Transcript ANAESTHESIA AND LIVER DISEASE
9.1.09
ANAESTHESIA AND LIVER DISEASE
Dr.Pratheeba Durairaj ,M.D,D.A,
Liver Functions
The liver conjugates bilirubin, produced from the degradation of the haemoglobin - water-soluble form of bilirubin is then excreted into the bile ducts The bile salts produced by the liver are passed to the gut necessary for the absorption of the fat-soluble vitamins A, D, E and K. Synthesis of proteins - most clotting factors, albumin. Lipid metabolism - cholesterol and triglycerides synthesised here. Carbohydrate metabolism - synthesis and breakdown of glycogen . It stores glycogen and releases glucose into the blood when the blood glucose falls for any reason.
Biotransformation of drugs either by oxidation or conjugation - render them water-soluble - more easily excreted.
Impaired liver function
Direct effects
Hypoglycemia, Lactic acidosis , Hyper metabolism, Azotemia and Impaired urea synthesis.
Jaundice appears when serum bilirubin exceeds 35 µmol/l Defects in cholesterol metabolism together with intra-hepatic cholestasis may lead to production of poor quality bile and malabsorbtion of fat and fat-soluble vitamins. Reduced synthesis of proteins such as albumin, clotting factors, thyroid binding globulin and pseudo-cholinesterase.
Impaired hormone biotransformation, reduced production of modulator proteins and reduced protein binding lead to increased circulating levels of hormones such as insulin, thyroxine, T3, aldosterone and oestrogen
Indirect effects
Cardiovascular changes
Vasodilatation and vascular shunting are almost invariable in ESLD.
Low systemic vascular resistance (SVR) results in high cardiac output and high mixed venous oxygen saturations Intrapulmonary & arteriovenous shunting Pulmonary hypertension may develop Tachycardia, bounding pulse ,Ejection systolic murmur
Pulmonary changes
Pulmonary problems are both vascular and mechanical.
Hepato-Pulmonary syndrome
– triad of end stage liver disease, A-a gradient >2 kPa , intrapulmonary vascular dilation Impaired pulmonary function in absence of cardiopulmonary disease Impaired hypoxic vaso-constriction and ventilation perfusion mismatch lead to arterial desaturation and clubbing if chronic.
Cyanosis ,dyspnoea , platypnea, orthodeoxia [desaturation pronounced in upright position relieved by recumbency ] Pleural effusions together with ascites can cause considerable mechanical embarrassment of respiration and a reduction in functional residual lung capacity.
HEPATORENAL SYNDROME
Low GFR Low renal blood flow No other cause for renal failure “Functional renal failure” Symptoms – water retention, Azotemia, hyponatremia, & oliguria
Hepatorenal failure
Causes may be Pre and peroperative dehydration Hypovolaemia Falls in renal blood flow during surgery, Direct effect of the excess conjugated bilirubin on the renal tubules or possibly an increased absorption of endotoxin from the gut.
Not a major risk in patients with Prehepatic jaundice.
Management of Hepato renal syndrome
Avoid it developing by ensuring adequate hydration and a urine flow of at least 50mls/hr in the average adult patient.
In moderately elevated bilirubin - simple fluid loading for 12 hours before surgery using 0.9% NaCl and during the operation. If the urine output is not maintained - Mannitol 10% Bilirubin greatly elevated (>140 micromols/litre), - intravenous fluids during the 24 hours before surgery and for 36 hours postoperatively. diuresis.
Mannitol 10% 0.5-1g/kg - prior to surgery without making the patient dehydrated as a result of an over-zealous
Neurological problems
Mechanisms leading to deepening encephalopathy incompletely understood. Due to accumulation of neurotoxic compounds penetrating an impaired blood-brain barrier. Symptoms can occur in chronic as well as in acute disease, may be rapid in onset Precipitated by a gastrointestinal bleed, dietary protein overload or sepsis. Somnolence can be exacerbated by sedative drugs and narcotics.
Rapid correction of hyponatraemia can lead to osmotic demyelination and central pontine myelinolysis and should be avoided
HAEMATOLOGICAL PROBLEMS
Anaemia may be the result of nutritional deficiency, toxic bone marrow depression or gastrointestinal bleeding from varices or erosions. Coagulation defects arise from thrombocytopenia, platelet dysfunction and decreased levels of circulating clotting factors. Clotting factor levels fall because of impaired synthesis, vitamin K malabsorbtion and intravascular consumption. The short half-life of clotting factors means that INR or Prothrombin Ratio (PTR) can reliably be used to evaluate residual hepatic function.
Treatment –Vit K ,FFP
GASTROINTESTINAL SYSTEM
Rupture of oesophageal varices Vassopressin & octreotide –reduce portal hypertension
Susceptibility to infection - increased Drug disposition
Cholestasis will reduce absorption of fat-soluble drugs after oral administration.
Compartment changes and altered protein binding will affect volume of distribution, clearance and re distribution. Patients with liver dysfunction may be particularly sensitive to opiates and benzodiazepines due to altered end-organ sensitivity
Effect of hepatic dysfunction on anaesthetics
↓ Albumin -increased free fraction Altered volume of distribution [Ascites & increased total body water compartment], Reduced metabolism –alters drug pharmacodynamics Opiods Morphine ,pethidine -↑ ↑ respiratory depression & sedation Sedative /hypnotic drugs Benzodiazepines – prolonged NDMR Prolonged action for vecuronium and pancuronium DMR Decreased serum cholinesterase activity
The Effect of Anaesthetics on Liver Function
VOLATILE AGENTS
Halothane -↓ HABF/PBF, disturb HABR [hepatic arterial buffer response] Sevoflurane ,isoflurane maintain HABR SEVO > ISO > DES > HALO
IV ANAESTHETICS
Thiopentone /etomidate -↓THBF Propofol - ↑THBF –splanchnic vasodilator Ketamine – no effects
REGIONAL ANAESTHESIA
High epidural may reduce THBF
Effect of General Anaesthesia on liver functions in patients with preexisting liver diseases
Indian Journal of Anaesthesia. 1989 Apr; 37(2): 61-6
ABSTRACT: Effects of anaesthetics on liver functions were studies in 13 patients having no liver disease (group I) and 11 patients having liver disease (group II). Serum cholinesterase increased significantly in both the group. Rise in SGOT levels was significant only in group I, who had greater surgical trauma and not in the other group of patients (group II). Significant decrease in total serum proteins was seen on different postoperative days in group I but only on 5th postoperative day in group II. It was concluded that presence of liver disease does not increase the adverse effect of anaesthesia on liver function and that
surgical trauma is more important than anaesthesia in producing liver dysfunction.
Signs of Liver Disease
Jaundice Hepatomegaly Spider Naevi Splenomegaly Scratch Marks Ascites Palmer Erythema Dilated Abdominal Veins Peripheral Oedema Finger Clubbing Testicular Atrophy Bruising Gynaecomastia Confusion/Coma
Jaundice
Prehepatic jaundice [haemolysis] Massive intravascular haemolysis - as in some forms of malaria or in sickle cell anemia Hepatocellular function is normal but overwhelmed increased unconjugated bilirubin Intact Protein and carbohydrate metabolism No reduction in the absorption of Vitamin K or production of clotting factors.
Hepatocellular jaundice Hepatitis or Cirrhosis decreased protein synthesis, signs of delayed clotting, and even encephalopathy.
CONTD…
Obstructive Jaundice
Biliary obstruction - from a stone in the common bile duct, pancreatic tumour or ascending cholangitis Hepatocellular function is normal Excess plasma bilirubin is chiefly conjugated - excreted in the urine which becomes dark.
Stools are pale as a result of poor lipid absorption. Protein synthesis is normal Vitamin K dependant clotting factors reduced as the absorption of vitamin K is dependent on the excretion of bile salts into the small intestine → clotting time prolonged parenteral vitamin K.
Renal impairment in Jaundice
Release of endotoxins into systemic circulation following biliary obstruction – renal failure Prevention - in high sr.bilirubin levels – percutaneous drainage of biliary tree under antibiotic cover - pre op oral bile salts -↓ post op RF
Liver Function Tests
Indication of severity, help to differentiate between prehepatic, hepatocellular and obstructive jaundice.
Jaundice - sign of an elevation of serum bilirubin. Protein and albumin levels are normal in prehepatic or obstructive jaundice, low values indicate hepatocellular damage.
clotting - Prothrombin Time An elevated INR may indicate impaired synthesis of clotting factors due to hepatocellular damage or malabsorption of vitamin K due to biliary obstruction.
Contd…
Prothrombin time[ half life - 6 -12 hrs ] – best indicator than Albumin [ half life – 24 -48 days]
Alanine Transaminase (ALT) and Aspartate Transaminase (AST) are enzymes that are released into the circulation by damaged hepatocytes. Raised levels indicate hepatocellular damage.
AST can also be elevated in other circumstances such as myocardial infarction Alkaline Phosphatase (ALP) is an enzyme localized near the bile cannaliculi and is elevated in biliary obstruction. Not specific to hepatobiliary disease,[ raised in malignant bone disease].
An accompanying rise in Gamma glutamyl Transferase (Gamma GT) suggests that the ALP is from the liver.
Contd…
Glutathione – S – transferase –to assess damage due to anaesthetics ALP –Early in biliary obstruction γ - Glutamyl trans peptidase – rises after alcohol & drug induced liver damage Plasma glucose should be measured
Risk and severity scoring
In 1964, Child and Turcotte classified risk for patients with liver cirrhosis undergoing porto-caval anastomosis for management of portal hypertension.
Pugh et al at King's College Hospital published a severity scoring system for patients undergoing oesophageal transection for bleeding oesophageal varices. The two systems have been amalgamated and provide a disease severity assessment based on two clinical and three laboratory variables
PUGH‘S MODIFICATION OF CHILD GRADING Clinical & Biochemical variables
Serum albumin (g/L)
POINTS 1
>35
SCORED 2
28-35 3 <28 Serum bilirubin (µmol/L) [Mg /dl] PT (seconds) prolonged from control <35 < 2 1-4 INR [ < 1 .7] Ascites None 35-60 2 -3 4-10 INR [1.7 2.3] Mild >60 > 3 10 INR >2.3
Moderate Encephalopathy Absent Grade I – II POINTS : 5- 6 – class A [5% Mortality] , 7 -9 –Class B [10% mortality], 10 -15 –Class C [50% mortality] Grade III – IV
Surgery in patients with liver dysfunction
The Child-Pugh classification is a useful method of staging the progress of liver decompensation. Limited predictive value in anaesthesia and surgery Group A patients are lower risk and with sufficient care can be considered as candidates for most types of surgery.
Group B patients – acceptable but correct abnormalities
Group C patients present an extremely high operative risk - surgical procedures in these patients should be avoided if possible.-
only emergency or life-saving procedures
should be undertaken
Preoperative assessment
Type and extent of liver disease Extra hepatic effects Risk assessment Patients general condition- hydration ,nutrition Associated co-morbid conditions LFT Consent Premedication-short acting temazepam in absence of neurological impairment orally –avoid intramuscular injections H2 receptor antagonists Preop Vit K ,optimal hydration
PREOP INVESTIGATIONS
Hematological –Hb , Platelet count,WBC Coagulation profile Metabolic – sr. glucose ,urea ,creatinine electrolytes Cardio respiratory – chest x-ray,ECG ,PFT, ABG Liver function – sr.bilirubin,albumin,liver enzymes
Pre-op risk factors associated with postoperative mortality
Serum albumin <3g/L Serum bilirubin >50 µmol/L PT >1.5 s over control Presence of infection WBC > 10,000 Treatment with more than two antibiotics Presence of Ascites Malnutrition Emergency surgery
Anaesthetic Technique
Avoid hypotensive techniques—intra hepatic necrosis High conc of oxygen -- - due to intrapulmonary shunts Avoid hypotension & hypoxemia Meticulous fluid balance – Ascites – may lose a large amount of fluid rapidly Concentrated albumin solutions –to correct hypoproteinemia Fresh blood –to prevent hypocalcemia due to reduced metabolism of preservatives FFP 12 - 15 ml/Kg –Correct dilutional coagulopathy 1 unit of FFP for every 1 unit of packed cells or 250 ml of 0.9% saline or colloid [500 ml of FFP - ↑ Clotting factors by 20% ] Maintenance of temperature
Monitoring
Monitoring of temperature Coagulation status should be monitored –platelet count ,fibrin degradation products , prothrombin time , activated clotting time, partial thromboplastin time Thromboelastography has been used as a tool in liver transplantation Repeated BP cuff inflation –may lead to bruising in patients with altered haemostatic function Insertion of Intra arterial line – care to prevent haematoma Jugular route is preferred in CVP monitoring Oximetry Urine output Blood loss Monitor ionized calcium
DRUGS
Thiopentone – intrinsic clearance delayed but recovery not delayed because of redistribution Alcoholic cirrhosis – larger dose of thio – cross tolerance Halothane and enflurane reduce hepatic arterial flow (vasodilatation, negative inotropic effects) Isoflurane increases hepatic blood flow [preferred]
NEUROMUSCULAR BLOCKING AGENTS
Reduced plasma pseudo cholinesterase activity Prolonged action- vecuronium , pancruonium[1.6 fold] Decreased biliary excretion Increased volume of distribution –larger initial doses Recommended Atracurium – metabolism independent of liver and kidneys For transplantation – long acting agent such as doxacurium
OPIODS & SEDATIVES
Narcotics
Reduced metabolism of morphine and pethidine Prefer fentanyl Remifentanyl - ideal
Benzodiazepines
Diazepam - prolonged half life Oxazepam and lorazepam preferrred – metabolised by glucuronidation without liver requirement
? Regional Anaesthesia
Contraindicated if PT >2.5 s above control, platelet count < 50,000 /cu.mm, bleeding time >12 mts Spinal and epidural anaesthesia carries the risk of epidural haematoma and paralysis if there is abnormal clotting but there are otherwise no special precautions.
The half-life of lignocaine is prolonged in liver failure but this is not significant when used in regional anaesthesia.
LA dose diminished in presence of Ascites
Canadian Journal of Anesthesia, Vol 45, 452-459,
Obstetrical anaesthesia for a parturient with preeclampsia, HELLP syndrome and acute cortical blindness A 39-yr-old woman, with three past uncomplicated pregnancies presented at 33 wk with acute cortical blindness.
Based on clinical and laboratory assessment, a diagnosis of preeclampsia with HELLP syndrome was made.
A CT scan of her head demonstrated ischaemic lesions of her basal ganglia, extending superiorly to involve both posterior parietal and occipital regions.
Infusions of magnesium sulphate and hydralazine were started and an urgent Caesarean section was performed under subarachnoid anaesthesia after insertion of an arterial line and intravenous hydration.
Contd…
The course of anaesthesia and surgery was uneventful and she delivered a live 1540 g female infant.
By the following morning, she had recovered some vision and visual recovery was complete by 72 hr postpartum. Her postoperative course was uneventful CONCLUSION: Provided that it is not contraindicated because of prohibitive risk to the mother,
regional anaesthesia has particular advantage in these patients.
In particular, the use of spinal anaesthesia, which has been discouraged by some for this patient population, should be re evaluated.
Postoperative management
Oxygen enriched air Major surgery – elective post operative ventilation Replace blood loss Maintain adequate urine output Dopamine and inotropes should be continued.
The principle complications are likely to be continued bleeding, sepsis and hepatic decompensation
Peri-operative considerations in Child-Pugh A patients
Pre-operative Aetiology of condition - virology, Drug idiosyncrasy Blood count and platelets Clotting screen Assess renal function Previous anaesthetics
Per-operative
Consider drug bio-availability issues ? Avoid drugs excreted via liver Regional techniques acceptable if clotting normal
Post-operative
Monitor for post-operative hepatic decompensation Possible prolonged duration of action in opiates HDU / ITU care
Child-Pugh Group B/C patient undergoing major surgery
Previous upper abdominal surgery, portal hypertension and coagulopathy dramatically increase the potential for per-operative blood loss 8-12 units of blood, together fresh frozen plasma and platelets should be available. Pre-medication Sedative premedicants should be avoided in the encephalopathic patient. Other drugs may be needed pre-operatively and include antibiotics and H2 receptor antagonists.
The oral or intravenous route used - intramuscular injections should be avoided.
Coagulopathy may require correction with fresh frozen plasma and platelets and renal replacement therapy may need to be considered.
Per-operative considerations
Regional techniques -- considered carefully coagulopathy , epidural varices can pose an additional risk. Vascular access with a multi-lumen central venous catheter together with at least one large bore central line Monitoring of arterial and central venous pressures is mandatory. Pulmonary artery, pulmonary capillary wedge pressure and cardiac output measurements may be necessary in the sick patient.
Trans-oesophageal echocardiography and volumetric haemodynamic monitoring / pulse contour analysis can provide significant additional information for the strategic management of these patients.
CONTD…
Coagulation and fibrinolysis
are major concerns. The potential for large volume blood replacement means that temperature should be measured and a fluid warmer and warming mattress used.
Regular per-operative estimation of INR/PTR may be necessary - thromboelastography provides useful intra operative evaluation of coagulation.
Blood conservation
- considered
Preservation of hepatic function -
(NAC) is a sulphur-containing antioxidant - benefit patients with fulminant hepatic failure.
NAC appears to improve oxygen delivery and consumption, and reduce base deficit.
N-acetylcysteine
Renal Function
- Dopamine may be useful
Bleeding oesophageal varices
Bleeding oesophageal varices - life-threatening complication of - often occur against a background of abnormal clotting, thrombocytopenia, encephalopathy and Ascites.
Overall mortality is 30%.
The principles of anaesthetic management
Protect the airway. Establish good vascular access. Volume replacement - colloid, blood, fresh frozen plasma and platelets. Avoid saline. Check / correct clotting. Give Vitamin K, correct fibrinolysis and review blood chemistry.
Intoxicated Alcoholic Patients
Requires less anaesthetic –additive depressant effect of alcohol & anaesthetics Ill - equipped to withstand stress & Acute blood loss Alcohol decrease the tolerance of brain to hypoxia ↑ Risk of regurgitation & aspiration - alcohol ↓tone of lower oesophageal sphincter & slows gastric emptying Alcohol Interferes with platelet aggregation Causes ↑conc. of plasma catecholamines → ? Intraoperative dysarrhytmias
POSTOPERATIVE JAUNDICE Mild – 17%, marked - 4%
Patient factors
Congenital hemolytic disorders Acquired hemolytic disorders Pre existing liver disease Coagulopathy Gilberts syndrome Sepsis
Perioperative factors
Anaesthetic induced ↓HBF Bleeding Hypotension Blood transfusion Biliary tree trauma Viral hepatitis Drugs Halothane ,antibiotics Nonsteroidal agents
POSTOPERATIVE JAUNDICE
Extravascular break down of haematoma [1 ltr] 5000mg Bilirubin 500ml of blood transfusion – contains 250 mg bilirubin Intravascular destruction of RBC can occur in G6P dehydrogenase defeciency, cardiopulmonary bypass, Artificial valves, sickle cell disease, multiple blood transfusions Delayed transfusion reactions – hemolysis –postop jaundice Biliary obstruction due to surgery -↑bilirubin & ↑alkaline phosphatase within 3 days of surgery
Contd…
Postop cholecystitis/pancreatitis may follow non biliary surgery 3- 30 days post op Post operative intrahepatic cholestasis [benign] associated with multiple blood transfusions, hypoxia ,hypotension - ↑bilirubin & ↑alkaline phosphatase within 2-7 days of surgery –resolution in 3 weeks Management Prevention is the best treatment Avoid precipitating factors
Halothane Hepatitis The incidence is 1:7000-30,000 halothane anaesthetics - higher in women, the middle aged and the obese Rarer in paediatric patients and with the newer volatile agents. Commonest iatrogenic cause of fulminant hepatic failure “Unexplained liver damage within 28 days of halothane exposure in previously normal patient” – idiosyncratic reaction Clinical features : malaise, anorexia,fever within 7 days ,jaundice within days to 4 weeks
Halothane Hepatitis
DIAGNOSIS
Serum antibodies that react with specific liver microsomal proteins that are altered by trifluroacetyl chloride metabolite of halothane Gross rise of Transaminases [500 -2000 u/l]
Risk factors
High - recent previous exposure [ 78 %] previous adverse reaction Uncertain - obesity Female [1.6 :1 ] Drug allergy [ 15 %] Family history Lymphocyte sensitivity to phenytoin
Contd…
The cause not fully established - multifactorial - ? possible immunological cause .
Immune sensitization to trifluoracetylated proteins produced by Cyt P450 2E1 in genetically predisposed subjects Reduced hepatic blood flow and hypoxia are also to blame Related to the degree of metabolism of the volatile agent, so toxic metabolites may be involved.
The onset time of the jaundice is shorter with increasing numbers of exposures to halothane. Nevertheless, enflurane and isoflurane are associated with hepatic dysfunction, albeit apparently at lower rates than halothane. WHO database holds 225 and 159 reports respectively.
Halothane exposure guidelines
Avoid Halothane if
Within at least 3 months of a previous exposure Previous adverse reactions -jaundice or pyrexia Family history of hepatic reactions to halothane.
Pre - existing liver disease Adverse reactions to Other volatile anaesthetic agents.
Liver and Pregnancy
Normal in size A decrease in total protein as well albumin. An increase of the liver dependent clotting factors such as fibrinogen. An increase of alkaline phosphates 3-4 times secondary to placental alkaline.
Sr.cholinesterase ↓ 30% Normal transaminase [AST,ALT] levels and bilirubin Any increase in transaminase levels and bilirubin – good indicator of pregnancy –induced liver disease
Intrahepatic Cholestasis of Pregnancy
Incidence 0.01%. Mainly in the third trimester . Rare in black patients . Strong family history . High recurrence in subsequent pregnanacies 60-70%.
Pruritus alone - 80 percent , Jaundice develop in 20 percent Infrequent, mild to moderate steatorrhea. Bilirubin level less than 5 mg /dl , minimal or no elevation in transaminases
IChP –contd…
Incidence of fetal distress and death high if early delivery is not induced (deliver at week 38 if pruritus , at week 36 in case of jaundice ) Parenteral vitamin K , Ursodeoxycholic acid , 15 mg /kg , Cholestyramine binds bile acid salts , Dexamethasone Pruritus resolve within two days of delivery but bilurubin within 4-6 weeks
Implications on Anaesthesia
Check coagulation profile Ask for vit K I.V take care of high incidence of fetal distress , meconium-stained , prematurity ( neonatologist must attend with incubator
Preeclampsia & Eclampsia
About 25% of patients with Severe pre-eclampsia and 90% of those with eclampsia will have elevated AST and ALT > 5 times and bilirubin < 5 mg/dl If not associated with other criteria of HELLP syndrome e.g. low platelets , haemolysis , we give prophylactic dexamethasone 8mg/12hrs. beside mg.sulphate , antihypertensive , albumin 20% /50ml/day
Implications on anaesthesia
Painless labour with epidural to reduce stress response which could continue to anaesthesia provided INR <1.5 Difficult intubation because of edema - small cuffed tube 6-7 mm Adequate analgesia Fluids restriction Continue medications postoperative in ICU .
HELLP syndrome
Hemolysis , Elevated liver enzymes, Low platelets
Peripartum multiorgan damage with pre-eclampsia result from very active platelets aggregation everywhere with end organ ischemia and congestion with deposition of fibrous network and entraped haemolysed RBCs & platelets –necrosis & periportal haemorrhage Nausea, vomiting , headache and upper right abdominal pain ,hypotension /shock Best markers are the maternal lactate dehydrogenase level and the maternal platelet count.
Congested liver of HELLP syndrome
CONTD…
Perinatal administration of dexamethasone in a high dosage of 10 mg intravenously every 12 hours has been shown to markedly improve the laboratory abnormalities associated with HELLP syndrome. Magnesium sulfate to prevent seizures. Antihypertensive therapy if blood pressure is greater than 160/110 mmHg despite the use of magnesium sulfate. Anesthesia like severe preclampsia avoid trauma to liver Vit. K if INR >1.5
FFP 4-6 if INR >2 Platelets 6-8 units if platelets <50.000. Mortality – maternal 50 - 60%,foetal -60%
ACUTE FATTY LIVER OF PREGNANCY
Rare ,serious disorder ,unknown etiology Symptoms in third trimester –abdominal pain ,nausea vomiting, anorexia,fatique , fever ,headache Rapid progression –bleeding, jaundice, encephalopathy, renal failure, hepatic failure, coagulopathy - PPH ↑Transaminases, hyperbilirubinemia, ↑prothrombin time --- DIC Prompt delivery is advisable
Hepatic Rupture and Infarction
Older multigravida mothers with preeclampsia (75 to 85 percent) are at higher risk. Extremely rare, 1:40,000 to 1: 250,000 . Patients with hepatic rupture typically present in shock, with preceding right upper quadrant pain, hypertension, elevated transaminase levels (greater than 1,000 IU per L) and coagulopathy. Therapy for hepatic rupture has included transfusion of blood products and intravenous fluids, surgical evacuation and arterial embolization with 75 percent perinatal mortality rate have been noted in hepatic rupture.
Hepatic infarction
delivery was typically present with fever and marked elevations in transaminase levels. In surviving patients, liver function and histopathology are normal within six months of
Anesthesia in pregnant women with HELLP syndrome.
Retrospective study. For the period of 1 July 1996, through 30 June 2000 RESULTS: During the period of study 119 patients had HELLP syndrome. Eighty-five patients had cesarean delivery and 34 had vaginal delivery.
Seventy-one patients had diagnosed HELLP syndrome previous to the anesthesia and 14 postcesarean delivery; the range platelet count was 19000-143000/microl. Of these 71, 58 had an epidural anesthesia, 9 had general anesthesia and 4 had spinal anesthesia. There were no neurologic complications or bleeding in the epidural space.
CONCLUSION: We found no documentation of any neurologic or hematologic complications of women with HELLP syndrome and neuraxial anesthesia.
Subdural Hematoma following dural puncture in a parturient with HELLP syndrome This complication occurred following accidental dural puncture in a parturient with thrombocytopenia (99,000•µL-1) who subsequently developed the syndrome of hemolysis, elevated liver enzymes and low platelets.
On the first postoperative day, postdural puncture headache (PDPH) developed. An epidural blood patch (EBP) was deferred to the third postoperative day because of a platelet count of 21,000•µL-1. Headache intensified from a typical PDPH to one which was not posturally related.
A second EBP was abandoned after the injection of 5 mL of blood because of increasing headache during the procedure. Magnetic resonance imaging revealed bilateral temporal subdural hematomas. The patient was managed conservatively and discharged home without any sequelae.
Conclusion:
It is conceivable that thrombocytopenia together with possible abnormal platelet function increased the risk of subdural hematoma. Alternative diagnoses to PDPH should be considered whenever headache is not posturally related.
OCUPATIONAL HAZARD
Risk of transmission of HBV following inoculation is 5 -30% May occur through needle prick/cuts/ sharp injuries/mucous membranes- waterproof dressing Wear gloves while inserting a cannula ,airways, intubation & extubation Sharps should not be handed directly to others See to the sterilisation of other contaminated things