JOX-Teva
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Clinical Pharmacology
Jox - antiseptic, anti-inflammatory.
In contact with skin or mucous membranes, it releases iodine, causing an antiseptic effect.
Indications
Angina (catarrhal, follicular, lacunar; caused by streptococci, with simultaneous treatment with antibiotics); tonsillitis (acute and chronic); inflammation of the larynx, tongue, aphtha; first symptoms of flu.
Composition
Polyvidone-iodine 8.5 g, allantoin 0.1 g, propylene glycol 30 g
JOX-Teva is marketed under different brands and generic names, and comes in different dosage forms:
Brand name | Manufacturer | Country | Dosage form |
---|---|---|---|
Jox-Teva | Teva | Israel | solution |
Jox-Teva | Teva | Israel | spray |
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Dosage and Administration
Before use, the solution is diluted with water at a ratio of 1:20 - 1:40 (ie, 2.5–5 ml or 1 / 2–1 parts in 100 ml of water) and rinse the mouth or throat 2–4 times in day.
Adverse reactions
Allergic reactions; rarely - burning sensation at the site of application.
Contraindications
Hypersensitivity (including iodine), hyperthyroidism, heart failure, children's age (up to 6 years).
Special instructions
The drug is not intended for oral administration (can not be inhaled or swallowed). In children, aerosol is used if they are able to hold their breath when injected. If there is no effect for 3 days, you should consult with your doctor. The simultaneous use of other means for local use in the oral cavity (hydrogen peroxide, antiseptics) is not recommended. It should be borne in mind that the drug contains 19% alcohol.
Overdosage
When taking a large amount of the drug (if the patient is conscious), it is recommended to use activated charcoal, then induce vomiting (with the help of warm salt water or pharynx irritation).
- Brand name: Jox-Teva
- Active ingredient: Allantoin, Povidone-iodine
- Dosage form: Solution for topical use
- Manufacturer: Teva
- Country of Origin: Israel
Studies and clinical trials of JOX-Teva (Click to expand)
- Microglia development in the quail cerebellum
- Tangential migration of ameboid microglia in the developing quail retina: Mechanism of migration and migratory behavior
- Circumferential migration of ameboid microglia in the margin of the developing quail retina
- Activation of immature microglia in response to stab wound in embryonic quail retina
- Embryonic and postnatal development of microglial cells in the mouse retina
- Microglial response to light-induced photoreceptor degeneration in the mouse retina
- Origin of microglia in the quail retina: Central-to-peripheral and vitreal-to-scleral migration of microglial precursors during development
- Migration and ramification of microglia in quail embryo retina organotypic cultures
- Radial migration of developing microglial cells in quail retina: A confocal microscopy study
- Behavior of in vitro cultured ameboid microglial cells migrating on Müller cell end-feet in the quail embryo retina
- AMIRAL: A Block-Segmental Multirecognizer Architecture for Automatic Speaker Recognition
- Synthesis of some retinoids bearing different heterocyclic rings with anticancer activity
- Nanometer scale gaps for capacitive transduction improvement on RF-MEMS resonators
- Electrical detection of multiple resonant modes in a CMOS–MEMS cantilever
- Use of TEVA resin for the determination of U isotopes in water samples by Q-ICP-MS
- Retention of emerging micropollutants from UP water and a municipal secondary effluent by ultrafiltration and nanofiltration
- Membrane filtration technologies applied to municipal secondary effluents for potential reuse
- Micro/nanomechanical resonators for distributed mass sensing with capacitive detection
- System on chip mass sensor based on polysilicon cantilevers arrays for multiple detection
- Leishmania infantum-induced primary and challenge infections in rhesus monkeys (Macaca mulatta): a primate model for visceral leishmaniasis
- On the electromechanical modelling of a resonating nano-cantilever-based transducer
- A femtogram resolution mass sensor platform, based on SOI electrostatically driven resonant cantilever. Part I: Electromechanical model and parameter extraction
- A femtogram resolution mass sensor platform based on SOI electrostatically driven resonant cantilever. Part II: Sensor calibration and glycerine evaporation rate measurement
- The mechanism of electroreduction of cystine at the mercury electrode