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Due to its high precision and minimally invasive nature, laser technology is widely used in various medical diagnostics and treatments. Stability and precision are crucial for medical equipment, as they directly impact treatment outcomes and diagnostic accuracy. TEYU laser chillers provide consistent and stable temperature control to ensure a consistent laser light output, prevent overheating damage, and extend the devices' lifespan, thereby maintaining their reliable operation.
Since its introduction in 1960, laser technology has made significant contributions to the medical field. Today, due to its high precision and minimally invasive nature, laser technology is widely used in various medical diagnostics and treatments. Here’s a brief overview of its applications in healthcare.
Medical laser technology has evolved from its initial use in ophthalmic surgeries to a diverse range of treatment methods. Modern medical laser technologies include high-intensity laser therapy, photodynamic therapy (PDT), and low-level laser therapy (LLLT), each applied across multiple medical disciplines.
Areas of Application
Ophthalmology: Treating retinal diseases and performing refractive surgeries.
Dermatology: Treating skin conditions, removing tattoos, and promoting skin regeneration.
Urology: Treating benign prostatic hyperplasia and breaking down kidney stones.
Dentistry: Teeth whitening and treating periodontitis.
Otorhinolaryngology (ENT): Treating nasal polyps and tonsil issues.
Oncology: Using PDT for the treatment of certain cancers.
Cosmetic Surgery: Skin rejuvenation, removing blemishes, reducing wrinkles, and scar treatment.
Diagnostic Techniques
Laser diagnostics leverage the unique properties of lasers, such as high brightness, directivity, monochromaticity, and coherence, to interact with the target and produce optical phenomena. These interactions provide information on distance, shape, and chemical composition, enabling rapid and accurate medical diagnoses.
Optical Coherence Tomography (OCT): Provides high-resolution images of tissue structures, particularly useful in ophthalmology.
Multiphoton Microscopy: Allows detailed observation of the microscopic structure of biological tissues.
Laser Chillers Ensure the Stability of Laser Medical Equipment
Stability and precision are crucial for medical equipment, as they directly impact treatment outcomes and diagnostic accuracy. TEYU laser chillers provide consistent and stable temperature control for medical laser equipment, with a temperature control precision of ±0.1℃. This stable temperature control ensures a consistent laser light output from the laser equipment, prevents overheating damage, and extends the lifespan of the devices, thereby maintaining their reliable operation.
The application of laser technology in the medical field not only enhances treatment precision and safety but also offers patients less invasive procedures and quicker recovery times. In the future, medical laser technology will continue to evolve, providing patients with a broader range of treatment options.
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TEYU S&A Chiller was founded in 2002 with 22 years of chiller manufacturing experience, and now is recognized as a cooling technology pioneer and reliable partner in laser industry.
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