lunes, 20 de febrero de 2017

El algoritmo de diagnóstico de Berlín para la rodilla dolorosa posterior a una artroplastia total de rodilla






The Berlin diagnostic algorithm for painful knee TKA
Fuente
Este artículo es originalmente publicado en:
De:
2016 Jan;45(1):38-46. doi: 10.1007/s00132-015-3196-7.
Todos los derechos reservados para:
© 2017 Springer International Publishing AG. Part of
.Abstract
BACKGROUND:
Approximately 20% of patients are unsatisfied with their postoperative results after total knee arthroplasty (TKA). Main causes for revision surgery are periprosthetic infection, aseptic loosing, instability and malalignment. In rare cases secondary progression of osteoarthritis of the patella, periprosthetic fractures, extensor mechanism insufficiency, polyethylene wear and arthrofibrosis can cause the necessity for a reintervention. Identifying the reason for a painful knee arthroplasty can be very difficult, but is a prerequisite for a successful therapy.
AIM:
The aim of this article is to provide an efficient analysis of the painful TKA by using a reproducible algorithm.
DISCUSSION:
Basic building blocks are the medical history with the core issues of pain character and the time curve of pain concerning surgery. This is followed by the basic diagnostics, including clinical, radiological, and infectiological investigations. Unique failures like periprosthetic infection or aseptic loosening can thereby be diagnosed in the majority of cases. If the cause of pain is not clearly attributable using the basic diagnostics tool, further infectiological investigation or diagnostic imaging are necessary. If the findings are inconsistent, uncommon causes of symptoms, such as extra-articular pathologies, causalgia or arthrofibrosis, have to be considered. In cases of ongoing unexplained pain, a revision is not indicated. These patients should be re-evaluated after a period of time.
Resumen
ANTECEDENTES:
Aproximadamente el 20% de los pacientes no están satisfechos con sus resultados postoperatorios después de la artroplastia total de rodilla (TKA). Las principales causas de cirugía de revisión son la infección periprotésica, la pérdida aséptica, la inestabilidad y la mala alineación. En raras ocasiones, la progresión secundaria de la osteoartritis de la rótula, las fracturas periprotésicas, la insuficiencia del mecanismo extensor, el desgaste del polietileno y la artrofibrosis pueden provocar la necesidad de reintervención. Identificar la razón de una artroplastia dolorosa de la rodilla puede ser muy difícil, pero es un requisito previo para una terapia exitosa.

OBJETIVO:
El objetivo de este artículo es proporcionar un análisis eficiente de la dolorosa TKA utilizando un algoritmo reproducible.

DISCUSIÓN:
Los bloques de construcción básicos son la historia médica con los asuntos centrales del carácter del dolor y la curva del tiempo del dolor referente a la cirugía. A esto le siguen los diagnósticos básicos, que incluyen investigaciones clínicas, radiológicas e infecciosas. Fracasos únicos como la infección periprotésica o el aflojamiento aséptico pueden ser diagnosticados en la mayoría de los casos. Si la causa del dolor no es claramente atribuible utilizando la herramienta de diagnóstico básico, más investigación infecciosa o diagnóstico por imágenes son necesarias. Si los hallazgos son inconsistentes, deben considerarse causas poco frecuentes de síntomas, como patologías extraarticulares, causalgia o artrofibrosis. En casos de dolor inexplicable en curso, no se indica una revisión. Estos pacientes deben ser reevaluados después de un período de tiempo.
KEYWORDS:
Algorithms; Infection; Joint instability; Knee arthroplasty; Pain
PMID: 26679494   DOI:  
[PubMed – indexed for MEDLINE]

Prevención de lesión de isquios en futbolistas


http://www.lesionesdeportivas.com.mx/academia/prevencion-de-lesion-de-isquios-en-futbolistas-2/

Effect of Injury Prevention Programs that Include the Nordic Hamstring Exercise on Hamstring Injury Rates in Soccer Players: A Systematic Review and Meta-Analysis.


Fuente
Este artículo es originalmente publicado en:

https://www.ncbi.nlm.nih.gov/pubmed/27752982

http://link.springer.com/article/10.1007%2Fs40279-016-0638-2


De:

Al Attar WS1,2,3Soomro N4,5Sinclair PJ4Pappas E6Sanders RH4.

Sports Med. 2016 Oct 17. [Epub ahead of print]


Todos los derechos reservados para:

© 2017 Springer International Publishing AG. Part of Springer Nature.


Prevención de lesión de isquios en futbolistas

El ejercicio “nórdico” (NHE) se conoce bastante en la recuperación y la prevención de lesiones isquiosurales ya que permite una carga máxima de esta musculatura en la fase excéntrica. Estudios previos han mostrado que los ejercicios excéntricos pueden prevenir las lesiones de isquios y sus recidivas hasta un 65%. Sin embargo, una pequeña cantidad de estudios han proporcionado evidencia que este ejercicio no previene las lesiones de isquios. El objetivo de este meta-análisis fue investigar la efectividad del NHE en deportistas.
Los resultados agrupados mostraron que un 51% de los participantes incluidos experimentaron una reducción de las lesiones con el NHE.
Un estudio mostró que el 71% de las lesiones isquiosurales podrían prevenirse si el NHE fuese parte del entrenamiento de los jugadores de fútbol. Todos los estudios incluidos realizaron el NHE durante el calentamiento al inicio del entrenamiento. Sin embargo, se ha sugerido que es preferible realizarlo durante la fase de vuelta a la calma debido al ratio de fuerza funcional. Además, haciéndolo en fatiga, puede mejorar y mantener la fuerza. Sin embargo, esto podría ser especulativo ya que la vuelta a la calma por sí sola, podría incrementar la flexibilidad y el rendimiento, reduciendo las lesiones musculares.
Se recomienda realizar ejercicio excéntrico de los isquiosurales para prevenir o reducir las lesiones.
De: Al Attar et al., Sports Med (2016) (Publ. antes de impresión). Todos los derechos reservados: Springer International Publishing. Pincha aquí para acceder al resumen.. Traducido por Francisco Jimeno Serrano.

Abstract

BACKGROUND:

Hamstring injuries are among the most common non-contact injuries in sports. The Nordic hamstring (NH) exercise has been shown to decrease risk by increasing eccentric hamstring strength.

OBJECTIVE:

The purpose of this systematic review and meta-analysis was to investigate the effectiveness of the injury prevention programs that included the NH exercise on reducing hamstring injury rates while factoring in athlete workload.

METHODS:

Two researchers independently searched for eligible studies using the following databases: the Cochrane Central Register of Controlled Trials via OvidSP, AMED (Allied and Complementary Medicine) via OvidSP, EMBASE, PubMed, MEDLINE, SPORTDiscus, Web of Science, CINAHL and AusSportMed, from inception to December 2015. The keyword domains used during the search were Nordic, hamstring, injury prevention programs, sports and variations of these keywords. The initial search resulted in 3242 articles which were filtered to five articles that met the inclusion criteria. The main inclusion criteria were randomized controlled trials or interventional studies on use of an injury prevention program that included the NH exercise while the primary outcome was hamstring injury rate. Extracted data were subjected to meta-analysis using a random effects model.

RESULTS:

The pooled results based on total injuries per 1000 h of exposure showed that programs that included the NH exercise had a statistically significant reduction in hamstring injury risk ratio [IRR] of 0.490 (95 % confidence interval [CI] 0.291-0.827, p = 0.008). Teams using injury prevention programs that included the NH exercise reduced hamstring injury rates up to 51 % in the long term compared with the teams that did not use any injury prevention measures.

CONCLUSIONS:

This systematic review and meta-analysis demonstrates that injury prevention programs that include NH exercises decrease the risk of hamstring injuries among soccer players. A protocol was registered in the International Prospective Register of Systematic Reviews, PROSPERO (CRD42015019912).
PMID:  27752982  DOI:  10.1007/s40279-016-0638-2
[PubMed – as supplied by publisher]

Conceptos de la columna vertebral: Dolor de espalda baja

Spine Concepts: Low Back Pain

  Fuente Este artículo es originalmente publicado en:  

https://youtu.be/jh6you7ruaY

    De y Todos los derechos reservados para:  

Courtesy: Prof Nabil Ebraheim, University of Toledo, Ohio, USA

 
Publicado el 17 feb. 2017
Dr. Ebraheim educational animated video illustrates spine concepts associated the lower back - lumbar spine. Spine concepts: • Acute low back pain: or low back pain with sciatica: - where the pain radiates to the leg and foot, both conditions are treated conservatively for at least 6 weeks by physiotherapy, anti-inflammatory and limited activity, even if there is a big disc in the MRI. - 90% of the patients will resolve the symptoms in 1 month. - Smoking, depression, vibration will increase the incidence of low back pain. - Intra-discal pressure will change with position, the lowest pressure is when the patient is supine, the highest pressure is when the patient is sitting leaning forward and holding weight. - If the patient comes with a low back pain and a history of cancer, you need to get an x-ray & MRI, especially if the pain is at rest at night. - In case of renal tumor, you will need to do arteriography and do embolization to the spine lesion. - The spine is a common place for metastatic tumors, the metastasis occur in the vertebral body and goes to the pedicle. - Infection will occur in the disc space, ESR & CRP will be elevated, 50% of the patients will have fever, & less than 50% will have increased WBC count. - Get blood culture, its positive in 24% of the cases. - Get MRI and give antibiotics. - In the case of epidural abscess, we’ll do surgery. - Osteoporotic fracture: start with wrist then spine, then hip. - After 1 year of treatment with medications you decrease the incidence of vertebral fracture by 60%, and after 2 years decrease by 40%. - Get x-rays if there is red flags only: older patient, patient with history of cancer, infection is suspected, trauma, osteoporotic fracture due to steroid use. - Ankylosing spondylitis: it starts at the SI joint, get HLA-B27, you find marginal syndesmophytes with diffuse ossification of the disc space without large osteophyte formation. This is different from the DISH (diffuse idiopathic skeletal ossification) in diabetic patients where you get HbA1c and the syndesmophytes are nonmarginal & they have larger osteophytes. - Disc herniation: disc is an elastic soft cushion between the vertebrae of the spine. • Conditions with confusing names:  - Spondylolysis: this is an anatomical defect or break of the pars interarticularis that occurs usually in the 5th lumbar vertebra in about 5% of the population & hyperextension makes it worse, on oblique x-ray: you see “scotty dog sign”  - Spondylolisthesis: this is a slippage of the vertebral body over the other, occurs usually at L5-S1 in the pediatric population, L4- L5 in female adults, if there is a large slip it will continue to slip, & if you have a dysplastic slip it will continue to progress. - Spondylitis: it is an inflammation of the vertebrae, like ankylosing spondylitis or TB. - Spondylosis: is vertebral arthritis, it narrows the neural foramen, pinch the nerve roots and causes radiculopathy, in the cervical spine, compression of the spinal cord from arthritis can lead to myelopathy which means gait disturbance broad base shuffling gait, upper extremity clumsiness and weakness, upper neuron signs may be present such as Huffman’s sign and Babinski reflex. - Coexisting cervical myelopathy can occur in lumbar stenosis. - Lumbar spinal stenosis: there are 2 types of lumbar spinal stenosis: 1- Central stenosis: will give neurological claudication 2- Lateral recess stenosis: will give the radicular symptoms. It occurs because of a hypertrophy of the facet and the ligamentum flavum and spine arthritis, it will cause compression of the nerve root, this is the one where the back pain is better, because it open the foramen. History is the key for making a diagnosis of lumbar stenosis. If it occur in the intervertebral foramen then it is called the neuroforaminal stenosis. Look for other reasons such as metastatic tumor or vascular conditions, always examine the pulses. - Neurogenic and vascular claudication may coexist, walking is bad for both conditions, sitting relive the symptoms in both conditions, stopping and standing still is good for the vascular claudication, but still cause symptoms for lumbar stenosis, the bicycle relieve the lumbar stenosis but aggravate the vascular. - In the vascular the pain starts within the calf and leg, in neurogenic it starts proximally then spreads distally. Postural changes of the spine will make the neurogenic claudication worse, but doesn’t affect the vascular claudication. Vascular claudication will be affected by muscle movement or function such as walking or riding a bicycle. In neurogenic claudication leaning over while riding the bicycle will relieve the symptoms in the same way as the shopping cart sign. Treatment for the lumbar stenosis: for the central canal stenosis: decompression by laminectomy, lateral recess stenosis: medial facectectomy, add fusion for instability or if more than 50% of the facets are removed. The risk of pseudoarthrosis is 500% with smoking.
  • Categoría

  • Licencia

    • Licencia de YouTube estándar
       

Anestesia epidural / Epidural anesthesia

Febrero 19, 2017. No. 2605



  



Imágenes in vivo del espacio epidural con tomografía de coherencia óptica bidimensional y tridimensional en un modelo porcino.
In vivo images of the epidural space with two- and three-dimensional optical coherence tomography in a porcine model.
PLoS One. 2017 Feb 14;12(2):e0172149. doi: 10.1371/journal.pone.0172149. eCollection 2017.
Abstract
BACKGROUND: No reports exist concerning in vivo optical coherence tomography visualization of the epidural space and the blood patch process in the epidural space. In this study, we produced real-time two-dimensional and reconstructed three-dimensional images of the epidural space by using optical coherence tomography in a porcine model. We also aimed to produce three-dimensional optical coherence tomography images of the dura puncture and blood patch process. METHODS: Two-dimensional and three-dimensional optical coherence tomography images were obtained using a swept source optical coherence tomography (SSOCT) system. Four laboratory pigs were intubated and ventilated after the induction of general anesthesia. An 18-gauge Tuohy needle was used as a tunnel for the optical coherence tomography probe to the epidural space. Two-dimensional and three-dimensional reconstruction optical coherence tomography images of the epidural space were acquired in four stages. RESULTS: In stage 1, real-time two-dimensional and reconstructed three-dimensional optical coherence tomography of the lumbar and thoracic epidural space were successfully acquired. In stage 2, the epidural catheter in the epidural space was successfully traced in the 3D optical coherence tomography images. In stage 3, water injection and lumbar puncture were successfully monitored in all study animals. In stage 4, 10 mL of fresh blood was injected into the epidural space and two-dimensional and three-dimensional optical coherence tomography images were successfully acquired. CONCLUSIONS: These animal experiments suggest the potential capability of using an optical coherence tomography-based imaging needle in the directed two-dimensional and three-dimensional visualization of the epidural space. More investigations involving humans are required before optical coherence tomography can be recommended for routine use. However, three-dimensional optical coherence tomography may provide a novel, minimally invasive, and safe way to observe the spinal epidural space, epidural catheter, lumbar puncture hole, and blood patch.

Neumoencéfalo después de punción dural inadvertida. Un caso con presentación neurológica inusual
Pneumocephalus Following Unidentified Dural Puncture: A Case Report with an Unusual Neurological Presentation.
Pain Physician. 2017 Feb;20(2):E329-E334.
Abstract
Pneumocephalus is a rare consequence of epidural anesthesia, which may occur following inadvertent or unidentified dural puncture when the loss of resistance to air technique is applied to identify the epidural space. Headache is the most common symptom presented in this condition, usually with sudden onset. This case report describes an unusual presentation of diffuse pneumocephalus after an unidentified dural puncture. The patient (male, 67 years old) was submitted to epidural catheter placement for the treatment of acute exacerbation of ischemic chronic pain using loss of resistance to air technique. No cerebrospinal fluid or blood flashback was observed after needle withdrawal. Shortly after the intervention, the patient presented symptoms of lethargy, apathy, and hypophonia, which are not commonly associated with pneumocephalus. No motor or sensory deficits were detected. Cranial computed tomography showed air in the frontal horn of the left ventricle, subarachnoid space at interhemispheric fissure and basal cisterns, confirming the diagnosis of diffuse pneumocephalus. The patient remained under vigilance with oxygen therapy and the epidural catheter left in place. After 24 hours, cranial computed tomography showed air in the temporal and frontal horns of the left ventricle, with no air in the subarachnoid space. The patient presented no neurological signs or symptoms at this time. Although headache is the most common symptom presented in reported cases of pneumocephalus, this case shows the need for the clinician to be aware of other signs and symptoms that may be indicative of this condition, in order to properly diagnose and treat these patients.Key words: Pneumocephalus, continuous epidural analgesia, ischemic chronic pain, loss-of-resistance to air technique, dural puncture, headache, unusual presentation.

Comparación de las técnicas para la identificación del espacio epidural utilizando la técnica de pérdida de resistencia o una jeringa automatizada - resultados de un estudio aleatorizado doble ciego.
Comparison of the techniques for the identification of the epidural space using the loss-of-resistance technique or an automated syringe - results of a randomized double-blind study.
Anaesthesiol Intensive Ther. 2016;48(4):228-233. doi: 10.5603/AIT.2016.0047.
Abstract
BACKGROUND: The conventional, loss of resistance technique for identification of the epidural space is highly dependent on the anaesthetist's personal experience and is susceptible to technical errors. Therefore, an alternative, automated technique was devised to overcome the drawbacks of the traditional method. The aim of the study was to compare the efficacy of epidural space identification and the complication rate between the two groups - the automatic syringe and conventional loss of resistance methods. METHODS: 47 patients scheduled for orthopaedic and gynaecology procedures under epidural anaesthesia were enrolled into the study. The number of attempts, ease of epidural space identification, complication rate and the patients' acceptance regarding the two techniques were evaluated. RESULTS: The majority of blocks were performed by trainee anaesthetists (91.5%). No statistical difference was found between the number of needle insertion attempts (1 vs. 2), the efficacy of epidural anaesthesia or the number of complications between the groups. The ease of epidural space identification, as assessed by an anaesthetist, was significantly better (P = 0.011) in the automated group (87.5% vs. 52.4%). A similar number of patients (92% vs. 94%) in both groups stated they would accept epidural anaesthesia in the future. CONCLUSION: The automated and loss of resistance methods of epidural space identification were proved to be equivalent in terms of efficacy and safety. Since the use of the automated technique may facilitate epidural space identification, it may be regarded as useful technique for anaesthetists inexperienced in epidural anaesthesia, or for trainees.
KEYWORDS: automatic identification; epidural anaesthesia; epidural space; identification; loss-ofresistance technique

Aire versus salino en la técnica de resistencia para identificación del espacio epidural
Air versus saline in the loss of resistance technique for identification of the epidural space.
Cochrane Database Syst Rev. 2014 Jul 18;(7):CD008938. doi: 10.1002/14651858.CD008938.pub2.
Abstract
BACKGROUND: The success of epidural anaesthesia depends on correct identification of the epidural space. For several decades, the decision of whether to use air or physiological saline during the loss of resistance technique for identification of the epidural space has been governed by the personal experience of the anaesthesiologist. Epidural block remains one of the main regional anaesthesia techniques. It is used for surgical anaesthesia, obstetrical analgesia, postoperative analgesia and treatment of chronic pain and as a complement to general anaesthesia. The sensation felt by the anaesthesiologist from the syringe plunger with loss of resistance is different when air is compared with saline (fluid). Frequently fluid allows a rapid change from resistance to non-resistance and increased movement of the plunger. However, the ideal technique for identification of the epidural space remains unclear. OBJECTIVES: * To evaluate the efficacy and safety of both air and saline in the loss of resistance technique for identification of the epidural space.* To evaluate complications related to the air or saline injected. SEARCH METHODS: We searched the Cochrane Central Register of Controlled Trials (CENTRAL) (2013, Issue 9), MEDLINE, EMBASE and the Latin American and Caribbean Health Science Information Database (LILACS) (from inception to September 2013). We applied no language restrictions. The date of the most recent search was 7 September 2013. SELECTION CRITERIA: We included randomized controlled trials (RCTs) and quasi-randomized controlled trials (quasi-RCTs) on air and saline in the loss of resistance technique for identification of the epidural space. DATA COLLECTION AND ANALYSIS: Two review authors independently assessed trial quality and extracted data. MAIN RESULTS: We included in the review seven studies with a total of 852 participants. The methodological quality of the included studies was generally ranked as showing low risk of bias in most domains, with the exception of one study, which did not mask participants. We were able to include data from 838 participants in the meta-analysis. We found no statistically significant differences between participants receiving air and those given saline in any of the outcomes evaluated: inability to locate the epidural space (three trials, 619 participants) (risk ratio (RR) 0.88, 95% confidence interval (CI) 0.33 to 2.31, low-quality evidence); accidental intravascular catheter placement (two trials, 223 participants) (RR 0.90, 95% CI 0.33 to 2.45, low-quality evidence); accidental subarachnoid catheter placement (four trials, 682 participants) (RR 2.95, 95% CI 0.12 to 71.90, low-quality evidence); combined spinal epidural failure (two trials, 400 participants) (RR 0.98, 95% CI 0.44 to 2.18, low-quality evidence); unblocked segments (five studies, 423 participants) (RR 1.66, 95% CI 0.72 to 3.85); and pain measured by VAS (two studies, 395 participants) (mean difference (MD) -0.09, 95% CI -0.37 to 0.18). With regard to adverse effects, we found no statistically significant differences between participants receiving air and those given saline in the occurrence of paraesthesias (three trials, 572 participants) (RR 0.89, 95% CI 0.69 to 1.15); difficulty in advancing the catheter (two trials, 227 participants) (RR 0.91, 95% CI 0.32 to 2.56); catheter replacement (two trials, 501 participants) (RR 0.69, 95% CI 0.26 to 1.83); and postdural puncture headache (one trial, 110 participants) (RR 0.83, 95% CI 0.12 to 5.71).
AUTHORS' CONCLUSIONS:
Low-quality evidence shows that results do not differ between air and saline in terms of the loss of resistance technique for identification of the epidural space and reduction of complications. Applicability might be compromised, as most of the results described in this review were obtained from parturient patients. This review underlines the need to conduct well-designed trials in this field. 
5to curso internacional Anestesiologia cardiotoracica_ vascular_ ecocardiografia y circulaci_n extracorporea.


Curso sobre Anestesia en Trasplantes, Cirugía abdominal, Plástica, Oftalmología y Otorrinolaringología.
Committee for European Education in Anaesthesiology (CEEA) 
y el Colegio de Anestesiólogos de León A.C.
Abril 7-9, 2017, León Guanajuato, México

Informes  (477) 716 06 16, kikinhedz@gmail.com
4° Congreso Internacional de Control Total de la Vía Aérea
Asociación Mexicana de Vía  Aérea Difícil, AC
Ciudad de México 21, 22 y 23 de Abril 2017
Informes: 
amvadmexico@gmail.com
Regional Anesthesiology and Acute Pain Medicine Meeting
April 6-8, 2017, San Francisco, California, USA
ASRA American Society of Regional Anesthesia and Pain Medicine
Like us on Facebook   Follow us on Twitter   Find us on Google+   View our videos on YouTube 
Anestesiología y Medicina del Dolor

52 664 6848905

Copyright © 2015