sábado, 18 de julio de 2015

Mas de ventilación mecánica/More on mechanical ventilation

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In some e-mails you may notice that the hyperlinks are included. This makes it easy more information about the authors and journals just clicking on the data included.

Em alguns e-mails que você perceber que podem os hiperlinks estão incluídos. Isto torna mais fácil obter mais informações sobre os autores e periódicos apenas clicando sobre os dados incluídos.

در برخی از ایمیل شما متوجه است که ممکن است لینک گنجانده شده است. این باعث می شود آن را آسان اطلاعات
بیشتر در مورد نویسندگان و مجلات تنها با کلیک کردن بر روی داده ها گنجانده شده است.

Beneficios de la ventilación protectora. Viendo más allá de UCI
Benefits of lung-protective ventilation: looking beyond the ICU.
Crit Care. 2014 Sep 25;18(5):530. doi: 10.1186/s13054-014-0530-0.
Avances recientes en ventilación mecánica en pacientes sin ARDS
Recent advances in mechanical ventilation in patients without acute respiratory distress syndrome.
F1000Prime Rep. 2014 Dec 1;6:115. doi: 10.12703/P6-115. eCollection 2014.
Abstract
While being an essential part of general anesthesia for surgery and at times even a life-saving intervention in critically ill patients, mechanical ventilation has a strong potential to cause harm. Certain ventilation strategies could prevent, at least to some extent, the injury caused by this intervention. One essential element of so-called 'lung-protective' ventilation is the use of lower tidal volumes. It is uncertain whether higher levels of positive end-expiratory pressures have lung-protective properties as well. There are indications that too high oxygen fractions of inspired air, or too high blood oxygen targets, are harmful. Circumstantial evidence further suggests that spontaneous modes of ventilation are to be preferred over controlled ventilation to prevent harm to respiratory muscle. Finally, the use of restrictive sedation strategies in critically ill patients indirectly prevents ventilation-induced injury, as daily spontaneous awakening and breathing trials and bolus instead of continuous sedation are associated with shorter duration of ventilation and shorten the exposure to the injurious effects of ventilation.
Enfoques para la ventilación en cuidados intensivos.
Approaches to ventilation in intensive care.
Dtsch Arztebl Int. 2014 Oct 17;111(42):714-20. doi: 10.3238/arztebl.2014.0714.
Abstract
BACKGROUND: Mechanical ventilation is a common and often life-saving intervention in intensive care medicine. About 35% of all patients in intensive care are mechanically ventilated; about 15% of these patients develop a ventilation-associated pneumonia. The goal of ventilation therapy is to lessen the work of respiration and pulmonary gas exchange and thereby maintain or restore an adequate oxygen supply to the body's tissues.Mechanical ventilation can be carried out in many different modes; the avoidance of ventilation-induced lung damage through protective ventilationstrategies is currently a major focus of clinical interest. METHOD: This review is based on pertinent articles retrieved by a selective literature search. RESULTS: Compared to conventional lung-protecting modes of mechanical ventilation, the modern modes of ventilation presented here are further developments that optimize lung protection while improving pulmonary function and the synchrony of the patient with the ventilator. In high-frequencyventilation, tidal volumes of 1-2 mL/kgBW (body weight) are given, at a respiratory rate of up to 12 Hz. Assisted forms of spontaneous respiration are also in use, such as proportional assist ventilation (PAV), neurally adjusted ventilatory assist (NAVA), and variable pressure-support ventilation. Computer-guided closed-loop ventilation systems enable automated ventilation; according to a recent meta-analysis, they shorten weaning times by 32% . CONCLUSION: The currently available scientific evidence with respect to clinically relevant endpoints is inadequate for all of these newer modes ofventilation. It appears, however, that they can lower both the invasiveness and the duration of mechanical ventilation, and thus improve the care of patients who need ventilation. Randomized trials with clinically relevant endpoints must be carried out before any final judgments can be made.
Atentamente
Anestesia y Medicina del Dolor

jueves, 16 de julio de 2015

Tramadol y piernas inquietas / Tramadol for restless legs syndrome

Revisión de las estrategias de manejo en el síndrome de piernas inquietas o enfermedad de Willis-Ekbon
A review of current treatment strategies for restless legs syndrome (Willis-Ekbom disease).
Klingelhoefer L, Cova I, Gupta S, Chaudhuri KR.
Clin Med. 2014 Oct;14(5):520-4. doi: 10.7861/clinmedicine.14-5-520.
Abstract
Restless legs syndrome (RLS), recently renamed Willis-Ekbom disease (WED), is a common movement disorder. It is characterised by the need to move mainly the legs due to uncomfortable, sometimes painful sensations in the legs, which have a diurnal variation and a release with movement. Management is complex. First, centres should establish the severity of RLS using a simple 10-item RLS severity rating scale (IRLS). They should also exclude secondary causes, in particular ensuring normal iron levels. Mild cases can be managed by lifestyle changes, but patients with a IRLS score above 15 usually require pharmacological treatment. Dopaminergic therapies remain the mainstay of medical therapies, with recent evidence suggesting opioids may be particularly effective. This article focuses on the different treatment strategies in RLS, their associated complications and ways to manage them.
KEYWORDS: RLS; Restless legs syndrome; medical treatment; side effects; therapy
PDF
Consenso revisado de la Fundación Willis-Ekbom Disease Foundation sobre el tratamiento del síndrome de piernas inquietas.
Willis-Ekbom Disease Foundation revised consensus statement on the management of restless legs syndrome.
Silber MH1, Becker PM, Earley C, Garcia-Borreguero D, Ondo WG; Medical Advisory Board of the Willis-Ekbom Disease Foundation.
Collaborators (12)
Mayo Clin Proc. 2013 Sep;88(9):977-86. doi: 10.1016/j.mayocp.2013.06.016.
Abstract
Restless legs syndrome (RLS)/Willis-Ekbom disease (WED) is a common disorder, occurring at least twice a week and causing at least moderate distress in 1.5% to 2.7% of the population. It is important for primary care physicians to be familiar with this disorder and its management. Much has changed in its management since our previous algorithm was published in 2004, including the availability of several new drugs. This revised algorithm was written by members of the Medical Advisory Board of the Willis-Ekbom Disease Syndrome Foundation based on scientific evidence and expert opinion. It considers the management of RLS/WED under intermittent RLS/WED, chronic persistent RLS/WED, and refractory RLS/WED. Nonpharmacological approaches, including mental alerting activities, avoiding substances or medications that may exacerbate RLS, and the role of iron supplementation, are outlined. Chronic persistent RLS/WED should be treated with either a nonergot dopamine agonist or a calcium channel α-2-δ ligand. We discuss the available drugs, the factors determining which to use, and their adverse effects. We define refractory RLS/WED and describe management approaches, including combination therapy and the use of high-potency opioids.
KEYWORDS: MAB; Medical Advisory Board; RLS; WED; Willis-Ekbom disease; restless legs syndrome
PDF
Atentamente
Anestesia y Medicina del Dolor

lunes, 13 de julio de 2015

Farmacología clínica neonatal


Farmacología clínica neonatal
Neonatal clinical pharmacology.
Allegaert K, van de Velde M, van den Anker J.
Paediatr Anaesth. 2014 Jan;24(1):30-8. doi: 10.1111/pan.12176. Epub 2013 Apr 26.
Abstract
Effective and safe drug administration in neonates should be based on integrated knowledge on the evolving physiological characteristics of the infant who will receive the drug and the pharmacokinetics (PK) and pharmacodynamics (PD) of a given drug. Consequently, clinical pharmacology in neonates is as dynamic and diverse as the neonates we admit to our units while covariates explaining the variability are at least as relevant as median estimates. The unique setting of neonatal clinical pharmacology will be highlighted based on the hazards of simple extrapolation of maturational drug clearance when only based on 'adult' metabolism (propofol, paracetamol). Second, maturational trends are not at the same pace for all maturational processes. This will be illustrated based on the differences between hepatic and renal maturation (tramadol, morphine, midazolam). Finally, pharmacogenetics should be tailored to neonates, not just mirror adult concepts. Because of this diversity, clinical research in the field of neonatal clinical pharmacology is urgently needed and facilitated through PK/PD modeling. In addition, irrespective of already available data to guide pharmacotherapy, pharmacovigilance is needed to recognize specific side effects. Consequently, pediatric anesthesiologists should consider to contribute to improved pharmacotherapy through clinical trial design and collaboration, as well as reporting on adverse effects of specific drugs.
PDF
Atentamente
Anestesia y Medicina del Dolor

sábado, 11 de julio de 2015

Hipotermia perioperatoria/Perioperative hypothermia

Prevención de hipotermia perioperatoria inadvertida
Preventing inadvertent perioperative hypothermia.
Torossian A1, Bräuer A, Höcker J, Bein B, Wulf H, Horn EP.
Dtsch Arztebl Int. 2015 Mar 6;112(10):166-72. doi: 10.3238/arztebl.2015.0166.
Abstract
BACKGROUND: 25-90% of all patients undergoing elective surgery suffer from inadvertent postoperative hypothermia, i.e., a core body temperature below 36°C. Compared to normothermic patients, these patients have more frequent wound infections (relative risk [RR] 3.25, 95% confidence interval [CI] 1.35-7.84), cardiac complications (RR 4.49, 95% CI 1.00-20.16), and blood transfusions (RR 1.33, 95% CI 1.06-1.66). Hypothermic patients feel uncomfortable, and shivering raises oxygen consumption by about 40%. METHODS: This guideline is based on a systematic review of the literature up to and including October 2012 and a further one from November 2012 to August 2014. The recommendations were developed and agreed upon by representatives of five medical specialty societies in a structured consensus process. RESULTS: The patient's core temperature should be measured 1-2 hours before the start of anesthesia, and either continuously or every 15 minutes during surgery. Depending on the nature of the operation, the site of temperature measurement should be oral, naso-/oropharyngeal, esophageal, vesical, or tympanic (direct). The patient should be actively prewarmed 20-30 minutes before surgery to counteract the decline in temperature. Prewarmed patients must be actively warmed intraoperatively as well if the planned duration of anesthesia is longer than 60 minutes (without prewarming, 30 minutes). The ambient temperature in the operating room should be at least 21°C for adult patients and at least 24°C for children. Infusions and blood transfusions that are given at rates of >500 mL/h should be warmed first. Perioperatively, the largest possible area of the body surface should be thermally insulated. Emergence from general anesthesia should take place at normal body temperature. Postoperativehypothermia, if present, should be treated by the administration of convective or conductive heat until normothermia is achieved. Shivering can be treated with medications.
CONCLUSION: Inadvertent perioperative hypothermia can adversely affect the outcome of surgery and the patient's postoperative course. It should be actively prevented.
PDF
Medición de temperatura perioperatoria y manejo: ir más allá del proyecto de mejoramiento de cuidado quirúrgico
Perioperative temperature measurement and management: moving beyond the Surgical Care Improvement Project. Joshua W, Sappenfield, Caron M. Hong and Samuel M.
Journal of Anesthesiology & Clinical Science 2012
Abstract
Intraoperative management of patient body temperature is a standard of care for practicing anesthesiologists. Merely complying with the Surgical Care Improvement Project (SCIP) measurement is inadequate for optimizing perioperative outcomes. Clinicians should have a sound understanding of available temperature monitoring sites, deleterious effects of hypothermia, and indications for therapeutic hypothermia. This foundation will help physicians use indicated modalities to improve patient outcomes throughout the perioperative period. The purpose of this paper is to review appropriate intraoperative temperature monitoring, the importance of maintaining normothermia, and indications for intraoperative hypothermia.
Hipotermia perioperatoria en pacientes pediátricos. Diagnóstico, prevención y manejo
Perioperative hypothermia in pediatric patients: diagnosis, prevention and management
Bajwa SJS and Swati.
Anaesth Pain & Intensive Care 2014;18(1):97-100
ABSTRACT
Hipothermia is the most common perioperative disturbance in pediatric patients. Pediatric patients are highly vulnerable to hypothermia and its associated complications, e.g. respiratory embarrassment, metabolic acidosis, hypoglycemia, hypoxemia, cardiac disturbances, coagulopathy, and a higher incidence of wound infection etc. This higher vulnerability is mainly due to increased heat loss from larger head size, thin skin, lack of subcutaneous pad of fat and limited ability of compensatory thermogenesis from brown fat. As such it is mandatory to design appropriate diagnostic, preventive and therapeutic strategies which can effectively protect pediatric population from the potential catastrophic complications associated with hypothermia during perioperative period. The current review aims to refresh the basic mechanism of hypothermia and discussion of evidence based management strategies to minimize the incidence of hypothermia in pediatric patients. Key words: Perioperative, Hypothermia, Thermoregulation, Thermogenesis
PDF
Atentamente
Anestesia y Medicina del Dolor

Hipotermia perioperatoria/Perioperative hypothermia

Prevención de hipotermia perioperatoria inadvertida
Preventing inadvertent perioperative hypothermia.
Torossian A1, Bräuer A, Höcker J, Bein B, Wulf H, Horn EP.
Dtsch Arztebl Int. 2015 Mar 6;112(10):166-72. doi: 10.3238/arztebl.2015.0166.
Abstract
BACKGROUND: 25-90% of all patients undergoing elective surgery suffer from inadvertent postoperative hypothermia, i.e., a core body temperature below 36°C. Compared to normothermic patients, these patients have more frequent wound infections (relative risk [RR] 3.25, 95% confidence interval [CI] 1.35-7.84), cardiac complications (RR 4.49, 95% CI 1.00-20.16), and blood transfusions (RR 1.33, 95% CI 1.06-1.66). Hypothermic patients feel uncomfortable, and shivering raises oxygen consumption by about 40%. METHODS: This guideline is based on a systematic review of the literature up to and including October 2012 and a further one from November 2012 to August 2014. The recommendations were developed and agreed upon by representatives of five medical specialty societies in a structured consensus process. RESULTS: The patient's core temperature should be measured 1-2 hours before the start of anesthesia, and either continuously or every 15 minutes during surgery. Depending on the nature of the operation, the site of temperature measurement should be oral, naso-/oropharyngeal, esophageal, vesical, or tympanic (direct). The patient should be actively prewarmed 20-30 minutes before surgery to counteract the decline in temperature. Prewarmed patients must be actively warmed intraoperatively as well if the planned duration of anesthesia is longer than 60 minutes (without prewarming, 30 minutes). The ambient temperature in the operating room should be at least 21°C for adult patients and at least 24°C for children. Infusions and blood transfusions that are given at rates of >500 mL/h should be warmed first. Perioperatively, the largest possible area of the body surface should be thermally insulated. Emergence from general anesthesia should take place at normal body temperature. Postoperativehypothermia, if present, should be treated by the administration of convective or conductive heat until normothermia is achieved. Shivering can be treated with medications.
CONCLUSION: Inadvertent perioperative hypothermia can adversely affect the outcome of surgery and the patient's postoperative course. It should be actively prevented.
PDF
Medición de temperatura perioperatoria y manejo: ir más allá del proyecto de mejoramiento de cuidado quirúrgico
Perioperative temperature measurement and management: moving beyond the Surgical Care Improvement Project. Joshua W, Sappenfield, Caron M. Hong and Samuel M.
Journal of Anesthesiology & Clinical Science 2012
Abstract
Intraoperative management of patient body temperature is a standard of care for practicing anesthesiologists. Merely complying with the Surgical Care Improvement Project (SCIP) measurement is inadequate for optimizing perioperative outcomes. Clinicians should have a sound understanding of available temperature monitoring sites, deleterious effects of hypothermia, and indications for therapeutic hypothermia. This foundation will help physicians use indicated modalities to improve patient outcomes throughout the perioperative period. The purpose of this paper is to review appropriate intraoperative temperature monitoring, the importance of maintaining normothermia, and indications for intraoperative hypothermia.
Hipotermia perioperatoria en pacientes pediátricos. Diagnóstico, prevención y manejo
Perioperative hypothermia in pediatric patients: diagnosis, prevention and management
Bajwa SJS and Swati.
Anaesth Pain & Intensive Care 2014;18(1):97-100
ABSTRACT
Hipothermia is the most common perioperative disturbance in pediatric patients. Pediatric patients are highly vulnerable to hypothermia and its associated complications, e.g. respiratory embarrassment, metabolic acidosis, hypoglycemia, hypoxemia, cardiac disturbances, coagulopathy, and a higher incidence of wound infection etc. This higher vulnerability is mainly due to increased heat loss from larger head size, thin skin, lack of subcutaneous pad of fat and limited ability of compensatory thermogenesis from brown fat. As such it is mandatory to design appropriate diagnostic, preventive and therapeutic strategies which can effectively protect pediatric population from the potential catastrophic complications associated with hypothermia during perioperative period. The current review aims to refresh the basic mechanism of hypothermia and discussion of evidence based management strategies to minimize the incidence of hypothermia in pediatric patients. Key words: Perioperative, Hypothermia, Thermoregulation, Thermogenesis
PDF
Atentamente
Anestesia y Medicina del Dolor

Raquia en niños/Spinal anesthesia in pediatrics

Anestesia espinal para infantes y niños. Una auditoría prospectiva de un año.
Spinal anesthesia in infants and children: A one year prospective audit.
Anesth Essays Res. 2014 Sep-Dec;8(3):324-9. doi: 10.4103/0259-1162.143124.
Abstract
CONTEXT AND AIMS: Spinal anesthesia though gaining popularity in children, the misconceptions regarding its safety and feasibility can be better known with greater use and experience. The objective of this study was to evaluate the success rate, complications and hemodynamic stability related to pediatric spinal anesthesia. MATERIALS AND METHODS: In this 1-year prospective study, 102 pediatric patients aged 6 months to 14 years undergoing infraumbilical and lower extremity surgery were included. Spinal anesthesia was administered using hyperbaric bupivacaine 0.5% in a dose of 0.5 mg/kg (for child < 5 kg), 0.4 mg/kg (for 5-15 kg), 0.3 mg/kg (for >15 kg) in L4-L5 space under all aseptic precautions after sedation. Demographic data, vital parameters, supplemental sedation, number of attempts for lumbar puncture, sensory-motor block characteristics, and complications were noted. RESULTS: Spinal anesthesia was successful in 98 (97.1%) patients. Remaining 4 (3.9%) were failures and were given general anesthesia. Lumbar puncture was successful in first attempt (60 [58.82%]) or 2(nd) attempt (42 [41.18%]). There was no significant change in vital parameters. Mean peak sensory level was T 6.35 ± 1.20 (T4-T8). Mean sensory level at the end of surgery was T 8.11 ± 1.42 (T6-T10). Modified Bromage score was 3 in 98 (96.08%) patients. Sensory and motor block recovery was complete in all patients. Mean time to two segment regression was 43.97 ± 10.72 (30-70) min. Mean time to return Bromage score to 0 was 111.95 ± 20.54 (70-160). Mean duration of surgery was 52.5 ± 16.056 (25-95) min. Incidence of complications was minimal with hypotension occurring in 2 (2%) and shivering in 3 (2.9%) patients. CONCLUSION: Pediatric spinal anesthesia is a safe and effective anesthetic technique for lower abdominal and lower limb surgeries of shorter duration (<90 min) with high success rate. Owing to, its early motor recovery, it can be a preferred technique for day case surgeries in the pediatric population.
KEYWORDS: Complications; hemodynamics; infants; infraumbilical; spinal anesthesia; success rate
Atentamente
Anestesia y Medicina del Dolor

viernes, 10 de julio de 2015

Neuropatía dolorosa diabética aguda

Neuropatía dolorosa diabética aguda. Una forma rara, remitente de neuropatía aguda distal de fibras pequeñas
Acute painful diabetic neuropathy: an uncommon, remittent type of acute distal small fibre neuropathy.
Tran C, Philippe J, Ochsner F, Kuntzer T, Truffert A.
Swiss Med Wkly. 2015 May 5;145:w14131. doi: 10.4414/smw.2015.14131. eCollection 2015.
Abstract
INTRODUCTION: Acute painful diabetic neuropathy (APDN) is a distinctive diabetic polyneuropathy and consists of two subtypes: treatment-inducedneuropathy (TIN) and diabetic neuropathic cachexia (DNC). The characteristics of APDN are (1.) the small-fibre involvement, (2.) occurrence paradoxically after short-term achievement of good glycaemia control, (3.) intense pain sensation and (4.) eventual recovery. In the face of current recommendations to achieve quickly glycaemic targets, it appears necessary to recognise and understand this neuropathy. METHODS AND RESULTS: Over 2009 to 2012, we reported four cases of APDN. Four patients (three males and one female) were identified and had a mean age at onset of TIN of 47.7 years (±6.99 years). Mean baseline HbA1c was 14.2% (±1.42) and 7.0% (±3.60) after treatment. Mean estimated time to correct HbA1c was 4.5 months (±3.82 months). Three patients presented with a mean time to symptom resolution of 12.7 months (±1.15 months). One patient had an initial normal electroneuromyogram (ENMG) despite the presence of neuropathic symptoms, and a second abnormal ENMG showing axonal and myelin neuropathy. One patient had a peroneal nerve biopsy showing loss of large myelinated fibres as well as unmyelinated fibres, and signs of microangiopathy. CONCLUSIONS: According to the current recommendations of promptly achieving glycaemic targets, it appears necessary to recognise and understand this neuropathy. Based on our observations and data from the literature we propose an algorithmic approach for differential diagnosis and therapeutic management of APDN patients.
PDF
Atentamente
Anestesia y Medicina del Dolor

Crean en México un guante que traduce el lenguaje de los sordomudos

Fuente
Este artículo es originalmente publicado en:
http://www.madrimasd.org/informacionidi/noticias/noticia.asp?id=64171&origen=notiweb&dia_suplemento=martes

Crean en México un guante que traduce el lenguaje de los sordomudos

Investigadores del Instituto Politécnico Nacional (IPN) mexicano desarrollaron un guante que traduce a texto y sonidos el lenguaje de los sordomudos para facilitar que puedan transmitir mensajes a personas que desconocen los signos, informó la institución educativa en un comunicado.

FUENTE | Agencia EFE

Bloqueos nerviosos periféricos/Peripheral nerve blocks

¿Cuáles bloqueos nerviosos periféricos deben de ser incluidos en los programas de residencia?
Which types of peripheral nerve blocks should be included in residency training programs?
BMC Anesthesiol. 2015 Mar 12;15:32. doi: 10.1186/s12871-015-0001-4. eCollection 2015.
Abstract
BACKGROUND: Despite the increasing use of regional anesthesia, specific recommendations regarding the type of procedures to be included in residency training programs are not currently available. We aimed to determine the nerve block techniques that practicing Chilean anesthesiologists perceived as essential to master during residency training. METHODS: After institutional ethics committee approval, an online survey was sent to 154 anesthesiologists that graduated between 2005-2012, from the two largest university residency programs in Chile. Multiple-choice questions elicited responses concerning the use of regional anesthesia. RESULTS: A total of 109 questionnaires were completed, which corresponded to a response rate of 70.8%. Almost all (98.2%) of the respondents used regional anesthesia in their clinical practice, 86.7% regularly performed peripheral nerve blocks (PNBs) and 51% used continuous PNB techniques. Residency programs represented their primary source of training. The most common PNB techniques performed were interscalene (100%), femoral (98%), popliteal sciatic (93%), and Bier block (90%). Respondents indicated that they were most confident performing femoral (98%), Bier block (90%), interscalene (90%), and popliteal sciatic (85%) blocks. The PNBs perceived as essential for their actual clinical practice were femoral (81%), interscalene (80%), popliteal sciatic (76%), and Bier blocks (62%). CONCLUSIONS: Requesting information from former anesthesiology residents may be a source of information, guiding the specific types of PNBs that should be included in residency training. Other groups can easily replicate this methodology to create their own evidence and clinical practice based guidelines for residency training programs.
KEYWORDS: Medical education; Peripheral nerve blocks; Survey

Atentamente
Anestesia y Medicina del Dolor

Un nuevo fármaco activado con luz mata solo las células cancerosas




Fuente
Este artículo es originalmente publicado en:
http://www.madrimasd.org/informacionidi/noticias/noticia.asp?id=64215

Un nuevo fármaco activado con luz mata solo las células cancerosas


Una nueva técnica que emplea la luz para activar fármacos contra el cáncer solo allí donde se necesita muestra un excelente potencial para mejorar la efectividad de la quimioterapia -con la que se trata a millones de personas con tumores- y reducir sus efectos secundarios. La técnica, conocida como optofarmacología, consiste en modificar moléculas anticancerosas de tal manera que solo funcionen cuando reciben un rayo de luz azul, según anuncia un equipo de científicos dirigidos por el bioquímico Oliver Thorn-Seshold, de la Universidad de Múnich (Alemania).

FUENTE | El País Digital

Hospitalización innecesaria, Enfoque Bioético

Estimado Pediatra te invito al Seminario de Pediatría, Cirugía Pediátrica y Lactancia Materna. El día 15 de Julio 2015 las 21hrs (Centro, México DF, Guadalajara y Lima Perú) a la Conferencia: “Hospitalización innecesaria, Enfoque Bioético” por el “Dr. Adalberto Vázquez García”, Pediatra Bioeticista de la Cd de Guadalajara, Jal. La sesión inicia puntualmente las 21 hrs.
Para entrar a la Sala de Conferencia:
1.- hacer click en la siguiente liga, o cópiala y escríbela en tu buscador http://connectpro60196372.adobeconnect.com/hospitalizacion_innecesaria/
2.- “Entra como Invitado” Escribes tu nombre y apellido en el espacio en blanco
3.- Hacer click en el espacio que dice “Entrar en la Sala”
5.- A disfrutar la conferencia
6.- Recomendamos que dejes tu Nombre Completo, Correo electrónico y que participes.

Henrys


Dr. Enrique Mendoza López
Webmaster: CONAPEME
Coordinador Nacional: Seminario Ciberpeds-Conapeme
Av La clinica 2520-310
Colonia Sertoma ,Mty N.L. México
CP 64710
Tel-Fax 52 81 83482940 y 52 81 81146053
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enrique@pediatramendoza.com
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