View clinical trials related to Dexamethasone.
Filter by:Pregnant women with a gestational age of 38 weeks and older admitted to Labor Of Kamali Hospital, for termination of pregnancy, by accident and based on the coding done by a statistician to identify groups of users of pill A or pill B, 14 pills are used vaginally . The client and the researcher are blinded and the pharmacist delivers the dexamethasone and placebo tablets with codes A and B to the researcher.
Brachial plexus block is a regional anaesthesia technique employed as a safe and valuable alternative to general anaesthesia for upper limb surgery. In recent practices of day care surgeries, brachial plexus block seems to be a better alternative to general anesthesia with minimal hospital stay and better analgesic effect. Among several techniques of brachial plexus block, supraclavicular approach is considered as easiest, effective and can be performed much more quickly than other approaches. Various local anaesthetic agents and adjuvants are used for this purpose. Among them, bupivacaine has been the most widely used long-acting local anaesthetic agent. Combining local anesthetics with different adjuncts can prolong the duration of analgesia associated with brachial plexus block. Among various adjuncts, dexamethasone and dexmedetomidine have been identified as clinically effective adjuncts. Several metaanalyses have convincingly demonstrated their efficacy in prolonging the analgesic duration of brachial plexus block. However, there has been limited research conducted to compare the effects of dexamethasone and dexmedetomidine added as adjuvants to the local anesthetics for BPB. Studies have demonstrated benefits of one agent over other without any definitive conclusion as which is the best agent for this purpose. Therefore, there is a need of study to compare the onset and duration of bupivacaine when dexmedetomidine or dexamethasone is used as an adjuvant to bupivacaine for ultrasound-guided supraclavicular BPB
This study aims to study the effectiveness of preoperatively nebulized dexamethasone in reducing the incidence and severity of Post Operative Sore Throat, POST in patients undergoing surgery under general anesthesia using the Ambu® AuraGainTM SGA device, with secondary aims of determining the effectiveness of dexamethasone in reducing post-operative cough severity and hoarseness of voice
Patients having lumbar spinal fusion often complain about severe postoperative pain and postoperative rehabilitation process can be affected negatively. Postoperative pain that cannot be well controlled may lead to delayed mobilization, pulmonary and thromboembolic complications, prolonged hospital stays, and chronic pain syndromes. Pain after spinal surgery can arise from several different tissues, such as the vertebrae, disks, ligaments, dura, facet joint, muscle, fascia, and subcutaneous and cutaneous tissues. Ultrasound-guided lumbar erector spinae plane block (ESPB) has been shown to reduce postoperative pain in patients undergoing posterior lumbar interbody fusion (PLIF). However, the duration of analgesia after single-shot ESPB with commonly used local anesthetics is reported to be no more than 12 h, which often not long enough to provide satisfactory postoperative pain relief, as the pain typically lasts for several days. Compared with perineural route, intravenous additives to local anesthetics are commonly accepted as its safety and efficiency have been reported. Moreover, co-administration of intravenous dexamethasone and dexmedetomidine significantly prolonged the time to first rescue analgesic request after single-shot interscalene brachial plexus block. However, more data are needed especially for lumbar ESPB.
The hypothesis is whether perineural dexamethasone and dexmedetomidine prolonged the duration of analgesia as compared with either perineural dexamethasone or perineural dexmedetomidine after TPVB.
Dexamethasone has been tested as an effective adjuvant to prolong the effect of local anesthetics for peripheral nerve blocks, both perineurally and intravenously. The purpose of this study is to investigate the effect of the addition of dexamethasone (5mg) at different time to a standard ropivacaine solution (0.5%) on analgesic duration of interscalene block.
Urinary tract infection (UTI) is the most frequently occurring serious bacterial infection in young children and accounts 5 to 14% of emergency department visits Formation of renal scarring in children has been associated with serious complications as hypertension, preeclampsia, and end stage renal failure in young age . So, this study aims to determine whether dexamethasone reduces the renal scarring in children will be treated with antibiotics for acute pyelonephritis. investigators propose to conduct a multi center, randomized, placebo-controlled, double-blind clinical trial, that will evaluate the efficacy of dexamethasone (0.3 mg/kg every 12 hours per day orally for 3 days) in preventing renal scarring in young febrile children (2 months to 14 years) with a first-diagnosed UTI. 120 Participants will be enrolled over a 3-year period from 6 sites.
Pain is common in the first 2 days after major craniotomy. Inadequate analgesia may lead to an increased risk of postoperative complications. Most pain following craniotomy arises from the pericranial muscles and soft tissues of the scalp. Scalp nerve blocks with local anesthesia seem to provide effective, safe, however transient postoperative analgesia which does not seem to meet the requirements of craniotomy. Currently, peripheral dexamethasone has been observed to significantly prolong the duration of analgesia of nerve blocks (e.g., saphenous nerve block, adductor canal block, thoracic paravertebral block, brachial plexus nerve block). On the contrary, a study reported that perineural dexamethasone did not appear to prolong the analgesic time after supratentorial craniotomy. However, all patients in this study were given 24 mg of oral or intravenous dexamethasone regularly at least 7 days during the perioperative period, which possibly masked the role of single local low doses of perineural dexamethasone. Therefore, the analgesic effect of single dexamethasone for scalp nerve blocks without the backdrop of perioperative glucocorticoid deserves further clarification.
The investigators reviewed the charts of SARS-CoV-2 patients with pneumonia and moderate to severely elevated CRP and worsening hypoxemia who were treated with early, short-term dexamethasone.
The administration of steroids, most commonly dexamethasone (DEX), has established as standard of care during treatment of glioblastoma (GBM) and is widely used during the entire course of the disease including pre- and postoperative management, chemo- and radiotherapy. The primary purpose is to reduce tumor-associated vasogenic edema and to prevent or treat increased intracranial pressure. However, steroids are also linked to a multitude of adverse side effects that may affect survival of GBM patients such as major immunosuppression. The use of steroids during radiotherapy is associated with reduced overall- and progression-free survival and has been identified as an independent poor prognostic factor. Despite these findings, the suspicion of GBM often triggers the administration of DEX in routine clinical practice, regardless of neurological symptoms, tumor size, or extension of cerebral edema. The purpose of this study is to assess whether selected GBM patients can be treated safely with a restrictive DEX regimen from referral to the neurosurgical center until discharge. The primary objective is to determine the failure rate of a restrictive DEX regimen defined as edema or mass effect leading to any of the following: GCS deterioration ≥ 2 points, NIHSS increase ≥ 3 points, increase of midline Shift ≥ 2mm, or any surgical rescue procedure for increasing mass effect.