Journal Basic Info

  • Impact Factor: 0.285**
  • H-Index: 6
  • ISSN: 2638-4558
  • DOI: 10.25107/2638-4558
**Impact Factor calculated based on Google Scholar Citations. Please contact us for any more details.

Major Scope

  •  Gastric Cancer
  •  Neurological Surgery
  •  Pain Management
  •  Microbiology
  •  Vascular Medicine
  •  Anatomy
  •  Cancer Clinic
  •  Chronic Disease

Abstract

Citation: Clin Case Rep Int. 2024;8(1):1683.DOI: 10.25107/2638-4558.1683

Assessment of Safety and Mechanisms of Action of the 1470 nm LaserMe Device

Kubik P, Gruszczyński W and Łukasik B
 

K-LAB Badania i Rozwój, 81-312 Gdynia, Poland
Medical Department, Matex Lab Switzerland SA, 1228 Geneve, Switzerland

*Correspondance to: Paweł Kubik 

 PDF  Full Text Research Article | Open Access

Abstract:

1470 nm laser is a medical device that emits radiation in the mode of multi millisecond pulses. The power of the emitted radiation beam is constant. The basic parameter set by the operator is the density of energy per single impulse, given in mJ/point (possible regulation of 5-50 mJ/ point), the length of the pulse time and the frequency of their repetition. The 1470 nm laser is a fractional, non-ablative, diode laser with a wavelength of 1470 nm and a maximum power of 2W, intended for fractional non-ablative skin resurfacing, with adjustable spacing from 1 mm to 4 mm. The aim of the case report was to evaluate the safety and mechanism of action of the LaserMe device, assessed by histological examinations.

Keywords:

Fractional; Non-ablative; Laser; Safety; Mechanism of action; 1,470 nm

Cite the Article:

Kubik P, Gruszczyński W, Łukasik B. Assessment of Safety and Mechanisms of Action of the 1470 nm LaserMe Device. Clin Case Rep Int. 2024; 8: 1683.

Search Our Journal

Journal Indexed In

Articles with Grants

Hepatotoxicity of Microcystin-LR in Wistar Rats
 Abstract  PDF  Full Text
Gender Specificity in Obstructive Sleep Apnea and COVID-19: Putative Associations and Risk Factors
 Abstract  PDF  Full Text
View More...