Michael,
"Symptomatic DCS" is close to a redundant term since symptoms must exist for the label "DCS" to be applied. I say close, because in conversation (or writing) it could be used to distinguish frank symptoms from "subclinical DCS." Conceptually, the latter describes a condition in which symptoms are not manifest but it is felt that there is enough decompression stress to warrant acknowledgment. This may or may not develop into DCS but part of the subtext is the open question as to whether pushing this range could have negative ramifications in the long run. Low grade "niggles" are minor, frequently transient symptoms that can wax and wane (progress and dwindle) over a short period of time. Again, it is unclear if these have any long term ramifications but the conservative recommendation would be to try and avoid conditions in which any symptoms - major, minor or transient - develop.
Clinical diagnosis involves medical art and judgment. The decision to treat is often biased towards the conservative 'when in doubt, treat,' which is a welcome position for an afflicted individual. The ultimate classification of individual cases is more complex. One effort to evaluate expert opinion is found in a paper described in the following abstract:
Freiberger JJ1, Lyman SJ, Denoble PJ, Pieper CF, Vann RD. Consensus factors used by experts in the diagnosis of decompression illness. Aviat Space Environ Med. 2004 Dec;75(12):1023-8.
INTRODUCTION: The diagnosis of decompression illness (DCI) is entirely based on clinical findings and DCI experts are rare. Of all the chambers reporting to Diver's Alert Network (DAN), 86% see less than 10 cases per year. Simulated diving injury cases (vignettes) were used to identify diagnostic factors important to 11 international experts attending the 2003 Undersea and Hyperbaric Medical Society symposium on DCI diagnosis. METHODS: There were 200 vignettes evaluated for the probability of DCS and/or arterial gas embolism (AGE). Vignettes were constructed from 141 factors that modeled information from DAN's emergency call system. Factor probability mirrored DAN's 2001 Report on Decompression Illness and Diving Fatalities. Factors included: diver characteristics, exposure characteristics, signs, symptoms, treatment, and response. Multiple linear regression with stepwise elimination identified and ordered the significant factors in terms of their importance to the experts. Results were confirmed with logistic regression. RESULTS: For DCS, the top five factors in order of importance were: 1) a neurological symptom as the primary presenting symptom; 2) onset time of symptoms; 3) joint pain as a presenting symptom; 4) any relief after recompression treatment; and 5) the maximum depth of the last dive. For AGE, the top five factors were: 1) onset time of symptoms; 2) altered consciousness; 3) any neurological symptoms as a presenting symptom; 4) motor weakness; and 5) seizure as the primary presenting symptom. Age, gender, or physical characteristics were not statistically important. CONCLUSIONS: The vignette concept may be useful in the development of consensus standards for DCI diagnosis.
Definitions are frequently established in advance for scientific evaluation of individual cases. It is possible that a case would not reach the threshold for scientific classification as DCS even with a clinical diagnosis. Again, this bias towards treatment is good for the patient. The more rigorous determination for scientific study is part of the effort to get a handle on some of the variability. We recently published an attempt at scientific review of cases involving scientific diving that were reported to the American Academy of Underwater Sciences. I do not hold this out as the best example - the records were very thin in a number of cases - but it is an example of how the scientific effort can be separated from the clinical determination. The abstract follows:
Dardeau MR, Pollock NW, McDonald CM, Lang MA. The incidence of decompression illness in 10 years of scientific diving. Diving Hyperb Med. 2012 Dec;42(4):195-200.
BACKGROUND: The American Academy of Underwater Science (AAUS) constitutes the single largest pool of organizations with scientific diving programmes in North America. Members submit annual summaries of diving activity and any related incidents. METHODS: All diving records for a 10-year period between January 1998 and December 2007 were reviewed. Incidents were independently classified or reclassified by a four-person panel with expertise in scientific diving and diving safety using a previously published protocol. Subsequent panel discussion produced a single consensus classification of each case. RESULTS: A total of 95 confirmed incidents were reported in conjunction with 1,019,159 scientific dives, yielding an overall incidence of 0.93/10,000 person-dives. A total of 33 cases were determined to involve decompression illness (DCI), encompassing both decompression sickness and air embolism. The incidence of DCI was 0.324/10,000 person-dives, substantially lower than the rates of 0.9-35.3/10,000 published for recreational, instructional/guided, commercial and/or military diving. CONCLUSIONS: Scientific diving safety may be facilitated by a combination of relatively high levels of training and oversight, the predominance of shallow, no-decompression diving and, possibly, low pressure to complete dives under less than optimal circumstances.
There are no diagnostic tests that establish the presence (or absence) of DCS. A substantial amount of effort is directed at identifying biomarkers of DCS. I mentioned some of the work involving microparticles earlier. While microparticle counts do rise with decompression stress (and other stressors) the substantial variability make it unlikely that a diagnostic test will be coming soon. The hunt continues. In the meantime, confidence in the diagnosis of DCS certainly does rise when symptoms respond in an expected manner to therapeutic treatment.
"Symptomatic DCS" is close to a redundant term since symptoms must exist for the label "DCS" to be applied. I say close, because in conversation (or writing) it could be used to distinguish frank symptoms from "subclinical DCS." Conceptually, the latter describes a condition in which symptoms are not manifest but it is felt that there is enough decompression stress to warrant acknowledgment. This may or may not develop into DCS but part of the subtext is the open question as to whether pushing this range could have negative ramifications in the long run. Low grade "niggles" are minor, frequently transient symptoms that can wax and wane (progress and dwindle) over a short period of time. Again, it is unclear if these have any long term ramifications but the conservative recommendation would be to try and avoid conditions in which any symptoms - major, minor or transient - develop.
Clinical diagnosis involves medical art and judgment. The decision to treat is often biased towards the conservative 'when in doubt, treat,' which is a welcome position for an afflicted individual. The ultimate classification of individual cases is more complex. One effort to evaluate expert opinion is found in a paper described in the following abstract:
Freiberger JJ1, Lyman SJ, Denoble PJ, Pieper CF, Vann RD. Consensus factors used by experts in the diagnosis of decompression illness. Aviat Space Environ Med. 2004 Dec;75(12):1023-8.
INTRODUCTION: The diagnosis of decompression illness (DCI) is entirely based on clinical findings and DCI experts are rare. Of all the chambers reporting to Diver's Alert Network (DAN), 86% see less than 10 cases per year. Simulated diving injury cases (vignettes) were used to identify diagnostic factors important to 11 international experts attending the 2003 Undersea and Hyperbaric Medical Society symposium on DCI diagnosis. METHODS: There were 200 vignettes evaluated for the probability of DCS and/or arterial gas embolism (AGE). Vignettes were constructed from 141 factors that modeled information from DAN's emergency call system. Factor probability mirrored DAN's 2001 Report on Decompression Illness and Diving Fatalities. Factors included: diver characteristics, exposure characteristics, signs, symptoms, treatment, and response. Multiple linear regression with stepwise elimination identified and ordered the significant factors in terms of their importance to the experts. Results were confirmed with logistic regression. RESULTS: For DCS, the top five factors in order of importance were: 1) a neurological symptom as the primary presenting symptom; 2) onset time of symptoms; 3) joint pain as a presenting symptom; 4) any relief after recompression treatment; and 5) the maximum depth of the last dive. For AGE, the top five factors were: 1) onset time of symptoms; 2) altered consciousness; 3) any neurological symptoms as a presenting symptom; 4) motor weakness; and 5) seizure as the primary presenting symptom. Age, gender, or physical characteristics were not statistically important. CONCLUSIONS: The vignette concept may be useful in the development of consensus standards for DCI diagnosis.
Definitions are frequently established in advance for scientific evaluation of individual cases. It is possible that a case would not reach the threshold for scientific classification as DCS even with a clinical diagnosis. Again, this bias towards treatment is good for the patient. The more rigorous determination for scientific study is part of the effort to get a handle on some of the variability. We recently published an attempt at scientific review of cases involving scientific diving that were reported to the American Academy of Underwater Sciences. I do not hold this out as the best example - the records were very thin in a number of cases - but it is an example of how the scientific effort can be separated from the clinical determination. The abstract follows:
Dardeau MR, Pollock NW, McDonald CM, Lang MA. The incidence of decompression illness in 10 years of scientific diving. Diving Hyperb Med. 2012 Dec;42(4):195-200.
BACKGROUND: The American Academy of Underwater Science (AAUS) constitutes the single largest pool of organizations with scientific diving programmes in North America. Members submit annual summaries of diving activity and any related incidents. METHODS: All diving records for a 10-year period between January 1998 and December 2007 were reviewed. Incidents were independently classified or reclassified by a four-person panel with expertise in scientific diving and diving safety using a previously published protocol. Subsequent panel discussion produced a single consensus classification of each case. RESULTS: A total of 95 confirmed incidents were reported in conjunction with 1,019,159 scientific dives, yielding an overall incidence of 0.93/10,000 person-dives. A total of 33 cases were determined to involve decompression illness (DCI), encompassing both decompression sickness and air embolism. The incidence of DCI was 0.324/10,000 person-dives, substantially lower than the rates of 0.9-35.3/10,000 published for recreational, instructional/guided, commercial and/or military diving. CONCLUSIONS: Scientific diving safety may be facilitated by a combination of relatively high levels of training and oversight, the predominance of shallow, no-decompression diving and, possibly, low pressure to complete dives under less than optimal circumstances.
There are no diagnostic tests that establish the presence (or absence) of DCS. A substantial amount of effort is directed at identifying biomarkers of DCS. I mentioned some of the work involving microparticles earlier. While microparticle counts do rise with decompression stress (and other stressors) the substantial variability make it unlikely that a diagnostic test will be coming soon. The hunt continues. In the meantime, confidence in the diagnosis of DCS certainly does rise when symptoms respond in an expected manner to therapeutic treatment.