More than 25% of Breath-Hold divers are genetically predisposed to lung squeeze . These genetic risk factors can be identified. There is also genetic overlap between individuals vulnerable to Lung Squeeze, Immersion and Exercise-related Pulmonary Edema and High Altitude Pulmonary Edema (HAPE). His recommendation is that individuals who are have persisting breathlessness after Breath-Hold Dives should have a high index of suspicion that they may be suffering from lung-squeeze and that they should perform shallow "work-up" dives , contrary to the current practice of minimal work-up before doing deep dives.

. These genetic risk factors can be identified. There is also genetic overlap between individuals vulnerable to Lung Squeeze, Immersion and Exercise-related Pulmonary Edema and High Altitude Pulmonary Edema (HAPE). His recommendation is that individuals who are have persisting breathlessness after Breath-Hold Dives should have a high index of suspicion that they may be suffering from lung-squeeze and that they should , contrary to the current practice of minimal work-up before doing deep dives. DCI can affect Breath-Hold divers, and this may cause serious Brain DCI problems called Taravana. He shows how he has been able to actually record decompression-related venous gas emboli in the right chamber of the heart of a breath-hold diver on ascent - while still underwater -- after a Breath-Hold dive to 42 meters! Based on his findings, his recommendation is that Breath-Hold athletes maintain surface intervals of at least 3 to 4 times the duration of their BH dives to ensure adequate outgasing.

During a DAN Southern Africa Research Workshop at False Bay Divers from 10-13 February 2016, Dr Cialoni explained that: