Transient Cerebral Ischemia at High Altitude and Hyper-Responsiveness to Hypoxia.

A 36-year-old woman with no medical history participated in a trekking in Ladakh up to 5300 m of altitude. She was well acclimatized and presented no previous sign of acute mountain sickness, high altitude pulmonary edema or high altitude cerebral edema. After an intense effort to catch up with her group, she became breathless and complained of visual disturbances, fatigue, dizziness, and confusion. During her descent to a lower altitude (4800 m), with the help of companions, she lost consciousness several times. After a 14-hour sleep, she recovered and all symptoms disappeared so that she was able to walk along with the group for 20 km. On returning home, she went through a battery of examinations that were all normal: cerebral magnetic resonance imaging, Doppler of supra-aortic arteries, 24 hours Holter, and cardiac transthoracic and transesophageal echography. A hypoxia exercise test revealed a hyper-response to hypoxia with severe hypocapnia. The etiology of this neurological episode is discussed (transient embolic ischemic attack, migraine, cerebral edema, and global amnesia). The patchy distribution of neurological symptoms is not in favor of a thrombotic event. The most probable diagnosis proposed is a transient cerebral ischemia due to local cerebral vasoconstriction related to hyperventilation-induced hypocapnia in a context of acute severe exercise. Special attention should be given to subjects who show a hyper-responsiveness to hypoxia before a sojourn at high altitude: they should avoid unnecessary hyperventilation due to any kind of stress, emotion, or exhaustive exercise.

Benefits of Rapid Molecular Diagnosis of Chlamydia Trachomatis and Neisseria Gonorrhoeae Infections in Women Attending Family Planning Clinics.

We evaluated the benefits of on-demand systematic screening for Chlamydia trachomatis and Neisseria gonorrhoeae using the Xpert CT/NG assay in 589 women attending family planning clinics. The sexually transmitted infection prevalence was 16.5% with 15.1% C. trachomatis and 3.1% N. gonorrhoeae infections. The on-demand test allowed for a quicker management of patients at high risk for sexually transmitted infections.

Risk prediction score for severe high altitude illness: a cohort study.

BACKGROUND: Risk prediction of acute mountain sickness, high altitude (HA) pulmonary or cerebral edema is currently based on clinical assessment. Our objective was to develop a risk prediction score of Severe High Altitude Illness (SHAI) combining clinical and physiological factors. Study population was 1017 sea-level subjects who performed a hypoxia exercise test before a stay at HA. The outcome was the occurrence of SHAI during HA exposure. Two scores were built, according to the presence (PRE, n = 537) or absence (ABS, n = 480) of previous experience at HA, using multivariate logistic regression. Calibration was evaluated by Hosmer-Lemeshow chisquare test and discrimination by Area Under ROC Curve (AUC) and Net Reclassification Index (NRI). RESULTS: The score was a linear combination of history of SHAI, ventilatory and cardiac response to hypoxia at exercise, speed of ascent, desaturation during hypoxic exercise, history of migraine, geographical location, female sex, age under 46 and regular physical activity. In the PRE/ABS groups, the score ranged from 0 to 12/10, a cut-off of 5/5.5 gave a sensitivity of 87%/87% and a specificity of 82%/73%. Adding physiological variables via the hypoxic exercise test improved the discrimination ability of the models: AUC increased by 7% to 0.91 (95%CI: 0.87-0.93) and 17% to 0.89 (95%CI: 0.85-0.91), NRI was 30% and 54% in the PRE and ABS groups respectively. A score computed with ten clinical, environmental and physiological factors accurately predicted the risk of SHAI in a large cohort of sea-level residents visiting HA regions.

Physiological risk factors for severe high-altitude illness: a prospective cohort study.

RATIONALE: An increasing number of persons, exposed to high altitude for leisure, sport, or work, may suffer from severe high-altitude illness. OBJECTIVES: To assess, in a large cohort of subjects, the association between physiological parameters and the risk of altitude illness and their discrimination ability in a risk prediction model. METHODS: A total of 1,326 persons went through a hypoxic exercise test before a sojourn above 4,000 m. They were then monitored up at high altitude and classified as suffering from severe high-altitude illness (SHAI) or not. Analysis was stratified according to acetazolamide use. MEASUREMENTS AND MAIN RESULTS: Severe acute mountain sickness occurred in 314 (23.7%), high-altitude pulmonary edema in 22 (1.7%), and high-altitude cerebral edema in 13 (0.98%) patients. Among nonacetazolamide users (n = 917), main factors independently associated with SHAI were previous history of SHAI (adjusted odds ratios [aOR], 12.82; 95% confidence interval [CI], 6.95-23.66; P < 0.001), ascent greater than 400 m/day (aOR, 5.89; 95% CI, 3.78-9.16; P < 0.001), history of migraine (aOR, 2.28; 95% CI, 1.28-4.07; P = 0.005), ventilatory response to hypoxia at exercise less than 0.78 L/minute/kg (aOR, 6.68; 95% CI, 3.83-11.63; P < 0.001), and desaturation at exercise in hypoxia equal to or greater than 22% (aOR, 2.50; 95% CI, 1.52-4.11; P < 0.001). The last two parameters improved substantially the discrimination ability of the multivariate prediction model (C-statistic rose from 0.81 to 0.88; P < 0.001). Preventive use of acetazolamide reduced the relative risk of SHAI by 44%. CONCLUSIONS: In a large population of altitude visitors, chemosensitivity parameters (high desaturation and low ventilatory response to hypoxia at exercise) were independent predictors of severe high-altitude illness. They improved the discrimination ability of a risk prediction model.

High altitude pulmonary edema, down syndrome, and obstructive sleep apneas.

A 24-year-old adult with a Down syndrome was admitted in December 2006 at the Moutiers hospital in the French Alps for an acute inaugural episode of high altitude pulmonary edema (HAPE) that occurred in the early morning of day 3 after his arrival to La Plagne (2000 m). This patient presented an interventricular septal defect operated on at the age of 7, a hypothyroidism controlled by 50 microg levothyrox, a state of obesity (BMI 37.8 kg/m(2)), and obstructive sleep apneas with a mean of 42 obstructive apneas or hypopneas per hour, treated with continuous positive airway pressure (CPAP). The patient refused to use his CPAP during his stay in La Plagne. At echocardiography, resting parameters were normal, with a left ventricular, ejection fraction of 60%, a normokinetic right ventricle, and an estimated systolic pulmonary artery pressure (sPAP) of 30 mmHg. At exercise, sPAP rose to 45 mmHg and the right ventricle was still normokinetic and not dilated. An exercise hypoxic tolerance test performed at 60 W and at the equivalent altitude of 3300 m revealed a severe drop in arterial oxygen saturation down to 60%, with an abnormal low ventilatory response to hypoxia, suggesting a defect in peripheral chemosensitivity to hypoxia. In conclusion, patients with Down syndrome, including adults with no cardiac dysfunction and regular physical activity, are at risk of HAPE even at moderate altitude when they suffer from obstructive sleep apneas associated with obesity and low chemoresponsiveness. This observation might be of importance since an increasing number of young adults with Down syndrome participate in recreational or sport activities, including skiing and mountaineering.

Transient neurological disorders during a simulated ascent of Mount Everest.

BACKGROUND: Transient neurological disorders are often observed at high altitude but are poorly documented under field conditions. The mechanism usually invoked is a hypocapnic vasoconstriction due to severe hypoxic hyperventilation. During a simulated ascent of Mount Everest in a hypobaric chamber by eight volunteer alpinists (Operation Everest III, Comex '97), three subjects presented neurological symptoms. We report here on the clinical observations and testing to detect mechanisms in addition to hypocapnic vasoconstriction. METHODS: The experiment was designed to investigate factors limiting physiological performance at altitude and the pathophysiology of acute mountain sickness. A retrospective analysis was made comparing the three cases of transient neurological disorder at high altitude (TNDHA) with the five subjects who had no neurological symptoms. RESULTS: Analysis of clinical and blood parameters showed no difference between cases and controls. The cases showed no neurological sequelae following the experiment and were normal on cardiac imaging. However, one case had a history of migraine in his youth, leading us to hypothesize that segmental vasoconstriction was a factor. In another case, gas bubbles were detected in the pulmonary artery by transthoracic echocardiography when he was symptomatic, suggesting that gas emboli may have played a role. All three cases shared a possible triggering factor in that each experienced hyperventilation alternating with straining against a closed glottis shortly before the onset of symptoms. CONCLUSION: Mechanisms other than hypocapnic vasoconstriction in hypoxia may be causal factors of TNDHA. The existence of triggering factors and evidence of a possible embolic mechanism should be further explored.