Faith Ramsey, Michelle Borsdorf, John Ladner, Anne White, Tara M Harrison
{"title":"动物死后皮肤特征对低水平激光功率测量的影响","authors":"Faith Ramsey, Michelle Borsdorf, John Ladner, Anne White, Tara M Harrison","doi":"10.1155/2024/8066943","DOIUrl":null,"url":null,"abstract":"<p><p>Photobiomodulation therapy, also termed as low-level laser therapy, is commonly used as an adjunctive therapy for various medical conditions in veterinary practice. The ACTIVet PRO low-level laser has been used for treatment of various nondomestic species, yet the effects of dermal attributes such as pigment, feathers, or scales have not been evaluated. The effects of low-level laser therapy with the ACTIVet PRO have been investigated in laboratory animals, including a study in rats that evaluated the passage of laser light through the skin in postmortem samples. The objective of this study was to measure the power of a low-level laser (ACTIVet PRO) after penetration through dermal tissue (∼1 mm thickness) in a variety of postmortem animal tissue. This study sought to determine the impact of fur, feathers, scales, and different pigments on the ability of the laser to penetrate. Frozen and thawed skin tissue samples from various species were placed inside a light restricted laser box and exposed to a preprogrammed laser level from a Multi Radiance ACTIVet PRO photobiomodulation (PBM) device, with a power meter to measure the light penetration through the tissue samples. Light penetration measurements via power output measurements (mW) were recorded at 7 time points (range, 1-150 sec). A Friedman test was performed to evaluate the difference of the mean tissue penetration by each species at each time point. Lighter colored specimens had higher power readings than darker colored or pigmented samples, and feathers appeared to inhibit the laser, showing minimal to no power readings on bird skin covered in covert and down feathers. There was statistically significant mean tissue penetration for all time points between the rabbit and green sea turtle (<i>p</i>=0.0046), the red-tailed hawk and green iguana (<i>p</i>=0.0046), and the red-tailed hawk and green sea turtle (<i>p</i>=0.000034). Overall findings found that certain skin coverings, such as feathers, appear to inhibit passage of laser light through tissue to the photo meter. Darker pigmented areas of tissue appeared to absorb the laser light, which also did not allow light passage through the tissue to the photo meter. All of this illustrates that there are differences in tissue penetration between different animal species, at least in postmortem tissues. This could necessitate adjustment of machine settings for therapeutic effect in different species, though further studies would be warranted to determine the extent to which this would be necessary. Additional studies evaluating biologically active tissues would be needed as a next step, as photobiomodulation has an effect at the cellular level and the exact amount of medical benefit is not measurable in skin samples that are separate from a living organism.</p>","PeriodicalId":23503,"journal":{"name":"Veterinary Medicine International","volume":"2024 ","pages":"8066943"},"PeriodicalIF":1.9000,"publicationDate":"2024-08-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11368545/pdf/","citationCount":"0","resultStr":"{\"title\":\"The Impact of Dermal Characteristics on Low-Level Laser Power Measurement in Postmortem Zoological Species.\",\"authors\":\"Faith Ramsey, Michelle Borsdorf, John Ladner, Anne White, Tara M Harrison\",\"doi\":\"10.1155/2024/8066943\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Photobiomodulation therapy, also termed as low-level laser therapy, is commonly used as an adjunctive therapy for various medical conditions in veterinary practice. The ACTIVet PRO low-level laser has been used for treatment of various nondomestic species, yet the effects of dermal attributes such as pigment, feathers, or scales have not been evaluated. The effects of low-level laser therapy with the ACTIVet PRO have been investigated in laboratory animals, including a study in rats that evaluated the passage of laser light through the skin in postmortem samples. The objective of this study was to measure the power of a low-level laser (ACTIVet PRO) after penetration through dermal tissue (∼1 mm thickness) in a variety of postmortem animal tissue. This study sought to determine the impact of fur, feathers, scales, and different pigments on the ability of the laser to penetrate. Frozen and thawed skin tissue samples from various species were placed inside a light restricted laser box and exposed to a preprogrammed laser level from a Multi Radiance ACTIVet PRO photobiomodulation (PBM) device, with a power meter to measure the light penetration through the tissue samples. Light penetration measurements via power output measurements (mW) were recorded at 7 time points (range, 1-150 sec). A Friedman test was performed to evaluate the difference of the mean tissue penetration by each species at each time point. Lighter colored specimens had higher power readings than darker colored or pigmented samples, and feathers appeared to inhibit the laser, showing minimal to no power readings on bird skin covered in covert and down feathers. There was statistically significant mean tissue penetration for all time points between the rabbit and green sea turtle (<i>p</i>=0.0046), the red-tailed hawk and green iguana (<i>p</i>=0.0046), and the red-tailed hawk and green sea turtle (<i>p</i>=0.000034). Overall findings found that certain skin coverings, such as feathers, appear to inhibit passage of laser light through tissue to the photo meter. Darker pigmented areas of tissue appeared to absorb the laser light, which also did not allow light passage through the tissue to the photo meter. All of this illustrates that there are differences in tissue penetration between different animal species, at least in postmortem tissues. This could necessitate adjustment of machine settings for therapeutic effect in different species, though further studies would be warranted to determine the extent to which this would be necessary. 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引用次数: 0
摘要
光生物调节疗法,又称低强度激光疗法,在兽医实践中通常被用作各种病症的辅助疗法。ACTIVet PRO 低强度激光器已被用于治疗各种非家养动物,但尚未对色素、羽毛或鳞片等真皮属性的影响进行评估。使用 ACTIVet PRO 低强度激光治疗的效果已在实验室动物身上进行过调查,其中包括一项在大鼠身上进行的研究,该研究评估了激光穿过死后样本皮肤的情况。本研究的目的是测量低强度激光(ACTIVet PRO)穿透各种动物尸体组织真皮层(1 毫米厚)后的功率。这项研究旨在确定皮毛、羽毛、鳞片和不同色素对激光穿透能力的影响。将不同物种的冷冻和解冻皮肤组织样本放入一个限光激光箱中,用 Multi Radiance ACTIVet PRO 光生物调制(PBM)设备发出的预设激光水平照射,并用功率计测量光穿透组织样本的情况。在 7 个时间点(范围为 1-150 秒)通过功率输出测量(毫瓦)记录光穿透测量结果。进行弗里德曼检验,以评估各时间点各物种平均组织穿透力的差异。浅色样本的功率读数高于深色或色素样本,羽毛似乎对激光有抑制作用,在覆盖有隐蔽羽毛和绒羽的鸟类皮肤上显示的功率读数极小甚至没有。在所有时间点上,兔子和绿海龟(p=0.0046)、红尾鹰和绿鬣蜥(p=0.0046)以及红尾鹰和绿海龟(p=0.000034)之间的平均组织穿透率都有统计学意义。总体研究结果发现,某些皮肤覆盖物(如羽毛)似乎会抑制激光穿过组织到达光度计。组织中色素较深的区域似乎吸收了激光,这也使得光线无法穿过组织到达光度计。所有这些都说明,不同动物物种之间的组织穿透力存在差异,至少在死后组织中是如此。这可能需要调整机器的设置,以达到对不同物种的治疗效果,不过还需要进一步的研究来确定在多大程度上有必要这样做。下一步还需要对生物活性组织进行更多的评估研究,因为光生物调制会在细胞水平上产生影响,而在与生物体分离的皮肤样本中无法测量确切的医疗效果。
The Impact of Dermal Characteristics on Low-Level Laser Power Measurement in Postmortem Zoological Species.
Photobiomodulation therapy, also termed as low-level laser therapy, is commonly used as an adjunctive therapy for various medical conditions in veterinary practice. The ACTIVet PRO low-level laser has been used for treatment of various nondomestic species, yet the effects of dermal attributes such as pigment, feathers, or scales have not been evaluated. The effects of low-level laser therapy with the ACTIVet PRO have been investigated in laboratory animals, including a study in rats that evaluated the passage of laser light through the skin in postmortem samples. The objective of this study was to measure the power of a low-level laser (ACTIVet PRO) after penetration through dermal tissue (∼1 mm thickness) in a variety of postmortem animal tissue. This study sought to determine the impact of fur, feathers, scales, and different pigments on the ability of the laser to penetrate. Frozen and thawed skin tissue samples from various species were placed inside a light restricted laser box and exposed to a preprogrammed laser level from a Multi Radiance ACTIVet PRO photobiomodulation (PBM) device, with a power meter to measure the light penetration through the tissue samples. Light penetration measurements via power output measurements (mW) were recorded at 7 time points (range, 1-150 sec). A Friedman test was performed to evaluate the difference of the mean tissue penetration by each species at each time point. Lighter colored specimens had higher power readings than darker colored or pigmented samples, and feathers appeared to inhibit the laser, showing minimal to no power readings on bird skin covered in covert and down feathers. There was statistically significant mean tissue penetration for all time points between the rabbit and green sea turtle (p=0.0046), the red-tailed hawk and green iguana (p=0.0046), and the red-tailed hawk and green sea turtle (p=0.000034). Overall findings found that certain skin coverings, such as feathers, appear to inhibit passage of laser light through tissue to the photo meter. Darker pigmented areas of tissue appeared to absorb the laser light, which also did not allow light passage through the tissue to the photo meter. All of this illustrates that there are differences in tissue penetration between different animal species, at least in postmortem tissues. This could necessitate adjustment of machine settings for therapeutic effect in different species, though further studies would be warranted to determine the extent to which this would be necessary. Additional studies evaluating biologically active tissues would be needed as a next step, as photobiomodulation has an effect at the cellular level and the exact amount of medical benefit is not measurable in skin samples that are separate from a living organism.
期刊介绍:
Veterinary Medicine International is a peer-reviewed, Open Access journal that publishes original research articles and review articles in all areas of veterinary research. The journal will consider articles on the biological basis of disease, as well as diagnosis, prevention, treatment, and epidemiology.