RESUMO
Autogenous arteriovenous fistula (AVF) is the first choice for hemodialysis access in renal failure with uremia. However, AVF cannot be performed in some patients due to small and narrow veins in the forearm. In this study, a Fogarty catheter was used to establish autogenous radiocephalic hemodialysis access in patients with small caliber cephalic veins, and the patency rate and complications of this method were observed. Sixty-seven patients with uremia were divided into a treatment group (40 cases, caliber of cephalic veins<2.5 mm) and a control group (27 cases, caliber of cephalic veins≥2.5 mm). According to ultrasound results, the treatment group received AVF after expansion with a Fogarty catheter, and the control group received traditional AVF. The fistula patency rate and complications were observed during follow-up. All patients were followed up for an average period of 18 months (range=3-36 months). AVF was successfully used in 58 patients for hemodialysis, with primary access failure in 9 cases (5 cases in the treatment group and 4 cases in the control group) due to early thrombosis. The primary and secondary patency rates 12 months after surgery in the treatment group were 64 and 72%, respectively, and those in the control group were 60 and 76%, respectively. Patients with small caliber cephalic veins can be treated with radiocephalic fistula after the caliber of cephalic veins is expanded to more than 2.5 mm with a Fogarty catheter. The long-term patency rate awaits observation in a longer follow-up period.
Assuntos
Embolectomia com Balão/métodos , Diálise Renal/métodos , Uremia/terapia , Veias/anatomia & histologia , Adulto , Idoso , Fístula Arteriovenosa , Feminino , Antebraço/anatomia & histologia , Humanos , Masculino , Pessoa de Meia-Idade , Resultado do Tratamento , Uremia/patologiaRESUMO
Instrumentation of anterior vertebral body screws has become an important approach for treatment of unstable fracture or curvature of the spine, but little attention has been paid to the starting point of placing the screws and variability of the rib head position. We analyzed the variability of rib head position in a Chinese population in terms of the spinal canal and vertebral body using computed tomography (CT). Images from transverse CT scan of the T4-T12 vertebral bodies of 30 normal individuals were 3D reconstructed, and analyzed for measurement of parameters, which included: 1) distance between the left (or right) anterior border of the rib head and the posterior (or anterior) margin of the vertebral body [L(R )ARHP(A)VB], 2) left (or right) transverse dimension [L(R)TD], 3) left (or right) posterior (or anterior) safe angle [L(R)P(A)SA], and 4) distance between the inferior border of the left (or right) rib head and the superior (or inferior) end-plate in the sagittal plane [IL(R)RHS(I)EP]. The ARHPVB, PSA, and IRHIEP gradually decrease, but ARHAVB, TD, ASA, and IRHSEP gradually increase from T4 to T12, indicating that the position of the rib head changes from a more anterior position to a more posterior position and from a more superior position to a more inferior position as the number of the vertebra increases. Our study has provided comprehensive reference guide for accurate and safe instrumentation of vertebral body screws in treating related spine diseases.
La instrumentación del cuerpo anterior vertebral con tornillos ha sido una vía importante para el tratamiento de las fracturas inestables y curvaturas de la columna, pero se ha prestado poca atención a la zona de colocación de los tornillos y la variabilidad de la posición de la cabeza costal. Se analizó la variabilidad de la posición de la cabeza de la costilla en una población de China en relación al canal vertebral y cuerpo vertebral mediante tomografía computarizada (TC). Imágenes de cortes transversales de TC correspondientes a los cuerpos vertebrales T4-T12 de 30 individuos normales fueron reconstruidos tridimensionalmente, y se analizó la medida de algunos parámetros: 1) la distancia entre el margen anterior izquierdo (o derecho) de la cabeza de la costilla y el margen posterior (o anterior) del cuerpo vertebral [L(R)ARHP(A)VB], 2) Dimensión transversa izquierda (o derecha) [L(R)TD], 3) ángulo de seguridad izquierdo (o derecho) posterior (o anterior) [L(R)P(A)SA], y 4) la distancia entre el margen inferior de la cabeza de la costilla izquierda (o derecha) y la placa terminal superior (o inferior) en el plano sagital [IL(R)RHS(I)EP]. El ARHPVB, PSA, y IRHIEP disminuyeron gradualmente, pero ARHAVB, TD, ASA, y IRHSEP aumentaron gradualmente de T4 a T12, lo que indica que la posición de la cabeza de la costilla cambia desde una posición más anterior a una posición más posterior y de una posición más superior a una posición más inferior a medida que aumenta el número de vértebras. Nuestro estudio ha proporcionado completa guía de referencia para la instrumentación precisa y segura de tornillos en el cuerpo vertebral para el tratamiento de enfermedades relacionadas con la columna vertebral.