Wikipedia

Life Length

Life Length[2] is a biotechnology company.[3] Located in Madrid, it provides telomere diagnostics as well as telomerase measurement.[4][5]

Life Length
IndustryNutraceutical
Cell Therapy
Gene Therapy
Biotechnology
Pharmaceutical
Health administration
Oncology[1]
Founded2010
FounderStephen J. Matlin
HeadquartersMadrid, Spain
ProductsCosmetics
Websitelifelength.com

It was founded by American entrepreneur Stephen J. Matlin and Dr. María Blasco Marhuenda[6] in 2010 with the objective to commercialize Blasco's HT Q-FISH conceptual work.[7]

Life Length is Spain's only federally-accredited laboratory under CLIA.[8] Life Length has three main facilities, with offices in Madrid and laboratories located in Tres Cantos.[9][10]

History edit

The company has greatly increased its research and development throughout the years and continues today to investigate and take part in many other projects:

  • 2010. Life Length was founded on September 28 as a spin-off of the Spanish National Cancer Research Center.
  • 2016. CLIA certification is obtained, the highest U.S. government certification, and becomes the only federal laboratory in Spain.
  • 2017. ONCOCHECK, a project made up of a series of clinical studies, received a funding of €3.1 million from the European Union's Horizon 2020 research and innovation program.[11]
  • 2021. The clinic in Paseo del General Martinez Campos, 46 made its opening and quickly became the most highly rated clinic in Europe (per Google Reviews).
  • 2022. The prostate cancer diagnosis product obtained the operating license from the AEMPS (Agency), and HEALTHTAV is launched.

Telomeres and their importance to the company edit

 
Telomere
 
Life Length Laboratory

Telomeres are part of our DNA and are found at the ends of chromosomes. Their function is to protect our DNA during each cell division by preventing chromosomes from adhering to each other or from losing important information. They represent the most precise biomarker to measure aging. Telomere deterioration has been associated with the ageing process and many other diseases. Over the years, every time a cell divides, our telomeres successively shorten up to a point where the cells cannot divide any more. Subsequently, they either undergo a process called apoptosis (cells progressively die) or go into senescence (they lose their function). Many studies link long telomeres and a slower rate of telomere shortening with greater longevity. For example, research done on mice showed that individuals with hyper-long telomeres lived 13% longer than those with normal telomeres. However, they also store less fat, which also contributes to greater longevity. Due to the impact, they have at the cellular level, the length of telomeres and their rate of shortening is considered a relevant biomarker for assessing the state of aging of the entire organism.

Projects edit

Oncocheck [12]

ONCOCHECK is a set of clinical studies conducted by Life Length during 2017. The aim of the project was the clinical validation of telomere-associated variables (TAVs) as cancer biomarkers. It involved more than 1,200 adults and 300 children suffering from one of multiple existing types of cancer, including breast, prostate, lung, and leukemia cancers, among others. ONCOCHECK received funding from the European Union's Horizon 2020 [13] research and innovation program. With more than 7,000 peer-reviewed scientific and clinical publications, telomere length measurement has established itself as a biomarker in cancer diagnosis and prognosis. This project has the invaluable support of some of the most important hospitals in Spain such as "University Hospital 12 de octubre", "University Hospital Puerta de Hierro", "University Hospital Niño Jesús", "Vall d'Hebron Hospital", and "Centro Integral Oncológico Clara Campal (CIOCC)". Within the ONCOCHECK project, Life Length is also conducting studies in advanced solid tumors and chronic lymphocytic leukemia (CLL). The results of the ONCOCHECK project have enabled Life Length to develop new applications in oncology .[14]

Prostate cancer diagnosis product [15]

Telomeres as cancer biomarkers: Tumor cells work differently from normal cells. As a cell becomes cancerous, it divides more frequently, and its telomeres shorten faster. Cancer cells avoid senescence/death and instead become immortal with the ability to replicate indefinitely, even when telomeres are short. Therefore, alterations in telomere length have great potential as a biomarker in cancer.

Prostate cancer is the second most occurring cancer for men around the world today. 1 out of 8 men suffer from it every year.[citation needed] This diagnosis is an in vitro diagnostic test (IVD) that makes it possible to identify patients with a higher risk of suffering from aggressive prostate cancer. The prostate cancer diagnosis product, combined with the current screening method, can potentially prevent hundreds of prostate biopsies annually.[citation needed] Life Length has launched it on the market in 2022. It is a test that provides doctors with a useful and rapid tool for clinical decision-making. This test is a minimally invasive procedure that only requires a blood sample from the patient.

Other studies edit

Lung cancer - Life Length is working on developing an algorithm to detect patients at risk for lung cancer. With its telomere measurement platform, the test could potentially fill the gap in lung cancer screening techniques in a routine, minimally invasive, and low-cost way. Life Length was the European Seal of Excellence [16] by the European Commission[17] for its project proposal in lung cancer research. 

Childhood cancer - Life Length has conducted the largest childhood cancer research project to date, obtaining samples from about 100 children with cancer and healthy children. The aim of the study was to help oncology and hematology specialists make better decisions and increase the chances of these children beating cancer. Life Length has carried out these studies with the support of one of the most important children's hospitals in Spain, the Hospital Infantil Universitario Niño Jesús.

More studies and projects edit

  • Brain Age: Environmental influences in prenatal life have a major impact on brain aging and age-associated brain disorders. Aging is considered as a major risk factor of most neurogenerative diseases such as Alzheimer's or Parkinson's disease for example.[18]
  • EuroBATS: Studies that uses both genetic and biological approaches. Study of 8,000 identical twins to identify markers of aging. The use of improving the length of the telomeres will be used in this process.[19]
  • Frailomic: Utility of biomarkers to characterize elderly individuals at risk for frailty, its progression to disability outcomes, and overall health and well-being consequences. The main objective is to prevent and detect frailty before suffering from it.[20]

Accreditations edit

Life Length is considered the most accredited clinical laboratory in Spain.[citation needed]

License: The center of Health Facilities and Regulation authorized Life Length to conduct and maintain an Out of State Clinical Laboratory in conformity with RIGL C23-16.2.

License: Pursuant to Section 353 of the Public Health Services Act (42 U.S.C. 263a) as revised by the Clinical Laboratory Improvement Amendments (CLIA).

License: Pursuant to the provisions of TITLE 17, subtitle 2, Health-General Article 17-201 et seq., Annotated Code of Maryland

  • Pennsylvania Department of Health – The company´s objective is to promote healthy behaviors, prevent injury and disease, and assure the safe delivery of quality health care.

License: Pursuant of the act of September 26, 1951, P.L., 1539 as amended, a Permit to operate a Clinical Laboratory.

  • Salud Madrid[25]– The Servicio Madrileño de Salud is responsible for the system of public health services in the Community of Madrid. This public provider accredits the extraction of samples in non-health organizations.

License: C.2.5.6 Centro de diagnóstico con unidades de U.72 Obtención de muestras, U.73 Análisis clínicos y U.74 Bioquímica clínica

Scientific publications edit

Life Length has published to date the following articles:[26]

In addition, numerous clients of Life Length have published articles based on the results for work performed by the company demonstrating the uniqueness of the TAT® and related technologies:

  • Engineering osteoarthritic cartilage model through differentiating senescent human mesenchymal stem cells for testing disease-modifying drugs [27]
  • Bovine Colostrum, Telomeres and Skin aging [28]
  • Long-term Stability and Differentiation Potential of Cryopreserved CGMP-compliant Human Induced Pluripotent Stem Cells [29]
  • Ergothioneine Mitigates Telomere Shortening under Oxidative Stress Conditions [30]
  • Effect of Lutein (Lute-gen®) on Proliferation Rate and Telomere Length In Vitro and Possible Mechanism of Action [31]
  • The Telomere Gestational Clock: Increasing Short Telomeres at Term in the Mouse [32]
  • A Stably Self-Renewing Adult Blood-derived Induced Neural Stem Cell Exhibiting Pattern Ability and Epigenetic Rejuvenation [33]
  • Study of Telomere Length in Preimplanted Cultured Chondrocytes [34]
  • A Natural Product Telomerase Activator Lengthens Telomeres in Humans: A Randomized, Double Blind, and Placebo Controlled Study [35]
  • Zen meditation, Length of Telomeres, and the Role of Experiential Avoidance and Compassion [36]
  • Prenatal Undernutrition and Leukocyte Telomere Length in Late Adulthood: The Dutch famine birth cohort study [37]
  • Personal Omics Profiling Reveals Dynamic Molecular and Medical Phenotypes [38]
  • The Telomerase Activator TA-65 Elongates Short Telomeres and Increases Health Span of Adult/Old Mice Without Increasing Cancer Incidence [39]

References edit

  1. ^ "AEMPS". 29 September 2020.
  2. ^ "LifeLength".
  3. ^ "Biological age".
  4. ^ "Telomeres".
  5. ^ "Our technologies".
  6. ^ "CNIO".
  7. ^ Poon SSS; Lansdorp, P. M. (2001). "Q-FISH". Current Protocols in Cell Biology. Chapter 18: 18.4.1–18.4.21. doi:10.1002/0471143030.cb1804s12. PMID 18228343. S2CID 24314770.
  8. ^ "CLIA".
  9. ^ "Paseo de General Martínez Campos".
  10. ^ "Miguel Angel 11".
  11. ^ "European Horizon 2020 research and innovation programme".
  12. ^ "ONCOCHECK".
  13. ^ "Hirizon 2020".
  14. ^ "Oncological diagnosis".
  15. ^ "Life Length's Prostate cancer diagnosis product".
  16. ^ "Seal of Excellence".
  17. ^ "European Commission".
  18. ^ Azam, S.; Haque, M. E.; Balakrishnan, R.; Kim, I. S.; Choi, D. K. (2021). "The Ageing Brain". Frontiers in Cell and Developmental Biology. 9: 683459. doi:10.3389/fcell.2021.683459. PMC 8414981. PMID 34485280.
  19. ^ "EuroBATS".
  20. ^ "FRAILomic".
  21. ^ "ISO".
  22. ^ "CMS".
  23. ^ "A2LA".
  24. ^ "Maryland Department of Health".
  25. ^ "CMS".
  26. ^ "Scientific Publications".
  27. ^ Wang, N.; He, Y.; Liu, S.; Makarcyzk, M. J.; Lei, G.; Chang, A.; Alexander, P. G.; Hao, T.; Padget, A. M.; De Pedro, N.; Menelaos, T.; Lin, H. (2022). "Engineering Osteoarthritic Cartilage Model". Science China Life Sciences. 65 (2): 309–327. doi:10.1007/s11427-021-1933-7. PMC 10077511. PMID 34109475. S2CID 235393377.
  28. ^ Jogi, R.; Tager, M. J.; Perez, D.; Tsapekos, M. (2021). "Bovine Colostrum, Telomeres and Skin aging". Journal of Drugs in Dermatology. 20 (5): 538–545. PMID 33938706.
  29. ^ Shafa, M.; Walsh, T.; Panchalingam, K. M.; Richardson, T.; Menendez, L.; Tian, X.; Suresh Babu, S.; Dadgar, S.; Beller, J.; Yang, F.; Baghbaderani, B. A. (2019). "Long-term Stability and Differentiation Potential of Cryopreserved CGMP-compliant Human Induced Pluripotent Stem Cells". International Journal of Molecular Sciences. 21 (1): 108. doi:10.3390/ijms21010108. PMC 6982271. PMID 31877913.
  30. ^ Samuel, P.; Tsapekos, M.; De Pedro, N.; Liu, A. G.; Casey Lippmeier, J.; Chen, S. (2022). "Ergothioneine Mitigates Telomere Shortening under Oxidative Stress Conditions". Journal of Dietary Supplements. 19 (2): 212–225. doi:10.1080/19390211.2020.1854919. PMID 33287595. S2CID 227953602.
  31. ^ Mehkri, S.; Perez, Diego; Najarro, Pilar; Tsapekos, Menelaos; Bopanna, K. N. (July 2019). "Effect of Lutein (Lute-gen®) on Proliferation Rate and Telomere Length In Vitro and Possible Mechanism of Action". International Journal of Biology Research. 4 (3): 84–91.
  32. ^ Phillippe, M.; Sawyer, M. R.; Edelson, P. K. (2019). "The Telomere Gestational Clock". American Journal of Obstetrics and Gynecology. 220 (5): 496.e1–496.e8. doi:10.1016/j.ajog.2019.01.218. PMID 30690015. S2CID 59342701.
  33. ^ Sheng, C.; Jungverdorben, J.; Wiethoff, H.; Lin, Q.; Flitsch, L. J.; Eckert, D.; Hebisch, M.; Fischer, J.; Kesavan, J.; Weykopf, B.; Schneider, L.; Holtkamp, D.; Beck, H.; Till, A.; Wüllner, U.; Ziller, M. J.; Wagner, W.; Peitz, M.; Brüstle, O. (2018). "A Stably Self-Renewing Adult Blood-derived Induced Neural Stem Cell Exhibiting Pattern Ability and Epigenetic Rejuvenation". Nature Communications. 9 (1): 4047. Bibcode:2018NatCo...9.4047S. doi:10.1038/s41467-018-06398-5. PMC 6168501. PMID 30279449.
  34. ^ López-Alcorocho, J. M.; Guillén-Vicente, I.; Rodríguez-Iñigo, E.; Guillén-Vicente, M.; Fernández-Jaén, T. F.; Caballero, R.; Casqueiro, M.; Najarro, P.; Abelow, S.; Guillén-García, P. (2019). "Study of Telomere Length in Preimplanted Cultured Chondrocytes". Cartilage. 10 (1): 36–42. doi:10.1177/1947603517749918. PMC 6376562. PMID 29322876.
  35. ^ Salvador, L.; Singaravelu, G.; Harley, C. B.; Flom, P.; Suram, A.; Raffaele, J. M. (2016). "A Natural Product Telomerase Activator Lengthens Telomeres in Humans". Rejuvenation Research. 19 (6): 478–484. doi:10.1089/rej.2015.1793. PMC 5178008. PMID 26950204.
  36. ^ Alda, M.; Puebla-Guedea, M.; Rodero, B.; Demarzo, M.; Montero-Marin, J.; Roca, M.; Garcia-Campayo, J. (2016). "Zen meditation, Length of Telomeres, and the Role of Experiential Avoidance and Compassion". Mindfulness. 7 (3): 651–659. doi:10.1007/s12671-016-0500-5. PMC 4859856. PMID 27217844.
  37. ^ De Rooij, S. R.; Van Pelt, A. M.; Ozanne, S. E.; Korver, C. M.; Van Daalen, S. K.; Painter, R. C.; Schwab, M.; Viegas, M. H.; Roseboom, T. J. (2015). "Prenatal Undernutrition and Leukocyte Telomere Length in Late Adulthood". The American Journal of Clinical Nutrition. 102 (3): 655–660. doi:10.3945/ajcn.115.112326. PMID 26178721. S2CID 4493294.
  38. ^ Chen, R.; et al. (2012). "Personal Omics Profiling Reveals Dynamic Molecular and Medical Phenotypes". Cell. 148 (6): 1293–1507. doi:10.1016/j.cell.2012.02.009. PMC 3341616. PMID 22424236.
  39. ^ Bernardes De Jesus, B.; Schneeberger, K.; Vera, E.; Tejera, A.; Harley, C. B.; Blasco, M. A. (2011). "The Telomerase Activator TA-65". Aging Cell. 10 (4): 604–621. doi:10.1111/j.1474-9726.2011.00700.x. PMC 3627294. PMID 21426483.
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