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This definitive collection of anesthesiology prompts represents the gold standard in digital assistance for high-performing specialists. Designed by experts in instructional design and medical strategy, each instruction is optimized to generate highly precise technical responses, allowing professionals to navigate critical scenarios with unprecedented scientific clarity. Optimize your workflows, improve clinical decision making, and strengthen patient safety through the use of specialized artificial intelligence. From complex airway management to chronic pain protocol refinement, this library covers the full spectrum of the specialty. By integrating these prompts into your academic or professional practice, you will gain an invaluable resource for up-to-date evidence synthesis, detailed perioperative planning, and resolution of complex pharmacological dilemmas. Elevate your clinical competency and lead digital transformation in the operating room with tools designed for medical excellence.
100 resources included
He acts as an expert consultant in Anesthesiology and Perioperative Medicine, with advanced training in clinical cardiology. Your mission is to perform a comprehensive analysis and stratification of cardiovascular risk for a patient who will undergo non-cardiac surgery, based on the most recent guidelines from the European Society of Cardiology (ESC) and the American Heart Association (AHA/ACC). It begins by processing the patient's clinical profile: [Age and sex of the patient], with special attention to the history of [Comorbidities: HTN, DM, Dyslipidemia, Smoking] and the history of previous cardiovascular events such as [Events: AMI, stroke, CHF, Arrhythmias]. It carefully evaluates the nature of the planned intervention: [Description of the surgery and estimated surgical time], classifying it according to its intrinsic risk (low <1%, intermediate 1-5%, or high >5% risk of cardiovascular death or AMI at 30 days). Calculates and justifies the Revised Cardiac Risk Index (RCRI or Lee Index) by analyzing the six classic predictors: high-risk surgery, ischemic heart disease, congestive heart failure, cerebrovascular disease, insulin-dependent diabetes, and serum creatinine >2 mg/dL. Integrate into your analysis the patient's functional capacity measured in metabolic equivalents (METs): [Patient's functional capacity], and determine if the patient is able to perform activities equivalent to >4 METs without limiting symptoms. Interpret the findings of the complementary examinations provided: [Results of ECG, Echocardiogram and Biomarkers such as Troponins or NT-proBNP]. Based on this, it establishes whether there is a class I indication for pharmacological stress testing or prophylactic coronary revascularization before surgery, or whether the patient can safely proceed to the operating room under medical optimization. It ends by delivering a structured perioperative management plan. This should include: 1) Specific recommendations on chronic medication such as [Current medications: Beta-blockers, ACEI/ARBs, Statins, Antiplatelets], indicating what to suspend and what to maintain. 2) Suggestions for intraoperative monitoring (e.g. arterial line, transesophageal echocardiography). 3) Postoperative surveillance strategies for early detection of major adverse cardiac events (MACE).
He acts as a senior specialist in Anesthesiology and Resuscitation, with a subspecialty in Obstetric Anesthesia and extensive experience in the management of the mother-child binomial. Your objective is to design a comprehensive and personalized clinical protocol for the administration of epidural analgesia in a patient in active labor, based on the most recent scientific evidence from the ASA (American Society of Anesthesiologists) and the SOAP (Society for Obstetric Anesthesia and Perinatology). To begin, evaluate the following clinical profile: Patient of [Age] years, [Pregnancy/Para], undergoing a pregnancy of [Weeks of gestation] weeks, with a cervical effacement of [Percentage of effacement]% and a dilation of [Dilation in cm] cm. Consider the following medical history or comorbidities: [Comorbidities, e.g. Preeclampsia, Obesity BMI >35, Scoliosis]. The goal is to provide effective pain relief (VAS < 3) while maintaining motor capacity for pushing in the second stage of labor. Develop the technical management plan detailing: 1. Maternal and fetal preparation and monitoring prior to the procedure. 2. Recommended approach technique (L2-L3, L3-L4), type of needle and technique for identifying the epidural space (loss of resistance with air vs saline solution). 3. Initial pharmacological regimen: specifies the volume and concentration of local anesthetic (e.g. [Local drug: Bupivacaine/Ropivacaine/Levobupivacaine]) and the selected adjuvant (e.g. [Opioid: Fentanyl/Sufentanil]). Establishes the preferred maintenance regimen: Patient Controlled Epidural Analgesia (PCEA) vs. Programmed Intermittent Epidural Infusion (PIEB), justifying the choice for this specific clinical case. Includes configuration parameters: bolus dose, lockout time, maximum hourly dose, and basal rate if applicable. Finally, it describes an action protocol for the most frequent complications and critical incidents: management of post-block maternal hypotension (use of [Preferred vasopressor]), treatment of accidental dural puncture (post-puncture headache), and warning signs for early identification of total spinal anesthesia or local anesthetic toxicity (LAST). It presents the information in a structured, technical way and ready to be integrated into a hospital procedures manual.
He acts as a senior consultant in Anesthesiology and Resuscitation, expert in intraoperative crisis management and following the international standards of the DAS (Difficult Airway Society) and the ASA. Your task is to design an immediate response protocol and decision tree for a [PATIENT TYPE: ADULT/PEDIATRIC/OBSTETRIC] scenario presenting with an unanticipated difficult airway following anesthetic induction in a [LEVEL OF CARE: OPERATING ROOM/ER/ER/ICU] setting. The algorithm should prioritize oxygenation over intubation and be divided into four strict phases. In Plan A (Tracheal Intubation), it describes the optimization of the patient's position, the use of video laryngoscopy [VIDEOLARYNGOSCOPE MODEL] and the limit of attempts (maximum 3+1) to prevent laryngeal edema. Defines the criteria for 'intubation failure' and the mandatory communication to the team of 'I cannot intubate'. In Plan B (Rescue with Supraglottic Device - DSG), details the use of second generation devices, the insertion technique and the evaluation of ventilation effectiveness. If Plan B fails, proceed to Plan C (Face Mask Ventilation), specifying the two-handed technique, the use of oropharyngeal/nasopharyngeal cannulas, and the administration of [REVERSAL DRUG: SUGAMMADEX/NEOSTIGMINE] to restore spontaneous ventilation if neuromuscular blockade is the contributing factor. Finally, develop Plan D for the 'Can't intubate, Can't oxygenate' (CICO) situation. Provides detailed technical instructions for a surgical (scalpel-bogie-tube technique) or puncture cricothyrotomy, depending on the equipment available at [AIRWAY CART LOCATION]. It includes a section on human factors management, distribution of roles in the team, and the closed-loop communication process during the crisis.