Morphological and physio-biochemical responses under heat stress in cotton: Overview

Cotton is an important cash crop in addition to being a fiber commodity, and it plays an essential part in the economies of numerous nations. High temperature is the most critical element affecting its yield from fertilization to harvest. The optimal temperature for root formation is 30 C -35 °C; however, root development ends around 40 °C. Increased temperature, in particular, influences different biochemical and physiological processes associated with cotton plant, resulting in low seed cotton production. Many studies in various agroecological zones used various agronomic strategies and contemporary breeding techniques to reduce heat stress and improve cotton productivity. To attain desired traits, cotton breeders should investigate all potential possibilities, such as generating superior cultivars by traditional breeding, employing molecular techniques and transgenic methods, such as using genome editing techniques. The main objective of this review is to provide the recent information on the environmental factors, such as temperature, heat and drought, influence the growth and development, morphology and physio-chemical alteration associated with cotton. Furthermore, recent advancement in cotton breeding to combat the serious threat of drought and heat stress.

Treatment of blood hyperviscosity with calcium dobesilate in patients with diabetic retinopathy

This double-blind randomized trial was carried out on 37 patients with diabetic retinopathy and blood hyperviscosity. 19 patients received calcium dobesilate in capsules of 500 mg 3 times daily for 3 months and 18 patients took 3 placebo capsules daily during the same period. Calcium dobesilate was found to reduce whole-blood viscosity in a statistically significant manner which was accompanied by a diminution of the albumin/globulin ratio and a significant reduction of fibrinogen and cholesterol levels. A statistically significant diminution of capillary fragility was also observed in the calcium dobesilate-treated group. These results indicate that calcium dobesilate, by restoring the integrity of the microvessels, and by lowering blood viscosity, could act favorably on the evolution of diabetic retinopathy.