular immune cell recruitment.a–l Representative images (n = 3 independent gonads) of control (a, c, e, g, i, k) and Amh-cre; Rosa-DTA (b, d, f, h, j, l) testes at various fetal stages. Thin scale bar, 100 μm; thick scale bar, 25 μm. m, n Graphs showing number (n = 3 independent gonads) of F... | PMC10017703 | 41467_2023_37199_Fig5_HTML.jpg |
0.430732 | 420ac3d31baa470e9e6c15d0ec4cf5b3 | EMPs and HSC-derived macrophages have distinct functions during fetal testis development.a–d Images of E13.5 fetal testes from C57BL/6 J embryos exposed at E6.5 to either control rat IgG2a antibody (a, c) or anti-CSF1R blocking antibody to deplete YS-derived macrophages (b, d). Shown in (a, b) and (c, d) are representa... | PMC10017703 | 41467_2023_37199_Fig6_HTML.jpg |
0.380116 | d61efe4f6ebb42048545aafc35649990 | Adult interstitial macrophages promote Leydig cell proliferation and steroidogenesis.a–h Representative images (n = 3 independent experiments) of primary cell culture after 3 days (a–d) and 6 days (e–h) from adult (3-month-old) C57BL/6 J testes for pre-separation (a, e), CD45-depleted (b, f), CD45-enriched (c, g), and ... | PMC10017703 | 41467_2023_37199_Fig7_HTML.jpg |
0.419397 | 02b4d29736c643038fde338debd8feca | Go/No-go task procedure. | PMC10018214 | fpsyg-14-983361-g001.jpg |
0.418274 | bdd2ed939fc845e88e54438d20367538 | N2 and P3 ERP components linked to the target processing in the Go/No-go task. Average ERPs of a set of electrodes around FCz and Pz are shown for N2 and P3 components, respectively. | PMC10018214 | fpsyg-14-983361-g002.jpg |
0.473651 | f7ba731282bb4ef794e0f85a4fcf5efe | Correlation plots for the Go/No-go behavioral measures and the difference in peak amplitude (Go minus No-go condition) of the N2 ERP component. | PMC10018214 | fpsyg-14-983361-g003.jpg |
0.446165 | bb9d9d8fc93747a5a63cbe56e328d7c1 | Structural equations model to predict IC at 5 years of age from EA in infancy and IC in toddlerhood. | PMC10018214 | fpsyg-14-983361-g004.jpg |
0.401861 | 6fbd9c40543c4a468aa9db7b7b2b2543 | Magnetic resonance imaging of the proband's (A) brain, (B) cervical spine, (C) thoracic spine and (D) lumbar spine did not reveal any obvious pathognomonic alterations. | PMC10018243 | mmr-27-04-12966-g00.jpg |
0.470746 | 6677dc511c9a4c1fbfc25a00b7d5c581 | SPG4 family pedigree of 17 members. I-1, grandfather, deceased, exhibited difficulty walking. I-2, grandmother, deceased, who did not exhibit muscle weakness. II-1, oldest aunt who has no muscle weakness. II-2, second aunt who has no muscle weakness. II-3, oldest uncle, 66 years old, who has SPG4. II-4, father, 61 year... | PMC10018243 | mmr-27-04-12966-g01.jpg |
0.388863 | dc95ac58d95f4aab838e8353cf5d1e72 | Sanger sequencing results. The (A) oldest uncle (II-3), (B) father (II-4), (C) brother (III-5) and (D) proband (III-6) all carried the c.1785C>A missense mutations in the SPAST gene. The (E) third aunt (II-6) and (F) and sister (III-7) carried a wild-type SPAST. SPAST, spastin. | PMC10018243 | mmr-27-04-12966-g02.jpg |
0.400566 | 408d63b656854ddaae6ad6d24b4232dd | mRNA and protein structural predictions of the Spastin mutation. Structural predictions of (A) wild-type and (B) c.1785C>A missense mutant mRNA. Polarity predictions of (C) wild-type and (D) p.Ser595Arg Spastin amino acids. Secondary protein structure predictions of (E) wild-type and (F) p.Ser595Arg proteins. Tertiary ... | PMC10018243 | mmr-27-04-12966-g03.jpg |
0.449622 | 2349b33401cc486483ec171b0829a8fc | Synthesis scheme of poly(MM-EM-BM). | PMC10018717 | ao2c07516_0001.jpg |
0.421092 | ed71210067f641b09cb3f27104fd4f0e | Infrared spectrum of poly(MM-EM-BM). | PMC10018717 | ao2c07516_0002.jpg |
0.49508 | a023a28fff6a42dba6570f8b9feb5b52 | Particle
size distribution of oil-based nanosealer poly(MM-EM-BM). | PMC10018717 | ao2c07516_0003.jpg |
0.491244 | 6a54b68aa3684e0987b0950ad1fd7d79 | TG
analysis of poly(MM-EM-BM). | PMC10018717 | ao2c07516_0004.jpg |
0.423641 | ef9dccb31b7447d88c8de5c9818861f6 | Apparent viscosity curve for the addition of poly(MM-EM-BM)
with
different mass concentrations of drilling fluids. | PMC10018717 | ao2c07516_0005.jpg |
0.435483 | 2038c87e4112475c9efed3dc9ead6e8c | Plastic
viscosity curve for the addition of poly(MM-EM-BM)
with
different mass concentrations of drilling fluids. | PMC10018717 | ao2c07516_0006.jpg |
0.436755 | 04a4721b15614b66abea6a0da1b059c7 | Yield
value curve for the addition of poly(MM-EM-BM) with
different
mass concentrations of drilling fluids. | PMC10018717 | ao2c07516_0007.jpg |
0.467703 | 8d4d6022fb3f492aa42dd87bb3c5b78e | Yield
value/plastic viscosity curve for the addition of
poly(MM-EM-BM)
with different mass concentrations of drilling fluids. | PMC10018717 | ao2c07516_0008.jpg |
0.438105 | b182b1110c2046b7ac65714863288b0d | Demulsification voltage curve for the addition of poly(MM-EM-BM)
with different mass concentrations of drilling fluids. | PMC10018717 | ao2c07516_0009.jpg |
0.491171 | 31868bd30743481e8355986f22868247 | HTHP variation curve for the addition of poly(MM-EM-BM)
with different
mass concentrations of drilling fluids. | PMC10018717 | ao2c07516_0010.jpg |
0.572787 | f3de1206901b4d679e93051c89f1d273 | Evaluation
of the HTHP mud cake after adding poly(MM-EM-BM)
in
OBDFs. | PMC10018717 | ao2c07516_0011.jpg |
0.461645 | dc6f36f6048b4c7aad9571ab142aa979 | Effect of adding poly(MM-EM-BM) with different mass concentration
on the rates of permeability and sealing. | PMC10018717 | ao2c07516_0012.jpg |
0.448627 | 39f8d918dd7f4194be6fcf8b338bfddc | Sealing mechanism of poly(MM-EM-BM) used in
OBDFs. | PMC10018717 | ao2c07516_0013.jpg |
0.458083 | 3f54cdbf98ec4911bb5f44a98e1b9974 | The hypothetical diagram of the mechanism of organ-specific autoimmunity and viral infection affecting Treg and Th17 mediation. Organ-specific autoimmunity: target autoantigens are concentrated in the area around blood vessels and cause perivascular inflammation. Viral infection causes dendritic cells to recognize and ... | PMC10019105 | medi-102-e33211-g001.jpg |
0.472771 | 8ebf47f57ebd4b38a03e418c4f43cdf1 | Overview of the mitochondrial respiratory chain of E. multilocularis. Fumarate respiration (NADH:fumarate reductase system) involves complex I, rhodoquinone (RQ), and complex II (quinol:fumarate reductase, QFR). In this system, electrons from NADH are transferred to RQ through complex I, and then transferred to fumarat... | PMC10019194 | aac.01428-22-f001.jpg |
0.431781 | 1c1874f0c3d741ad8956ef5380c19b3b | Model structure of E. multilocularis complex II using AlphaFold2. Fp (SDHA), Ip (SDHB), CybL (SDHC), and CybS (SDHD) subunits are colored green, cyan, purple, and yellow, respectively. Four prosthetic groups, FAD, [2Fe–2S], [4Fe–4S], and [3Fe–4S], were also modeled based on the reported crystal structures of A. suum an... | PMC10019194 | aac.01428-22-f002.jpg |
0.463459 | 9df03def0446410a8c3ebcc88bd65df4 | Predicted interaction between AF derivatives and complex II. (A) The position of D5 and a flutolanil derivative (NN23) were merged to predict the interaction between D5 and amino acid residues of E. multilocularis complex II based on the cocrystal structure of A. suum complex II with NN23. (B) The 4-OH in D5 may contri... | PMC10019194 | aac.01428-22-f003.jpg |
0.431259 | ac1100cc9e63442b95cf0352c993fa0e | Binding sites of D5 to A. suum and E. multilocularis complex II and respective IC50 values are denoted. D5 inhibits E. multilocularis complex II (IC50 = 0.047 μM) more strongly than that of A. suum (IC50 = 11 μM). Ip, CybL, and CybS are colored cyan, purple, and yellow, respectively. The Phe73 in CybL and corresponding... | PMC10019194 | aac.01428-22-f004.jpg |
0.400509 | f7b6085a84934dd195a67e37dbc3f965 | Viability of E. multilocularis protoscoleces in ex vivo culture assay. The E. multilocularis protoscoleces were treated with ascofuranone (AF) and its derivatives in culture under aerobic and anaerobic conditions (O2 <0.3%). Each compound was added to the culture medium at a final concentration of 50 μM. The control gr... | PMC10019194 | aac.01428-22-f005.jpg |
0.422327 | 6aff868c958a4cf0a4040f5d9e21dd3f | Different modes of radical generation in photoinduced ATRP. (a)
Conventional photo-ATRP. (b) Organocatalyzed ATRP. (c) ATRP with photoredox/copper
dual catalysis. | PMC10019465 | ma2c02537_0002.jpg |
0.441881 | 74be5b99754447ec9684c83346da86fb | (a) Proposed
mechanism of EY/Cu-catalyzed ATRP. (b) Deprotonation
of EYH2 in PBS solution. (c) Formation of new polymer chains. | PMC10019465 | ma2c02537_0003.jpg |
0.424659 | dfd4df1158c24eb18f1bf04e843f3135 | Kinetics of
the optimized EY/Cu-catalyzed ATRP of OEOA480. (a) First-order
kinetic plot. (b) Evolution of molecular weight
and molecular weight distribution with conversion, (c) and molecular
weight distribution evolution with time. Reaction conditions: [OEOA480]/[HO-EBiB]/[EYH2]/[CuBr2]/[Me6TREN] = 200/1/0.01/0.2/0.3 ... | PMC10019465 | ma2c02537_0004.jpg |
0.439552 | f1a66fabda6e40aeab6e5710d3d7a1fa | (a) Temporal
control in EY/Cu-catalyzed ATRP of OEOA480. (b) SEC analysis
of the resulting polymer after 110 min (four cycles
of light on/off periods). (c) SEC analysis of poly(OEOA480) with varying targeted DP. | PMC10019465 | ma2c02537_0005.jpg |
0.471951 | 93c70665938449fe97b26257d70a4418 | (a) In situ
chain extension of poly(OEOA480). (b) Small-volume
ATRP. (c) Synthesis of an acrylate-based protein-polymer hybrid. | PMC10019465 | ma2c02537_0006.jpg |
0.45342 | a3fd96724d6840d8b630995e37c76a95 | Example of a choice task (English translation).Compared to the ban (reference policy) both tax alternatives result in lower reduction in farmers’ use of glyphosate (respectively of 75% for option 2 and 85% for option 3, to be compared with the 100% reduction of the ban) but have a lower cost for consumers (respectively... | PMC10019652 | pone.0283131.g001.jpg |
0.412168 | ab88a37ee5d64de4a48371406dd83c1e | Inclusion and exclusion criteria of the study participants. | PMC10019954 | gr1.jpg |
0.431 | d86a22dd86d7468a9cfbf79a33a86037 | Somer’s D coefficient, concordance between BMI-for-age Z-score and BMI-for-age centiles. | PMC10019954 | gr2.jpg |
0.459965 | 7742d5246b144b47a90cb97100b717f4 | Schematic illustration for biomedical applications of phototherapy based on 2D materials. | PMC10020212 | FBIOE_fbioe-2023-1141631_wc_sch1.jpg |
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