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Medical Policy Bulletin

​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​​Low-Level Laser Therapy
07.00.14h

Policy

Coverage is subject to the terms, conditions, and limitations of the member's contract.

MEDICALLY NECESSARY

Low-level laser therapy (LLLT) is considered medically necessary, and, therefore, covered for prevention of oral mucositis in individuals who are undergoing cancer treatment that is associated with an increased risk of oral mucositis (e.g., chemotherapy and/or radiotherapy and/or hematopoietic stem cell transplantation).

EXPERIMENTAL/INVESTIGATIONAL

LLLT for all other conditions and LLLT with dynamic photonic and thermokinetic energy is considered experimental/investigational and, therefore, not covered, because the safety and/or effectiveness of this service cannot be established by review of the available published peer-reviewed literature. This includes, but is not limited to, when low-level laser therapy is used for the following conditions:

  • Carpal tunnel syndrome
  • Neck pain
  • Subacromial impingement
  • Adhesive capsulitis
  • Temporomandibular joint pain
  • Low back pain
  • Osteoarthritis
  • Heel pain (i.e., Achilles tendinopathy, plantar fasciitis)
  • Rheumatoid arthritis
  • Bell palsy
  • Fibromyalgia
  • Wound healing
  • Lymphedema
  • General joint pain
  • Toxic joint syndrome
  • Psoriatic arthritis
  • Knee pain
  • Plica syndrome
  • Osgood-Schlatter disease
  • Patellofemoral syndrome
  • Gout
  • Lupus
  • Plantar fasciitis
  • Tennis elbow
  • Occipital myospastic​ headaches
  • Tension headaches
  • Muscular headaches
  • Rotator cuff injuries
  • Major depressive disorder
  • Alzheimer disease
BILLING REQUIREMENTS

Using the Current Procedural Terminology (CPT) procedure code 97026 (infrared therapy) or any other code to report cold laser/low-level laser therapy is a misrepresentation of the actual service rendered. These services are subject to post-payment review and audit procedures.

Inclusion of a code in this policy does not imply reimbursement. Eligibility, benefits, limitations, exclusions, precertification/referral requirements, provider contracts, and Company policies apply.

Guidelines

BENEFIT APPLICATION

Subject to the terms and conditions of the applicable benefit contract, low-level laser therapy, when used for the prevention of oral mucositis, is covered under the medical benefits of the Company's products when the medical necessity criteria listed in this medical policy are met. However, services that are experimental/investigational are a benefit contract exclusion for all products of the Company. Therefore, they are not eligible for reimbursement consideration.

US FOOD AND DRUG ADMINISTRATION (FDA) STATUS

There are numerous lasers approved by the FDA for low-level laser therapy.

Description

Low-level laser therapy (LLLT), also known as transcranial photobiomodulation therapy or cold laser therapy, refers to the use of polarized red-beam or near-infrared light to provide pain relief for various acute and chronic conditions. In contrast to more powerful surgical lasers, LLLT has low power, usually 5 to 500 milliwatts with wavelengths of 600 to 1000 nanometers. When applied to the skin, LLLT does not burn and produces little or no sensation. Whereas the exact mechanism of its effect is unknown, it is hypothesized that the cold laser light energy penetrates into tissues, stimulating the cellular and extracellular systems (e.g., neurologic, vascular, immune, lymphatic), increasing serotonin levels with resultant pain relief and/or accelerated healing.

Smart Laser (Willow Curve) is a newly developed advanced medical technology designed to relieve joint pain with thermal and photonic energy residing in the category of LLLT. The photonic and thermal kinetic energies stimulate 15 biophysiological processes for treating the joint and surrounding tissues by dilating blood vessels and increasing lymphatic flow to reduce swelling, slowing nerve response time and releasing endorphins reducing the perception of pain, blocking specific pain receptors to promote pain relief and detoxifying by removing toxic debris from the joints increasing the circulation. However, no published peer-reviewed literature was identified to support the use of LLLT with dynamic photonic and thermokinetic energy.

LLLT uses low-power lasers and light-emitting diodes in the far-red to near-infrared optical region to penetrate brain tissues and enhance ATP (adenosine triphosphate) biosynthesis, regulate mitochondrial homeostasis, enhance serotonin and dopamine levels in the brain and facilitate neurogenesis and/or neuroplasticity proposed for the treatment of depression and Alzheimer disease. Preliminary clinical study evidence explores the potential use of LLLT for major depressive disorder; however, future studies are needed to clarify ideal stimulation parameters and the overall efficacy, effectiveness, and safety of this treatment. The evidence is insufficient to determine the effects of the technology on health outcome.


The evidence for LLLT in individuals who have increased risk of oral mucositis (OM) due to some cancer treatments (e.g., chemotherapy, radiotherapy) and/or hematopoietic stem cell transplantation includes randomized controlled trials (RCTs) and systematic reviews of RCTs. Relevant outcomes are symptoms, morbid events, quality of life, and treatment-related morbidity. Studies included patients undergoing various cancer chemotherapy regimens or hematopoietic stem cell transplantation. A recent systematic review of RCTs on low-level laser for prevention of OM included 18 RCTs, generally considered at low risk of bias, and found statistically significantly better outcomes with LLLT than control conditions on primary and secondary outcomes. In addition, three double-blind RCTs published in 2015 found significantly better outcomes in individuals undergoing LLLT than undergoing sham treatment prior to or during cancer treatment. The evidence is sufficient to determine qualitatively that the technology results in a meaningful improvement in the net health outcome.


In 2020, Peng et al. performed a meta-analysis involving 30 studies comparing prophylactic and therapeutic LLLT to placebo or no therapy in reducing the risk of severe OM in individuals receiving chemotherapy or radiotherapy. The authors determined that prophylactic and therapeutic LLLT can reduce the risk of severe OM in individuals receiving chemotherapy or radiotherapy.


In an experimental, prospective double-blind RCT in 2019, Maŕ​in-Conde et al. conducted a study among 26 individuals diagnosed with oral squamous cell carcinoma undergoing oncological treatment. The objective of the study was to assess the effectiveness of photobiomodulation with LLLT as a preventive and therapeutic procedure for the treatment of oral and oral pharyngeal mucositis caused by radiochemotherapy in individuals diagnosed with oral squamous cell carcinoma. The study showed that photobiomodulation with LLLT reduced the incidence and severity of mucositis in individuals treated with radiotherapy and chemotherapy.


The evidence for LLLT in individuals who have orthopedic pain (i.e., neck pain, osteoarthritis knee pain, low back pain, carpal tunnel syndrome) includes RCTs and, for some indications, systematic reviews of RCTs. Relevant outcomes are symptoms, functional outcomes, quality of life, and treatment-related morbidity. Findings of the RCTs were mixed and had methodologic limitations. The evidence is insufficient to determine the effects of the technology on health outcome.


In 2020, Martimbianco et al. performed a meta-analysis to determine the benefits and harms of LLLT for Achilles tendinopathy. Four trials involving 119 individuals were analyzed. The certainty of evidence was low to very low, low, and the results were insufficient to support the routine use of laser therapy for Achilles tendinopathy.

The evidence for low-level laser therapy in individuals who have shoulder conditions, heel pain, or temporomandibular joint pain includes RCTs and, for some indications, systematic reviews of RCTs. Relevant outcomes are symptoms, functional outcomes, quality of life, and treatment-related morbidity. Findings of the RCTs were mixed and had methodologic limitations. The evidence is insufficient to determine the effects of the technology on health outcome.

The evidence for LLLT in individuals who have bone, ligament, and joint conditions (e.g., rheumatoid arthritis, fibromyalgia) includes RCTs and, for some indications, systematic reviews of RCTs. Relevant outcomes are symptoms, functional outcomes, quality of life, and treatment-related morbidity. Findings of the RCTs were mixed and had methodologic limitations. The evidence is insufficient to determine the effects of the technology on health outcome.

The evidence for LLLT in individuals with Bell palsy includes an RCT. Relevant outcomes are change in disease status, functional outcomes, quality of life, and treatment-related morbidity. Bell palsy may completely resolve within months and, thus, it is difficult to determine improvements from laser therapy over the natural resolution of the illness. The available RCT did not include a sham treatment; LLLT was superior to exercise only in this study. Sham-controlled studies are needed as well as additional studies comparing LLLT with alternative Bell palsy treatments. The evidence is insufficient to determine the effects of the technology on health outcome.

The evidence for LLLT in individuals who have lymphedema includes RCTs, observational studies, and systematic reviews. Relevant outcomes are symptoms, functional outcomes, quality of life, and treatment-related morbidity. Systematic reviews of RCTs and observational studies found methodologic flaws in the available studies and have not consistently found better outcomes in individuals receiving LLLT than in individuals receiving a control condition treatment. The evidence is insufficient to determine the effects of the technology on health outcome.

The evidence for LLLT in individuals with chronic wounds includes RCTs and systematic reviews. Relevant outcomes are symptoms, change in disease status, and treatment-related morbidity. The few existing RCTs tend to have small sample sizes and risk of bias. The evidence is insufficient to determine the effects of the technology on health outcome.


References

Abrisham SM, Kermani-Alghoraishi M, Ghahramani R, et al. Additive effects of low-level laser therapy with exercise on subacromial syndrome: a randomized, double-blind, controlled trial. Clin Rheumatol. 2011;30(10):1341-1346.

Alayat MS, Elsodany AM, El Fiky AA. Efficacy of high and low level laser therapy in the treatment of Bell's palsy: a randomized double blind placebo-controlled trial. Lasers Med Sci. 2014;29(1):335-342.


Arribas-Pascual M, Hernández-Hernández S, Jiménez-Arranz C, et al. Effects of Physiotherapy on Pain and Mouth Opening in Temporomandibular Disorders: An Umbrella and Mapping Systematic Review with Meta-Meta-Analysis. J Clin Med. Jan 18 2023; 12(3). PMID 36769437.

Ash C, Dubec M, Donne K, et al. Effect of wavelength and beam width on penetration in light -tissue interaction using computational methods. Lasers Med Sci. 2017; 32(8):1909-1918.

American Academy of Orthopaedic Surgeons (AAOS). Clinical practice guideline on the treatment of carpal tunnel syndrome. [AAOS Web site]. 2008. Available at:https://aaos.org/quality/quality-programs/upper-extremity-programs/carpal-tunnel-syndrome/. Accessed August 20, 2024.

Bal A, Eksioglu E, Gurcay E, et al. Low-level laser therapy in subacromial impingement syndrome. Photomed Laser Surg. 2009;27(1):31-36.

Barbosa RI, Fonseca MC, Rodrigues EK, et al. Efficacy of low-level laser therapy associated to orthoses for patients with carpal tunnel syndrome: A randomized single-blinded controlled trial. J Back Musculoskelet Rehabil. Sep 25 2015.

Bjordal JM, Johnson MI, Lopes-Martins RA, et al. Short-term efficacy of physical interventions in osteoarthritic knee pain. A systematic review and meta-analysis of randomised placebo-controlled trials. BMC Musculoskelet Disord. 2007;8:51.

Blue Cross and Blue Shield Technology Evaluation Center (TEC). Low-level laser therapy for carpal tunnel syndrome and chronic neck pain. TEC Assessment. Nov 2010;Volume 25, Tab 4.

Brosseau L, Robinson V, Wells G, et al. Low level laser therapy (Classes I, II and III) for treating rheumatoid arthritis. Cochrane Database Syst Rev. 2005(4):CD002049.

Caldieraro MA, Cassano P. Transcranial and systemic photobiomodulation for major depressive disorder: A systemic review of efficacy, tolerability and biological mechanisms. J Affect Disord. 2019;243:262-273.

Calis HT, Berberoglu N, Calis M. Are ultrasound, laser and exercise superior to each other in the treatment of subacromial impingement syndrome? A randomized clinical trial. Eur J Phys Rehabil Med. 2011;47(3):375-380.

Carcia CR, Martin RL, Houck J, et al. Achilles pain, stiffness, and muscle power deficits: achilles tendinitis. J Orthop Sports Phys Ther. 2010;40(9):A1-26.

Carrasco TG, Guerisoli LD, Guerisoli DM, et al. Evaluation of low intensity laser therapy in myofascial pain syndrome. Cranio. 2009;27(4):243-247.

Cassano P, Petrie SR, Mischoulon D, et al. Transcranial photobiomodulation for the treatment of major depressive disorder, The ELATED-2 pilot trial. Photomed Laser Surgery. 2018;20(20):1-13.

Chang J, Ren Y, Wang R, et al. Transcranial low-level laser therapy for depression and alzheimer's disease. JNeuropsychiatry. 2018; 8(2):477-483.

Chang WD, Lee CL, Lin HY, et al. A meta-analysis of clinical effects of low-level laser therapy on temporomandibular joint pain. J Phys Ther Sci. 2014;26(8):1297-1300.

Chang WD, Wu JH, Jiang JA, et al. Carpal tunnel syndrome treated with a diode laser: a controlled treatment of the transverse carpal ligament. Photomed Laser Surg. 2008;26(6):551-557.

Chen C, Hou WH, Chan ES, et al. Phototherapy for treating pressure ulcers. Cochrane Database Syst Rev. 2014;7:CD009224.

Chen J, Huang Z, Ge M, et al. Efficacy of low-level laser therapy in the treatment of TMDs: a meta-analysis of 14 randomised controlled trials. J Oral Rehabil. 2015;42(4):291-299.


Chiu ST, Lai UH, Huang YC, et al. Effect of various photobiomodulation regimens on breast cancer-related lymphedema: A systematic review and meta-analysis. Lasers Med Sci. Dec 22 2023; 39(1): 11. PMID 38129368.

Chou R, Loeser JD, Owens DK, et al. Interventional therapies, surgery, and interdisciplinary rehabilitation for low back pain: an evidence-based clinical practice guideline from the American Pain Society. Spine (Phila Pa 1976). 2009;34(10):1066-1077.

Chou R, Qaseem A, Snow V, et al. Diagnosis and treatment of low back pain: a joint clinical practice guideline from the American College of Physicians and the American Pain Society. Ann Intern Med. 2007;147(7):478-491.

Chow RT, Heller GZ, Barnsley L. The effect of 300 mW, 830 nm laser on chronic neck pain: a double-blind, randomized, placebo-controlled study. Pain. 2006;124(1-2):201-210.

da Cunha LA, Firoozmand LM, da Silva AP, et al. Efficacy of low-level laser therapy in the treatment of temporomandibular disorder. Int Dent J. 2008;58(4):213-217.

Doeuk C, Hersant B, Bosc R, et al. Current indications for low level laser treatment in maxillofacial surgery: a review. Br J Oral Maxillofac Surg. 2015;53(4):309-315.

Dogan SK, Ay S, Evcik D. The effectiveness of low laser therapy in subacromial impingement syndrome: a randomized placebo controlled double-blind prospective study. Clinics (Sao Paulo). 2010;65(10):1019-1022.

Ekim A, Armagan O, Tascioglu F, et al. Effect of low level laser therapy in rheumatoid arthritis patients with carpal tunnel syndrome. Swiss Med Wkly. 2007;137(23-24):347-352.


E
lad SCheng KKFLalla RVYarom NHong CLogan R M.Bowen JGibson RSaunders DPZadik YAriyawardana ACorrea MERanna VBossi Pfor the Mucositis Guidelines Leadership Group of the Multinational Association of Supportive Care in Cancer and International Society of Oral Oncology (MASCC/ISOO)MASCC/ISOO clinical practice guidelines for the management of mucositis secondary to cancer therapyCancer202012644234431

Emshoff R, Bosch R, Pumpel E, et al. Low-level laser therapy for treatment of temporomandibular joint pain: a double-blind and placebo-controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2008;105(4):452-456.

Evcik D, Kavuncu V, Cakir T, et al. Laser therapy in the treatment of carpal tunnel syndrome: a randomized controlled trial. Photomed Laser Surg. 2007;25(1):34-39.


Ferlito JV, Silva CF, Almeida JC, et al. Effects of photobiomodulation therapy (PBMT) on the management of pain intensity and disability in plantar fasciitis: systematic review and meta-analysis. Lasers Med Sci. Jul 18 2023; 38(1): 163. PMID 37464155.

Ferreira B, da Motta Silveira FM, de Orange FA. Low-level laser therapy prevents severe oral mucositis in patients submitted to hematopoietic stem cell transplantation: a randomized clinical trial. Support Care Cancer. 2016;24(3):1035-1042.

Figueiredo AL, Lins L, Cattony AC, et al. Laser therapy in the control of oral mucositis: A meta-analysis. Rev Assoc Med Bras. Oct 9, 2013.

Fikackova H, Dostalova T, Navratil L, et al. Effectiveness of low-level laser therapy in temporomandibular joint disorders: a placebo-controlled study. Photomed Laser Surg. 2007;25(4):297-303.

Gautam AP, Fernandes DJ, Vidyasagar MS, et al. Low level laser therapy against radiation induced oral mucositis in elderly head and neck cancer patients-a randomized placebo controlled trial. J Photochem Photobiol B. 2015;144:51-56.

Gautam AP, Fernandes DJ, Vidyasagar MS, et al. Effect of low-level laser therapy on patient reported measures of oral mucositis and quality of life in head and neck cancer patients receiving chemoradiotherapy--a randomized controlled trial. Support Care Cancer. 2013;21(5):1421-1428.

Gautam AP, Fernandes DJ, Vidyasagar MS, et al. Low Level Helium Neon Laser therapy for chemoradiotherapy induced oral mucositis in oral cancer patients - A randomized controlled trial. Oral Oncol. 2012;48(9):893-897.

Gautam AP, Fernandes DJ, Vidyasagar MS, et al. Low level laser therapy for concurrent chemoradiotherapy induced oral mucositis in head and neck cancer patients - A triple blinded randomized controlled trial. Radiother Oncol. 2012;104(3):349-354.

Gross AR, Dziengo S, Boers O, et al. Low level laser therapy (LLLT) for neck pain: a systematic review and meta-regression. Open Orthop J. 2013;7:396-419.

Huang Z, Chen J, Ma J, et al. Effectiveness of low-level laser therapy in patients with knee osteoarthritis: a systematic review and meta-analysis. Osteoarthritis Cartilage. 2015;23(9):1437-1444.

Huang Z, Ma J, Chen J, et al. The effectiveness of low-level laser therapy for nonspecific chronic low back pain: a systematic review and meta-analysis. Arthritis Res Ther. 2015;17:360.

Irvine J, Chong SL, Amirjani N, et al. Double-blind randomized controlled trial of low-level laser therapy in carpal tunnel syndrome. Muscle Nerve. 2004;30(2):182-187.

Kiritsi O, Tsitas K, Malliaropoulos N, et al. Ultrasonographic evaluation of plantar fasciitis after low-level laser therapy: results of a double-blind, randomized, placebo-controlled trial. Lasers Med Sci. 2010;25(2):275-281.

Konstantinovic LM, Kanjuh ZM, Milovanovic AN, et al. Acute low back pain with radiculopathy: a double-blind, randomized, placebo-controlled study. Photomed Laser Surg. 2010;28(4):553-560.

Lalla RV, Bowen J, Barasch A, et al. MASCC/ISOO clinical practice guidelines for the management of mucositis secondary to cancer therapy. Cancer. 2014;120(10):1453-1461.


Lourinho I, Sousa T, Jardim R, et al. Effects of low-level laser therapy in adults with rheumatoid arthritis: A systematic review and meta-analysis of controlled trials. PLoS One. 2023; 18(9): e0291345. PMID 37683021.


Macias DM, Coughlin MJ, Zang K, et al. Low-Level Laser Therapy at 635 nm for Treatment of Chronic Plantar Fasciitis: A Placebo-Controlled, Randomized Study. J Foot Ankle Surg. 2015;54(5):768-772.

Mandel A, Hamblin MR. A renaissance in low-level laser (light) therapy-LLLT. Phototonics And Lasers In Medicine 1. 2012:4:231-243.

Marini I, Gatto MR, Bonetti GA. Effects of superpulsed low-level laser therapy on temporomandibular joint pain. Clin J Pain. 2010;26(7):611-616.

 

Maŕin-Conde F, Castellanos-Cosano L, Pachón-Ibanez J, et al. Photobiomodulationn with low-level laser therapy reduces oral mucositis caused by head and neck radio-chemotherapy; prospective randomized controlled trial. Int J Oral Maxillofac Surg. 2019. 48(7) 917-923.

 

Martimbianco ALC, Ferreira RES, Latorraca COC, et al. Photobiomodulation with low-level laser therapy for treating achilles tendonopathy; a systematic review and meta-analysis. Clin Rehabil. 2020;34(6)713-722.


Marovino T, Majewski M. Pain therapy options for the home. A patient-based outcome review of at-home pain management devices, including the Willow Curve, Quell, and VibraCool. Practical Pain Management. 2019; 19(1): 56-59.

Matsutani LA, Marques AP, Ferreira EA, et al. Effectiveness of muscle stretching exercises with and without laser therapy at tender points for patients with fibromyalgia. Clin Exp Rheumatol. 2007;25(3):410-415.

Meireles SM, Jones A, Jennings F, et al. Assessment of the effectiveness of low-level laser therapy on the hands of patients with rheumatoid arthritis: a randomized double-blind controlled trial. Clin Rheumatol. 2010;29(5):501-509.

National Comprehensive Cancer Network (NCCN). Head and Neck Cancers.V4.2024. [NCCN Web site]. 05/01/2024. Available at: http://www.nccn.org/professionals/physician_gls/pdf/head-and-neck.pdf. Accessed August 20, 2024.

Oberoi S, Zamperlini-Netto G, Beyene J, et al. Effect of prophylactic low level laser therapy on oral mucositis: a systematic review and meta-analysis. PLoS One. 2014;9(9):e107418.

Oton-Leite AF, Silva GB, Morais MO, et al. Effect of low-level laser therapy on chemoradiotherapy-induced oral mucositis and salivary inflammatory mediators in head and neck cancer patients. Lasers Surg Med. 2015;47(4):296-305.

Omar MT, Shaheen AA, Zafar H. A systematic review of the effect of low-level laser therapy in the management of breast cancer-related lymphedema. Support Care Cancer. 2012;20:2977-2984.

Omar MTA, Ebid AA, El Morsy AM. Treatment of post-mastectomy lymphedema with laser therapy: double blind placebo control randomized study. J Surg Res. 2011;165(1):82-90.

Page MJ, Green S, Kramer S, et al. Electrotherapy modalities for adhesive capsulitis (frozen shoulder). Cochrane Database Syst Rev. 2014;10:CD011324.

 

Peng J, Shi Y, Wang J, et al. Low level laser therapy in the prevention of oral mucositis: a systematic review and meta-analysis. Oral Surg Oral Med Oral Pathol Oral Radiol. 2020;130(4):387-397.

Petrucci A, Sgolastra F, Gatto R, et al. Effectiveness of low-level laser therapy in temporomandibular disorders: a systematic review and meta-analysis. J Orofac Pain. 2011;25(4):298-307.

Ruaro JA, Frez AR, Ruaro MB, et al. Low-level laser therapy to treat fibromyalgia. Lasers Med Sci. 2014;29(6):1815-1819.

Salehpour F, Rasta SH. The potential of transcranial photobiomodulation therapy for treatment of major depressive disorder. Rev Neurosci. 2017;28(4):441-453.

Samson D, Lefevre F, Aronson N. Wound-healing technologies: low-level laser and vacuum-assisted closure. Evid Rep Technol Assess (Summ). 2004(111):1-6.

National Institute for Health and Clinical Excellence (NICE). Low back pain and sciatica in over 16s: assessment and managmenet [NICE Web site]. December 2020. Available at: https://www.nice.org.uk/guidance/ng59. Accessed August 20, 2024.


Schubert MM, Eduardo FP, Guthrie KA, et al. A phase III randomized double-blind placebo-controlled clinical trial to determine the efficacy of low level laser therapy for the prevention of oral mucositis in patients undergoing hematopoietic cell transplantation. Support Care Cancer. 2007;15(10):1145-1154.

Shen B, Zhou Y, Wu D, et al. Efficacy of photobiomodulation therapy in the management of oral mucositis in patients with head and neck cancer: A systematic review and meta-analysis of randomized controlled trials. Head Neck. Apr 2024; 46(4): 936-950. PMID 38265122.


Skelly AC, Chou R, Dettori JR, et al. Noninvasive nonpharmacological treatment for chronic pain: A systematic review. Comparative Effectiveness Review No. 209. (Prepared by the Pacific Northwest Evidence-based Practice Center under Contract No. 290-2015-00009-I). AHRQ Publication No 18-EHC013-EF.


Smoot B, Chiavola-Larson L, Lee J, et al. Effect of low-level laser therapy on pain and swelling in women with breast cancer-related lymphedema: a systematic review and meta-analysis. J Cancer Surviv. 2015;9(2):287-304.

Stergioulas A. Low-power laser treatment in patients with frozen shoulder: preliminary results. Photomed Laser Surg. 2008;26(2):99-105.

Stergioulas A, Stergioula M, Aarskog R, et al. Effects of low-level laser therapy and eccentric exercises in the treatment of recreational athletes with chronic achilles tendinopathy. Am J Sports Med. 2008;36(5):881-887.

Tascioglu F, Degirmenci NA, Ozkan S, et al. Low-level laser in the treatment of carpal tunnel syndrome: clinical, electrophysiological, and ultrasonographical evaluation. Rheumatol Int. 2012;32(2):409-415.

Tumilty S, McDonough S, Hurley DA, et al. Clinical effectiveness of low-level laser therapy as an adjunct to eccentric exercise for the treatment of Achilles' tendinopathy: a randomized controlled trial. Arch Phys MedRehabil. 2012;93(5):733-739.

Venezian GC, da Silva MA, Mazzetto RG, et al. Low level laser effects on pain to palpation and electromyographic activity in TMD patients: a double-blind, randomized, placebo-controlled study. Cranio. 2010;28(2):84-91.

Wu D, Zhao YL, Sun JY, et al. A Nonrandomized Trial of the Effects of Near-Infrared Photobiomodulation Therapy on Bell's Palsy with a Duration of Greater Than 8 Weeks. Photobiomodul Photomed Laser Surg. 2023;41(9):490-500. 


Xu Z, Guo X, Yang Y, et al. Low-level laser irradiation improves depression-like behaviors in mice. Mol Neurobiol. 2017;54(6):4551-4559.

Yeldan I, Cetin E, Ozdincler AR. The effectiveness of low-level laser therapy on shoulder function in subacromial impingement syndrome. Disabil Rehabil. 2009;31(11):935-940.

Yousefi-Nooraie R, Schonstein E, Heidari K, et al. Low level laser therapy for nonspecific low-back pain. Cochrane Database Syst Rev. 2008(2):CD005107.


Zhang Y, Qian Y, Huo K, et al. Efficacy of laser therapy for temporomandibular disorders: A systematic review and meta-analysis. Complement Ther Med. 2023;74:102945.​


Coding

CPT Procedure Code Number(s)
EXPERIMENTAL/INVESTIGATIONAL

97037, 0552T

ICD - 10 Procedure Code Number(s)
N/A

ICD - 10 Diagnosis Code Number(s)
LOW-LEVEL LASER THERAPY (S8948) IS MEDICALLY NECESSARY IN INDIVIDUALS WHO ARE UNDERGOING CANCER TREATMENT

Z51.0 Encounter for antineoplastic radiation therapy

Z51.11 Encounter for antineoplastic chemotherapy

Z92.21 Personal history of antineoplastic chemotherapy

Z92.3 Personal history of irradiation

Z94.84 Stem cells transplant status

HCPCS Level II Code Number(s)
S8948 Application of a modality (requiring constant provider attendance) to one or more areas; low-level laser; each 15 minutes

Revenue Code Number(s)
N/A

Policy History

Revisions From 07.00.14h:
​09/04/2024
​This policy has been reviewed and reissued to communicate the Company’s             
continuing position on Low-level Laser Therapy (LLLT).
01​/02/2024
This policy has been identified for the CPT code update, effective 01/02/2024.

The following CPT code has been added to the policy (Experimental/Investigational):
97037​​

Revisions From 07.00.14g:​​
​02/08/2023

The policy has been reviewed and reissued to communicate the Company’s             
continuing position on Low-level Laser Therapy (LLLT).
05/18/2022

The policy has been reviewed and reissued to communicate the Company’s continuing position on Low-level Laser Therapy (LLLT).
06/02/2021The policy has been reviewed and reissued to communicate the Company’s continuing position on Low-level Laser Therapy (LLLT).
​04/08/2020
The policy has been reviewed and reissued to communicate the Company’s continuing position on Low-level Laser Therapy (LLLT)​.
09/30/2019This version of the policy will become effective 09/30/2019.

The policy has been updated to communicate the Company's experimental/investigational position for low-level laser therapy with dynamic photonic and thermokinetic energy.

The following CPT code has been added to the policy: 0552T.

The following ICD-10 diagnosis codes have been added to the policy:
Z51.0, Z51.11, Z92.21, Z92.3, Z94.84.

Revisions From 07.00.14f:
03/13/2019The policy has been reviewed and reissued to communicate the Company’s continuing position on Low-level Laser Therapy (LLLT).
​03/14/2018
The policy has been reviewed and reissued to communicate the Company’s continuing position on Low-level Laser Therapy (LLLT)​.

Effective 10/05/2017 this policy has been updated to the new policy template format.
01/02/2024
01/02/2024
09/04/2024
07.00.14
Medical Policy Bulletin
Commercial
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