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Saturday, November 28, 2015

ANTICOAGULANTS OF CHOICE IN VARIOUS LABORATORY TESTS☑️



🏵ESR WESTERGREN'S
🏵COAGULATION STUDIES --> SODIUM CITRATE

🏵ESR WINTROBE'S
🏵PERIPHERAL SMEAR--> EDTA

🏵Hb , PCV --> DOUBLE OXALATE

🏵OSMOTIC FRAGILITY --> HEPARIN

🏵BLOOD SUGAR--> SODIUM FLURIDE + OXALATE

#anticoagulants , #LabTests , #laboratary , #esr , #anaesthesia , #anaesthesiologist

Thursday, November 26, 2015

POSTOPERATIVE AGITATION / EMERGENCE DELIRIUM IN CHILDREN AFTER SEVOFLURANE ANAESTHESIA

 

✔️Incidence up to more than 40%

✔️Might be occurring together with EEG-changes 

✔️Methods usually tried to reduce the incidence:  addition of nitrous oxide, premedication with benzodiazepines, early extubation, switching to other inhaled anaesthetics

✔️Propofol maintenance after sevoflurane induction seems to be the best alternative.

✔️A recent study also indicates that a switch to desflurane for maintenance after sevoflurane inhalation induction reduces the incidence of emergence agitation by 50 % 

✔️ A paranoid delusion is said to be a common feature of this state of agitation. 

✔️ Information about this phenomenon should be explained to the parents before the procedure. 

#EmergenceDelirium , #Sevoflurane , #PostoperativeAgitation , #anaesthesia ,#Propofol

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Reference:

MayerJ,BoldtJ,Röhm K Detal (2006) Desflurane  after Sevoflurane  inhaled  induction reduces severity of emergence agitation in children undergoing minor ear nose-throat surgery compared with sevoflurane induction and maintenance. Anesth Analg 102:400-404 22

Breschan C, Platzer M, Jost R et al (2007) Midazolam does not reduce emergence delirium after sevoflurane anesthesia in children. Pediatr Anesth 17:347-352

UezonoS,GotoT,TeruiKetal(2000)Emergence agitation after sevoflurane  versus propofol in pediatric patients. Anesth Analg 91:563-566 20

NakayamaS,FurukawaH,YanaiH(2007)propofol reduces incidence of emergence agitation in preschool-aged children as well as in school-aged children: a comparison with sevoflurane. J Anesth 21:19-23

Moos DD (2005) Sevo and emergence behavioural changes in pediatrics .JPeri Anesth Nurs 20:13-18

Wednesday, November 25, 2015

BE SENSIBLE ENOUGH TO SENSE SSEP (SOMATO SENSORY EVOKED POTENTIAL)!

SSEP reflect the ability of a specific neural pathway to conduct an electrical signal from the periphery to the cerebral cortex.

THIS IS WHAT WE DO:

A skin surface electrode is placed near a major peripheral mixed function (motor and sensory) nerve such as the median --> a square-wave electrical stimulus of 0.2 to 2ms is applied at a rate of 1 to 2Hz. --> The stimulus intensity is adjusted to produce minimal muscle contraction (usually 10 to 60mA) --> The resulting electrical potential is recorded at various points along the neural pathway from the peripheral nerve to the cerebral cortex.

COMMON SITES OF STIMULATION:

#Upper extremity : median and ulnar nerves at the wrist. 

#Lower extremity : the common peroneal nerve at the popliteal fossa and the posterior tibial nerve at the ankle 

#Less commonly the tongue, trigeminal nerve, and pudendal nerve have been studied.

RECORDING: 

After upper limb stimulation, potentials are recorded at the brachial plexus (Erb’s point, 2 cm superior to the clavicular head of the sternocleidomastoid muscle), the cervicomedullary junction (posterior midline of the neck at the second cervical vertebra), and the scalp overlying the somatosensory cortex on the contralateral side. 

After stimulation of the lower extremity, potentials are recorded at the popliteal fossa, lumbar and cervical spinal cord, and somatosensory cortex. It is important to record nerve and subcortical potentials to verify adequate stimulation and delineate anesthetic effects.

PLOTTING:

The SSEP is plotted as a waveform of voltage vs. time.

It is characterized by: 
#Amplitude (A), which is measured in microvolts from baseline to peak or peak to peak 

#Latency (L), which is the time, measured in milliseconds, from onset of stimulus to occurrence of a peak or the time from one peak to another

MORPHOLOGY:

described as positive (P, below the baseline) or negative (N, above the baseline) 

A waveform is identified by the letter describing its deflection above or below the baseline followed by a number indicating its latency (e.g., N20) 

INTRAOPERATIVE SSEP's, INDICATIVE OF SURGICAL TRESSPASS / ISCHEMIA INCLUDE,

a . increased latency 
b . decreased amplitude 
c . complete loss 

Any decrease in amplitude greater than 50% or increase in latency greater than 10% may indicate a disruption of the sensory nerve pathways. The spinal cord can tolerate ischemia for about 20 minutes before SSEPs are lost.

ANESTHETIC DRUGS AND SSEP

 All of the halogenated inhaled anesthetics probably cause roughly equivalent dose-dependent decreases in amplitude and increases in latency that are further worsened by the addition of 60% nitrous oxide. It is best to restrict the use of volatile anesthetics and nitrous oxide to levels below 1 minimum alveolar concentration (MAC) and not to combine the two. n If possible, bolus injections of drugs should be avoided, especially during critical stages of the surgery. Continuous infusions are preferable.

CONDITIONS ALTERING SSEP

#Hypothermia : increases latency, whereas amplitude is either decreased or unchanged. For each decrease of 1 degree C, latency is increased by 1ms. 

#Hyperthermia (4 degree C) : decreases amplitude to 15% of the normothermic value. 

#Hypotension: With a decrease of the mean arterial blood pressure (MAP < 40mm Hg), progressive decreases in amplitude are seen. The same change is also seen with a rapid decline in MAP to levels within the limits of cerebral autoregulation. 

#Hypoxia: ?Decreased amplitude 

#Hypocarbia: Increased latency has been described at an end-tidal CO 2 < 25mm Hg. 

#Isovolumic hemodilution: Latency is not increased until the hematocrit is < 15%, and amplitude is not decreased until the hematocrit is < 7%. This effect is likely caused by tissue hypoxia.

INTRAOPERATIVE USES

#scoliosis surgery & Harrington rod placement 
#spinal cord decompression and stabilisation after acute SCI spinal fusion 
#brachial plexus exploration following acute injury 
resection of spinal cord tumours, cysts & vascular anomalies 
correction of cervical spondylosis 
#resection of 4 th  ventricular cysts 
release of tethered spinal cord 
#resection of acoustic neuroma 
resection of intracranial lesions involving the sensory cortex 
resection of thalamic tumours 
abdominal and thoracic aneurysm repair

IF SSEP CHANGES SIGNIFICANTLY,  WHAT THE SURGEON AND ANAESTHESIOLOGIST CAN DO  TO DECREASE THE INSULT?

The anesthesiologist can: 
>Increase mean arterial blood pressure, especially if induced hypotension is used. 
>Correct anemia, if present. 
>Correct hypovolemia, if present. 
>Improve oxygen tension. 
>Correct hypothermia, if present. 

The surgeon can:
>Reduce excessive retractor pressure. 
>Reduce surgical dissection in the affected area. 
>Decrease Harrington rod distraction, if indicated. 
>Check positioning of associated instrumentation (e.g., screws, hooks). 

If changes in the SSEPs persist despite corrective measures, a wake-up test may be performed to confirm or refute the SSEP findings. The patient’s anesthetic level is lightened, and a clinical assessment of neurologic function is performed. The monitoring of motor-evoked potentials along with SSEPs provides a more complete assessment of neural pathway integrity. As the sensory pathways are supplied predominantly from the posterior spinal artery & the motor tracts from the anterior,  a significant motor deficit can develop without significant change in SSEP's.



Tuesday, November 24, 2015

ACUTE PAIN AFTER CRANIOTOMY - PEARLS💎



🗡Severe pain ( > 4 on a 0–10 scale) is commonly experienced during the first 48h with an incidence of nearly 70% on the first postoperative day and 48% on the second postoperative day 

🗡 Women, younger patients and patients who required opioid analgesics preoperatively report significantly greater levels of postoperative pain

🗡 Infratentorial procedures are associated with more severe pain than supratentorial procedures        

🗡Reduced pain has been reported with a translabyrinthine as opposed to a suboccipital approach for acoustic neuroma resection 

🗡The amount of muscle damage from resection of the temporalis and posterior cervical muscles may also influence the degree of postoperative pain 

🗡Preoperative Gabapentin, parecoxib and lornoxicam may reduce opiate-induced hyperalgesia 

🗡the addition of ondansetron to PCA has not been shown to reduce nausea and vomiting after craniotomy 

🗡evidence suggests that NSAIDs should be stopped prior to neurosurgery and avoided in patients with cardiovascular disease. 

🗡  Gabapentin given 7 days prior to surgery results in significantly lower postoperative pain scores and morphine consumption during the first 48 postoperative hours compared to phenytoin

🗡  Preoperative use of nerve blocks or local anesthetic infiltration reduces intraoperative analgesic requirements and may help to reduce pain in the early postoperative period

#craniotomy , #painmanagement, #painaftercraniotomy , #analgesia , #anesthesia ,#neurosurgery 

(Ref: Acute and chronic pain following craniotomy Alana M. Flexman, Julie L. Ng and Adrian W. Gelb, Current Opinion in Anaesthesiology 2010, 23:551–557)