1 / 30

Sgn Cdr John Duncan, RNZN Director of Naval Medicine

Navy Hospital. Slark HBU. . . HMNZS MANAWANUI. Diving records. 7200 ft and submerged for two hours 2000ft and submerged for an hourFree diving ~100mNo limits 214 Meters. Caisson Disease. Haldane. 1905-1907 Haldanes work. Five compartment model2:1 RatioResearch with goatsRefined on diversIronically a lot of divers today behave like goatsStill basis of tables today.

Faraday
Download Presentation

Sgn Cdr John Duncan, RNZN Director of Naval Medicine

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

    1. Sgn Cdr John Duncan, RNZN Director of Naval Medicine

    3. Slark HBU

    5. HMNZS MANAWANUI

    6. Diving records 7200 ft and submerged for two hours 2000ft and submerged for an hour Free diving ~100m No limits 214 Meters

    7. Caisson Disease

    9. Haldane 1905-1907 Haldanes work

    10. Goat Picture

    13. Diver Numbers

    14. CAGE - cerebral arterial gas embolism Air trapped in lung may expand and burst into arterial system via pulmonary veins goes to brain Massive bubble load may cross to pulmonary veins through lungs goes to brain Presents with rapid onset neurological symptoms Patients often recover, then deteriorate

    15. Decompression illness Bubbles form in tissue/blood from dissolved N2 on ascent if time / depth of dive was too great, and ascent is too fast DCI can be avoided by very slow ascent (but this is sometimes too slow to be practical) Bubbles damage vessels and tissue Variable presentation - pain, weakness, feeling off colour, breathlessness

    16. 16 DECOMPRESSION ILLNESS - evolution of bubbles from dissolved nitrogen Air breathed at greater pressure during dive Gas solubility increased at greater pressure N2 absorbed into blood and tissues Amount of gas depends on time and depth N2 solubility declines during ascent (as pressure decreases) Bubble formation - tissues and blood

    17. 17 RISK FACTORS FOR DCI Too deep / too long exceed table limits Rapid ascent Omitted decompression Repetitive diving (multiple ascents) Bounce dives Flying after diving no flying for 24 hours Age

    18. RISK FACTORS FOR DCI 2 Inter-current illness, cold, working hard, etc. Panic Gear Failure Poor planing

    19. Bubbles tissues ? venous blood (some bubble formation) ? lungs * off-gas arteries ? organs

    20. Tissue bubbles Mechanical effects compression stretch myelin sheaths, bone, spinal cord, tendon, etc Biochemical activation of complement coagulation kinins

    21. Effects Reduced microcirculation ischaemia (haemorrhagic or thrombotic) vessel permeability oedema inflammation

    22. 22 DECOMPRESSION ILLNESS - presentation of disease Marked variation, from mild constitutional symptoms to paralysis Most cases apparent within 24 hours Only 50% have objective signs Worst cases are early onset with progressive neurological symptoms Diving may not reflect severity Neurology may not make sense

    23. Classification Decompression sickness Type I - musculoskeletal, skin, lymphatic, constitutional Type II - neurological, cardiorespiratory, vestibular Arterial gas embolism Barotrauma Little diagnostic or prognostic significance

    24. Current classification Decompression illness acute or chronic static, progressive, relapsing, spontaneously resolving organ system involved (cutaneous, cerebral, spinal, musculoskeletal, lymphatic, etc) +/- barotrauma

    25. Differentiating between pathological processes Decompression illness - due to inert gas load and bubble evolution. Barotrauma Other diving-related illness

    26. Depth-time profile gives indication of inert gas load Pattern of dive - no. and speed of ascents, etc Time of onset of symptoms Symptom evolution Signs Making a diagnosis

    27. Cerebral emboli - CAGE Usually rapid onset on surfacing Loss of consciousness or fitting Victims may drown Spontaneous recovery of consciousness Apparent resolution, then deterioration

    28. Symptom frequency Symptoms after diving are common, DCI is not Pain 40% Altered sensation 20% Dizziness 8% Fatigue, headache, weakness 5% Nausea, SOB 3% Altered LOC 2% Rash < 1%

    29. 29 DECOMPRESSION ILLNESS classical vs typical patients THE CLASSICAL PATIENT Exceeds time / depth Rapid onset of pain Followed soon after by weakness and sensory changes Presents early THE TYPICAL PATIENT Borderline time / depth Initially well Later, migratory aches, feels off colour and tired Seeks help several days after diving

    30. 30 DECOMPRESSION ILLNESS - presentation by system

    31. Assessing a diver A, B, C and if conscious and talking start oxygen @ 4L/minute, take blood pressure and pulse RECORD EVERYTHING TIME, etc Dive profile depth, time, gas, any events When did they first notice symptoms? What were they? What has happened to the symptoms since? How do they feel now? When did they last pass urine?

    32. 32 DECOMPRESSION ILLNESS - evaluation in first aid BRIEF HISTORY BRIEF EXAMINATION Depth(s) / time(s) Vital signs Number of ascents Chest Nature of ascents Neurological Nature of dive Symptoms Temporal relation of symptoms to dive

    33. Be suspicious if there is any history of altered consciousness, even if transient this might be CAGE, which is serious Refer for treatment diving emergency services D.E.S. number (09) 4458454

    34. D.E.S. service Available 24/7 Call will be answered by Navy Hospital staff - get basic details Give contact number Experienced doctor & consultant on call Response: advice on initial management transfer immediately (St John coordinate) OR assess at local hospital OR review next day

    35. 35 DECOMPRESSION ILLNESS - steps in DCI first aid ABCs Position Oxygen Fluids Evaluate Contact D.E.S. Evacuate

    36. 36 DECOMPRESSION ILLNESS - positioning in first aid CURRENT ADVICE Horizontal Recovery position if LOC is decreased Previous advice was head down THE CASE AGAINST HEAD DOWN Difficulty Oral fluid administration Increase ICP and cerebral oedema Arterialisation of venous bubbles

    37. 37 DECOMPRESSION ILLNESS - oxygen in first aid

    38. 38 DECOMPRESSION ILLNESS - IV fluids in first aid

    39. Adjunctive treatments Possible benefit: NSAIDs (oral, IM) lignocaine (IV infusion) Of no benefit: heparin or other anticoagulants steroids

    40. 40 DECOMPRESSION ILLNESS - evacuation in first aid Not always necessary Advice from D.E.S. is usually sought first Minimise altitude either road, or fixed wing at normal atmospheric pressure (1 ATA), or rotary (but <300m) Maintain oxygen administration Maintain horizontal posture in acute cases Avoid pain relief No entonox

    41. Helicopter vs fixed wing HELICOPTER Noisy Poor access to patient Unpressurised Ideal for short coastal distances Good for isolated areas, boats FIXED WING Quieter Better access May be pressurised Ideal for long haul over high country Limited if no strip

    42. Summary: initial management CPR if necessary Oxygen - 100% if possible (need rebreather) Lie flat Get advice Rehydration (fluid balance) oral or IV crystalloid 1L stat, 1L 4-6 hrly Evacuate for recompression NSAIDs if needed

    43. Recompression treatment Recompress diver to depth can use oxygen or oxygen-helium bubble compression increase diffusion gradient so gas leaves bubble counter effects of pulmonary AV shunting deliver high oxygen tensions to damaged tissue

    44. Recompression therapy 18m 30min 9m 1hr 2hrs surface (0m) ? = air breaks to reduce oxygen toxicity (and for convenience, comfort, etc)

More Related