Midazolam Effect on Agitation Postnasal Surgery
AgitationPostoperative agitation is a common complication, it's incidence post head and neck surgery is around 11-26%. Avoiding such complication is mandatory to facilitate patient's recovery and reduce risk of postoperative agitation related complications. Our study aims to detect the incidence of agitation following nasal surgery, and to determine the midazolam effect on agitation, when administered just before emergence from anesthesia.
Single Bolus Dose of Ketodex Versus Ketofol For Prevention Of Emergence Agitation In Adults Undergoing...
AgitationEmergenceemergence agitation is seen in around 68% after nasal surgeries. Agitated patients needs more staff and nurses to control their abnormal movement which leads to self extubation , removal of catheters and bruises in the extremities. Dexmedetomidine, ketamine, propofol intravenous infusion and other agents was used to prevent EA . Recently, ketodex is found to reduce the incidence and severity of EA . We aim to compare single bolus dose of Ketodex Versus Ketofol For Prevention Of emergence Agitation in adults undergoing nasal surgeries.
Different Premedication in Pediatric Patients
AgitationThe investigators studied the effects of intranasal dexmedetomidine compared with oral midazolam with different doses for premedication in children. One hundred and twenty children aged between 2 and 12 years were randomly allocated to one of four groups:2.5µg/kg intranasal dexmedetomidine group ; 0.5mg/kg oral midazolam group;0.05 mg/kg intravenous injection midazolam group; no premedication group. Sedation levels 10, 20, and 30min after premedication were evaluated using a 5-point sedation scale. A 4-point emotional state score was used to evaluate participators when they were separated from their parents and their response to intravenous cannulation or facemask application. Agitation scores (Pediatric Anesthe-sia Emergence Delirium [PAED] scale) and POV were assessed in the postanesthetic care unit (PACU).Times to endotracheal tube or laryngeal mask airway removal, discharge from the PACU and patients' satisfaction degree were also assessed.
Effect of Dexmedetomidine on Stress Response and Emergence Agitation During Laparoscopic Surgery...
Stress ResponseEmergence agitation is a post-anesthetic phenomenon that develops in the early phase of general anesthesia recovery, and is characterized by agitation, confusion, disorientation, and possible violent behavior. The incidence of emergence agitation is less common in adults as compared to pediatric patients. It may lead to serious consequences for the patient such as bleeding, falling, removal of catheters and self extubation, which lead to further complications like hypoxia and aspiration. Despite its common occurrence, unclear etiology, and serious sequelae, emergence agitation has rarely been studied in adults. The stress response to surgery is an unconscious response to tissue injury. Activation of the sympathetic nervous system, increase of catabolic hormone release and pituitary gland suppression are considered a response to surgical stress, in clinical practice these activities cause changes in heart rate, blood pressure and biochemical fluctuations of noradrenaline, adrenaline, dopamine, and cortisol. Above all, these fluctuations prolong hospitalization and delay patients discharge. Dexmedetomidine is a highly selective alpha-2 receptor agonist having sedative, analgesic and sympatholytic properties. Decreased stress response to surgery ensuring a stable hemodynamic state is a beneficial property of the agent. Peri-operative use of dexmedetomidine also decreases postoperative opioid consumption, pain intensity, and antiemetic therapy. However, the data related to the effects of dexmedetomidine on reducing agitation from general anesthesia in adults are limited.
Acupuncture for the Prevention of Emergence Delirium in Children Undergoing Myringotomy Tube Placement...
DeliriumPsychomotor AgitationMyringotomy tube placement is one of the most commonly performed operations in children. Emergence delirium after such procedures is common. During emergence delirium children can become both a danger to themselves and others around them, including family members and hospital staff. The primary objective of this study is to determine if acupuncture, when used in combination with standard anesthetic management, decreases the incidence of emergence delirium in pediatric patients following myringotomy tube placement. Patients with and without premedication of midazolam will be included. A secondary objective of this study is to determine our institution's actual incidence of emergence delirium for this operation using a validated scale, the Pediatric Anesthesia Emergence Delirium (PAED) scale. We will also compare rates of emergence delirium in patients that received a premedication of midazolam versus (V) those that did not (NV). This is a randomized double-blinded trial. We will enroll 100 children aged 1-6 years old. Premedication with midazolam will be decided by the anesthesiologist. If needed, the patient will receive a standard does of oral midazolam plus acetaminophen (V). If the patient does not require premedication with midazolam, oral acetaminophen will be given alone (NV). Patients will then be randomized to receive either acupuncture with standard general anesthesia care (A) or to receive standard anesthetic care alone (S). Patients, their family members and recovery registered nurses (RNs) will not know if acupuncture was performed. Intraoperative anesthetic techniques will be standardized and include inhaled inductions with nitrous oxide and sevoflurane. Anesthesia maintenance will be inhaled sevoflurane and the usual pain medication ketorolac will be given intramuscularly prior to emergence. Acupuncture needles will be placed after anesthesia induction and removed prior to leaving the operating room. A total of 4 needles will be placed, one in each wrist at the Heart 7 (HT7) point and one in each ear at the Shen Men point. The needles will be inserted bilaterally to a depth of 1.8 mm. In the PACU, a blinded study observer will evaluate the patient at four time points using the PAED scale: time of awakening and 5, 10 & 15 minutes after awakening. Follow up phone calls will be made one day and one week after surgery. Families will be asked about behavior after discharge, sleep and bed-wetting.
Dexmedetomidine as a Rapid Bolus in Children for Emergence Agitation
TonsillectomyTo Determine The Efficacy of a Rapid Bolus Injection of Dexmedetomidine on the Incidence of Emergence Agitation in Anesthetized Children and the Cardiovascular Profile of a Rapid Bolus Injection of Dexmedetomidine.
Butrans for Treatment of Restless Legs Syndrome
Restless Legs SyndromeThe primary objective of the study is to determine whether Butrans Transdermal System (BTDS) reduces RLS symptom severity in patients with moderate to severe idiopathic RLS who are naïve to opiate treatment. The secondary objective of the study is to investigate the effects of BTDS on mood, sleep, and quality of life. The study will consist of nine visits. Depending on the need for medication titration, there may also be two scheduled telephone contacts. Visit 1: This is a screening visit to determine study eligibility. Eligible subjects who choose to participate must undergo medication washout as described in the detailed protocol between visits 1 and 2. Treatment period #1 (Visits 2 - 5; day 0 - 28): Baseline measures will be recorded and subjects randomized to treatment order at visit 2 (day 0). Study medication as well as rescue medication (l-dopa, a non-blinded active treatment to be used within a limited dose range as described in the detailed protocol) will be dispensed. Subjects will begin treatment period #1 immediately after this. The study medication will be titrated within the allowed range according to subject's reported symptoms during visit 3 (day 7), visit 4 (day 14), telephone contact (day 21). Visit 5 will occur on day 28 and will include assessment of outcome measures for the first treatment period. Visit 5 will also mark the beginning of the second treatment period. Treatment period #2 (Visits 6 - 8; day 28 - 56): Procedures will be similar to those described above during treatment period #1. Visit 8 will mark the end of the second treatment period during which outcome measures will be ascertained. Follow up visit (Visit 9; day 70): This will be a safety follow-up visit approximately two weeks after visit 8 for review of adverse events.
Dexmedetomidine to Prevent Agitation After Free Flap Surgery
AgitationDeliriumReconstruction using microvascular free tissue flap has been an important management in patients with maxillofacial tumor. It is often characterised as long operation time, more traumatic and require restriction of patient's head movement postoperatively in order to prevent disruption of microvascular anastomosis. Agitation and delirium are common in patients with free flap surgery, which may lead to serious consequences such as self extubation, injury or even failure of the flap. Dexmedetomidine is a sedative and co-analgesic drug with high specificity for α2-adrenoceptor. It is widely used in ICU sedation in general hospital. However its use after free flap surgery is not well documented. Furthermore the effect of Dexmedetomidine on preventing delirium has not been proved. The investigators hypothesized that the use of Dexmedetomidine would reduce emergence agitation and prevent delirium in patients after free flap surgery.
Nalbuphine Versus Ketamine for Prevention of Emergence Agitation After Sevoflurane in Children Undergoing...
Pediatric ALLPediatric AnesthesiaThe effect of low dose nalbuphine or ketamine in the prevention of emergence agitation after sevoflurane anesthesia in children undergoing tonsillectomy with or without adenoidectomy. This randomized double-blind study was carried out at, Ain shams University Hospitals, from March 2021 to June 2021 on 90 patients after approval of the ethical committee.
Intramuscular Ketamine Effect on Postnasal Surgery Agitation
AgitationEmergenceEmergence agitation (EA) is a common complication after nasal surgery. In this study, we aimed to investigate the effect of intramuscular ketamine on EA following septoplasty and open septorhinoplasty (OSRP) when administered at subanesthetic doses at the end of surgery. Sedation and Agitation scores were recorded using The Richmond agitation-sedation score after extubation.