Biochemistry
Hassan Ghasemi; Nayere Askari; Mohammad Mehdi Naghizadeh; Susan Kabudanian Ardestani; Sakine Moaiedmohseni; Mohammad-Reza Vaez-Mahdavi; Tooba Ghazanfari
Abstract
Background and objective:Many biochemical features of sulfur mustard (SM) intoxication remained unknown. So far, the direct association between biochemical parameter changes and ocular problems in patients exposed to SM is not evaluated.The current study aimed at evaluating the associations between the ...
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Background and objective:Many biochemical features of sulfur mustard (SM) intoxication remained unknown. So far, the direct association between biochemical parameter changes and ocular problems in patients exposed to SM is not evaluated.The current study aimed at evaluating the associations between the ocular findings in patients with SM intoxication and the changes of serum and blood biochemical parameters. Methods:In the current study, 372 patients exposed to SM and 128 matched controls were compared concerning the association between their ocular problems and biochemical parameters. Ocular problems include photophobia, ocular surface discomfort (OSD), etc. Biochemical parameters include uric acid, creatinine (Cr), hematocrit (HCT), total, direct and indirect bilirubin, high-density lipoproteins (HDL), alanine aminotransferase (ALT), calcium (Ca), fasting blood sugar (FBS), mean corpuscular hemoglobin concentration (MCHC), etc. Results:The SM-exposed group with photophobia, OSD, tearing, blurred vision, abnormal tear status, and slit-lamp findings had significantly higher mean serum and blood levels of uric acid, Cr, HCT, and total and indirect bilirubin than the controls. The SM-exposed group with photophobia, tearing, ocular pain, blurred vision, bulbar conjunctival and limbal abnormalities had significantly higher mean serum and blood levels of HDL, ALT, Ca, FBS, MCHC, and HDL, indirect and total bilirubin, compared to the control group. Conclusion: The association of photophobia with uric acid, OSD and tearing with Cr, photophobia with HDL, ocular pain with Ca, and blurred vision with FBS may be explained for their known ocular effects in the SM-exposed subjects. SM-induced biochemical changes may intensify the ocular problems induced by the direct effects of SM.
Biochemistry
Hassan Ghasemi; Nayere Askari; Sakine Moaiedmohseni; Soghrat Faghihzadeh; Susan Kabudanian Ardestani; Elham Faghihzadeh; Tooba Ghazanfari
Abstract
Background and objective Aside from direct toxic effects, Sulfur Mustard (SM) induced serum hormone abnormalities may aggravate ocular complaints, including Ocular Surface Discomfort (OSD) (burning, itching, and redness), dry eye sensation, photophobia, blurred vision, foreign body sensation, and pain. ...
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Background and objective Aside from direct toxic effects, Sulfur Mustard (SM) induced serum hormone abnormalities may aggravate ocular complaints, including Ocular Surface Discomfort (OSD) (burning, itching, and redness), dry eye sensation, photophobia, blurred vision, foreign body sensation, and pain. The aim of the current study was to investigate the possible association of ocular complaints with serum hormone concentrations in chronic phase of Sulfur Mustard (SM) exposure. Methods:As a part of Sardasht Iran Cohort Study (SICS), 372 SM-exposed patients and 128 non-exposed participants were enrolled. Ocular complaints and ocular surface biomicroscopic conditions and serum hormones were compared. Results:The exposed with tearing group had significantly higher mean serum levels of testosterone and prolactin (ng/mL) than controls (5.75 vs. 4.75, P=0.031; 11.71 vs. 8.42, P=0.009). The exposed with OSD group had significantly higher mean serum levels of prolactin than controls (12.48 vs. 6.90, P=0.002). The exposed with photophobia group had significantly higher mean serum levels of testosterone than the matched exposed (6.25 vs. 5.65, P=0.013). The exposed with blurred vision group had significantly higher mean serum levels of Thyroglobulin (Tg) (ng/mL) than the matched exposed (65.73 vs. 32.6, P=0.003). Conclusion: Higher mean serum levels of testosterone (in exposed with tearing and photophobia) and prolactin (in exposed with tearing and OSD) may play protective roles against SM effects. Higher mean serum levels of Tg may deteriorate the tear film integrity and optical surface, which causes blurred vision. In the chronic phase of SM toxicity, some ocular surface problems are associated with alterations in the serum concentrations of testosterone, prolactin, and Tg.