What is hypochlorous acid for eyes?
Hypochlorous acid has a number of characteristics.
The main cause of dry eye is the meibomian gland deficiency. There are a lot of patients with dry eye. There is an overpopulation ofbacteria on the eyelid and eyelashes in MGD.
The increase in the meibum and obstruction of the meibomian glands are caused by the release of lipases by thesebacteria. The tear will evaporate faster because the glands will not be able to produce the proper layer of the tear.
Markings of theCE. On; 1011. Class IIb is non-sterile.
There is a position for it.
There are auxiliary substances: hypochlorite and hypochlorous acid.
Cost of service and expenses.
It must be kept out of the cold between 2C and 24C. It's not dangerous. After using the product, the container must be closed.
The stability of Ocudox is guaranteed until the end of the year or month.
The "Date opened" section is where you should write down the date on the package.
The solution can be stable for up to 60 days after opening.
How to use it.
It is used to clean the eyes and eyelashes, which can cause irritation and disease.
It can be used to clean cuts.
When used as intended, Ocudox is a biocompatible drug. It doesn't irritate the skin, eyes or throat.
Special handling precautions are not required.
How to use.
Before applying Ocudox, you should wash your hands and remove makeup.
2 sprays of Ocudox should be applied on a cotton pad. Close your eye and, using a horizontal motion, wipe the base of the upper eyelid lashes. There is no need to clarify.
Ocudox can be used twice daily or as recommended by a healthcare professional.
Hypochlorous Acid is non-toxic.
It is safe for eyes and skin even when swallowed.
Hypochlorous acid doesn't cause irritation.
It is safe and ideal for food contact surfaces. It can be used to clean wounds, eye drops, and patient rooms in healthcare settings. Sanitation chemicals can be dangerous and toxic.
Contact with skin or nose may cause irritation. How does HCIO kill?
Why is this important?
Hypochlorous Acid has advantages.
M.C. Tovar and S. El Carmen Veterinarios 2. The authors provided images from the University of Murcia.
Biologically, hypochlorous acid (HCLO) is classified as a reactive oxygen species, synthesized by cells of the immune system during a process known as "respiratory burst", in which during phagocytosis of antigens a reaction between hydrogen peroxide and a chlorine ion, in the presence of the enzyme myeloperoxidase.
10 million neutrophils are required to produce 2 liters of hypochlorous acid after 20 hours of stimulation.
It has properties that help tissue healing and regeneration, and that hinders tissue repair, due to a powerful effect against proteases generated in the neutrophils found at the infections site.
The therapeutic uses of HClO began in the First World War, when soldiers were dying from infections and the need for a Disinfectant for wounds was needed. The ideal concentrations of HClO were generated by the researchers who obtained a buffered sodium hypochlorite solution in 1915.
They found no damage to the tissues or difficulty in healing wounds.
The investigations on HClO were resumed in 1980. Stephen J. Weiss discovered the bactericidal power of HClO.
The amount of HClO produced after a two-hour incubation was enough to kill 150 million E. colibacteria.
Multiple laboratories are trying to get stable solutions of HClO for therapeutic purposes in order to make it the antiseptic of the future. The Colombian researcher, Justo Calderon, in 1993 managed to stabilize the HClO molecule for the treatment and control of infections in chronic wounds such as ulcers (varicose, ischemic, diabetic foot ulcers, etc.), second and third degree burns, skin infections , care of clean wounds, contaminated and with necrotic tissue, as well as washing and care of bone exposures.
A Shar Pei dog with a discharge and white eye is called "Nora".
A first approximation to the clinical examination is carried out using a white light flashlight, where intense tearing is observed in the left eye.
The cornea has lost its physical characteristics due to the loss of the stroma and the blue color. A large part of the stroma have disappeared, resulting in a deep corneal ulcer, when observed with a slit lamp. The stroma shows the molten appearance of melting ulcers.
The central area of the ulcer is home to a descemetocele.
No further diagnostic tests are performed after the ferriscein staining confirms the findings.
It is possible that the diagnosis is due to a superficial ulcer. The cause of the disease has not been determined, but based on the symptoms, a bacterium that promotes collagen lysis and destroys the corneal stroma is suspected.
In these cases, the infection must be stopped. The two pillars are the first ones to solve the problem.
One drop of ciprofloxacin eye drops is dropped every two hours to control the infection, followed by three drops of hypochlorous acid ophthalmic solution. One drop of autologous serum can be applied five times a day as an anti-gencollaase treatment. Dandruff and meloxican are given every 24 hours.
The state of the eye and the response to treatments are evaluated when appointments are made. The evolution has been great.
In the last appointment, a dexamethasone ophthalmic ointment is prescribed three times a day to help recover the transparency of the cornea.
A fellow vet referred a female dachshund named "Bella" for treatment of a cyst in her left eye.
The left eye has a dermoid cyst that can be seen on the cornea of the left eye from two to five.
The dermoid cyst is on the right side of the eye.
The only way to remove the abnormal tissue is by superficial keratectomy. On the same visit, surgery is performed.
One drop of hypochlorous acid and chloramphenicol eye drops is prescribed every eight hours for a day.
After 8 days, she is scheduled for a review.
A fluorescein staining test is performed to verify that the cornea is completely Epithelized. Antibiotic treatment is suspended and dexamethasone is prescribed three times a day to control the scar and restore transparency.
He was discharged one month after the intervention.
Poty is a 2-year-old long-haired mixed-breed male dog who was referred to the clinic because he presents a chronic epiphora without response to treatment.
There were crusts and secretions in the eyes. Two skin ulcerations were presented in the lacrimal area after depilation and cleaning with an ophthalmic hypochlorous acid solution. The Schirmer test is normal, with no alterations to the eye structures. The test is negative if the fronscein staining shows the patency of the tear drainage tracts.
Epiphora is caused by obstruction of tear drainage and exudative dermatitis of the secondary canthus.
It is necessary to verify that the lacrimal drainage pathways are open and that there are lacrimal orifices and ducts. The animal is anesthetized and the lacrimal ducts are probed and washed. Irrigations with ocular HClO solution and the application of chloramphenicol and dexamethasone eye drops are part of the therapy.
There are reviews every week, 15 days and month. The epiphora has disappeared and the skin has improved.
There are three chemical forms of chlorine: sodium hypochlorite, calcium hypochlorite, and liquid chlorine.
The oxidizing effect of chlorine in powder form is the same as the oxidizing effect of chlorine in solution.
To generate sodium hypochlorite, an electrochemical reaction is used in which sodium chloride (common salt) is added to a certain amount of water and using electrodes, an electric current is passed through the water with salt in order to generate the reaction. electrochemistry that separates water (H2O) into hydroxide (OH-) and hydronium (H+) ions that it generates together with Chlorine ions (Cl) and Sodium ions (Na) from the dissolved sodium chloride (NaCl) salt.
The activity of chlorine in water is similar to that of other forms of chlorine, since hydrogen sulphide, hypochlorite and propane are generated.
Hypochlorite ion and hypochlorous acid are unstable and need to be prepared and used within 24 hours.
Hypochlorous acid is a very unstable weak acid with the chlorine atom in the + oxidation state and is used for water and wastewater treatment.
Hypochlorous acid and hydrochloric acid are formed when chlorine gas is dissolved in water.
H2O + chlorine gas + hypochlorous acid + hydrochloric acid.
Hypochlorite is added to water and reacts with it.
