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Anaesthesia and the Obese Patient Lucy Smith Consultant Anaesthetist, St George’s Hospital 15th January 2009 Outline Definitions/ Epidemiology Physiology of Obesity Comorbidities Practical Aspects of Anaesthesia Bariatric Surgery Definitions based on BMI BMI (kgm-2) <18.5 18.5-24.9 25-29.9 30-39.9 40-49.9 or 35-49.9 with Definition Underweight Ideal Weight Overweight Obese Morbidly Obese obesity-related comorbidity 50-59.9 60-69.9 >70 Super Obese Super Super Obese Hyper Obese Limitations BMI Not a direct measure of adiposity No account of fat distribution No account of duration of obesity Inaccurate at extremes of height Inaccurate with extremes of lean body mass (eg athletes, elderly) Waist or collar circumference more predictive of cardio-respiratory comorbidity Fat Distribution Android Central distribution High intra-peritoneal fat content Increased neck circumference Waist-hip ratio >0.8 women, >1.0 men Increased morbidity (airway, CVS, metabolic, surgical) Gynaecoid Peripheral sites (arms, legs, buttocks) Epidemiology of Obesity Epidemic in developed world Increasing prevalence Major healthcare challenge DOH reports: Overweight Obese M F M F 2001 43% 29% 13% 16% 2006 43% 33% 22% 23% Treatment Strategies Multidisciplinary approach Diet Physical activities Behavioral interventions Drugs Surgery Physiology of Obesity Multifactorial - genetic, environmental Complex regulation of appetite and satiety Multiple humoral and neurological mechanisms Integrated and processed in hypothalamus Hormones include leptin, insulin, ghrelin, peptide YY3-36 Energy balance and appetite reflexes mediated by ANS Pathways of energy balance LEPTIN adipose tissue content INSULIN acute me tabolic status CNS inputs HYPOTHALAM US ventrome dial GHRELIN from stomach signal hunger Peptide YY 3-36 from small intes tine signals satiety APPETITE REGULATION neuropepti de Y melan ocyte stimu lating hormone HYPOTHALAM US paravent ric ular nucleus late ral hypot halamic area FOOD SEEKING BEHAVIOUR AUTONOMIC NERVOUS SYSTEM SNS - energy use PNS Πinsulin secretion and energy stora ge Models of obesity pathology Overeating and inactivity simplistic view Various pathways suggested Interactions not clearly established Key features include Hyperinsulinaemia (fat deposition) Insulin resistance (type 2 diabetes) Defective leptin signalling (satiety) food reward 20 to dopamine clearance in brain (insulin-mediated) Obesity-related Comorbidities Prevalence increases with BMI and duration of obesity May be reason to undergo surgery Severity may be masked by sedentary lifestyle Major impact in perioperative period Pathophysiology - Respiratory Higher energy turnover O2 consumption, CO2 production +/- chronic hybercarbia with renal compensation and altered CO2 sensitivity FRC, VC, (A-a) O2, shunt Airway closure (CC greater than FRC) chest wall compliance and lung compliance work of breathing Respiratory Comorbidity Airway Obstructive Sleep Apnoea Obesity Hypoventilation Syndrome Asthma Pulmonary Hypertension Airway Difficulty predicted by OSA, short thick neck and BMI Fatty infiltration pharyngeal wall pharyngeal wall compliance Difficult to ventilate by face mask Rapid desaturation Consider awake fibreoptic intubation Obstructive Sleep Apnoea Apnoeic episodes 2˚ to pharyngeal collapse occurring during sleep Airfow ceases, ongoing effort, closed airway >10s, >5/hour, >30/night Snoring, daytime somnolence, am headaches Hypoxaemia, 2˚polycythaemia, systemic vasoconstriction, hypercarbia, pulmonary vasoconstriction, RVF Obesity Hypoventilation Syndrome Altered control of breathing Diurnal variation PaCO2 >5.9kPa with 1.3kPa asleep sO2 not explained by obstruction ventilatory response to CO2 Often coexists with OSA (OSAHS- Obstructive Sleep Apnoea Hypopnoea Syndrome) Asthma Multiple factors Acid reflux and micro aspiration Sleep apnoea and partial obstruction Peripheral airway closure sheer stresses proinflammatory response Bariatric surgery 80-100% resolution Pathophysiology - Cardiovascular blood volume + cardiac output ventricular workload myocardial fat content + contractility Endothelial dysfunction +vascular resistance 50% moderate HT, 5-10% severe HT +/- progressive PVR and PAP Progresses to RVF. Oedema and hepatic congestion Cardiovascular Comorbidity Hypertension Obesity cardiomyopathy Ischaemic Heart Disease (multiple factors) Arrhythmias (hypoxaemia, hypertrophy, hypokalaemia, coronary art disease, raised catecholamines, OSA, fatty infiltration conducting and pacing systems) Cor pulmonale Gastrointestinal Comorbidity Type 2 diabetes intra-abdominal pressure FRC, aortocaval compression, tissue perfusion, risk abdo compartment syndrome Fatty liver, steatohepatitis, cirrhosis Hiatus hernia, gastro-oesophageal reflux Hyperlipidaemia Musculo-skeletal and Other Osteoarthritis Compression fractures Increased risk of injury Urinary incontinence Skin infections, candidiasis, poor hygiene Varicose veins Lymphoedema Preoperative Assessment Anaesthetic history Details of Comorbidities Drug history (appetite suppressants) Airway (MP, neck extension, circumference) Ability to tolerate supine position Routine and specific investigations (may include baseline ABG, lung function tests, sleep studies, Echo, cardiac cath and PA pressure studies) Practical Aspects of Anaesthesia Location: Operating theatre only Staff: plenty of strong, trained people! Equipment: appropriate trolleys + table, electric beds, large BP cuffs, pillows, patslide/ hover mattress, airway Premed: H2 antagonist/ PPI Positioning: Patient climb onto table, head up tilt 30˚, ‘ramped’- wedge under shoulders (sternum to thyroid cartilage horizontal level) Induction iv access (dorsum hand, flexor aspect forearm, central with US guidance) Consider arterial line Preoxygenation at least 5 mins +/- RSI (dose sux 1mg/kg real body wt) Intubation (short handle, long blade,) Awake fibreoptic intubation if indicated Maintenance Short acting agents eg sevoflurane, desflurane, remifentanil Temperature maintenance Neuromuscular monitoring Ventilate with PEEP Pressure areas and skin Calf compression Fluids - insensible losses BSA SV/ pulse pressure optimisation Recovery Aim: rapid emergence with good airway control Risks: loss of airway control, inadequate respiration, aspiration, postop chest complications, CVS stress and instability Extubate wide-awake and sitting up +/- CPAP recruitment procedure prior to extubation Appropriate postop environment Analgesia Multimodal - paracetamol, NSAIDs, opioids, LA, regional Paracetamol - central compartment so normal dose, clearance dose frequency NSAIDs - risk renal dysfunction Opioids - risk respiratory depression Regional - higher failure rate Bariatric Surgery Weight loss surgery Procedures to treat obesity by modification of GI tract to reduce nutrient intake and/or reduce absorption ‘Tool’ enabling patient to alter lifestyle and eating habits to achieve effective and permanent management of obesity and eating behaviour Bariatric Surgery NICE Dec 2006 (CG43) Recommended as option if: BMI>40 (or 35 with significant comorbidity or severe DM) All non-surgical measures tried and failed Specialist obesity service involved Fit for anaesthesia and surgery Committed to long-term follow up First line option when BMI>50 Principles of Bariatric Surgery Reduction of stomach size (restrictive) food enters small upper gastric pouch passes into lower stomach or intestine early filling, discomfort on eating more Restriction of size of gastric outlet pouch or stomach remain full for longer Induction of malabsorption by intestinal bypass Vertical Banded Gastroplasty Restrictive ‘Stomach stapling’ Smaller pre-stomach pouch Small communication Rapid satiety Upper part may distend over time Adjustable Gastric Band Restrictive Silicone band Small upper pouch approx 25ml Inject saline via s/c port to adjust band to early satiety Upper pouch can distend Band can become displaced Sleeve Gastrectomy Restrictive Reduces stomach to 15% original size Remove large portion following greater curve Open edges joined to form sleeve or tube Early fullness, no outflow obstruction May be converted in 2nd stage procedure to gastric bypass or duodenal switch Roux-en-Y Gastric Bypass Mixed restrictive and malabsorptive Small stomach pouch Connect pouch to small intestine Upper small intestine re-attached in y-shape approx 45cm below stomach outlet Sleeve Gastrectomy with Duodenal Switch Mixed restrictive and malabsorptive Stomach disconnected from duodenum Connected to distal small intestine Duodenum and upper small intestine attached 75-100cm from colon Jejunoileal Bypass Malabsorptive procedure no longer performed Proximal jejunum anastomosed to distal ileum, 10cm before caecum Short length functional bowel Long blind loop Problems with severe malabsorption, dumping, liver failure, cardiac failure, renal stones Laparoscopic Bariatric Surgery Head-up position (up to 45˚) venous pooling in lower limbs venous return, cardiac output Pneumoperitoneum venous return, cardiac output intra-abdominal pressure migration gas into tissues progressive pCO2 activation SNS - arrythmias, SVR, BP PAP, ICP High inpiratory pressure + PEEP Complications of Bariatric Surgery General infection, haemorrhage, incisional hernia, bowel obstruction, VTE Specific anastomotic leak, anastomotic stricture, dumping syndrome, nutritional deficiencies (iron, vit B12, thiamine, protein malnutrition, vit A) Risk Factors for Complications M>F Age >65 Open Surgery Long operation time Cardiac and Respiratory comorbidities Diabetes Low case load Health Benefits Sustained loss of 65-80% excess body weight Diabetes resolves very rapidly Asthma resolves early on OSA - most asymptomatic in 1 year Hyperlipidaemia resolved in >70% Essential hypertension resolved in >70% GOR relieved in most Low back pain and joint pain relieved in most self esteem, participation in social activities Summary Obesity is a major healthcare challenge Daily challenge for anaesthetists Obese patients are at risk from comorbidities and pathophysiological changes of obesity Bariatric surgery is a beneficial and costeffective healthcare intervention