ABSTRACT
INTRODUCTION: The optimal treatment of chronic scapholunate instability has yet to be established. Scapholunate ligament grafts are still far from being the ideal solution. We conducted an experimental study to evaluate whether flexion-opening wedge osteotomy of the distal radius improves misalignment and avoids rotatory subluxation of the scaphoid in a cadaveric model of static scapholunate dissociative instability. MATERIALS AND METHODS: Radiographic studies were performed on 15 cryopreserved specimens after recreating a model of scapholunate instability by division of the scapholunate interosseous ligament (SLIL) and secondary stabilizers, taking radiographs at baseline, after the instability model, and after distal radius osteotomy. Static and dynamic (under controlled tendon traction) anteroposterior and lateral views were obtained to measure the length (in mm) of the carpal scaphoid and scapholunate interval, scapholunate angle, radio-lunate angle, and palmar tilt of the distal joint surface of the radius and to measure the dorsal scaphoid translation by the concentric circles method. The Wilcoxon test was used for statistical comparisons. RESULTS: The scapholunate interval was significantly decreased after osteotomy in all static anteroposterior views and in all lateral views under tendon traction. Dorsal scaphoid translation was significantly reduced in static lateral view in extension and in dynamic lateral view under 5-pound flexor carpi radialis tendon tension controlled by a digital dynamometer. CONCLUSIONS: Flexion-addition osteotomy of the distal radius appears to improve carpal alignment parameters in a cadaveric model of static scapholunate instability, achieving similar values to those obtained before instability.
Subject(s)
Joint Instability , Lunate Bone , Scaphoid Bone , Humans , Radius/diagnostic imaging , Radius/surgery , Lunate Bone/diagnostic imaging , Lunate Bone/surgery , Scaphoid Bone/diagnostic imaging , Scaphoid Bone/surgery , Wrist Joint/diagnostic imaging , Wrist Joint/surgery , Joint Instability/diagnostic imaging , Joint Instability/surgery , Osteotomy , Cadaver , Ligaments, Articular/diagnostic imaging , Ligaments, Articular/surgeryABSTRACT
In order to re-evaluate the safest area to incise skin and the flexor retinaculum (FR) when performing a carpal tunnel release (CTR), we carried out a mapping study of the nerve endings in the skin and FR on cadaver specimens, which, unlike previous studies for the first time, includes histomorphometry and image digital analysis. After dividing the skin and FR into 20 and 12 sections, respectively, we carried out a histomorphological analysis of nerve endings. The analysis was performed by two neutral observers on 4-µm histological sections stained with hematoxylin-eosin (H-E), and Klüver-Barrera with picrosirius red (KB + PR) methods. A semi-automatic image digital analysis was also used to estimate the percentage of area occupied per nerve. We observed a lower quantity of nerve endings in the skin of the palm of the hand in line with the ulnar aspect of the 4th finger. The ulnar aspect of the FR was the most densely innervated. However, there are no statistically significant differences between sections in the percentage of area occupied per nerve both in the skin and in the FR. We concluded that there is not a safe area to incise when performing carpal tunnel surgery, but taking into account the quantity of nerve endings present in skin and FR, we recommend an incision on the axis of the ulnar aspect of 4th finger when incising skin and on the middle third of the FR for CTR.
Subject(s)
Carpal Tunnel Syndrome , Humans , Carpal Tunnel Syndrome/surgery , Hand , Ligaments , Fingers , Nerve EndingsABSTRACT
Introducción: El papel de la cirugía robótica está claramente establecido en diversas especialidades como Urología o Cirugía General, pero no así en otras como Neurocirugía u Otorrinolaringología, y en el caso concreto de la Cirugía de base de cráneo, apenas ha pasado de una fase experimental. Objetivo: Investigar las posibilidades de la aplicación del robot quirúrgico da Vinci en cirugía transoral de base de cráneo comparándola con la experiencia de los autores en cirugía endoscópica transnasal convencional de la misma región. Métodos: se llevó a cabo un abordaje transoral transpalatino a la rinofaringe y la base del cráneo medial en 4 cabezas de cadáver criopreservadas. Se empleó el robot da Vinci, con endoscopio de 30° y 12mm de grosor, con doble cámara e iluminación doble, pinza de Maryland en el terminal izquierdo y tijera curva en el derecho, ambos de 8mm de grosor. El fresado óseo se realizó manualmente. Para el estudio anatómico de la región a abordar se emplearon cortes axiales de 0,5cm de grosor de una cabeza de cadáver plastinada. Resultados: Con los terminales del robot se alcanzaron con relativa facilidad diversas estructuras de la base del cráneo a distintos niveles de profundidad. Conclusiones: La cirugía robótica transoral con el sistema da Vinci aporta posibles ventajas sobre la cirugía endoscópica transnasal convencional en el abordaje quirúrgico de esta región
Introduction: The role of robotic surgery is well established in various specialties such as urology and general surgery, but not in others such as neurosurgery and otolaryngology. In the case of surgery of the skull base, it has just emerged from an experimental phase. Objective: To investigate possible applications of the da Vinci surgical robot in transoral skull base surgery, comparing it with the authors experience using conventional endoscopic transnasal surgery in the same region. Methods: A transoral transpalatal approach to the nasopharynx and medial skull base was performed on 4 cryopreserved cadaver heads. We used the da Vinci robot, a 30° standard endoscope 12mm thick, dual camera and dual illumination, Maryland forceps on the left terminal and curved scissors on the right, both 8mm thick. Bone drilling was performed manually. For the anatomical study of this region, we used 0.5cm axial slices from a plastinated cadaver head. Results: Various skull base structures at different depths were reached with relative ease with the robot terminals Conclusions: Transoral robotic surgery with the da Vinci system provides potential advantages over conventional endoscopic transnasal surgery in the surgical approach to this region
Subject(s)
Humans , Skull Base/surgery , Robotic Surgical Procedures/methods , Cadaver , Neurosurgical Procedures/methods , Nasopharynx/surgery , Palate, Soft/surgeryABSTRACT
INTRODUCTION: The role of robotic surgery is well established in various specialties such as urology and general surgery, but not in others such as neurosurgery and otolaryngology. In the case of surgery of the skull base, it has just emerged from an experimental phase. OBJECTIVE: To investigate possible applications of the da Vinci surgical robot in transoral skull base surgery, comparing it with the authors' experience using conventional endoscopic transnasal surgery in the same region. METHODS: A transoral transpalatal approach to the nasopharynx and medial skull base was performed on 4 cryopreserved cadaver heads. We used the da Vinci robot, a 30° standard endoscope 12mm thick, dual camera and dual illumination, Maryland forceps on the left terminal and curved scissors on the right, both 8mm thick. Bone drilling was performed manually. For the anatomical study of this region, we used 0.5cm axial slices from a plastinated cadaver head. RESULTS: Various skull base structures at different depths were reached with relative ease with the robot terminals CONCLUSIONS: Transoral robotic surgery with the da Vinci system provides potential advantages over conventional endoscopic transnasal surgery in the surgical approach to this region.
Subject(s)
Robotic Surgical Procedures , Skull Base/surgery , Endoscopy , HumansABSTRACT
Study of the body weight, third-toe length, transversal and anteroposterior cranial diameters, brain weight and mortality of embryos of Gallus domesticus at 15 and 21 days of incubation showed that their exposure to electromagnetic fields of 10 ?T intensity and 30 Hz frequency accelerated their development and produced an increase in mortality at the end of incubation (AU)
No disponible
