Changes in Aqueous Humor pH After Femtosecond Laser-Assisted Cataract Surgery

Rossi, Marco; Censo, Fabio Di; Censo, Matteo Di; Oum, Muna Al

doi:10.3928/1081597x-20150623-04

Cited by 16 publications

(18 citation statements)

References 16 publications

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“…), and cavitation bubbles derived from the photodisruption process lead to an acidic shift of the aqueous humour pH as a result of the transformation of carbon dioxide to carbonic acid (Rossi et al. ), which might be prone to the intraoperative laser‐induced miosis. However, it is still unknown whether there are toxic substances produced due to photochemical or high‐energy physical effects of femtosecond laser during FLACS.…”

Section: Introductionmentioning

confidence: 99%

Safety of femtosecond laser‐assisted cataract surgery: assessment of aqueous humour and lens capsule

Chen

Wang

et al. 2016

Acta Ophthalmologica

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Section: Introductionmentioning

confidence: 99%

Safety of femtosecond laser‐assisted cataract surgery: assessment of aqueous humour and lens capsule

Chen

Wang

et al. 2016

Acta Ophthalmologica

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“…In a predominantly glycolytic tissue such as TM,43 pH i and pH o changes that might modulate the pressure dependence and physiology of TM-resident ion channels could arise from multiple sources that include metabolic activity, proton clearance, buffering, and lactate release. The relative involvement of carbonic anhydrases and concentration of the AH HCO 3 − seem to vary across species, with pH AH ranging between slightly alkaline (∼7.6) in rabbits to acidic (∼7.18) in pigs and neutral in nonhuman primates (∼7.44) and humans (∼7.38) 8,9,14,44. Although its functions in bicarbonate production/transport point at the ciliary body as a critical regulator of pH AH ,45,46 our results are, to the best of our knowledge, the first to identify TM mechanotransduction as a potential target of pH shifts in the anterior eye.…”

Section: Discussionmentioning

confidence: 99%

“…Although it remains to be seen whether protons regulate (conventional and uveoscleral) outflow, TM mechanotransduction is modulated by acidifications resulting from inhibition of carbonic anhydrases (Trusopt), stimulation of PGF 2α receptors (Xalatan), and a block of β-adrenergic receptors (Timoptol) 8. Another clinical intervention that may transiently affect pH AH and TM signaling is the use of femtosecond laser during cataract surgery, reported to lower pH to <6.4 9…”

Section: Discussionmentioning

confidence: 99%

“…Intracellular protons are generated by respiration, anaerobic glycolysis, and calcium clearance, sequestered by buffering mechanisms, and extruded via Na + /H + exchange, Na + -driven Cl − /HCO 3 − transport, lactate export, glutamine import, and other processes 4–6. In addition to biological mechanisms, clinical interventions such as cataract surgery, antiglaucoma drugs, and contact lens insertion may lower pH AH from its average level of ∼7.4 to below 6.0 7–9. Although the (patho)physiologic significance of such pH AH shifts has not been studied at the cellular/molecular levels, impetus for such investigations comes from early clinical investigations that showed that metabolic acidosis, diabetic acidosis, respiratory alkalosis, and exercise markedly lower IOP,10–13 and from studies showing that pH affects the delivery and biodegradation of IOP lowering drugs 14.…”

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confidence: 99%

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Trabecular Meshwork TREK-1 Channels Function as Polymodal Integrators of Pressure and pH

Yarishkin

Phuong

Križaj

2019

Invest. Ophthalmol. Vis. Sci.

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The concentration of protons in the aqueous humor (AH) of the vertebrate eye is maintained close to blood pH; however, pathologic conditions and surgery may shift it by orders of magnitude. We investigated whether and how changes in extra-and intracellular pH affect the physiology and function of trabecular meshwork (TM) cells that regulate AH outflow. METHODS. Electrophysiology, in conjunction with pharmacology, gene knockdown, and optical recording, was used to track the pH dependence of transmembrane currents and mechanotransduction in primary and immortalized human TM cells. RESULTS. Extracellular acidification depolarized the resting membrane potential by inhibiting an outward K þ-mediated current, whereas alkalinization hyperpolarized the cells and augmented the outward conductance. Intracellular acidification with sodium bicarbonate hyperpolarized TM cells, whereas removal of intracellular protons with ammonium chloride depolarized the membrane potential. The effects of extra-and intracellular acid and alkaline loading were abolished by quinine, a pan-selective inhibitor of two-pore domain potassium (K2 P) channels, and suppressed by shRNA-mediated downregulation of the mechanosensitive K2 P channel TREK-1. Extracellular acidosis suppressed, whereas alkalosis facilitated, the amplitude of the pressure-evoked TREK-1-mediated outward current. CONCLUSIONS. These results demonstrate that TM mechanotransduction mediated by TREK-1 channels is profoundly sensitive to extra-and intracellular pH shifts. Intracellular acidification might modulate aqueous outflow and IOP by stimulating TREK-1 channels.

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“…Original articles рование дисульфидного мостика является pH-зависимым процессом, а при определенном pH соотношение тиолат-аниона к сульфгидрильной группе является постоянной величиной. Значение pH ВГЖ человека сходно с таковым нейтральной сыворотки и, по разным данным литературы, составляет 7,32-7,60 [19]. Наиболее точные измерения, исключающие насыщение ВГЖ эндогенными веществами в процессе пробоподготовки [20,21], свидетельствуют о более кислой по сравнению с плазмой крови реакции ВГЖ в норме -7,2 [22].…”

Section: оригинальные статьиunclassified

Accumulation of sulfur and phosphorus in the eye’s drainage system in primary open-angle glaucoma

Kravchik¹,

Ia²,

Subbot³

et al. 2020

Vestn. oftal'mol.

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РЕЗЮМЕ Цель исследования. Изучить химический состав склеры и трабекулярной ткани глаза при первичной открытоугольной глауко ме (ПОУГ). Оценить взаимосвязь роговично-компенсированного внутриглазного давления (ВГД) и химического состава дренажной зоны. Материал и методы. Было определено содержание ряда химических элементов: углерода (С), азота (N), кислорода (O), алюминия (Al), кальция (Са), хлора (Cl), калия (К), магния (Mg), натрия (Na), фосфора (P), кремния (Si), серы (S) в 89 биоптатах трабекулярной ткани и в 41 биоптате склеры у пациентов с ПОУГ, использующих максимальную местную гипотензивную терапию. Выбор анализируемых элементов был обусловлен химическим строением анализируемой ткани и чувствительностью инструмента, используемого для анализа. Визуализацию проводили с помощью сканирующего электронного микроскопа EVO LS 10 (Zeiss, Германия), исследование химического состава-с использованием энергодисперсионного спектрометра Oxford-X-MAX-50 (Oxford, Великобритания). В качестве статистических критериев оценки использовали тест Спирмена. Результаты. Обнаружены прямые корреляции между уровнем ВГД у пациентов с ПОУГ и общим содержанием S, P, Ca в трабекуле. Показана аккумуляция ассоциированных с пигментными гранулами серосодержащих соединений в трабекулярной ткани при ПОУГ. Прослежена связь между органической и неорганической (минеральной) формами нахождения P в трабекуле при ПОУГ в зависимости от уровня офтальмотонуса. Для P установлено преобладание органического компонента над минеральным при увеличении уровня ВГД у пациентов с открытоугольной глаукомой. Заключение. У пациентов с ПОУГ при повышении уровня ВГД в ткани трабекулы увеличивается количество S, ассоциированной с пигментными гранулами, и возрастает доля органического P, что следует учитывать при дальнейшем поиске медикаментозной терапии, потенциально воздействующей на патологически измененную ткань.

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Changes in Aqueous Humor pH After Femtosecond Laser-Assisted Cataract Surgery

Cited by 16 publications

References 16 publications

Safety of femtosecond laser‐assisted cataract surgery: assessment of aqueous humour and lens capsule

Safety of femtosecond laser‐assisted cataract surgery: assessment of aqueous humour and lens capsule

Trabecular Meshwork TREK-1 Channels Function as Polymodal Integrators of Pressure and pH

Accumulation of sulfur and phosphorus in the eye’s drainage system in primary open-angle glaucoma

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