LASER and DIATHERMY

Question 1

what are the main features of a laser?

Answer 1

monochromatic = all light is of same wavelength (same energy and frequency)

coherent = all in same phase (dont cancel one another out)

collimated = all parallel (non divergent)

Question 2

what does LASER stand for?

Answer 2

light amplification by stimulated emission of radiation

Question 3

how do LASERs work?

Answer 3

consists of a laser medium exposed to flash light and bound either end by reflective material where one end has a small opening for light to escape for use.

1. flash lamp provides energy for the electrons of atoms within the lasing medium to be excited to a higher energy level
2. when they drop back down in energy level they release the energy as a photon of energy. (spontaneous emission)
3. if a photon of energy hits another electron in excited level it causes 2 photons to be released both with equal wavelength, parallel and in phase with one another (stimulated emisiion)
4. this results in amplification of light energy as more and more photons of light are released and go on to further stimulate others
5. these photons will be reflected back and forth via the reflective material at either end
6. creating intense light which is monochromatic, coherant and collimated from a low energy source
7. at one end there is a small window allowing a focused beam of light to escape and be used.

Question 4

why is light in a LASER of one wavelength?

Answer 4

the wavelength is determined by the laser medium / lasting medium

these are various substances depending on purpose of laser e.g. CO2 lasers produce wavelength of 10.6um

depends on the electrons and atoms within that medium and the difference between low and high energy states that determines the energy within photon they release and hence its wavelength.

Question 5

what is meant by the term ‘lase’

Answer 5

when more electrons are in a higher energy state than ground state , the medium is said to lase.

Question 6

what are the differences between continuous and pulsed wave lasers?

Answer 6

continous - the source of light is continous, creates very high energy continous output. can be too damaging in surgery

pulsed = output is split into short pulses of varying duration. more controlled confined source of heat and more useful in surgery.

Question 7

how is the energy of a wave related to its frequency?

Answer 7

E = frequency x planks constant (h)

Question 8

do you know any specific types of lasers and the wavelength they produce and their uses?

Answer 8

CO2 gas medium = 10.6um = infrared. superficial cutting and precise good for airway surgery

Nd -YAG (solid) = 1060nm = infrared - used for coagulation and cutting in surgery, endoscopic and airway. good for GI bleeds.

Argon Laser - 500nm - blue/green visible light. used for dermatology

ruby - for tattoe removal.

Question 9

what does the application of a laser depend on?

Answer 9

its wavelength
depth of penetration
what substances absorb it

Question 10

most lasers are in infrared spectrum, why is a red light seen?

Answer 10

safety feature added so user knows where it is pointing for guidance

Question 11

how are lasers classified?

Answer 11

based on their power output.
7 classes in total

class 1 is low power. cannot emit radiation of any known hazard for skin or eye
class 1m - same as above as long as not via a lens
class 2 - lower power - not damage unless maintained stare into beam
class 2m - same as above as long as not via a lens

class 3a
class 3b - need eye protection , low risk to skin

class 4 ->0.5Watts power. hazard to skin and eyes. most surgical lasers. eye protection is essential

Question 12

tell me some uses of surgical laser?

Answer 12

cutting e.g. in airway surgery

removal of moles

breaking down renal stones - laser lithotripsy

retinal eye laser surgery

Question 13

what is meant by population inversion?

Answer 13

when more than 50% of the atoms are in their excited state.

Question 14

what are the safety concerns regarding lasers ?

Answer 14

environment
* fires and explosions- provides energy for ignition

staff
* damage to eyes, burns
* e.g. if they hit optic nerve could cause complete blindness, if they hit retina blind spot

patient
* burns, damage to eyes
* unconscious so cant react to pain
* airway fire risk

Question 15

what precautions are taken to minimise risks of laser?

Answer 15

Staff and general:
protection - goggles
trained staff - laser safety officer present
signs on doors
non reflective material in the room - black matt finish
fire extinguisher available

patient:
if used in the airway, minimum amount of O2 less than 30%
ET tube cuff filled with saline
eye protection
wet swabs to protect tube.
laser resistant tube.

Question 16

what are the features of a laser safe ET tube?

Answer 16

stainless steel flexible spiral
double cuff
non combustible
fill cuff with saline

Question 17

how is an airway fire managed?

Answer 17

1. declare incident
2. stop laser
3. call for help
4. flood site with saline
5. switch off oxygen source
6. remove tube
7. ventilate with bag/mask
8. maintain anaesthesia with TIVA
9. once fire is out, examine airway with fibreoptic, likely to need intubating again and follow up for swelling / injury
10. ITU admission - associated with ARDS, ABG CXR. give dexamethasone

Question 18

what can an airway fire result in?

Answer 18

swelling of the airway - hence need intubating to protect airway from obstruction

ARDS like picture - gradually worsening hypoxaemia over next 48hrs

Question 19

how does diathermy work?

Answer 19

use of high freq AC current applied over small area fo cut and coagulate tissues during surgery

when high frequency AC current is passed over a small area a high current density is produced for precise cutting

can be classed into monopolar and bipolar

Question 20

what are the different cutting patterns seen in diathermy?

Answer 20

the heating effect depends on current density and duration e.g.
continuous - cut mode 0.5MHz
* high current continuous sine wave
* low voltage
* overall higher power - 100-400 watts because continous

pulsed wave - coagulation mode 1-1.5MHz
* high voltage but pulses
* overall less power - 40watts
* less heating than cutting therefore coagulation.

blended mode
- may be 50:50 ratio
- allows some haemostasis as cutting occurs.

Question 21

what frequency of AC current does diathermy work at?

Answer 21

0.5-1.5 MHz

Question 22

describe the basis of monopolar surgical diathermy..

Answer 22

monopolar diathermy circuit consists of an electrode, diathermy machine, neural pad electrode that is much larger.

for current to flow at the tip of diathermy instrument a circuit for current flow is completed with a larger diathermy plate usually placed on back or thigh.

the current comes out at a small point on the instument and causes local tissue heating cutting/coagulation, the current then dissipitates through body and is returned via the larger plate (10cmx 10cm) .

it is only at the tip of the diathermy electrode that the current density is high enough to cause damage, after this it soon disperses and is too low to cause damage.

overall power = 100 to 400 wats
patient is earthed and diathermy ciruit is isolated from mains by a transformer.

Question 23

why is high frequency current used in diathermy?

Answer 23

biological tissue is most affected by frequency around 50 Hz - i.e. most likely to cause VF

therefore by using frequencies well above this, less likely to cause interference.

high frequency current also creates more energy for cutting/ coagulation

Question 24

Describe the principle behind bipolar diathermy?

Answer 24

2 diathermy electrodes making up a forecep connected to a diathermy machine

the current travels through one electrode and back up the other - high current density at the point the electrodes are used.
current doesnt travel through the body.

good for digits and small areas and for those with pacemakers.
overall power 40watts
good for coagulation but not so much for cutting.

Question 25

why is the diathermy pad checked at the end of surgery?

Answer 25

ensure contact was good and no burns of skin - poor contact, increases current density, more likely to burn.

Question 26

what does diathermy do on a cellular level?

Answer 26

microscopic effects - coagulation

2 macroscopic - widespread tissue destruction and cutting.

Question 27

pros and cons of diathermy?

Answer 27

pros - allows precise cutting plus coagulation so better for blood loss in theatre

cons- risk of burns, risk of electrucution, interference with monitoring. risk with pacemakers

Question 28

what are the hazards associated with diathermy and how are these minimised?

Answer 28

burns:
* incorrect attachment of diathermy pad. many modern machines monitor impedence and stop the current flowing if impedence is too high
* if no diathermy pad, current could flow through ecg electrodes
* ignition of skin preps - ensure good drying time

risk of electric shock
* uses currents so risk of microshocks - however frequencies are much hgiher than those likely to cause interference to biological potentials. also floating circuit to prevent mains stray currents.

interference
* ecg interference - filters can help with this
* pacemaker interference - avoid monopolar and disable ICD
* oesophageal doppler - the current can vibrate crystals - piezoelectric effect

fire
* source of ignition for fires
* smoke can be toxic (chemicals, HPV, carcinogens) - suctioned away , surgeons wear mask to protect

Question 29

what are the risks of pacemakers when using diathermy? how are these minimised?

Answer 29

avoid diathermy in those with pacemakers / ICD - this is because they may stop pacemakers from working, activate ICD unneccessarily delivering shock, risk of burns around the device

minimising risks..
* bipolar is better
* turn off ICD e.g. magnets- attach defib pads instead
* have external pacing available
* if monopolar has to be used, place pad as far from pacemaker as possible and use diathermy in short bursts.
* inform rest of the team of risks

Question 30

what design features are incoorporated into diathermy to minimise risk of electric shock?

Answer 30

isolated patient circuit using isolating transformer

isolating capacitor - capacitor prefer high freq AC and filter out lower frequency (e.g. mains 50Hz )current . hence protect from more damaging frequencies.

previously diathermy would be earthed and other faulty currents would travel through patient circuit. now isolating transformer and capacitor separates patient.

Question 31

what is the heating effect in diathermy proportional too?

Answer 31

H ∝ I^2 / A

current squared
divided by area

Question 32

why should a patient not touch the bedframe when diathermy is used?

Answer 32

allows another path for current to flow, higher current density through arm and hand can cause burns.