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Anaesthesia for laparoscopy

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Kiran Rajagopal
Kiran Rajagopal

Anaesthesia for laparoscopy

Health & Medicine
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ANAESTHESIA FOR LAPAROSCOPY DR KIRAN RAJAGOPAL DA DNB. ANAESTHESIOLOGIST
LAPAROSCOPY – OVERVIEW  MINIMAL INVASIVE SURGICAL PROCEDURE WHICH ALLOWS ENDOSCOPIC ACCESS TO THE PERITONEAL CAVITY AFTER INSUFFLATION OF A GAS (CO2) TO CREATE SPACE BETWEEN THE ANTERIOR ABDOMINAL WALL AND THE VISCERA.  THE SPACE IS NECESSARY FOR SAFE MANIPULATION OF INSTRUMENTS AND ORGANS.  Term coined by HANS CHRISTIAN JACOBAEUS in 1910.  CO2 WAS USED by RICHARD ZOLLIKOFER IN 1924
WHY CARBON DIOXIDE ?? • NON COMBUSTIBLE • MORE SOLUBLE IN BLOOD WHICH INCREASES THE SAFETY MARGIN AND DECREASES THE CONSEQUENCES OF GAS EMBOLISM. • RAPIDLY ELIMINATED BY LUNGS • INERT & NOT IRRITANT TO TISSUES DISADVANTAGES HYPERCARBIA ACIDOSIS SYMPATHETIC STIMULATION NEED FOR HYPERVENTILATION
OTHER GASES • AIR • OXYGEN • ARGON • HELIUM IDEAL GAS FOR PNEUMOPERITONEUM LIMITED SYSTEMIC ABSORPTION LIMITED SYSTEMIC EFFECTS IF ABSORBED RAPID EXCRETION HIGH SOLUBILITY IN BLOOD SHOULD NOT SUPPORT COMBUSTION COLOURLESS, INERT, NON- EXPLOSIVE READILY AVAILABLE, NON EXPLOSIVE, NONTOXIC
 AIR WAS THE FIRST GAS TO BE USED POORLY SOLUBLE IN BLOOD CAUSING EMBOLIC PHENOMENON.  O2 DISCARDED BECAUSE OF BEING COMBUSTIBLE  N2O ALSO SUPPORTED COMBUSTION , WHEN MIXED WITH THE METHANE IN THE BOWELS.  INERT GASES LIKE HELIUM, ARGON & XENON ARE EXPENSIVE AND CAUSE GAS EMBOLISM.
GASLESS LAPAROSCOPY  THE PERITONEAL CAVITY IS EXPANDED USING ABDOMINAL WALL LIFT OBTAINED WITH A FAN RETRACTOR.  AVOIDS THE HEMODYNAMIC AND RESPIRATORY REPERCUSSIONS OF INCREASED IAP AND THE CONSEQUENCES OF THE USE OF CO2.  RENAL AND SPLANCHNIC PERFUSION IS NOT ALTERED.  APPEALING FOR PATIENTS WITH SEVERE CARDIAC OR PULMONARY DISEASE.  HOWEVER, GASLESS LAPAROSCOPY COMPROMISES SURGICAL EXPOSURE AND INCREASES TECHNICAL DIFFICULTY.
ADVANTAGES • MINIMIZES SURGICAL INCISION AND STRESS RESPONSE • DECREASES POSTOPERATIVE PAIN AND OPIOID REQUIREMENTS • PRESERVES DIAPHRAGMATIC FUNCTION • IMPROVES POSTOPERATIVE PULMONARY FUNCTION • EARLIER RETURN OF BOWEL FUNCTION • FEWER WOUND RELATED COMPLICATIONS • EARLIER AMBULATION • SHORTER HOSPITAL STAYS • EARLY RETURN TO NORMAL ACTIVITIES AND WORK
DISADVANTAGES  MORE EXPENSIVE  MORE OPERATING TIME  DIFFICULT IN COMPLICATED CASES  POTENTIAL FOR MAJOR COMPLICATIONS IN INEXPERIANCED HAND
CONTRAINDICATIONS EACH PATIENT EVALUATED ON A RISK BENEFIT BASIS GENERAL CONTRAINDICATIONS  RAISED ICP  HYPOVOLEMIA  RL SHUNTS  PATENT FORAMEN OVALE
REDUCED WOUND INFECTION FASTER RECOVERY REDUCED MORBIDITY REDUCED PAIN VISCERAL & VASCULAR DAMAGE POSITIONAL COMPLICATION A/C KIDNEY INJURY CARDIO CEREBRAL INSUFFICIENCY ATELECTASIS GAS EMBOLISM WELL LEG COMPARTMENT SYNDROME
LAPAROSCOPY – ANAESTHETIC CONCERNS  CO2 PNEUMO PERITONEUM  PATIENT POSITIONING  SURGICAL COMPLICATIONS  DIFFICULTY IN ESTIMATING BLOOD LOSS  PATIENT SPECIFIC
INTRA-ABDOMINAL PRESSURE(IAP) • IAP IS THE STEADY PRESSURE WITHIN THE CLOSED ABDOMINAL CAVITY. • NORMAL VALUES OF IAP ARE 0-5 MMHG. • VALUES MORE THAN 12-14 MMHG COMPROMISES VENOUS RETURN.
PNEUMOPERITONEUM INITIAL ACCESS NECESSARY FOR CO2 INSUFLATION COULD BE ACHIEVED EITHER THROUGH  A BLIND INSERTION OF A VERESS NEEDLE THAT CONSISTS OF A BLUNT TIPPED, SPRING LOADED INNER STYLET AND SHARP OUTER NEEDLE THROUGH A SMALL SUBUMBILICAL INCISION OR  A TROCAR INSERTED UNDER DIRECT VISION.
PNEUMOPERITONEUM • A VARIABLE LOW ELECTRONIC INSUFLATOR THAT AUTOMATICALLY TERMINATES GAS FLOW AT A PRESET INTRAABDOMINAL PRESSURE IS USED TO ACHIEVE PNEUMOPERITONEUM. • PRESET PRESSURES OF 15 MM HG OR LESS ARE SAFEST TO MAINTAIN PNEUMOPERITONEUM AND ALLOW PERFORMANCE OF LAPAROSCOPIC TECHNIQUES. • THE GAS IS INTRODUCED AT 21°C WITH ALMOST ZERO PERCENT HUMIDITY AND 14°C LOWER THAN BODY TEMPERATURE • INITIAL FLOW : 4-6 L/MIN. • MAINTENANCE : 200-400 ML/MIN
WHAT HAPPENS VOLUME OF THE ABDOMEN INCREASES, ABDOMINAL WALL COMPLIANCE DECREASES INTRA-ABDOMINAL PRESSURE CLIMBS. WHEN THE IAP EXCEEDS PHYSIOLOGICAL THRESHOLDS, BLOOD FLOW IN INDIVIDUAL ORGAN SYSTEMS BECOME COMPROMISED, POTENTIALLY INCREASING PATIENT’S MORBIDITY AND MORTALITY
PHYSIOLOGICAL CHANGES DURING LAPAROSCOPY
CVS EFFECTS PNEUMOPERITONEUM POSITION HYPERCAPNIA ANAESTHESIA VAGAL TONE
IAP INTRATHORACIC STIMULATION OF PRESSURE PERITONEAL RECEPTORS IVC PERIPHERAL VENOUS COMPRESSION POOLING RESISTANCE ACTIVATION OF SNS/RAAS RELEASE OF CATECHOLAMINES VENOUS RETURN VASOPRESSIN SVR BP CARDIAC OUTPUT INCREASED VASCULAR RESISTANCE OF ABDOMINAL ORGANS
INCREASED SVR  DUE TO NEUROHUMERAL RESPONSES  PLASMA VASOPRESSIN LEVELS PARALLELS INCREASE IN SVR  HYPERCAPNEA  DECREASE IN SVR , INCREASE IN PVR  NEUROENDOCRINE RESPONSES >> HYPERCAPNEA INDUCED DEC IN SVR  NORMAL HEART TOLERATES INC IN AFTER LOAD  BUT DELETIRIOUS FOR CARDIAC PATIENTS  INCRESE IN PVR DELETERIOUS FOR P HTN PATIENTS
DECREASED CO EXAGGERATED IF • HYPOVOLEMIC • HEAD UP POSITION • HAEMODYNAMIC CHANGES OCCUR AT BEGINNING OF PERITONEAL INSUFFLATION • CO LATER BECOMES NORMAL DUE TO SURGICAL STRESS
CARDIAC FILLING PRESSURES • PARADOXICAL INCREASE • DUE TO INC INTRA THORACIC PRESSURE DUE TO PNEUMOPERITONEUM • CVP, RT ATRIAL PRESSURE,PULM ARTERY OCCLUSION PRESSURE  NOT RELIABLE
EJECTION FRACTION • NO SIGNIFICANT DECREASE TILL 15 MMHG HEART RATE • REMAINS SAME OR SLIGHT INCREASE
WHAT CAN BE DONE ???.... VR & CO INCREASE CIRCULATING VOLUME BEFORE PNEUMOPERITONEUM PERIPHERAL POOLING FLUID LOADING/ HEAD DOWN BEFORE PNEUMO/ IPC DEVICES SVR VASODIALTORS . INHALATIONAL/ NTG/ NICARDIPINE HAEMODYNAMIC CLONIDINE, DEXMED, BETABLOCKERS RESPONSES
CARDIAC ARRYTHMIAS OCCURS DURING INSUFFLATION BRADY/ARRYTHMIA/ASYSTOLE CAUSES 1. REFLEX INCREASE IN VAGAL TONE DUE TO SUDDEN STRETCHING OF PERITONEUM 2. LIGHT PLANE OF ANAESTHESIA 3. EMBOLISM 4. HYPERCARBIA 5. HYPOXIA 6. PREEXISTING CARDIAC DISEASE  REVERSIBLE EVENT  STOP INSUFFLATION  ATROPINE  DEEPEN PALNE AFTER HR BECOMES NORMAL
PNEUMOPERITONEUM IN CARDIAC PATIENTS  PATIENTS (ASA CLASS III OR IV) WHO ARE VOLUME DEPLETED EXPERIENCE THE MOST SEVERE HEMODYNAMIC CHANGES.  PREOPERATIVE PRELOAD AUGMENTATION OFFSETS THE HEMODYNAMIC EFFECT OF PNEUMOPERITONEUM.  INTRAVENOUS NITROGLYCERIN, NICARDIPINE, OR DOBUTAMINE HAS BEEN USED TO MANAGE THE HEMODYNAMIC CHANGES INDUCED BY INCREASED IAP.  ADV OF NICARDIPINE  ARTERIAL VASODILATOR . VR PRESERVED
CARDIOVASCULAR COLLAPSE DURING LAPAROSCOPY • PROFOUND VASOVAGAL REACTION • CARDIAC DYSRHYTHMIAS • EXCESSIVE INTRAABDOMINAL PRESSURE • TENSION CAPNO(PNEUMO)THORAX • CARDIAC TAMPONADE • SIGNIFICANT GAS EMBOLISM • ACUTE BLOOD LOSS • MYOCARDIAL ISCHEMIA/INFARCTION • SEVERE RESPIRATORY ACIDOSIS (HYPERCAPNIA) • ANESTHETIC DRUG RELATED
RESPIRATORY EFFECTS  DIAPHRAGM ELEVATED  REDUCED THORACOPULMONARY COMPLIANCE  FRC REDUCED  BASAL ATELECTASIS  INCRESAED MIN VENTILATION  INC AIRWAY PRESSURE  PULMONARY RESISTANCE INCREASE ELEVATED DIAPHRAGM V/Q MISMATCH POSITION
HYPERCARBIA  CO2 IS ABSORBED FROM THE PERITONEAL CAVITY AND CARRIED BY BLOOD THROUGH THE SYSTEMIC AND PORTAL VEINS AND EXCRETED VIA THE LUNGS.  INCREASES PULMONARY EXCRETION OF CO2 (VCO2) AND PACO2.  ASBORPTION DEPENDS ON THE GASES DIFFUSIVITY, THE ABSORPTION AREA, AND VASCULARITY OF INSUFLATION SITE. & EXTRA OR INTRAPERTONEAL INSUFFLATION
PACO2 INCREASE INCREASE OF PACO2  ABSORPTION OF CO2 FROM THE PERITONEAL CAVITY,  IMPAIRMENT OF PULMONARY VENTILATION AND PERFUSION BY 1. ABDOMINAL DISTENTION 2. PATIENT POSITION 3. VOLUME-CONTROLLED MECHANICAL VENTILATION CARBON DIOXIDE ABSORPTION IS GREATER DURING EXTRAPERITONEAL INSUFLATION THAN DURING INTRAPERITONEAL INSUFLATION.
 THE CO2 ABSORPTION REACHES A PLATEAU WITHIN 10 TO 15 MINUTES AFTER INITIATION OF INTRAPERITONEAL INSUFLATION AND NOT INLUENCED BY THE DURATION OF SURGERY.  CONTINUES TO INCREASE PROGRESSIVELY THROUGHOUT EXTRAPERITONEAL CO2 INSUFLATION.  ANY SIGNIFICANT INCREASE IN PACO2 AFTER THIS PERIOD  CO2 SUBCUTANEOUS EMPHYSEMA.  INCREASE IN PACO2 DEPENDS ON THE IAP.
• IF CONTROLLED VENTILATION IS NOT ADJUSTED IN RESPONSE TO THE INCREASED DEAD SPACE, ALVEOLAR VENTILATION WILL DECREASE AND PACO2 WILL RISE. • CORRECTION OF INCREASED PACO2 CAN BE ACHIEVED BY A 10% TO 25% INCREASE IN ALVEOLAR VENTILATION.
CAPNOGRAPHY DURING LAPAROSCOPY  NON-INVASIVE MONITOR OF PACO2 DURING CO2 INSUFFLATION.  HELPS IN DETECTION OF ACCIDENTAL INTRAVASCULAR INSUFFLATION OF CO2 ETCO2 INCREASES IN ENDO-BRON.INTUBATION, SUB. CUT.EMPHYSEMA CAPNOTHORAX DECREASES IN PNEUMOTHORAX CO2 EMBOLISM
 MEAN GRADIENTS (ΔA-ETCO2) DO NOT CHANGE SIGNIFICANTLY DURING PERITONEAL INSUFFLATION OF CO2  LESS CORRELATION BETWEEN PACO2 AND ETCO2 IN THOSE WITH IMPAIRED CO2 EXCRETION CAPACITY, AND CARDIOPULMONARY DISTURBANCES.
RESPIRATORY COMPLICATIONS  CO2 SUBCUTANEOUS EMPHYSEMA  PNEUMOTHORAX  ENDOBRONCHIAL INTUBATION  GAS EMBOLISM
CO2 SUBCUTANEOUS EMPHYSEMA  ACCIDENTAL EXTRAPERITONEAL INSUFFLATION  EXTENSIVE SUBCUTANEOUS EMPHYSEMA CAN DEVELOP INVOLVING THE ABDOMEN, CHEST, NECK, AND GROIN.  IF THE EMPHYSEMA EXTENDS TO THE CHEST WALL AND THE NECK, THE CO2 CAN TRACK TO THE THORAX AND MEDIASTINUM, CAPNOTHORAX OR CAPNOMEDIASTINUM
 PREDICTORS OF SUBCUTANEOUS EMPHYSEMA OPERATIVE TIME OF >200 MINUTES AND USE OF SIX OR MORE SURGICAL PORTS  ANY INCREASE IN PETCO2 OCCURRING AFTER PETCO2 HAS PLATEAUED SHOULD SUGGEST THIS COMPLICATION.  IF THERE IS NECK OR FACE EMPHYSEMA, A CHEST XRAY SHOULD BE OBTAINED TO RULE OUT CAPNOTHORAX OR CAPNOMEDIASTINUM.
MANAGEMENT  IN MOST CASES, NO SPECIFIC INTERVENTION IS REQUIRED, SUBCUTANEOUS EMPHYSEMA RESOLVES SOON AFTER THE ABDOMEN IS DEFLATED. SIGNIFICANT HYPERCARBIA DESPITE AGGRESSIVE HYPERVENTILATION  TEMPORARILY STOP….!  SUBCUTANEOUS EMPHYSEMA READILY RESOLVES ONCE INSUFFLATION HAS CEASED.  RESUMED AFTER CORRECTION OF HYPERCAPNIA USING A LOWER INSUFFLATION PRESSURE.  NOT A CONTRAINDICATION FOR TRACHEAL EXTUBATION AT THE END OF SURGERY
PNEUMOTHORAX PNEUMOMEDIASTINUM PNEUMOPERICARDIUM • MOVEMENT OF GAS DURING THE CREATION OF A PNEUMOPERITONEUM
CAUSES  PERITONEAL CAVITY ---POTENTIAL CHANNELS--- PLEURAL AND PERICARDIAL SACS.  DEFECTS IN THE DIAPHRAGM OR WEAK POINTS IN THE AORTIC AND ESOPHAGEAL HIATUS  PLEURAL TEARS OCCURS DURING LAPAROSCOPIC SURGICAL PROCEDURES  RUPTURE OF A LUNG BULLA OR BLEB COULD PRODUCE A TENSION PNEUMOTHORAX INDEPENDENT OF THE PNEUMOPERITONEUM
PRESENTATION  UNDETECTED INTRAOPERATIVELY  UNEXPLAINED INCREASE IN AIRWAY PRESSURE  HYPOXEMIA  HYPERCAPNIA  SURGICAL EMPHYSEMA  INEQUALITY IN CHEST EXPANSION  REDUCED AIR ENTRY  BULGING DIAPHRAGM  SEVERE CARDIOVASCULAR COMPROMISE WITH PROFOUND HYPOTENSION IN TENSION PNEUMOTHORAX CONFIRMED BY CXR
MANAGEMENT  DEFLATION OF THE ABDOMEN  SUPPORTIVE TREATMENT  CONSERVATIVE IF MINIMUM PHYSIOLOGIC COMPROMISE  HYPERVENTILATION  PEEP  REDUCE THE PRESSURE GRADIENT BETWEEN THE ABDOMEN AND THE THORAX DURING BOTH INSPIRATION AND EXPIRATION INFLATE THE LUNG  INTERCOSTAL CANNULA IN SEVERE COMPROMISE ,  CHEST DRAIN IF REACCUMULATION OCCURS.  AFTER STABILIZATION  CAN BE RESUMED AT LOWER IAP OR CONVERSION TO AN OPEN PROCEDURE . NO PEEP IN BULLAE RUPTURE THORACOCENTESIS MANDATORY
ENDOBRONCHIAL INTUBATION CEPHALAD DISPLACEMENT OF THE DIAPHRAGM DURING PNEUMOPERITONEUM CEPHALAD MOVEMENT OF THE CARINA ENDOBRONCHIAL INTUBATION.  DECREASE IN THE OXYGEN SATURATION  INCREASE IN PLATEAU AIRWAY PRESSURE.  INCREASE IN ETCO2
GAS EMBOLISM INTRAVASCULAR INJECTION OF GAS DIRECT NEEDLE PLACEMENT INTO A VESSEL GAS INSUFFLATION INTO AN ABDOMINAL ORGAN. DURING THE INDUCTION OF PNEUMOPERITONEUM LETHAL DOSE OF EMBOLIZED CO2 IS APPROXIMATELY FIVE TIMES GREATER THAN THAT OF AIR EFFECTS DETERMINED BY SIZE OF BUBBLES RATE OF INSUFFLATION
RAPID INSUFFLATION OF GAS UNDER HIGH PRESSURE GAS LOCK IN THE VENA CAVA AND RIGHT ATRIUM OBSTRUCTION TO VENOUS RETURN WITH A FALL IN CARDIAC OUTPUT CIRCULATORY COLLAPSE
ACUTE RIGHT VENTRICULAR HYPERTENSION MAY OPEN THE FORAMEN OVALE, ALLOWING PARADOXICAL GAS EMBOLIZATION  CARDIAC ARRHYTHMIA,  HYPOXEMIA,  HYPOTENSION,  DECREASE IN ETCO2.  CEREBRAL CO2 EMBOLISM ECG  A RIGHT STRAIN PATTERN AND WIDENING OF THE QRS COMPLEX.
DIAGNOSIS • DETECTION OF GAS EMBOLI IN THE RIGHT SIDE OF THE HEART • RECOGNITION OF THE PHYSIOLOGIC CHANGES FROM EMBOLIZATION • EARLY EVENTS, OCCURRING WITH 0.5 ML/KG OF AIR OR LESS, INCLUDE CHANGES IN DOPPLER SOUNDS AND INCREASED MEAN PULMONARY ARTERY PRESSURE. • WHEN THE SIZE OF THE EMBOLUS INCREASES (2 ML/KG OF AIR) TACHYCARDIA CARDIAC ARRHYTHMIAS, HYPOTENSION, INCREASED CVP ALTERATION IN HEART TONES (I.E., MILLWHEEL MURMUR), CYANOSIS ECGCHANGES OF RIGHT-SIDED HEART STRAIN
MANAGEMENT  STOP INSUFFLATION  RELEASE OF PNEUMOPERITONEUM  STEEP HEAD DOWN . LEFT LATERAL (DURRANT)  100% O2  HYPERVENTILATE  CENTRAL VENOUS/PAC – GAS ASPIRATED  EXTERNAL CARDIAC MASSAGE – FRAGMENTS EMBOLUS INTO SMALL BUBBLES  CPCR  CPB  HBO IN CEREBRAL EMBOLUS
HOW DURANT POSITION HELPS  HEAD-DOWN POSITION KEEPS A LEFT-VENTRICULAR AIR BUBBLE AWAY FROM THE CORONARY ARTERY OSTIA (WHICH ARE NEAR THE AORTIC VALVE) SO THAT AIR BUBBLES DO NOT ENTER AND OCCLUDE THE CORNONARY ARTERIES.  LEFT LATERAL DECUBITUS POSITIONING HELPS TO TRAP AIR IN THE NON-DEPENDENT SEGMENT OF THE RIGHT VENTRICLE, PREVENTING IT ENTERING THE PULMONARY ARTERY & ALSO PREVENTS THE AIR FROM PASSING THROUGH A PATENT FORAMEN OVALE.
RISK OF ASPIRATION OF GASTRIC CONTENTS  AT RISK FOR ACID ASPIRATION SYNDROME  THE INCREASED IAP RESULTS IN CHANGES OF THE LOWER ESOPHAGEAL SPHINCTER THAT ALLOW MAINTENANCE OF THE PRESSURE GRADIENT ACROSS THE GASTROESOPHAGEAL JUNCTION AND THAT REDUCE THE RISK OF REGURGITATION.  THE HEAD-DOWN POSITION SHOULD HELP TO PREVENT ANY REGURGITATED FLUID FROM ENTERING THE AIRWAY.
REGIONAL PERFUSION  INCREASED CEREBRAL PERFUSION AND INTRACRANIAL PRESSURE  CAUTION IN PATIENT WITH BRAIN TUMOR OR VENTRICULOPERITONEAL SHUNT  DECREASED SPLANCHNIC BLOOD LOW  DECREASED HEPATIC BLOOD LOW  VARIABLE (DECREASED OR NO CHANGE) IN BOWEL PERFUSION, MECHANICAL PNEUMOPERITONEUM COMPRESSION BALANCED BY HYPERCARBIC VASODILATATION )
 REDUCED RENAL PERFUSION AND URINE OUTPUT (REDUCED DURING PNEUMOPERITONEUM/RECOVERY FOLLOWING DELATION)  THE URINE OUTPUT GENERALLY NORMALIZES FOLLOWING PNEUMOPERITONEUM DEFLATION WITH NO CONSEQUENT RENAL DYSFUNCTION.  INCREASED IAP AND THE HEAD-UP POSITION RESULT IN LOWER LIMB VENOUS STASIS.  DECREASED FEMORAL VEIN FLOW  INCREASED POTENTIAL FOR DEEP VEIN THROMBOSIS AND PULMONARY EMBOLISM
RENAL FUNCTION DURING LAPAROSCOPY  URINE OUTPUT REDUCED DURING LAPAROSCOPY DECREASED RENAL BLOOD LOW COMPRESSION OF RENAL PARENCHYMA NEUROENDOCRINE  FACTORS THAT INFLUENCE U/O PREEXISTING RENAL COMPROMISE LONGER INSUFFLATION TIMES HIGH INTRAABDOMINAL PRESSURES  INTRAOPERATIVE OLIGURIA REVERSIBLE WITHIN 2 H POSTOPERATIVELY  IAP <15 MM HG SAFE EVEN IN PATIENTS WITH RENAL DISEASE
PROBLEMS RELATED TO PATIENT POSITION PATIENT POSITIONING DEPENDS ON THE SITE OF SURGERY  HEAD-DOWN TILT  PELVIC AND LOWER ABDOMINAL SURGERY  HEAD-UP POSITION  UPPER ABDOMINAL SURGERY. POSITIONS MAY BE RESPONSIBLE FOR, OR CONTRIBUTE TO, THE DEVELOPMENT OF PATHOPHYSIOLOGIC CHANGES OR INJURY DURING LAPAROSCOPY THE STEEPNESS OF THE TILT ALSO AFFECTS THE MAGNITUDE OF THESE CHANGES.
CVS EFFECTS NORMOTENSIVE IN HEAD DOWN CVP CO SYSTEMIC VASODILATATION , BRADYCARDIA EXAGGERATED CHANGES IN CARDIAC PATIENTS CARDIAC WORK & MVO2 PROLONGED HEAD DOWN  CEREBRAL & UPPER AIRWAY EDEMA INCREASE IOP
HEAD UP VENOUS RETURN CO MAP STEEPER THE TILT CARDIAC OUTPUT VENOUS STASIS IN HEAD UP , LITHOTOMY
RESPIRATORY  HEAD DOWN  FACILITATES THE DEVELOPMENT OF ATELECTASIS. DECREASES IN THE FRC TOTAL LUNG VOLUME PULMONARY COMPLIANCE  MORE MARKED IN OBESE, ELDERLY, AND DEBILITATED PATIENTS.  IN HEALTHY PATIENTS NO MAJOR CHANGES ARE SEEN.  THE HEAD-UP POSITION IS USUALLY CONSIDERED TO BE MORE FAVORABLE TO RESPIRATION
NERVE INJURY  POTENTIAL COMPLICATION DURING THE HEAD-DOWN POSITION.  OVEREXTENSION OF THE ARM MUST BE AVOIDED.  SHOULDER BRACES SHOULD BE USED WITH GREAT CAUTION AND MUST NOT IMPINGE ON THE BRACHIAL PLEXUS.  LOWER EXTREMITY NEUROPATHIES (E.G., PERONEAL NEUROPATHY, MERALGIA PARESTHETICA, FEMORAL NEUROPATHY) HAVE BEEN REPORTED AFTER LAPAROSCOPY.  THE COMMON PERONEAL NERVE IS PARTICULARLY VULNERABLE AND MUST BE PROTECTED WHEN THE PATIENT IS PLACED IN THE LITHOTOMY POSITION.  PROLONGED LITHOTOMY POSITION CAN RESULT IN LOWER EXTREMITY COMPARTMENT SYNDROME.
WELL LEG COMPARTMENT SYNDROME  COMPLICATION OF PROLONGED STEEP TRENDELENBERG POSITION  CAUSES IMPAIRED PERFUSION TO LOWER LIMBS VENOUS COMPRESSION BY STIRRUPS FEMORAL VENOUS DRAINAGE DUE TO PNEUMOPERITONEUM  PRESENTATION DISPROPORTIONATE LOWER LIMB PAIN AFTER SURGERY RHABDOMYOLYSIS MYOGLOBIN ASSOCIATED RENAL FAILURE
 RISK FACTORS SURGERY > 4 HRS MUSCULAR LOWER LIMBS OBESITY PERIPHERAL VASCULAR DISEASE HYPOTENSION STEEP TRENDELENBERG  PREVENTION IPC /COMPRESSION STOCKINGS HEEL –ANKLE SUPPORTS (OVER CALF KNEE SUPPORTS) MOVING PATIENTS LIMBS DURING SX PULSE OXIMETER IN GREAT TOE TO ASSESS ADEQUECY OF LOWER LIMB PERFUSION
POST OP BENEFITS STRESS RESPONSE  LOW PLASMA CONCENTRATIONS OF C-REACTIVE PROTEIN AND INTERLEUKIN- 6 – LESS TISSUE DAMAGE  REDUCED METABOLIC RESPONSE ( HYPERGLYCEMIA ,LEUKOCYTOSIS)  NITROGEN BALANCE AND IMMUNE FUNCTION BETTER PRESERVED.  AVOIDS PROLONGED EXPOSURE AND MANIPULATION OF THE INTESTINE  POSTOPERATIVE ILEUS AND FASTING, DURATION OF INTRAVENOUS INFUSION, AND HOSPITAL STAY ARE SIGNIFICANTLY REDUCED
POST OP PAIN  REDUCTION IN POSTOPERATIVE PAIN AND ANALGESIC  PREOPERATIVE NSAIDS AND COX -2 INHIBITORS DECREASES PAIN  VISCERAL TYPE OF PAIN  SHOULDER TIP PAIN  MULTIMODAL ANALGESIA PRE OP NSAIDS LOCAL INFILTRATION INTRAPERITONEAL LA OPIATES COMPLETE EVACUATION OF CO2 PNEUMOPERITONEUM
PULMONARY DYSFUNCTION  UPPER ABDOMINAL SURGERY  POSTOPERATIVE CHANGES IN PULMONARY FUNCTION  LESS SEVERE AND RECOVERY IS QUICKER AFTER LAPAROSCOPY.  GREATER REDUCTIONS IN EXPIRATORY VOLUMES AND SLOWER RECOVERY OF PULMONARY FUNCTION MAY BE SEEN IN OLDER PATIENTS OBESE PATIENTS SMOKERS PATIENTS WITH COPD
PONV  LAP – RISK FACTOR FOR PONV  PERI OP OPIODS – RISK FACTOR  PREVENTION PROPOFOL ANAESTHESIA 5 HT3 ANTAGONISTS
LAP IN PREGNANCY  INCREASES THE RISK OF MISCARRIAGE OR PREMATURE LABOR AND THE RISK OF DAMAGING THE GRAVID UTERUS.  AVOIDED BY ALTERNATIVE ENTRY SITES FOR THE VERESS NEEDLE AND TROCARS.  CO2 PNEUMOPERITONEUM INDUCES SIGNIFICANT FETAL ACIDOSIS.  FETAL HEART RATE AND ARTERIAL PRESSURE INCREASE, BUT MINIMAL.  PROVIDED MATERNAL PACO2 IS AT NORMAL LEVELS, FETAL PLACENTAL PERFUSION PRESSURE AND BLOOD FLOW, PH, AND BLOOD GAS TENSIONS ARE UNAFFECTED BY INSUFFLATION OR DESUFFLATION.  HEMODYNAMIC CHANGES OF PNEUMOPERITONEUM ARE SIMILAR IN PREGNANT AND NONPREGNANT WOMEN.
RECOMMENDATIONS 1. SURGERY DURING THE SECOND TRIMESTER, IDEALLY BEFORE THE 23RD WEEK OF PREGNANCY, TO MINIMIZE THE RISK OF PRETERM LABOR AND TO MAINTAIN ADEQUATE INTRA-ABDOMINAL WORKING ROOM. 2. TOCOLYTICS ARE BENEFICIAL TO ARREST PRETERM LABOR, BUT THEIR PROPHYLACTIC USE IS DEBATABLE 3. OPEN LAPAROSCOPY SHOULD BE USED FOR ABDOMINAL ACCESS TO AVOID DAMAGING THE UTERUS. 4. FETAL MONITORING USING TRANSVAGINAL ULTRASONOGRAPHY 5. MECHANICAL VENTILATION MUST BE ADJUSTED TO MAINTAIN A PHYSIOLOGIC MATERNAL ALKALOSIS
LAP IN CHILDREN  LAPAROSCOPY IS FREQUENTLY PERFORMED IN INFANTS AND CHILDREN  CO2 PNEUMOPERITONEUM INDUCES THE SAME CHANGES IN RESPIRATORY MECHANICS TO THOSE REPORTED IN ADULTS.  PACO2 AND PETCO2 INCREASE DURING PNEUMOPERITONEUM.  THE HEMODYNAMIC CHANGES OBSERVED IN CHILDREN ARE SIMILAR TO THOSE REPORTED IN ADULTS.
ANESTHESIA FOR LAPAROSCOPY
PREOP EVALUATION  DONE IN THE USUAL MANNER  PARTICULAR ATTENTION TO CARDIOVASCULAR AND RESPIRATORY STATUS  CARDIAC EVALUATION IN PATIENTS WITH CARDIAC DISEASE  RISK VS BENEFIT IN CARDIAC PATIENTS  NEPHROTOXIC DRUGS AVOIDED IN RENAL IMPAIRMENT  ALWAYS CONSIDER THE FACT THAT THERE IS CHANCE OF CONVERTING TO OPEN PROCEDURE  UNDESIRABLE IN PATIENTS WITH INCREASED INTRACRANIAL PRESSURE AND HYPOVOLEMIA
 IN A PATIENT WITH POOR PULMONARY RESERVE MORE EXTENSIVE PREOPERATIVE EVALUATION INCLUDING PFT IS ADVISABLE.  PULMONARY FUNCTION TESTS (PFT) IDENTIFY PATIENTS WHO ARE LIKELY TO EXPERIENCE HYPERCARBIA AND ACIDOSIS  PROPHYLAXIS OF DEEP VEIN THROMBOSIS  ROUTINE INVESTIGATIONS
PREMEDICATION ADAPTED TO THE DURATION OF THE LAPAROSCOPY AND TO THE NECESSITY FOR QUICK RECOVERY  ANXIOLYTICS  MIDAZOLAM , ALPRAZOLAM  ANTI EMETICS  ONDANSETRON , PROMETHAZINE, DEXAMETHASONE  ANTACIDS  RANITIDINE ,PANTOPRAZOLE  PROKINETICS  METOCLOPRAMIDE  ANTICHOLINERGICS  TO PREVENT VAGALLY MEDIATED BRADY  ALPHA 2 AGONISTS  REDUCE INTRA OP STRESS & IMPROVE HAEMODYNAMICS  ANALGESICS  PRE OP NSAIDS REDUCE POST OP PAIN ,OPIODS
PATIENT POSITIONING  POSITIONED WITH GREAT CARE TO PREVENT NERVE INJURIES  PADDING SHOULD PROTECT FROM NERVE COMPRESSION, AND SHOULDER BRACES, PLACED OVERLYING THE CORACOID PROCESS.  PATIENT TILT SHOULD BE REDUCED AS MUCH AS POSSIBLE AND SHOULD NOT EXCEED 15 TO 20 DEGREES.  TILTING MUST BE SLOW AND PROGRESSIVE TO AVOID SUDDEN HEMODYNAMIC AND RESPIRATORY CHANGES
MONITORING  ALL STANDARD MONITORS  ARTERIAL LINE  TEE – IN SIGNIFICANT CARDIOPULMONARY DISEASE TO MONITOR RESPONSE TO PNEUMOPERITONEUM & POSITION  ABG - IN PRE EXISTING PULMONARY DISEASE PERSISTANT REFRACTORY INTROP HYPERCAPNIA  CEREBRAL OXIMETRY – HIGH RISK PATIENT /PROLONGED SX/ HEAD UP/DOWN PROVIDES INFO ON BRAIN OXYGENATION
ANESTHETIC TECHNIQUES  GA  REGIONAL  LOCAL
GA – CONDUCT OF ANAESTHESIA  GENERAL ANESTHESIA WITH ENDOTRACHEAL INTUBATION AND CONTROLLED VENTILATION IS THE SAFEST AND MOST COMMONLY USED  HELP REDUCE THE INCREASE IN PACO2 AND AVOID VENTILATORY COMPROMISE FROM PNEUMOPERITONEUM AND POSITION CHANGES  PROSEAL LMA CAN ALSO BE USED  INSERTION OF A NASOGASTRIC TUBE MAY BE REQUIRED TO DEFLATE THE STOMACH-IMPROVE SURGICAL VIEW, AVOID GASTRIC INJURY ON TROCHAR INSERTION.
LMA FOR LAP CONTROVERSIAL • LESS SORE THROAT • ALLOWS CONTROLLED VENTILATION • ETCO2 CAN BE MONITORED • LESS AMOUNT OF RELAXANTS • ASPIRATION THE MOST IMPORTANT PARAMETER TO SECURE AN ADEQUATE VENTILATION AND OXYGENATION FOR THE LMA UNDER PNEUMOPERITONEUM IS ITS SEAL PRESSURE OF AIRWAY. A GOOD SEALING PRESSURE, NOT ONLY STATE CORRECT PATIENT VENTILATION, BUT IT REDUCES THE POTENTIAL RISK OF ASPIRATION DUE TO THE BETTER SEAL OF AIRWAY LMA WITH GASTRIC PORT BETTER
INDUCTION ADVANTAGES OF PROPOFOL IN LAP  SIGNIFICANTLY QUICKER RECOVERY  AN EARLIER RETURN OF PSYCHOMOTOR FUNCTION  ANTI EMETIC ACTION .
MAINTENANCE  MAINTAINING DEEP LEVEL OF ANAESTHESIA WITH INHALATIONAL AGENTS BLUNT THE HAEMODYNAMIC RESPONSE TO PNEUMOPERITONEUM.  NITROUS OXIDE CAUSING NAUSEA & VOMITING IS CONTROVERSIAL.  BUT IT MAY DISTEND THE BOWEL, IN PATIENTS WITH INTESTINAL OBSTRUCTION.  AIR OXYGEN USED  OPIODS – SHORT ACTING PREFERRED MINIMIAL OPIODS  ESMOLOL OR LABETALOL MAY BE MORE APPROPRIATE TO TREAT PNEUMOPERITONEUM HYPERTENSION.
MUSCLE RELAXANTS  PREVENTS HIGH INTRA-ABDOMINAL AND INTRA-THORACIC PRESSURES DUE TO PNEUMOPERITONEUM  MUSCLE PARALYSIS REDUCES THE IAP NEEDED FOR THE SAME DEGREE OF ABDOMINAL DISTENTION  RESIDUAL BLOCKADE CAN CAUSE PONV
VENTILATION  LUNG PROTECTIVE VENTILATION STRATEGIES INCLUDE THE USE OF PRESSURE CONTROLLED VENTILATION WITH LOW TIDAL VOLUMES (6 TO 8 ML/KG IDEAL BODY WEIGHT) AND PEEP OF 5 TO 10 CM WATER .  USE OF PEEP HAS BEEN SHOWN TO IMPROVE ARTERIAL OXYGENATION DURING PROLONGED PNEUMOPERITONEUM.  DURING PNEUMOPERITONEUM, CONTROLLED VENTILATION MUST BE ADJUSTED TO MAINTAIN PETCO2 BETWEEN 35 AND 40 MM HG.  INCREASE OF RESPIRATORY RATE RATHER THAN OF TIDAL VOLUME MAY BE PREFERABLE IN PATIENTS WITH COPD AND IN PATIENTS WITH A HISTORY OF SPONTANEOUS PNEUMOTHORAX OR BULLOUS EMPHYSEMA TO AVOID INCREASED ALVEOLAR INFLATION AND REDUCE THE RISK OF PNEUMOTHORAX.
FLUIDS  U/O REDUCED  USING IT AS A GUIDE  OVERLOAD  STROKE VOLUME OR SYSTOLIC OR PULSE PRESSURE VARIATION PREFERRED
REGIONAL ANESTHESIA • ADVANTAGES • METABOLIC RESPONSE IS REDUCED • REDUCES THE NEED FOR SEDATIVES AND NARCOTICS • PRODUCES BETTER MUSCLE RELAXATION. • POST OP ANALGESIA • LESS CHANCE OF PONV
LOCAL ANAESTHESIA ADVANTAGES  QUICKER RECOVERY,  DECREASED PONV,  EARLY DIAGNOSIS OF COMPLICATIONS, AND  FEWER HEMODYNAMIC CHANGES DISADVANTAGES  REQUIRES PRECISE AND GENTLE SURGICAL TECHNIQUE AND MAY RESULT IN INCREASED PATIENT ANXIETY, PAIN, AND DISCOMFORT DURING THE MANIPULATION OF PELVIC AND ABDOMINAL ORGANS.  MAY REQUIRE SEDATION
POSTOPERATIVE MANAGEMENT  POSTOPERATIVE SHOULDER-TIP PAIN  ALL PATIENTS SHOULD RECEIVE SUPPLEMENTAL OXYGEN  HAEMODYNAMIC MONITORING  PREVENTION OF PONV  DVT PROPHYLAXIS
REFERENCES • MILLER 7TH • BARASH 7TH • YAO • CEACP
THANK YOU

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Anaesthesia for laparoscopy

  • 1. ANAESTHESIA FOR LAPAROSCOPY DR KIRAN RAJAGOPAL DA DNB. ANAESTHESIOLOGIST
  • 2. LAPAROSCOPY – OVERVIEW  MINIMAL INVASIVE SURGICAL PROCEDURE WHICH ALLOWS ENDOSCOPIC ACCESS TO THE PERITONEAL CAVITY AFTER INSUFFLATION OF A GAS (CO2) TO CREATE SPACE BETWEEN THE ANTERIOR ABDOMINAL WALL AND THE VISCERA.  THE SPACE IS NECESSARY FOR SAFE MANIPULATION OF INSTRUMENTS AND ORGANS.  Term coined by HANS CHRISTIAN JACOBAEUS in 1910.  CO2 WAS USED by RICHARD ZOLLIKOFER IN 1924
  • 3. WHY CARBON DIOXIDE ?? • NON COMBUSTIBLE • MORE SOLUBLE IN BLOOD WHICH INCREASES THE SAFETY MARGIN AND DECREASES THE CONSEQUENCES OF GAS EMBOLISM. • RAPIDLY ELIMINATED BY LUNGS • INERT & NOT IRRITANT TO TISSUES DISADVANTAGES HYPERCARBIA ACIDOSIS SYMPATHETIC STIMULATION NEED FOR HYPERVENTILATION
  • 4. OTHER GASES • AIR • OXYGEN • ARGON • HELIUM IDEAL GAS FOR PNEUMOPERITONEUM LIMITED SYSTEMIC ABSORPTION LIMITED SYSTEMIC EFFECTS IF ABSORBED RAPID EXCRETION HIGH SOLUBILITY IN BLOOD SHOULD NOT SUPPORT COMBUSTION COLOURLESS, INERT, NON- EXPLOSIVE READILY AVAILABLE, NON EXPLOSIVE, NONTOXIC
  • 5.  AIR WAS THE FIRST GAS TO BE USED POORLY SOLUBLE IN BLOOD CAUSING EMBOLIC PHENOMENON.  O2 DISCARDED BECAUSE OF BEING COMBUSTIBLE  N2O ALSO SUPPORTED COMBUSTION , WHEN MIXED WITH THE METHANE IN THE BOWELS.  INERT GASES LIKE HELIUM, ARGON & XENON ARE EXPENSIVE AND CAUSE GAS EMBOLISM.
  • 6. GASLESS LAPAROSCOPY  THE PERITONEAL CAVITY IS EXPANDED USING ABDOMINAL WALL LIFT OBTAINED WITH A FAN RETRACTOR.  AVOIDS THE HEMODYNAMIC AND RESPIRATORY REPERCUSSIONS OF INCREASED IAP AND THE CONSEQUENCES OF THE USE OF CO2.  RENAL AND SPLANCHNIC PERFUSION IS NOT ALTERED.  APPEALING FOR PATIENTS WITH SEVERE CARDIAC OR PULMONARY DISEASE.  HOWEVER, GASLESS LAPAROSCOPY COMPROMISES SURGICAL EXPOSURE AND INCREASES TECHNICAL DIFFICULTY.
  • 7. ADVANTAGES • MINIMIZES SURGICAL INCISION AND STRESS RESPONSE • DECREASES POSTOPERATIVE PAIN AND OPIOID REQUIREMENTS • PRESERVES DIAPHRAGMATIC FUNCTION • IMPROVES POSTOPERATIVE PULMONARY FUNCTION • EARLIER RETURN OF BOWEL FUNCTION • FEWER WOUND RELATED COMPLICATIONS • EARLIER AMBULATION • SHORTER HOSPITAL STAYS • EARLY RETURN TO NORMAL ACTIVITIES AND WORK
  • 8. DISADVANTAGES  MORE EXPENSIVE  MORE OPERATING TIME  DIFFICULT IN COMPLICATED CASES  POTENTIAL FOR MAJOR COMPLICATIONS IN INEXPERIANCED HAND
  • 9. CONTRAINDICATIONS EACH PATIENT EVALUATED ON A RISK BENEFIT BASIS GENERAL CONTRAINDICATIONS  RAISED ICP  HYPOVOLEMIA  RL SHUNTS  PATENT FORAMEN OVALE
  • 10. REDUCED WOUND INFECTION FASTER RECOVERY REDUCED MORBIDITY REDUCED PAIN VISCERAL & VASCULAR DAMAGE POSITIONAL COMPLICATION A/C KIDNEY INJURY CARDIO CEREBRAL INSUFFICIENCY ATELECTASIS GAS EMBOLISM WELL LEG COMPARTMENT SYNDROME
  • 11. LAPAROSCOPY – ANAESTHETIC CONCERNS  CO2 PNEUMO PERITONEUM  PATIENT POSITIONING  SURGICAL COMPLICATIONS  DIFFICULTY IN ESTIMATING BLOOD LOSS  PATIENT SPECIFIC
  • 12. INTRA-ABDOMINAL PRESSURE(IAP) • IAP IS THE STEADY PRESSURE WITHIN THE CLOSED ABDOMINAL CAVITY. • NORMAL VALUES OF IAP ARE 0-5 MMHG. • VALUES MORE THAN 12-14 MMHG COMPROMISES VENOUS RETURN.
  • 13. PNEUMOPERITONEUM INITIAL ACCESS NECESSARY FOR CO2 INSUFLATION COULD BE ACHIEVED EITHER THROUGH  A BLIND INSERTION OF A VERESS NEEDLE THAT CONSISTS OF A BLUNT TIPPED, SPRING LOADED INNER STYLET AND SHARP OUTER NEEDLE THROUGH A SMALL SUBUMBILICAL INCISION OR  A TROCAR INSERTED UNDER DIRECT VISION.
  • 14. PNEUMOPERITONEUM • A VARIABLE LOW ELECTRONIC INSUFLATOR THAT AUTOMATICALLY TERMINATES GAS FLOW AT A PRESET INTRAABDOMINAL PRESSURE IS USED TO ACHIEVE PNEUMOPERITONEUM. • PRESET PRESSURES OF 15 MM HG OR LESS ARE SAFEST TO MAINTAIN PNEUMOPERITONEUM AND ALLOW PERFORMANCE OF LAPAROSCOPIC TECHNIQUES. • THE GAS IS INTRODUCED AT 21°C WITH ALMOST ZERO PERCENT HUMIDITY AND 14°C LOWER THAN BODY TEMPERATURE • INITIAL FLOW : 4-6 L/MIN. • MAINTENANCE : 200-400 ML/MIN
  • 15. WHAT HAPPENS VOLUME OF THE ABDOMEN INCREASES, ABDOMINAL WALL COMPLIANCE DECREASES INTRA-ABDOMINAL PRESSURE CLIMBS. WHEN THE IAP EXCEEDS PHYSIOLOGICAL THRESHOLDS, BLOOD FLOW IN INDIVIDUAL ORGAN SYSTEMS BECOME COMPROMISED, POTENTIALLY INCREASING PATIENT’S MORBIDITY AND MORTALITY
  • 18. IAP INTRATHORACIC STIMULATION OF PRESSURE PERITONEAL RECEPTORS IVC PERIPHERAL VENOUS COMPRESSION POOLING RESISTANCE ACTIVATION OF SNS/RAAS RELEASE OF CATECHOLAMINES VENOUS RETURN VASOPRESSIN SVR BP CARDIAC OUTPUT INCREASED VASCULAR RESISTANCE OF ABDOMINAL ORGANS
  • 19. INCREASED SVR  DUE TO NEUROHUMERAL RESPONSES  PLASMA VASOPRESSIN LEVELS PARALLELS INCREASE IN SVR  HYPERCAPNEA  DECREASE IN SVR , INCREASE IN PVR  NEUROENDOCRINE RESPONSES >> HYPERCAPNEA INDUCED DEC IN SVR  NORMAL HEART TOLERATES INC IN AFTER LOAD  BUT DELETIRIOUS FOR CARDIAC PATIENTS  INCRESE IN PVR DELETERIOUS FOR P HTN PATIENTS
  • 20. DECREASED CO EXAGGERATED IF • HYPOVOLEMIC • HEAD UP POSITION • HAEMODYNAMIC CHANGES OCCUR AT BEGINNING OF PERITONEAL INSUFFLATION • CO LATER BECOMES NORMAL DUE TO SURGICAL STRESS
  • 21. CARDIAC FILLING PRESSURES • PARADOXICAL INCREASE • DUE TO INC INTRA THORACIC PRESSURE DUE TO PNEUMOPERITONEUM • CVP, RT ATRIAL PRESSURE,PULM ARTERY OCCLUSION PRESSURE  NOT RELIABLE
  • 22. EJECTION FRACTION • NO SIGNIFICANT DECREASE TILL 15 MMHG HEART RATE • REMAINS SAME OR SLIGHT INCREASE
  • 23. WHAT CAN BE DONE ???.... VR & CO INCREASE CIRCULATING VOLUME BEFORE PNEUMOPERITONEUM PERIPHERAL POOLING FLUID LOADING/ HEAD DOWN BEFORE PNEUMO/ IPC DEVICES SVR VASODIALTORS . INHALATIONAL/ NTG/ NICARDIPINE HAEMODYNAMIC CLONIDINE, DEXMED, BETABLOCKERS RESPONSES
  • 24. CARDIAC ARRYTHMIAS OCCURS DURING INSUFFLATION BRADY/ARRYTHMIA/ASYSTOLE CAUSES 1. REFLEX INCREASE IN VAGAL TONE DUE TO SUDDEN STRETCHING OF PERITONEUM 2. LIGHT PLANE OF ANAESTHESIA 3. EMBOLISM 4. HYPERCARBIA 5. HYPOXIA 6. PREEXISTING CARDIAC DISEASE  REVERSIBLE EVENT  STOP INSUFFLATION  ATROPINE  DEEPEN PALNE AFTER HR BECOMES NORMAL
  • 25. PNEUMOPERITONEUM IN CARDIAC PATIENTS  PATIENTS (ASA CLASS III OR IV) WHO ARE VOLUME DEPLETED EXPERIENCE THE MOST SEVERE HEMODYNAMIC CHANGES.  PREOPERATIVE PRELOAD AUGMENTATION OFFSETS THE HEMODYNAMIC EFFECT OF PNEUMOPERITONEUM.  INTRAVENOUS NITROGLYCERIN, NICARDIPINE, OR DOBUTAMINE HAS BEEN USED TO MANAGE THE HEMODYNAMIC CHANGES INDUCED BY INCREASED IAP.  ADV OF NICARDIPINE  ARTERIAL VASODILATOR . VR PRESERVED
  • 26. CARDIOVASCULAR COLLAPSE DURING LAPAROSCOPY • PROFOUND VASOVAGAL REACTION • CARDIAC DYSRHYTHMIAS • EXCESSIVE INTRAABDOMINAL PRESSURE • TENSION CAPNO(PNEUMO)THORAX • CARDIAC TAMPONADE • SIGNIFICANT GAS EMBOLISM • ACUTE BLOOD LOSS • MYOCARDIAL ISCHEMIA/INFARCTION • SEVERE RESPIRATORY ACIDOSIS (HYPERCAPNIA) • ANESTHETIC DRUG RELATED
  • 27. RESPIRATORY EFFECTS  DIAPHRAGM ELEVATED  REDUCED THORACOPULMONARY COMPLIANCE  FRC REDUCED  BASAL ATELECTASIS  INCRESAED MIN VENTILATION  INC AIRWAY PRESSURE  PULMONARY RESISTANCE INCREASE ELEVATED DIAPHRAGM V/Q MISMATCH POSITION
  • 28. HYPERCARBIA  CO2 IS ABSORBED FROM THE PERITONEAL CAVITY AND CARRIED BY BLOOD THROUGH THE SYSTEMIC AND PORTAL VEINS AND EXCRETED VIA THE LUNGS.  INCREASES PULMONARY EXCRETION OF CO2 (VCO2) AND PACO2.  ASBORPTION DEPENDS ON THE GASES DIFFUSIVITY, THE ABSORPTION AREA, AND VASCULARITY OF INSUFLATION SITE. & EXTRA OR INTRAPERTONEAL INSUFFLATION
  • 29. PACO2 INCREASE INCREASE OF PACO2  ABSORPTION OF CO2 FROM THE PERITONEAL CAVITY,  IMPAIRMENT OF PULMONARY VENTILATION AND PERFUSION BY 1. ABDOMINAL DISTENTION 2. PATIENT POSITION 3. VOLUME-CONTROLLED MECHANICAL VENTILATION CARBON DIOXIDE ABSORPTION IS GREATER DURING EXTRAPERITONEAL INSUFLATION THAN DURING INTRAPERITONEAL INSUFLATION.
  • 30.  THE CO2 ABSORPTION REACHES A PLATEAU WITHIN 10 TO 15 MINUTES AFTER INITIATION OF INTRAPERITONEAL INSUFLATION AND NOT INLUENCED BY THE DURATION OF SURGERY.  CONTINUES TO INCREASE PROGRESSIVELY THROUGHOUT EXTRAPERITONEAL CO2 INSUFLATION.  ANY SIGNIFICANT INCREASE IN PACO2 AFTER THIS PERIOD  CO2 SUBCUTANEOUS EMPHYSEMA.  INCREASE IN PACO2 DEPENDS ON THE IAP.
  • 31. • IF CONTROLLED VENTILATION IS NOT ADJUSTED IN RESPONSE TO THE INCREASED DEAD SPACE, ALVEOLAR VENTILATION WILL DECREASE AND PACO2 WILL RISE. • CORRECTION OF INCREASED PACO2 CAN BE ACHIEVED BY A 10% TO 25% INCREASE IN ALVEOLAR VENTILATION.
  • 32. CAPNOGRAPHY DURING LAPAROSCOPY  NON-INVASIVE MONITOR OF PACO2 DURING CO2 INSUFFLATION.  HELPS IN DETECTION OF ACCIDENTAL INTRAVASCULAR INSUFFLATION OF CO2 ETCO2 INCREASES IN ENDO-BRON.INTUBATION, SUB. CUT.EMPHYSEMA CAPNOTHORAX DECREASES IN PNEUMOTHORAX CO2 EMBOLISM
  • 33.  MEAN GRADIENTS (ΔA-ETCO2) DO NOT CHANGE SIGNIFICANTLY DURING PERITONEAL INSUFFLATION OF CO2  LESS CORRELATION BETWEEN PACO2 AND ETCO2 IN THOSE WITH IMPAIRED CO2 EXCRETION CAPACITY, AND CARDIOPULMONARY DISTURBANCES.
  • 34. RESPIRATORY COMPLICATIONS  CO2 SUBCUTANEOUS EMPHYSEMA  PNEUMOTHORAX  ENDOBRONCHIAL INTUBATION  GAS EMBOLISM
  • 35. CO2 SUBCUTANEOUS EMPHYSEMA  ACCIDENTAL EXTRAPERITONEAL INSUFFLATION  EXTENSIVE SUBCUTANEOUS EMPHYSEMA CAN DEVELOP INVOLVING THE ABDOMEN, CHEST, NECK, AND GROIN.  IF THE EMPHYSEMA EXTENDS TO THE CHEST WALL AND THE NECK, THE CO2 CAN TRACK TO THE THORAX AND MEDIASTINUM, CAPNOTHORAX OR CAPNOMEDIASTINUM
  • 36.  PREDICTORS OF SUBCUTANEOUS EMPHYSEMA OPERATIVE TIME OF >200 MINUTES AND USE OF SIX OR MORE SURGICAL PORTS  ANY INCREASE IN PETCO2 OCCURRING AFTER PETCO2 HAS PLATEAUED SHOULD SUGGEST THIS COMPLICATION.  IF THERE IS NECK OR FACE EMPHYSEMA, A CHEST XRAY SHOULD BE OBTAINED TO RULE OUT CAPNOTHORAX OR CAPNOMEDIASTINUM.
  • 37. MANAGEMENT  IN MOST CASES, NO SPECIFIC INTERVENTION IS REQUIRED, SUBCUTANEOUS EMPHYSEMA RESOLVES SOON AFTER THE ABDOMEN IS DEFLATED. SIGNIFICANT HYPERCARBIA DESPITE AGGRESSIVE HYPERVENTILATION  TEMPORARILY STOP….!  SUBCUTANEOUS EMPHYSEMA READILY RESOLVES ONCE INSUFFLATION HAS CEASED.  RESUMED AFTER CORRECTION OF HYPERCAPNIA USING A LOWER INSUFFLATION PRESSURE.  NOT A CONTRAINDICATION FOR TRACHEAL EXTUBATION AT THE END OF SURGERY
  • 38. PNEUMOTHORAX PNEUMOMEDIASTINUM PNEUMOPERICARDIUM • MOVEMENT OF GAS DURING THE CREATION OF A PNEUMOPERITONEUM
  • 39. CAUSES  PERITONEAL CAVITY ---POTENTIAL CHANNELS--- PLEURAL AND PERICARDIAL SACS.  DEFECTS IN THE DIAPHRAGM OR WEAK POINTS IN THE AORTIC AND ESOPHAGEAL HIATUS  PLEURAL TEARS OCCURS DURING LAPAROSCOPIC SURGICAL PROCEDURES  RUPTURE OF A LUNG BULLA OR BLEB COULD PRODUCE A TENSION PNEUMOTHORAX INDEPENDENT OF THE PNEUMOPERITONEUM
  • 40. PRESENTATION  UNDETECTED INTRAOPERATIVELY  UNEXPLAINED INCREASE IN AIRWAY PRESSURE  HYPOXEMIA  HYPERCAPNIA  SURGICAL EMPHYSEMA  INEQUALITY IN CHEST EXPANSION  REDUCED AIR ENTRY  BULGING DIAPHRAGM  SEVERE CARDIOVASCULAR COMPROMISE WITH PROFOUND HYPOTENSION IN TENSION PNEUMOTHORAX CONFIRMED BY CXR
  • 41. MANAGEMENT  DEFLATION OF THE ABDOMEN  SUPPORTIVE TREATMENT  CONSERVATIVE IF MINIMUM PHYSIOLOGIC COMPROMISE  HYPERVENTILATION  PEEP  REDUCE THE PRESSURE GRADIENT BETWEEN THE ABDOMEN AND THE THORAX DURING BOTH INSPIRATION AND EXPIRATION INFLATE THE LUNG  INTERCOSTAL CANNULA IN SEVERE COMPROMISE ,  CHEST DRAIN IF REACCUMULATION OCCURS.  AFTER STABILIZATION  CAN BE RESUMED AT LOWER IAP OR CONVERSION TO AN OPEN PROCEDURE . NO PEEP IN BULLAE RUPTURE THORACOCENTESIS MANDATORY
  • 42. ENDOBRONCHIAL INTUBATION CEPHALAD DISPLACEMENT OF THE DIAPHRAGM DURING PNEUMOPERITONEUM CEPHALAD MOVEMENT OF THE CARINA ENDOBRONCHIAL INTUBATION.  DECREASE IN THE OXYGEN SATURATION  INCREASE IN PLATEAU AIRWAY PRESSURE.  INCREASE IN ETCO2
  • 43. GAS EMBOLISM INTRAVASCULAR INJECTION OF GAS DIRECT NEEDLE PLACEMENT INTO A VESSEL GAS INSUFFLATION INTO AN ABDOMINAL ORGAN. DURING THE INDUCTION OF PNEUMOPERITONEUM LETHAL DOSE OF EMBOLIZED CO2 IS APPROXIMATELY FIVE TIMES GREATER THAN THAT OF AIR EFFECTS DETERMINED BY SIZE OF BUBBLES RATE OF INSUFFLATION
  • 44. RAPID INSUFFLATION OF GAS UNDER HIGH PRESSURE GAS LOCK IN THE VENA CAVA AND RIGHT ATRIUM OBSTRUCTION TO VENOUS RETURN WITH A FALL IN CARDIAC OUTPUT CIRCULATORY COLLAPSE
  • 45. ACUTE RIGHT VENTRICULAR HYPERTENSION MAY OPEN THE FORAMEN OVALE, ALLOWING PARADOXICAL GAS EMBOLIZATION  CARDIAC ARRHYTHMIA,  HYPOXEMIA,  HYPOTENSION,  DECREASE IN ETCO2.  CEREBRAL CO2 EMBOLISM ECG  A RIGHT STRAIN PATTERN AND WIDENING OF THE QRS COMPLEX.
  • 46. DIAGNOSIS • DETECTION OF GAS EMBOLI IN THE RIGHT SIDE OF THE HEART • RECOGNITION OF THE PHYSIOLOGIC CHANGES FROM EMBOLIZATION • EARLY EVENTS, OCCURRING WITH 0.5 ML/KG OF AIR OR LESS, INCLUDE CHANGES IN DOPPLER SOUNDS AND INCREASED MEAN PULMONARY ARTERY PRESSURE. • WHEN THE SIZE OF THE EMBOLUS INCREASES (2 ML/KG OF AIR) TACHYCARDIA CARDIAC ARRHYTHMIAS, HYPOTENSION, INCREASED CVP ALTERATION IN HEART TONES (I.E., MILLWHEEL MURMUR), CYANOSIS ECGCHANGES OF RIGHT-SIDED HEART STRAIN
  • 47. MANAGEMENT  STOP INSUFFLATION  RELEASE OF PNEUMOPERITONEUM  STEEP HEAD DOWN . LEFT LATERAL (DURRANT)  100% O2  HYPERVENTILATE  CENTRAL VENOUS/PAC – GAS ASPIRATED  EXTERNAL CARDIAC MASSAGE – FRAGMENTS EMBOLUS INTO SMALL BUBBLES  CPCR  CPB  HBO IN CEREBRAL EMBOLUS
  • 48. HOW DURANT POSITION HELPS  HEAD-DOWN POSITION KEEPS A LEFT-VENTRICULAR AIR BUBBLE AWAY FROM THE CORONARY ARTERY OSTIA (WHICH ARE NEAR THE AORTIC VALVE) SO THAT AIR BUBBLES DO NOT ENTER AND OCCLUDE THE CORNONARY ARTERIES.  LEFT LATERAL DECUBITUS POSITIONING HELPS TO TRAP AIR IN THE NON-DEPENDENT SEGMENT OF THE RIGHT VENTRICLE, PREVENTING IT ENTERING THE PULMONARY ARTERY & ALSO PREVENTS THE AIR FROM PASSING THROUGH A PATENT FORAMEN OVALE.
  • 49. RISK OF ASPIRATION OF GASTRIC CONTENTS  AT RISK FOR ACID ASPIRATION SYNDROME  THE INCREASED IAP RESULTS IN CHANGES OF THE LOWER ESOPHAGEAL SPHINCTER THAT ALLOW MAINTENANCE OF THE PRESSURE GRADIENT ACROSS THE GASTROESOPHAGEAL JUNCTION AND THAT REDUCE THE RISK OF REGURGITATION.  THE HEAD-DOWN POSITION SHOULD HELP TO PREVENT ANY REGURGITATED FLUID FROM ENTERING THE AIRWAY.
  • 50. REGIONAL PERFUSION  INCREASED CEREBRAL PERFUSION AND INTRACRANIAL PRESSURE  CAUTION IN PATIENT WITH BRAIN TUMOR OR VENTRICULOPERITONEAL SHUNT  DECREASED SPLANCHNIC BLOOD LOW  DECREASED HEPATIC BLOOD LOW  VARIABLE (DECREASED OR NO CHANGE) IN BOWEL PERFUSION, MECHANICAL PNEUMOPERITONEUM COMPRESSION BALANCED BY HYPERCARBIC VASODILATATION )
  • 51.  REDUCED RENAL PERFUSION AND URINE OUTPUT (REDUCED DURING PNEUMOPERITONEUM/RECOVERY FOLLOWING DELATION)  THE URINE OUTPUT GENERALLY NORMALIZES FOLLOWING PNEUMOPERITONEUM DEFLATION WITH NO CONSEQUENT RENAL DYSFUNCTION.  INCREASED IAP AND THE HEAD-UP POSITION RESULT IN LOWER LIMB VENOUS STASIS.  DECREASED FEMORAL VEIN FLOW  INCREASED POTENTIAL FOR DEEP VEIN THROMBOSIS AND PULMONARY EMBOLISM
  • 52. RENAL FUNCTION DURING LAPAROSCOPY  URINE OUTPUT REDUCED DURING LAPAROSCOPY DECREASED RENAL BLOOD LOW COMPRESSION OF RENAL PARENCHYMA NEUROENDOCRINE  FACTORS THAT INFLUENCE U/O PREEXISTING RENAL COMPROMISE LONGER INSUFFLATION TIMES HIGH INTRAABDOMINAL PRESSURES  INTRAOPERATIVE OLIGURIA REVERSIBLE WITHIN 2 H POSTOPERATIVELY  IAP <15 MM HG SAFE EVEN IN PATIENTS WITH RENAL DISEASE
  • 53.
  • 54.
  • 55.
  • 56. PROBLEMS RELATED TO PATIENT POSITION PATIENT POSITIONING DEPENDS ON THE SITE OF SURGERY  HEAD-DOWN TILT  PELVIC AND LOWER ABDOMINAL SURGERY  HEAD-UP POSITION  UPPER ABDOMINAL SURGERY. POSITIONS MAY BE RESPONSIBLE FOR, OR CONTRIBUTE TO, THE DEVELOPMENT OF PATHOPHYSIOLOGIC CHANGES OR INJURY DURING LAPAROSCOPY THE STEEPNESS OF THE TILT ALSO AFFECTS THE MAGNITUDE OF THESE CHANGES.
  • 57. CVS EFFECTS NORMOTENSIVE IN HEAD DOWN CVP CO SYSTEMIC VASODILATATION , BRADYCARDIA EXAGGERATED CHANGES IN CARDIAC PATIENTS CARDIAC WORK & MVO2 PROLONGED HEAD DOWN  CEREBRAL & UPPER AIRWAY EDEMA INCREASE IOP
  • 58. HEAD UP VENOUS RETURN CO MAP STEEPER THE TILT CARDIAC OUTPUT VENOUS STASIS IN HEAD UP , LITHOTOMY
  • 59. RESPIRATORY  HEAD DOWN  FACILITATES THE DEVELOPMENT OF ATELECTASIS. DECREASES IN THE FRC TOTAL LUNG VOLUME PULMONARY COMPLIANCE  MORE MARKED IN OBESE, ELDERLY, AND DEBILITATED PATIENTS.  IN HEALTHY PATIENTS NO MAJOR CHANGES ARE SEEN.  THE HEAD-UP POSITION IS USUALLY CONSIDERED TO BE MORE FAVORABLE TO RESPIRATION
  • 60. NERVE INJURY  POTENTIAL COMPLICATION DURING THE HEAD-DOWN POSITION.  OVEREXTENSION OF THE ARM MUST BE AVOIDED.  SHOULDER BRACES SHOULD BE USED WITH GREAT CAUTION AND MUST NOT IMPINGE ON THE BRACHIAL PLEXUS.  LOWER EXTREMITY NEUROPATHIES (E.G., PERONEAL NEUROPATHY, MERALGIA PARESTHETICA, FEMORAL NEUROPATHY) HAVE BEEN REPORTED AFTER LAPAROSCOPY.  THE COMMON PERONEAL NERVE IS PARTICULARLY VULNERABLE AND MUST BE PROTECTED WHEN THE PATIENT IS PLACED IN THE LITHOTOMY POSITION.  PROLONGED LITHOTOMY POSITION CAN RESULT IN LOWER EXTREMITY COMPARTMENT SYNDROME.
  • 61. WELL LEG COMPARTMENT SYNDROME  COMPLICATION OF PROLONGED STEEP TRENDELENBERG POSITION  CAUSES IMPAIRED PERFUSION TO LOWER LIMBS VENOUS COMPRESSION BY STIRRUPS FEMORAL VENOUS DRAINAGE DUE TO PNEUMOPERITONEUM  PRESENTATION DISPROPORTIONATE LOWER LIMB PAIN AFTER SURGERY RHABDOMYOLYSIS MYOGLOBIN ASSOCIATED RENAL FAILURE
  • 62.  RISK FACTORS SURGERY > 4 HRS MUSCULAR LOWER LIMBS OBESITY PERIPHERAL VASCULAR DISEASE HYPOTENSION STEEP TRENDELENBERG  PREVENTION IPC /COMPRESSION STOCKINGS HEEL –ANKLE SUPPORTS (OVER CALF KNEE SUPPORTS) MOVING PATIENTS LIMBS DURING SX PULSE OXIMETER IN GREAT TOE TO ASSESS ADEQUECY OF LOWER LIMB PERFUSION
  • 63. POST OP BENEFITS STRESS RESPONSE  LOW PLASMA CONCENTRATIONS OF C-REACTIVE PROTEIN AND INTERLEUKIN- 6 – LESS TISSUE DAMAGE  REDUCED METABOLIC RESPONSE ( HYPERGLYCEMIA ,LEUKOCYTOSIS)  NITROGEN BALANCE AND IMMUNE FUNCTION BETTER PRESERVED.  AVOIDS PROLONGED EXPOSURE AND MANIPULATION OF THE INTESTINE  POSTOPERATIVE ILEUS AND FASTING, DURATION OF INTRAVENOUS INFUSION, AND HOSPITAL STAY ARE SIGNIFICANTLY REDUCED
  • 64. POST OP PAIN  REDUCTION IN POSTOPERATIVE PAIN AND ANALGESIC  PREOPERATIVE NSAIDS AND COX -2 INHIBITORS DECREASES PAIN  VISCERAL TYPE OF PAIN  SHOULDER TIP PAIN  MULTIMODAL ANALGESIA PRE OP NSAIDS LOCAL INFILTRATION INTRAPERITONEAL LA OPIATES COMPLETE EVACUATION OF CO2 PNEUMOPERITONEUM
  • 65. PULMONARY DYSFUNCTION  UPPER ABDOMINAL SURGERY  POSTOPERATIVE CHANGES IN PULMONARY FUNCTION  LESS SEVERE AND RECOVERY IS QUICKER AFTER LAPAROSCOPY.  GREATER REDUCTIONS IN EXPIRATORY VOLUMES AND SLOWER RECOVERY OF PULMONARY FUNCTION MAY BE SEEN IN OLDER PATIENTS OBESE PATIENTS SMOKERS PATIENTS WITH COPD
  • 66. PONV  LAP – RISK FACTOR FOR PONV  PERI OP OPIODS – RISK FACTOR  PREVENTION PROPOFOL ANAESTHESIA 5 HT3 ANTAGONISTS
  • 67. LAP IN PREGNANCY  INCREASES THE RISK OF MISCARRIAGE OR PREMATURE LABOR AND THE RISK OF DAMAGING THE GRAVID UTERUS.  AVOIDED BY ALTERNATIVE ENTRY SITES FOR THE VERESS NEEDLE AND TROCARS.  CO2 PNEUMOPERITONEUM INDUCES SIGNIFICANT FETAL ACIDOSIS.  FETAL HEART RATE AND ARTERIAL PRESSURE INCREASE, BUT MINIMAL.  PROVIDED MATERNAL PACO2 IS AT NORMAL LEVELS, FETAL PLACENTAL PERFUSION PRESSURE AND BLOOD FLOW, PH, AND BLOOD GAS TENSIONS ARE UNAFFECTED BY INSUFFLATION OR DESUFFLATION.  HEMODYNAMIC CHANGES OF PNEUMOPERITONEUM ARE SIMILAR IN PREGNANT AND NONPREGNANT WOMEN.
  • 68. RECOMMENDATIONS 1. SURGERY DURING THE SECOND TRIMESTER, IDEALLY BEFORE THE 23RD WEEK OF PREGNANCY, TO MINIMIZE THE RISK OF PRETERM LABOR AND TO MAINTAIN ADEQUATE INTRA-ABDOMINAL WORKING ROOM. 2. TOCOLYTICS ARE BENEFICIAL TO ARREST PRETERM LABOR, BUT THEIR PROPHYLACTIC USE IS DEBATABLE 3. OPEN LAPAROSCOPY SHOULD BE USED FOR ABDOMINAL ACCESS TO AVOID DAMAGING THE UTERUS. 4. FETAL MONITORING USING TRANSVAGINAL ULTRASONOGRAPHY 5. MECHANICAL VENTILATION MUST BE ADJUSTED TO MAINTAIN A PHYSIOLOGIC MATERNAL ALKALOSIS
  • 69. LAP IN CHILDREN  LAPAROSCOPY IS FREQUENTLY PERFORMED IN INFANTS AND CHILDREN  CO2 PNEUMOPERITONEUM INDUCES THE SAME CHANGES IN RESPIRATORY MECHANICS TO THOSE REPORTED IN ADULTS.  PACO2 AND PETCO2 INCREASE DURING PNEUMOPERITONEUM.  THE HEMODYNAMIC CHANGES OBSERVED IN CHILDREN ARE SIMILAR TO THOSE REPORTED IN ADULTS.
  • 71. PREOP EVALUATION  DONE IN THE USUAL MANNER  PARTICULAR ATTENTION TO CARDIOVASCULAR AND RESPIRATORY STATUS  CARDIAC EVALUATION IN PATIENTS WITH CARDIAC DISEASE  RISK VS BENEFIT IN CARDIAC PATIENTS  NEPHROTOXIC DRUGS AVOIDED IN RENAL IMPAIRMENT  ALWAYS CONSIDER THE FACT THAT THERE IS CHANCE OF CONVERTING TO OPEN PROCEDURE  UNDESIRABLE IN PATIENTS WITH INCREASED INTRACRANIAL PRESSURE AND HYPOVOLEMIA
  • 72.  IN A PATIENT WITH POOR PULMONARY RESERVE MORE EXTENSIVE PREOPERATIVE EVALUATION INCLUDING PFT IS ADVISABLE.  PULMONARY FUNCTION TESTS (PFT) IDENTIFY PATIENTS WHO ARE LIKELY TO EXPERIENCE HYPERCARBIA AND ACIDOSIS  PROPHYLAXIS OF DEEP VEIN THROMBOSIS  ROUTINE INVESTIGATIONS
  • 73. PREMEDICATION ADAPTED TO THE DURATION OF THE LAPAROSCOPY AND TO THE NECESSITY FOR QUICK RECOVERY  ANXIOLYTICS  MIDAZOLAM , ALPRAZOLAM  ANTI EMETICS  ONDANSETRON , PROMETHAZINE, DEXAMETHASONE  ANTACIDS  RANITIDINE ,PANTOPRAZOLE  PROKINETICS  METOCLOPRAMIDE  ANTICHOLINERGICS  TO PREVENT VAGALLY MEDIATED BRADY  ALPHA 2 AGONISTS  REDUCE INTRA OP STRESS & IMPROVE HAEMODYNAMICS  ANALGESICS  PRE OP NSAIDS REDUCE POST OP PAIN ,OPIODS
  • 74. PATIENT POSITIONING  POSITIONED WITH GREAT CARE TO PREVENT NERVE INJURIES  PADDING SHOULD PROTECT FROM NERVE COMPRESSION, AND SHOULDER BRACES, PLACED OVERLYING THE CORACOID PROCESS.  PATIENT TILT SHOULD BE REDUCED AS MUCH AS POSSIBLE AND SHOULD NOT EXCEED 15 TO 20 DEGREES.  TILTING MUST BE SLOW AND PROGRESSIVE TO AVOID SUDDEN HEMODYNAMIC AND RESPIRATORY CHANGES
  • 75. MONITORING  ALL STANDARD MONITORS  ARTERIAL LINE  TEE – IN SIGNIFICANT CARDIOPULMONARY DISEASE TO MONITOR RESPONSE TO PNEUMOPERITONEUM & POSITION  ABG - IN PRE EXISTING PULMONARY DISEASE PERSISTANT REFRACTORY INTROP HYPERCAPNIA  CEREBRAL OXIMETRY – HIGH RISK PATIENT /PROLONGED SX/ HEAD UP/DOWN PROVIDES INFO ON BRAIN OXYGENATION
  • 76. ANESTHETIC TECHNIQUES  GA  REGIONAL  LOCAL
  • 77. GA – CONDUCT OF ANAESTHESIA  GENERAL ANESTHESIA WITH ENDOTRACHEAL INTUBATION AND CONTROLLED VENTILATION IS THE SAFEST AND MOST COMMONLY USED  HELP REDUCE THE INCREASE IN PACO2 AND AVOID VENTILATORY COMPROMISE FROM PNEUMOPERITONEUM AND POSITION CHANGES  PROSEAL LMA CAN ALSO BE USED  INSERTION OF A NASOGASTRIC TUBE MAY BE REQUIRED TO DEFLATE THE STOMACH-IMPROVE SURGICAL VIEW, AVOID GASTRIC INJURY ON TROCHAR INSERTION.
  • 78. LMA FOR LAP CONTROVERSIAL • LESS SORE THROAT • ALLOWS CONTROLLED VENTILATION • ETCO2 CAN BE MONITORED • LESS AMOUNT OF RELAXANTS • ASPIRATION THE MOST IMPORTANT PARAMETER TO SECURE AN ADEQUATE VENTILATION AND OXYGENATION FOR THE LMA UNDER PNEUMOPERITONEUM IS ITS SEAL PRESSURE OF AIRWAY. A GOOD SEALING PRESSURE, NOT ONLY STATE CORRECT PATIENT VENTILATION, BUT IT REDUCES THE POTENTIAL RISK OF ASPIRATION DUE TO THE BETTER SEAL OF AIRWAY LMA WITH GASTRIC PORT BETTER
  • 79.
  • 80. INDUCTION ADVANTAGES OF PROPOFOL IN LAP  SIGNIFICANTLY QUICKER RECOVERY  AN EARLIER RETURN OF PSYCHOMOTOR FUNCTION  ANTI EMETIC ACTION .
  • 81. MAINTENANCE  MAINTAINING DEEP LEVEL OF ANAESTHESIA WITH INHALATIONAL AGENTS BLUNT THE HAEMODYNAMIC RESPONSE TO PNEUMOPERITONEUM.  NITROUS OXIDE CAUSING NAUSEA & VOMITING IS CONTROVERSIAL.  BUT IT MAY DISTEND THE BOWEL, IN PATIENTS WITH INTESTINAL OBSTRUCTION.  AIR OXYGEN USED  OPIODS – SHORT ACTING PREFERRED MINIMIAL OPIODS  ESMOLOL OR LABETALOL MAY BE MORE APPROPRIATE TO TREAT PNEUMOPERITONEUM HYPERTENSION.
  • 82. MUSCLE RELAXANTS  PREVENTS HIGH INTRA-ABDOMINAL AND INTRA-THORACIC PRESSURES DUE TO PNEUMOPERITONEUM  MUSCLE PARALYSIS REDUCES THE IAP NEEDED FOR THE SAME DEGREE OF ABDOMINAL DISTENTION  RESIDUAL BLOCKADE CAN CAUSE PONV
  • 83. VENTILATION  LUNG PROTECTIVE VENTILATION STRATEGIES INCLUDE THE USE OF PRESSURE CONTROLLED VENTILATION WITH LOW TIDAL VOLUMES (6 TO 8 ML/KG IDEAL BODY WEIGHT) AND PEEP OF 5 TO 10 CM WATER .  USE OF PEEP HAS BEEN SHOWN TO IMPROVE ARTERIAL OXYGENATION DURING PROLONGED PNEUMOPERITONEUM.  DURING PNEUMOPERITONEUM, CONTROLLED VENTILATION MUST BE ADJUSTED TO MAINTAIN PETCO2 BETWEEN 35 AND 40 MM HG.  INCREASE OF RESPIRATORY RATE RATHER THAN OF TIDAL VOLUME MAY BE PREFERABLE IN PATIENTS WITH COPD AND IN PATIENTS WITH A HISTORY OF SPONTANEOUS PNEUMOTHORAX OR BULLOUS EMPHYSEMA TO AVOID INCREASED ALVEOLAR INFLATION AND REDUCE THE RISK OF PNEUMOTHORAX.
  • 84. FLUIDS  U/O REDUCED  USING IT AS A GUIDE  OVERLOAD  STROKE VOLUME OR SYSTOLIC OR PULSE PRESSURE VARIATION PREFERRED
  • 85. REGIONAL ANESTHESIA • ADVANTAGES • METABOLIC RESPONSE IS REDUCED • REDUCES THE NEED FOR SEDATIVES AND NARCOTICS • PRODUCES BETTER MUSCLE RELAXATION. • POST OP ANALGESIA • LESS CHANCE OF PONV
  • 86.
  • 87. LOCAL ANAESTHESIA ADVANTAGES  QUICKER RECOVERY,  DECREASED PONV,  EARLY DIAGNOSIS OF COMPLICATIONS, AND  FEWER HEMODYNAMIC CHANGES DISADVANTAGES  REQUIRES PRECISE AND GENTLE SURGICAL TECHNIQUE AND MAY RESULT IN INCREASED PATIENT ANXIETY, PAIN, AND DISCOMFORT DURING THE MANIPULATION OF PELVIC AND ABDOMINAL ORGANS.  MAY REQUIRE SEDATION
  • 88. POSTOPERATIVE MANAGEMENT  POSTOPERATIVE SHOULDER-TIP PAIN  ALL PATIENTS SHOULD RECEIVE SUPPLEMENTAL OXYGEN  HAEMODYNAMIC MONITORING  PREVENTION OF PONV  DVT PROPHYLAXIS
  • 89. REFERENCES • MILLER 7TH • BARASH 7TH • YAO • CEACP