Real life experience following combined excimer laser trabeculostomy and phacoemulsification in eyes with ocular hypertension or mild glaucoma and cataract.

Objectives: To assess the efficacy and safety of combined phacoemulsification and excimer laser trabeculostomy (ELT) in eyes with cataract and mild controlled glaucoma or ocular hypertension (OHT).

Methods: Single-centre analysis of eyes that underwent phacoemulsification and ELT between 2017 and 2021. Change in intraocular pressure (IOP), glaucoma medication requirements, corrected distance visual acuity (CDVA), complications and re-interventions were evaluated.

Effect of intravitreal injection of dexamethasone 0.7 mg (Ozurdex®) on intraocular pressure in patients with macular edema.

Background: To evaluate the effect of Ozurdex® on intraocular pressure in patients with macular edema alone (group 1) or associated with glaucoma or ocular hypertension (group 2).

Methods: A clinical, retrospective, observational, comparative study included 92 eyes with macular edema treated with a single injection of Ozurdex®; 27 eyes were previously diagnosed with glaucoma or ocular hypertension.

Results: The mean intraocular pressure (group 1 vs.

Water deficits uncouple growth from photosynthesis, increase C content, and modify the relationships between C and growth in sink organs.

In plants, carbon (C) molecules provide building blocks for biomass production, fuel for energy, and exert signalling roles to shape development and metabolism. Accordingly, plant growth is well correlated with light interception and energy conversion through photosynthesis. Because water deficits close stomata and thus reduce C entry, it has been hypothesised that droughted plants are under C starvation and their growth under C limitation.

Adaptation of Medicago truncatula to nitrogen limitation is modulated via local and systemic nodule developmental responses.

Adaptation of Medicago truncatula to local nitrogen (N) limitation was investigated to provide new insights into local and systemic N signaling. The split-root technique allowed a characterization of the local and systemic responses of NO(3)(-) or N(2)-fed plants to localized N limitation. (15)N and (13)C labeling were used to monitor plant nutrition.

Systemic signaling of the plant nitrogen status triggers specific transcriptome responses depending on the nitrogen source in Medicago truncatula.

Legumes can acquire nitrogen (N) from NO(3)(-), NH(4)(+), and N(2) (through symbiosis with Rhizobium bacteria); however, the mechanisms by which uptake and assimilation of these N forms are coordinately regulated to match the N demand of the plant are currently unknown. Here, we find by use of the split-root approach in Medicago truncatula plants that NO(3)(-) uptake, NH(4)(+) uptake, and N(2) fixation are under general control by systemic signaling of plant N status. Indeed, irrespective of the nature of the N source, N acquisition by one side of the root system is repressed by high N supply to the other side.