Abraham Guadalupe Espinosa-Uribe scite author profile

ESPINOSA-URIBE, A. G.; MORALES-AVALOS, R.; GUTIÉRREZ-DE SUMMARY:The abundant vascular structures that surround the shoulder joint are complex and variable, complicating arthroscopy approaches. The aim of this study is to determine safe and risky areas around standard posterior and standard anterior portals, and accounting for the distribution of neurovascular structures of small and medium diameters that can lead to intra-articular bleeding during surgery. The standard posterior portal, and standard anterior portal were placed as described in the literature, and punch dissection was performed 2.5 cm around the trocar in situ. The arrangement of each identified structure was photographically documented and digitalized for each anatomic plane; the distance to the trocar and the diameter of each structure were measured. Based on each digitalized anatomic plane, safe and risky tissue areas were determined, and a clock face coordinate system was used to represent these areas. The safe area around the standard posterior portal was located between 11 and 1 o´clock for the left shoulder and 11 and 2 o´clock for the right shoulder. For the standard anterior portal, the safe area was located between 2 and 3 o´clock for the left shoulder and between 9 and 12 o´clock for the right shoulder. However, we did document a risk of injuring the cephalic vein 5 times, the axillary artery 3 times and the deltoid branch of the thoracoacromial artery once. This study reports quantitatively the total number of small diameter structures present in the two shoulder arthroscopic portals evaluated. The safe areas proposed in this study must be evaluated to propose new access points for performing arthroscopic procedures on the shoulder.

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Dermatology Surgery Training in a Live Animal Model

Garza-Castro

Sánchez-González

DeLaGarza-Pineda

et al. 2018

J Morphol Sci

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Background Surgical technique is an important part of resident training, which is the reason why various models have been implemented to acquire this skill. Animal models have been useful in teaching dermatologic suturing techniques. With the advancements in technology, simulators have been developed for these exercises, but at a very high cost. The use of pig heads and freshly killed animals have proven to be effective and low-cost. However, they do not reproduce skin pathologies with accuracy. Objective To evaluate the effectiveness of a live anesthetized rat model to simulate skin pathologies requiring surgical excision in a dermatologic suture workshop for residents. Methods We analyze the outcome of a theoretical and practical suturing workshop using live Wistar rats with 13 dermatology residents. Results The residents showed an improvement in surgical maneuvers, suturing techniques, and in the use of surgical instruments (p < 0.01). Conclusion The model proposed in the present study was economic, easy to obtain and to manage, and it portrays live and accurate skin response to manipulation. Therefore, it is effective for conducting surgical training sessions in dermatology.

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Prevalence, topographic and morphometric features of femoral cam-type deformity: changes in relation to age and gender

et al. 2015

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Femoroacetabular impingement (FAI) syndrome is a frequent cause of pain and in recent years considered to be a precursor of premature hip osteoarthritis. The structural abnormalities which characterize FAI syndrome, such as the cam-type deformity, are associated with morphological alterations that may lead to hip osteoarthritis. The aim of this study was to determine the prevalence and topographic and morphometric features of the cam deformity in a series of 326 femur specimens obtained from a Mexican population, as well as changes in prevalence in relation to age and gender. The specimens were subdivided into groups according to gender and age. A standardized photograph of the proximal femur of each specimen was taken, and the photograph was used to determine the alpha angle using a computer program; the location of the lesion was determined by quadrant and the morphometric characteristics were determined by direct observation. The overall prevalence of cam deformities in the femur specimens was 29.8 % (97/326), with a prevalence by gender of 35.2 % (64/182) in men and 22.9 % (33/144) in women. The mean alpha angle was 54.6° ± 8.5° in all of the osteological specimens and 65.6° ± 7.5° in those specimens exhibiting a cam deformity. Cam deformities were found topographically in the anterior-superior quadrant of the femoral head-neck junction in 86.6 % (84/97) of the femurs. Deformities were found in 28.2 % of the right femurs and 31.3 % of the left femurs. The prevalence of cam deformity was higher in the femur specimens of young men and in those of middle-aged and older women. There were no significant differences in this deformity in relation to the alpha angle according to age and gender.

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Morphologic changes of the fifth phalange secondary to smartphone use

Fuentes-Ramirez

Alfaro‐Gomez

Espinosa-Uribe

et al. 2020

WOR

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BACKGROUND: The use of smart phones is now part of the daily routine throughout the world. Morphological alterations have been described associated with telephone holding technique, as well as clinically significant alterations related to their use. OBJECTIVE:The objective was to determine the macroscopic morphological changes due to smartphone use in the fifth finger of the hand with which the smartphone is commonly used. METHODS: University students were invited to participate. Photographs of the dorsal region of both hands were taken using a millimeter paper as background. After calibrating the ImageJ software, photographs were analyzed in pairs obtaining areas of asymmetry. Sociodemographic information and technique of use was collected through a survey. The data were analyzed using SPSS ver. 20. RESULTS: A total of 143 participants were included. The mean age was 20 years. No significant differences were found between the area of asymmetry and the miniferet of both fingers of the subjects compared with age, gender, BMI, daily time of use, years using a smartphone or the type of holding technique. CONCLUSIONS: No asymmetric changes were evident between left and right small fingers in relation to the holding technique of a smartphone in a young adult population.

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