Evidence summary of the method for measuring the length of nasogastric tube insertion / 中国实用护理杂志

Objective:To systematically retrieve, evaluate and summarize the research evidence on the measurement method of adult nasogastric tube indwelling length and provide a basis for clinical nursing practice.Methods:To search for Cochrane Library(CD-SR, DARE), Joanna Briggs(JBI), PubMed (MEDLINE), Web of Science electronic database, China Biomedical Literature Database (CBM), Wanfang Database, China Knowledge Network from the establishment of the database to December 2018. Two researchers independently evaluated the quality of the literature and extracted the data.Results:A total of 9 articles were included in the study. The recommended anatomical landmarks for measuring the length of the inserted gastric tube included XNE, NEX, XJN, Hanson method, GWNUF model, earlobe to xiphoid to navel-nose tip to earlobe NEX 10 cm. The tip of the nasogastric tube and all its lateral hole locations obtained by the Hanson method, the GWNUF model, and the XEN 10 cm method were more likely to be located in the stomach.Conclusion:Although NEX is an external measurement method that is widely used in clinical practice, it has proven to be insufficiently accurate and has considerable risks. Therefore, the method of measuring the length of the nasogastric tube insertion should be carefully selected for teaching or use in practice.

Landmarks for the Location of the Subthalamic Nucleus Using Magnetic Resonance Imaging

Deep brain stimulation has become an option for advanced Parkinson's disease treatment since the 1990s, but the first reports are from Benabid's team, a French neurosurgeon, in the 1980s. The subthalamic nucleus (STN), more specifically its dorsolateral portion, is the most commonly stimulated brain area. One of the major aspects for a good surgical result is the accurate location of this target. Therefore, the present article aimed to identify landmarks that facilitate and refine the location of the STN using nuclear magnetic resonance imaging (NMRI) of the skull. In order to achieve this goal, a search for articles was performed using the PubMed and Science Direct online databases, and articles regarding the use of NMRI to target STN were included. The precise location of the dorsolateral portion of the STN is fundamental to achieve the best possible effect on motor symptoms and to minimize side effects. One of the most used location methods is the NMRI, associated or not with tomography or ventriculography. The location strategies can be classified as direct and indirect. Landmarks are among the indirect strategies, and the most important ones (red nucleus, Sukeroku sign, dent internal capsule sign, supramammillary commissure, mammillothalamic tract, and interpeduncular cistern) are described in the present article. The various landmarks can be combined to locate with more accuracy the dorsolateral portion of the STN and the ideal position of the electrodes to achieve the best possible clinical result.

Is Tracing of Anatomical Structures Essential for Cephalometric Analysis? A Retrospective Study

In this study, we attempt to identify and trace cephalometric landmarks using two methods within the constraints of hand tracing (manual tracing). In the first method, we identify the specific landmarks pertaining to the particular structure and locate it as a continuation of the landmark tracing. In the second method, we segregate the landmarks but mark only the particular structure with a point in a way which is not too dissimilar to digitalized tracing.METHODS20 lateral Cephalograms were manually traced and analysed by the two different methods employed. Measurement obtained between the two tracings was analysed. Linear and angular measurements were taken for three cephalometric analyses, namely- Steiner’s analysis, McNamara Analysis, and Rakosi-Jarabak’s analysis.RESULTSThe analysis values were checked by the two methods of manual tracing. There seemed to be no significant difference between tracing done by locating the anatomical landmarks associated with the point and with tracing done by locating the reference points. Independent sample t-test was done to determine if any significant difference was present between the two methods of tracing.CONCLUSIONSTracing done by locating only the points after identifying the reference points is in a way, similar to how digital tracing is done. This could help put the doubts related to digitalized tracing to rest and confirm the accuracy of both the tracing methods. However, locating the anatomical landmarks along with the points could help the observer in relating to the point in an easier manner and improve the accuracy of manual tracing by inexperienced postgraduates and beginners.

Retroperitoneal Laparoscopic Surgery for Giant Adrenal Myelolipoma / 中国微创外科杂志

Objective To explore the surgical features of retroperitoneoscopic excision of adrenal myelolipoma with diameter larger than 6 cm. Methods We retrospectively analyzed clinical data of 28 cases of giant adrenal myelolipoma from March 2010 to December 2015.The diameter of tumor was 6.0-13.7 cm (mean, 8.5 cm).There were 10 left-sided cases and 18 right-sided cases. During the retroperitoneoscopic excision of adrenal myelolipoma , four trocars were used .Two silk sutures were twisted as a loop to entangle one side of the tumor and then pulled it .Blood vessel on the surface of tumor was sealed and cut by ultrasonic scalpel . Adrenal gland was totally or partially removed and the tumor was resected completely . Results The operations were successful in all the 28 cases without hemorrhage during or after the surgery , conversion to open surgery , or injury of adjacent organs .The operation time was 52-117 min (mean, 67.5 min) and the blood loss was 45-110 ml during operation (mean, 60.5 ml).Patients took food 1-2 days after operation and ambulated 3-5 days after operation .The indwelling time of retroperitoneal drainage tube was 3-6 d (mean, 4.1 d).The postoperative hospitalization time was 6 -9 d (mean, 7.5 d). Conclusions Giant myelolipoma leads to seriously changed normal anatomy and is hard to be exposed during operation .Only when the important anatomical landmarks , large blood vessels and adrenal glands are focused , can the operation be safe and controllable .

Head positioning for anterior circulation aneurysms microsurgery / Posicionamento da cabeça para microcirurgias de aneurismas da circulação anterior

Objective To study the ideal patient's head positioning for the anterior circulation aneurysms microsurgery. Method We divided the study in two parts. Firstly, 10 fresh cadaveric heads were positioned and dissected in order to ideally expose the anterior circulation aneurysm sites. Afterwards, 110 patients were submitted to anterior circulation aneurysms microsurgery. During the surgery, the patient's head was positioned accordingly to the aneurysm location and the results from the cadaveric study. The effectiveness of the position was noted. Results We could determine mainly two patterns for head positioning for the anterior circulation aneurysms. Conclusion The best surgical exposure is related to specific head positions. The proper angle of microscopic view may minimize neurovascular injury and brain retraction. .

Objetivo Estudar o posicionamento da cabeça para a cirurgia de aneurismas cerebrais da circulação anterior. Método Dividimos o estudo em duas partes. Inicialmente, dez cabeças de cadáveres frescos foram posicionadas e dissecadas de modo a expor, de maneira ideal, os principais sítios de aneurismas na circulação anterior do cérebro. Posteriormente, 110 pacientes foram submetidos a microcirurgia para clipagem de aneurismas cerebrais da circulação anterior. Durante as cirurgias, as cabeças foram posicionadas de acordo com a localização específica de cada aneurisma e o resultado obtido no estudo dos cadáveres. Cada paciente teve sua posição avaliada quanto a sua eficácia. Resultados Obtivemos basicamente dois padrões de posicionamento da cabeça para cirurgias de aneurismas cerebrais da circulação anterior. Conclusão A melhor exposição cirúrgica está relacionada à posição específica da cabeça para cada localização aneurismática. O ângulo de visão microscópica adequado minimiza lesões neurovasculares e a excessiva retração cerebral. .

Ultrasonography as an ancillary method for the positioning of markers in equine motion analysis / Utilização da ultrassonografia como método auxiliar no posicionamento de marcadores em análise de movimento de equinos

Kinematic motion analysis is based on the reconstruction of selected bony anatomical landmarks identified by surface markers. Anatomical landmarks generally do not correspond to points but rather to relatively large and curved areas and their identification by palpation is not easy. Precise placement of surface markers is even more difficult and there is great variability between operators. In this study 16 examiners were asked to identify the lateral border of the left ischial tuberosity in a horse using palpation and ultrasonography for placement of a corresponding skin surface marker. Images of each marking procedure were captured using two video cameras and processed using the DVideow videogrammetry. A custom-written Matlab code was used to determine the position of the respective vectors. The positions of the markers were then compared to assess inter-examiner variability and the precision of the methods employed using the Bartlett test and the paired t-test respectively. Ultrasonography significantly improved the location of the anatomical landmark by each examiner (p = 0.04) and reduced the variability in the position of the surface marker when compared to palpation (p = 0.0028). The variability of the calculated distances (mean ± SD) was 2.89 ± 2.24 cm and 1.63 ± 0.98 cm using palpation and ultrasonography respectively. Ultrasound guidance reduced inter-examiner variability and allowed visualization of the corresponding bony anatomical landmark.

A análise cinemática do movimento é baseada na reconstrução de pontos anatômicos específicos identificados por marcadores de superfície. Esses pontos de referência geralmente não correspondem a pontos, mas a áreas relativamente grandes e curvas de difícil identificação pela palpação. A colocação precisa dos marcadores de superfície é ainda mais difícil e há grande variabilidade entre examinadores. Neste estudo, 16 examinadores foram submetidos à identificação da borda lateral da tuberosidade isquiática esquerda de um cavalo usando a palpação e a ultrassonografia para colocar um marcador de superfície. Imagens de cada procedimento de marcação foram adquiridas utilizando-se duas câmeras de vídeo digital e processadas através o sistema de videogrametria DVideow. O software Matlab foi usado para determinar a posição dos respectivos vetores. As posições dos marcadores foram comparadas para avaliar a variabilidade entre os examinadores e a precisão do método empregado através do teste de Bartlett e teste t pareado, respectivamente. A ultrassonografia melhorou significativamente a localização dos pontos anatômicos de cada examinador (p=0,04) e variabilidade das distâncias calculadas (média +-dp) foi de 2,89 +- 2,24 cm e 1,63 + - 0,98 cm usando a palpação e a ultrassonografia, respectivamente. A ultrassonografia reduziu a variabilidade entre examinadores e permitiu a visualização do ponto anatômico corresponde.

Evaluación de la anatomía mandibular relacionada con la osteotomía sagital de la rama / Evaluation of mandibular anatomy related to sagittal split ramus osteotomy

La osteotomía sagital de la rama mandibular (SSRO) es una de las técnicas quirúrgicas más frecuentes para corregir las deformidades de la mandíbula. Con el fin de prevenir problemas anatómicos y quirúrgicos, los cirujanos requieren una mayor investigación sobre las estructuras anatómicas relacionadas con la SSRO. El objetivo de este estudio fue investigar las posiciones de la antilingula (AL), la entrada al nervio alveolar inferior (NAI) en la mandíbula y otros puntos de referencia anatómicos en relación con la língula mandibular (L). Fueron estudiadas 70 hemimandíbulas secas. La AL y los demás puntos de referencia y, la posición correspondiente de la L se marcaron en la cara medial y lateral de la rama mandibular respectivamente. Fueron medidas las distancias de la AL, NAI y L en los planos anterior-posterior y superior-inferior con un caliper, y se estableció su relación geométrica. Los resultados mostraron que la AL era perceptible en el 100 por ciento de las caras laterales mandibulares. La mayoría de las ALs se encuentran anterior a la L, con una distancia media de 0,66+/-2,43mm y 0,92+/-2,56 mm y, 4,23+/-2,97 mm y 3,62 +/- 3,14 mm superior a ella (lados derecho-izquierdo respectivamente) (ambos con un valor de p <0,001). Valores similares se observaron en relación con el NAI. No se encontraron diferencias significativas entre los lados derecho e izquierdo, para la mayoría de los parámetros. Los parámetros estudiados pueden asistir a los cirujanos maxilofaciales a determinar la proximidad anatómica del NAI, y reducir al mínimo el riesgo de dañar el nervio y vasos sanguíneos. No recomendamos el uso de la AL como única referencia anatómica cuando se realiza un procedimiento de SSRO.

Sagittal split ramus osteotomy (SSRO) of the mandible is one of the most common surgical techniques to correct mandibular deformities. In order to prevent many surgical anatomical problems, surgeons have found that further investigation of the anatomical structures related to SSRO is needed. This study aims to investigate positions of the antilingula (AL), inferior alveolar nerve (IAN) and other anatomic landmarks in relation to the lingula of dried mandibles. 70 Chilean dried hemimandibles were studied. The AL, others landmarks and the corresponding position of the L were marked on the internal and external aspect of the mandibular ramus respectively. The distances from the AL, IAN and L were measured in the anterior­posterior and the superior­inferior planes using a digital caliper and geometric relationship was established. The results showed the AL was discernible in 100 percent of lateral mandibular rami studied. The most of the AL was found anteriorly to the L with a mean distance of 0.66+/-2.43mm and 0.92+/-2.56mm, and 4.23 +/- 2.97mm and 3.62+/-3.14mm superiorly (right-left sides respectively) (both with p value <0.001). Similar values were seen in relation with IAN. No significant differences were found between the right and left sides, for the majority of parameters. The studied parameters will assist clinicians to determine the anatomical proximity to the IAN, and, minimize the risk of damaging nerver and vessels. We do not recommend the use of antilingula as only anatomical landmark when performing a SSRO procedure.

Relación del foramen lingual con espinas mentonianas y evaluación del conducto lingual mediante radiografías intra y extraorales / Relationship between lingual foramen and mental spines, and evaluation of lingual canal by using intra and extra-oral radiographs

La literatura tradicional odontológica describe la ubicación radiográfica del foramen lingual en la cara lingual de la mandíbula, de ubicación media entre las espinas mentonianas (apófisis geni) en radiografías periapicales y panorámicas. Tradicionalmente se señala que las espinas mentonianas son las responsables del área radiopaca que rodea al foramen lingual. La ubicación radiográfica en posición mediana del foramen lingual con respecto a las espinas mentonianas es objeto de controversia. El objetivo de la presente investigación fue determinar la relación del foramen lingual con las espinas mentonianas en observación directa de mandíbulas secas, y mediante radiografías periapicales y panorámicas de las mismas, determinar la trayectoria del conducto lingual en tomografías lineales de la zona, y describir su representación radiográfica desde la perspectiva absorso-proyeccional. Esta investigación demostró la no concordancia radiográfica entre las espinas mentonianas y el área radiopaca que rodea al foramen lingual.

Radiological location of lingual foramen is described by traditional dental literature in the median line in the lingual aspect of the mandible, between mental spines, both in periapical and panoramic radiographs. Traditionally the radiopaque area surrounding the lingual foramen is described as produced by mental spines. This interpretation currently is controversial. The aim of this study was to determine the relationship of lingual foramen with mental spines by looking directly at the dry mandibles, and by looking at periapical and panoramic radiographs; to determine trajectory of lingual canal by using linear tomographies of the area of interest, and describe radiographic representation from the absorption projectional point of view. This investigation demonstrated that the radiopaque area surrounding the lingual foramen is not produced by mental spines.