In order to investigate the anesthetic effect and safety of the ultrasound-guided brachial plexus block in pediatric upper limb surgery, this study retrospectively analyzed the anesthetic effect of the ultrasound-guided brachial plexus block in pediatric upper limb surgery. From January 2016 to December 2017, 82 children undergoing upper limb surgery in hospital A were selected and randomly divided into two groups by the coin method, with 41 children in each group. Ultrasound-guided brachial plexus block anesthesia and conventional anatomic localization brachial plexus block anesthesia were performed. The anesthetic drug dosage of sensory block at anesthesia completion time and motor block at onset time was compared between the two groups; the one-time puncture success rate and incidence of anesthesia complications were compared between the two groups (local anesthesia poisoning, nerve injury, pneumothorax, hematoma, and phrenic nerve palsy). The results showed that the anesthesia completion time in the study group was slightly longer than that in the control group. The sensory and motor block occurred earlier in the study group than in the control group. Low doses of narcotic drugs are used. The one-time puncture success rate of the study group was higher than that of the control group. The incidence of anesthesia complications was lower than that of the control group. The one-time puncture success rate was 92.8% in the study group and 75.7% in the control group. Ultrasound-guided brachial plexus block anesthesia has a significant effect in pediatric upper limb surgery, which can improve the anesthetic effect and reduce the incidence of complications, and is worthy of clinical promotion.

Li Gu

Hongqiang An

Xifeng Zhang

Wenxu Jiang

[Retracted] Clinical Application of Ultrasound Microscopy-Guided Pediatric Brachial Plexus Nerve Block Anesthesia

In order to investigate the influence of patient position change on the position of catheter tip in arm infusion port, the clinical data of 324 patients undergoing arm infusion port implantation in a hospital were retrospectively analyzed. It could be obtained that TIVAP was successfully implanted in 324 patients with malignant tumors. In 171 cases, the TIVAP catheter tip shifted to the foot side when the position was changed from upright to decubitus, with an average displacement of (12.29 ± 7.48) mm; 149 cases had cephalic displacement with an average of (5.00 ± 3.79) mm; and 5 cases had no change. The position of the TIVAP catheter tip tended to shift to the foot side when the vertical position changed to the decubitus position, with an average displacement of (−9.32 ± 9.36) mm, and the difference had statistical significance (<span class="inline_break"><svg xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" width="19.289pt" style="vertical-align:-0.6370001pt" id="M1" height="9.2729pt" version="1.1" viewBox="-0.0498162 -8.6359 19.289 9.2729"><g transform="matrix(.013,0,0,-0.013,0,0)"><path id="g113-81" d="M600 480C600 590 528 650 384 650H143L137 622C222 614 225 607 210 531L130 127C113 41 106 36 23 28L17 0H294L300 28C204 36 195 42 212 127L243 284L314 263C327 263 339 263 352 264C465 271 600 337 600 480ZM508 481C508 351 402 304 329 304C289 304 265 311 250 317L295 559C302 594 310 606 323 611C335 616 350 619 367 619C455 619 508 573 508 481Z"/></g><g transform="matrix(.013,0,0,-0.013,11.658,0)"><path id="g117-91" d="M512 -3V55L134 254V256L512 456V514L75 281V230L512 -3Z"/></g></svg><span class="irelop"/><span class="nowrap"><svg xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" width="34.445pt" style="vertical-align:-0.6370001pt" height="9.2729pt" version="1.1" viewBox="22.8711838 -8.6359 34.445 9.2729"><g transform="matrix(.013,0,0,-0.013,22.921,0)"><path id="g113-49" d="M241 635C89 635 35 457 35 312C35 153 89 -12 240 -12C390 -12 443 166 443 312C443 466 390 635 241 635ZM238 602C329 602 354 454 354 312C354 172 330 22 240 22C152 22 124 173 124 313S148 602 238 602Z"/></g><g transform="matrix(.013,0,0,-0.013,29.161,0)"><path id="g113-47" d="M113 -12C146 -12 170 11 170 46C170 78 146 103 114 103S58 78 58 46C58 11 82 -12 113 -12Z"/></g><g transform="matrix(.013,0,0,-0.013,32.125,0)"><use xlink:href="#g113-49"/></g><g transform="matrix(.013,0,0,-0.013,38.365,0)"><use xlink:href="#g113-49"/></g><g transform="matrix(.013,0,0,-0.013,44.605,0)"><use xlink:href="#g113-49"/></g><g transform="matrix(.013,0,0,-0.013,50.845,0)"><path id="g113-50" d="M384 0V27C293 34 287 42 287 114V635C232 613 172 594 109 583V559L157 557C201 555 205 550 205 499V114C205 42 199 34 109 27V0H384Z"/></g></svg>),</span></span> while there were no significant differences in gender, age, height, weight, body mass index, and catheter tip position (<span class="inline_break"><svg xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" width="19.289pt" style="vertical-align:-0.6370001pt" id="M2" height="9.2729pt" version="1.1" viewBox="-0.0498162 -8.6359 19.289 9.2729"><g transform="matrix(.013,0,0,-0.013,0,0)"><use xlink:href="#g113-81"/></g><g transform="matrix(.013,0,0,-0.013,11.658,0)"><path id="g117-92" d="M512 230V281L75 514V456L453 256V254L75 55V-3L512 230Z"/></g></svg><span class="irelop"/><span class="nowrap"><svg xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" width="21.918pt" style="vertical-align:-0.6370001pt" height="9.2729pt" version="1.1" viewBox="22.8711838 -8.6359 21.918 9.2729"><g transform="matrix(.013,0,0,-0.013,22.921,0)"><use xlink:href="#g113-49"/></g><g transform="matrix(.013,0,0,-0.013,29.161,0)"><use xlink:href="#g113-47"/></g><g transform="matrix(.013,0,0,-0.013,32.125,0)"><use xlink:href="#g113-49"/></g><g transform="matrix(.013,0,0,-0.013,38.365,0)"><path id="g113-54" d="M153 550H386L412 615L406 623H120L82 318C104 327 142 338 184 338C294 338 347 275 347 187C347 112 305 39 221 39C160 39 119 71 97 89C88 97 80 96 71 90C59 80 50 67 49 57C48 45 52 36 66 23C80 9 123 -12 169 -12C221 -11 288 15 342 59C403 109 431 165 431 225C431 308 366 395 238 395C212 395 165 379 127 364L153 550Z"/></g></svg>).</span></span> It could be analyzed from the data that from decubitus to upright position, the tip of the arm infusion port tended to shift to the foot side, and the moving distance was related to the patient’s gender, sebum thickness, and indwelling catheter length. Preoperative understanding of relevant information is helpful to determine the location and length of catheterization and reduce catheter-related complications.

Yuan Gong

Li Yu

Fang Wang

Lixia Wang

Mengru Sun

Huiyu Li

[Retracted] The Radiographic Changes of Catheter Tip in Different Positions of Arm Infusion Port

In order to solve the application problem of dynamic contrast-enhanced MRI in the diagnosis of rheumatoid arthritis, this paper proposes application research based on dynamic contrast-enhanced MRI in the staging diagnosis of rheumatoid arthritis. Dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) has a high value in evaluating the activity of patients with early rheumatoid arthritis (RA). This paper discusses the correlation between hemodynamic parameters and omeractramris score, clinical laboratory indexes, and activity score (DAS28), analyzes its feasibility in evaluating the prognosis of RA, and provides a reliable basis for the rational formulation of an early RA treatment plan. After reviewing the previous cases, 33 patients with subclinical synovitis of RA were selected for wrist joint contrast-enhanced ultrasonography. The data were analyzed by contrast-enhanced software, and the quantitative parameters of contrast-enhanced were obtained: start development time (AT), peak time (TTP), peak intensity (PI), grad gradient, and area under the curve (AUC). The synovial blood supply was classified by CEUS, and the CEUS blood supply classification and power Doppler (PDUS) blood supply classification were compared. The results of regression analysis showed that AUC (or = 1.026, 95% CI: 1.001–1.052) and PI (or = 1.561, 95% CI: 1.019–2.393) were independent risk factors for predicting the aggravation of the disease. The diagnostic efficacy of AUC and PI in predicting the aggravation of the disease was analyzed. The areas under the ROC curve of AUC and PI were 0.935 and 0.927, respectively, and the difference between them was not statistically significant.

Bin Zhang

Li Xiao

Hui Zhou

Ming Li

Jingming Wang

Lina Guo

[Retracted] Application of Dynamic Contrast-Enhanced MRI in the Diagnosis of Rheumatoid Arthritis

In order to analyze and examine the TVCDS images of infertile patients, this paper conducted an in-depth study based on the symptoms of polycystic ovary syndrome. Through the sample size estimation method, mathematical analysis, and other methods, the image examination of the polycystic ovary in TVCDS was successfully analyzed. 86 cases of infertile patients with PCS were divided into a control group treated with clomiphene alone and an observation group treated with clomiphene combined with TCM periodic therapy, with 43 patients in each group. The therapeutic effects of the two groups were compared and analyzed. Results show that the treatment effective rate and pregnancy success rate of the observation group were 95.35% and 88.37%, respectively, and those of the control group were 83.72% and 76.74%, respectively. The difference between the two groups was statistically significant <span class="inline_break"><svg xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" width="23.787pt" style="vertical-align:-2.26807pt" id="M1" height="11.5564pt" version="1.1" viewBox="-0.0498162 -9.28833 23.787 11.5564"><g transform="matrix(.013,0,0,-0.013,0,0)"><path id="g113-41" d="M300 -147C201 -63 143 98 143 270S200 602 300 686L282 710C136 610 70 450 70 271V270C70 89 136 -72 282 -170L300 -147Z"/></g><g transform="matrix(.013,0,0,-0.013,4.498,0)"><path id="g113-81" d="M600 480C600 590 528 650 384 650H143L137 622C222 614 225 607 210 531L130 127C113 41 106 36 23 28L17 0H294L300 28C204 36 195 42 212 127L243 284L314 263C327 263 339 263 352 264C465 271 600 337 600 480ZM508 481C508 351 402 304 329 304C289 304 265 311 250 317L295 559C302 594 310 606 323 611C335 616 350 619 367 619C455 619 508 573 508 481Z"/></g><g transform="matrix(.013,0,0,-0.013,16.156,0)"><path id="g117-91" d="M512 -3V55L134 254V256L512 456V514L75 281V230L512 -3Z"/></g></svg><span class="irelop"/><span class="nowrap"><svg xmlns:xlink="http://www.w3.org/1999/xlink" xmlns="http://www.w3.org/2000/svg" width="26.45pt" style="vertical-align:-2.26807pt" height="11.5564pt" version="1.1" viewBox="27.369183800000002 -9.28833 26.45 11.5564"><g transform="matrix(.013,0,0,-0.013,27.419,0)"><path id="g113-49" d="M241 635C89 635 35 457 35 312C35 153 89 -12 240 -12C390 -12 443 166 443 312C443 466 390 635 241 635ZM238 602C329 602 354 454 354 312C354 172 330 22 240 22C152 22 124 173 124 313S148 602 238 602Z"/></g><g transform="matrix(.013,0,0,-0.013,33.659,0)"><path id="g113-47" d="M113 -12C146 -12 170 11 170 46C170 78 146 103 114 103S58 78 58 46C58 11 82 -12 113 -12Z"/></g><g transform="matrix(.013,0,0,-0.013,36.623,0)"><use xlink:href="#g113-49"/></g><g transform="matrix(.013,0,0,-0.013,42.863,0)"><path id="g113-54" d="M153 550H386L412 615L406 623H120L82 318C104 327 142 338 184 338C294 338 347 275 347 187C347 112 305 39 221 39C160 39 119 71 97 89C88 97 80 96 71 90C59 80 50 67 49 57C48 45 52 36 66 23C80 9 123 -12 169 -12C221 -11 288 15 342 59C403 109 431 165 431 225C431 308 366 395 238 395C212 395 165 379 127 364L153 550Z"/></g><g transform="matrix(.013,0,0,-0.013,49.103,0)"><path id="g113-42" d="M275 270C275 450 212 609 64 710L45 686C145 604 203 442 203 270S147 -63 45 -147L64 -170C213 -68 275 89 275 270Z"/></g></svg>.</span></span> It was understood that the main pathogenesis of polycystic ovary syndrome is the abnormal balance of kidney, <i>qi</i>, and blood meridians. Thus, the balance of kidney-anemone-chong Ren-uprisal is broken and the result is infertility symptoms or irregular menstruation. After a study on TVCDS in infertile patients, it was observed that the levels of progesterone (P) and luteinizing hormone (LH) in patients with irregular menstruation were significantly increased. The increase was higher than that in the control group, with an overall negative rate of 4.00%, compared with 18.00% of the control group, showing a significant difference. It also indicates that TVCDS image examination has a very significant effect on improving menstrual irregularities and reducing the incidence of adverse reactions.

Hongju Duan

Shihua Luo

Yang Yu

Qiaohua Yan

[Retracted] Image Analysis of TVCDS in Infertile Patients with Polycystic Ovary Syndrome

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<p><em>Contrast Media &amp; Molecular Imaging</em>&nbsp;is an exciting journal in the area of contrast agents and molecular imaging, covering all areas of imaging technologies with a special emphasis on&nbsp;MRI and PET.</p>


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Contrast Media &#x26; Molecular Imaging

hanyang university, Seoul, Republic of Korea

Mahidol University, Nakorn Pathorn, Thailand

Neurosurgery Division, Surgery Department, Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand

<p>This Issue is now open for submissions.</p>
<p>Papers are published upon acceptance, regardless of the Special Issue publication date.</p>


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<div><p>
Macromolecular imaging is a developing discipline focused on the creation of new imaging probes and biomarkers that may be used to observe molecular and cellular processes non-invasively. This Special Issue focuses on macromolecular imaging in the context of radiation research, with a focus on biomarkers and imaging methods that provide measurable signals that can aid in the quantification of radiation-induced effects on living systems at the physical, chemical, and biological levels. The ability to visualise molecular alterations in response to a radiation insult opens up new and intriguing avenues for a more in-depth study of radiation biology, with the prospect of translating these approaches into radiotherapy treatment.
</p><p>
This Special Issue is devoted to the application of macro-molecular imaging in radiation research. Over the last decade, macro molecular imaging contributed significantly to new breakthroughs in radiation biology. This Special Issue will inspire many researchers to participate in the dynamic future of our profession, armed with these new macromolecular imaging capabilities in relation to radiation biology by producing original research and review articles.
</p><p>Potential topics include but are not limited to the following:</p><ul class="li_special"><li>
Macromolecular imaging and radiotherapy
</li><li>
Macromolecular imaging and magnetic resonance
</li><li>
Nuclear and optical Imaging
</li><li>
Hypoxia and perfusion image identification
</li><li>
Tissue metabolism, tissue injury and image processing
</li><li>
Cell death and viability detection
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Biomolecules and molecular imaging
</li><li>
Receptor targeting and nanotechnology
</li><li>
Bio-polymers and macrocycles
</li><li>
Reporter genes and reactive oxygen species (ROS)
</li><li>
Biological dosimetry and molecular imaging
</li></ul></div>

Contrast Media & Molecular Imaging

Macro Molecular Imaging in Radio Biology

Macro Molecular Imaging in Radio Biology

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Articles

[Retracted] Clinical Application of Ultrasound Microscopy-Guided Pediatric Brachial Plexus Nerve Block Anesthesia

[Retracted] The Radiographic Changes of Catheter Tip in Different Positions of Arm Infusion Port

[Retracted] Application of Dynamic Contrast-Enhanced MRI in the Diagnosis of Rheumatoid Arthritis

[Retracted] Image Analysis of TVCDS in Infertile Patients with Polycystic Ovary Syndrome