Based on the imaging photoplethysmography (iPPG) and blind source separation (BSS) theory the author put forward a method for non-contact heartbeat frequency estimation. Using the recorded video images of the human face in the ambient light with Webcam, we detected the human face through software, separated the detected facial image into three channels RGB components. And then preprocesses i.e. normalization, whitening, etc. were carried out to a certain number of RGB data. After the independent component analysis (ICA) theory and joint approximate diagonalization of eigenmatrices (JADE) algorithm were applied, we estimated the frequency of heart rate through spectrum analysis. Taking advantage of the consistency of Bland-Altman theory analysis and the commercial Pulse Oximetry Sensor test results, the root mean square error of the algorithm result was calculated as 2.06 beat/min. It indicated that the algorithm could realize the non-contact measurement of heart rate and lay the foundation for the remote and non-contact measurement of multi-parameter physiological measurements.
Crouzon s syndrome is one of the craniofacial dysostosis. It not only presents midface retrusion but also obstructs the air way. There were much more effective changes on speech and velopharyngeal function following LeFort Ⅲ maxillary advancement. In our study, 9 cases underwent maxillary advancement in the last seven years. All patients in this series underwent serial cephalometric study before and after maxillary advancement. The results showed that the distance from the posterior nasal spine to the posterior pharyngeal wall on the posterior pharyngeal wall on the lateral cephalograms reached 18.89mm which was 9.30mm more larger than that of the preoperative distance in average.The angle formed by the soft palate and the hard palate reached 159.4 degree which was 16 degree larger than the preopertive angle 144.6 degree. Clinically, improvement of phonation was very obvious.
Objective To explore the anatomical parameters of the cervical uncinate process “inflection point” through cervical CT angiography (CTA) and MRI measurements, offering a reliable and safe anatomical landmark for anterior cervical decompression surgery. Methods A retrospective analysis was conducted on the cervical CTA and MRI imaging data of normal adults who met the selection criteria between January 2020 and January 2024. The CTA dataset included 326 cases, with 200 males and 126 females, aged 22-55 years (mean, 46.7 years). The MRI dataset included 300 cases, with 200 males and 100 females, aged 18-55 years (mean, 43.7 years). Based on the CTA data, three-dimensional models of C3-C7 were constructed, and the following measurements were obtained from the superior view: uncinate process “inflection point” to vertebral artery distance (UIVD), uncinate process tip to vertebral artery distance (UTVD), uncinate process “inflection point” to “inflection point” distance (UID), uncinate process long-axis to sagittal angle (ULSA), and uncinate process “inflection point” to transverse foramen-sagittal angle (UITSA). From the anterior view, the anterior uncinate process to sagittal angle (AUSA) was measured. From the posterior view, the posterior uncinate process to sagittal angle (PUSA) was measured. Based on the MRI data, uncinate process “inflection point” to dural sac distance (UIDD) and dural sac width (DSW) were measured. The trends in measurement parameters of C3-C7 were observed, and the differences in measurement parameters between genders and between the left and right sides of the same segment were compared, as well as the difference in UID and DSW within the same segment was compared. Results The measurement parameters from C3 to C7 in the CTA data showed a general increasing trend, with no significant difference between the left and right sides within the same segment (P>0.05). The UIVD, UTVD, and UID were greater in males than in females, with significant differences observed in the UIVD and UTVD at C3 and C6 and UID at C3, C6, and C7 (P<0.05). The MRI measured DSW showed a general increasing trend from C3 to C7, and the DSW at C6 was greater in females than in males, with a significant difference (P<0.05). The UIDD showed a gradual decreasing trend, with the smallest value at C6. There was no significant difference between males and females or between the left and right sides within the same segment (P>0.05). The UID was greater than the DSW at C3-C7, and the differences were significant (P<0.05). ConclusionThe uncinate process “inflection point” is a constant anatomical structure located at the anteromedial aspect of the uncinate process tip and laterally to the dural sac. It maintains a certain safe distance from the vertebral artery. As a decompression landmark in anterior cervical spine surgery, it not only ensures surgical safety but also guarantees complete decompression.
In this paper, a new probe is proposed for the in vivo dielectric measurement of anisotropic tissue in radio frequency band, which could accomplish the dielectric measurement in perpendicular directions by one operation. The simulative studies are performed in the frequency range from 1–1 000 MHz in order to investigate the influence of probe dimension on the energy coupling and sensitivity of measurement. The suitable probe is designed and validated for the actual measurement in this frequency band. According to the simulation results, the energy coupling of the probe could be kept below –12 dB in the frequency range from 200–400 MHz with high sensitivity of measurement for the dielectric properties of anisotropic tissue. That indicates the new type of probe has the potential to achieve the dielectric measurement of anisotropic tissue in radio frequency band and could avoid the measurement error by multi-operations in the conventional method. This new type of probe could provide a new method for the in vivo dielectric measurement of anisotropic tissue in radio frequency band.
Accurate measurements of voltage and current from electrosurgery are the basis of development of electrosurgery with feedback function. We, therefore, developed a parameter measurement system based on PC, with high voltage and current from electrosurgery being sensed with transformers, amplified, filtered, transformed into single-ended signals, and then into RMS signals. The root mean square (RMS) signals were transformed into digital signals through DAQ card and the data was processed in PC with Labview. The process included sampling, displaying and storage. The experiment results indicated that the measurement system could measure the output parameters from electrosurgery steadily and correctly so that the development of the system has been successful. It can be the basis of development of embedded parameters measurement system and can provide accurate feedback information for intellectual electrosurgery.
The COSMIN-RoB checklist includes three sections with a total of 10 boxes, which is used to evaluate risk of bias of studies on content validity, internal structure, and other measurement properties. COSMIN classifies reliability, measurement error, criteria validity, hypothesis testing for construct validity, and responsiveness as other measurement properties, which primarily focus on the quality of the (sub)scale as a whole, rather than on the item level. Among the five measurement properties, reliability, measurement error and criteria validity are the most widely used in the studies. Therefore, this paper aims to interpret COSMIN-RoB checklist with examples to guide researchers to evaluate the risk of bias of the studies on reliability, measurement error and criteria validity of PROMs.
ObjectiveTo systematically review the research on pediatric treatment satisfaction of medication (TS-M). MethodsThe PubMed, Embase, Cochrane Library, CBM, WanFang Data, VIP, CNKI databases and medical scale websites were electronically searched to collect studies on pediatric TS-M from inception to November 2022. Two reviewers independently screened literature, and extracted data. Using descriptive analysis, we comprehensively reviewed the TS-M assessment tool selected for the studies of children. We evaluated the methodological quality and measurement properties of existing TS-M scales for children using the Consensus-based Standards for the selection of health Measurement Instruments (COSMIN) assessment criteria. ResultsA total of 157 studies were included, including 150 pediatric studies using TS-M evaluation tools and 7 studies on the development and validation of TS-M scales for children, covering 7 specific TS-M scales for children. Our review revealed that 67.3% of the pediatric studies used unvalidated self-administered TS-M questionnaires or interviews, 24.7% used adult TS-M scales, and only 6.0% used two pediatric-specific TS-M scales. The results of the quality assessment indicated that the development quality of existing TS-M pediatric scales was considered "doubtful" or "inadequate", and the internal consistency was "sufficient" but the structural validity was probably "uncertain". High-quality research on the content validity, test-retest reliability and construct validity of the pediatric TS-M scale was still lacking. ConclusionCurrently, the use of TS-M evaluation tools in pediatric studies has irrationalities: over 90% of pediatric studies use self-made questionnaires or adult scales to evaluate children's TS-M; and the existing pediatric TS-M scales globally have narrow applications, questionable development quality, and lack some measurement performance studies. Pediatric TS-M scales with a wide range of applications are lacking.
Forty two eyes of 37 coses of age-related macular degeneration with subretinal neovascularization were followed up for more than 5 yeors.Vision, fundus change and fluorescein angiograms were with electrical image analysis system. (Chin J Ocul Fundus Dis,1994,10:1-3)
Objective To propose a lightweight end-to-end neural network model for automated Korotkoff sound phase recognition and subsequent blood pressure (BP) measurement, aiming to improve measurement accuracy and population adaptability. Methods We developed a streamlined architecture integrating depthwise separable convolution (DSConv), multi-head attention (MHA), and bidirectional gated recurrent unit (BiGRU). The model directly processes Korotkoff sound time-series signals to identify auscultatory phases. Systolic BP (SBP) and diastolic BP (DBP) were determined using Phase Ⅰ and PhaseⅤdetections, respectively. Given the clinical relevance of phase Ⅳ for specific populations (e.g., children and pregnant women, denoted as DBPIV), BP values from this phase were also recorded. Results The study enrolled 106 volunteers with 70 males, 36 females at mean age of (40.0±12.0) years. The model achieved 94.25% phase recognition accuracy. Measurement errors were (0.1±2.5) mm Hg (SBP), (0.9±3.4) mm Hg (DBPIV), and (0.8±2.6) mm Hg (DBP). Conclusion Our method enables precise phase recognition and BP measurement, demonstrating potential for developing population-adaptive blood pressure monitoring systems.
The velocity of blood in vessels is an important indicator that reflects the microcirculatory status. The core of the measurement technology, which is based on spatiotemporal (ST) image, is to map the cell motion trace to the two-dimensional ST image, and transfer the measurement of flow velocity to the detection of trace orientation in ST image. This paper proposes a trace orientation measurement algorithm is based on Randomized Hough Transformation and projection transformation, and it is able to estimate trace orientation and flow velocity in noisy ST images. Experiments showed that the agreement between the results by manual and by the proposed algorithm reached over 90%.