Hubbry Logo
Medical tattooMedical tattooMain
Open search
Medical tattoo
Community hub
Medical tattoo
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Medical tattoo
Medical tattoo
Medical tattoo
View on Wikipedia
from Wikipedia
Medical tattoo: blood type (below razor blade)

A medical tattoo is a tattoo used to treat a condition, communicate medical information, or mark a body location for treatment. People may get a paramedical tattoo to conceal a condition or the effects of treatment, such as creating the appearance of an areola after breast reconstruction, or a cover-up tattoo to disguise the area in an artistic way.

Historical uses

[edit]

Ötzi, a man who lived between 3350 and 3105 BC and whose remains were found near the Austria–Italy border, had tattoos over his joints that may have been part of pain relief treatments similar to acupuncture.[1][2]

A crude practice of corneal tattooing was performed by the Greek physician Galen in 150 CE. He tried to cover leucomatous opacities of the cornea by cauterizing the surface with a heated stilet and applying powdered nutgalls and iron or pulverized pomegranate bark mixed with copper salt.[3] With the rise of Christianity, tattooing declined and eventually became banned by a papal edict in 787 CE.[4]

In 1835, a German doctor named Pauli used mercury sulfide and white lead to tattoo over skin lesions including nevi and purple plaque. Another doctor in the 1850s used mercury sulfide after plastic surgery of the lip.[5][6] The practice of corneal tattooing was revived by Louis de Wecker in the 1870s.[3][7][8] Tattooing of scarred lips with cinnabar began in 1911.[5][6]

To provide medical information

[edit]

During the Cold War, threats of nuclear warfare led several U.S. states to consider blood type tattooing. Programs were spurred in Chicago, Utah and Indiana based on the premise that if an atomic bomb were to strike, the resulting damage would require extremely large amounts of blood within a short amount of time.[9][10][11][12]

Similar to dog tags, members of the U.S. military may have their vital information tattooed on themselves, usually on the rib cage below the armpit; they are referred to as "meat tags".[13][14][15]

Tattoos have also been used to provide notice to emergency personnel that a person has diabetes mellitus; people with this condition may fall into a diabetic coma and be unable to communicate that information.[16][17] Medical alert jewelry, such as bracelets, are the most common way to provide this notice, but some people prefer tattoos due to the cost and inconvenience of losing or breaking jewelry.[18] Because diabetes can impair wound healing, people with diabetes may need to carefully choose the location and timing of a medical tattoo.[18]

For radiation treatment

[edit]

Tattoos have been used as fiducial markers as an aid in guiding radiotherapy.[19] Typically these markers are tattooed in dark permanent ink, but ultraviolet tattoos, which are mostly invisible under normal light, have been studied as an alternative to minimize impact on patient body image.[20][21] Scott Kelly used marker tattoos in the positioning of sonogram probes for multiple checks for atherosclerosis while on a long-duration mission on the International Space Station.[22]

Paramedical tattoos

[edit]
Tattoos over mastectomy scars may restore the appearance of removed nipples and areolas or may be decorative cover-ups.[23]: 10–11 

A paramedical tattoo is a cosmetic tattoo applied to conceal a medical condition or to disguise the results of its treatment, typically in a realistic style. Alternatively, people with skin conditions or scars may choose to get a decorative cover-up tattoo with a piece of art over the area.

During breast reconstruction after mastectomy (removal of the breast for treatment of cancer), or breast reduction surgery, tattooing is sometimes used to replace the areola which has been removed during mastectomy, or to fill in areas of pigment loss which may occur during breast reduction performed with a free nipple graft technique.[24] Since September 2011, the Royal Derby Hospital offers free nipple tattoos for breast surgery patients in order to mask the scars of surgery. The purchase of the tattoo device was funded by the Ashbourne Breast Cancer Walk.[25] Vinnie Myers of Little Vinnie's Tattoos in Finksburg, Maryland, has performed nipple tattoos on over 5,000 women who have undergone surgery for breast cancer, including those of Caitlin Kiernan, who wrote a story about Myers in The New York Times.[26][27] A similar service offered without charge in 2017 by a cosmetic tattooist in the UK was booked up six months ahead.[28] Another option some people choose after mastectomy is to get a decorative tattoo on the chest as body art instead of a reconstruction.[29]

Other uses include simulating the appearance of fingernails and covering scars.[30] Micropigmentation (permanent makeup) can be used to reduce the visibility of vitiligo areas on the skin.[31]

Eyebrow enhancement tattoos such as microblading can provide benefits for individuals with medical conditions like alopecia or trichotillomania, providing a natural-looking restoration of eyebrows lost due to these conditions.

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Medical tattoo

View on Grokipedia
from Grokipedia
Medical tattooing, also referred to as micropigmentation or paramedical tattooing, involves the implantation of inert pigments into the dermal layer of the skin to create permanent markings for therapeutic, reconstructive, or informational purposes in healthcare settings. This practice differs from decorative tattoos by focusing on functional outcomes, such as restoring natural appearance after or trauma, camouflaging dermatological conditions, or conveying critical medical information during emergencies. Common applications include nipple-areola complex (NAC) reconstruction following , where pigments simulate realistic coloration and texture to improve patient satisfaction and psychological well-being, with reported satisfaction rates averaging 91.7% across studies. In reconstructive contexts, medical tattooing addresses visible deformities from procedures like surgery or burns, often requiring multiple sessions (typically 2–7) to achieve optimal pigment matching and blending with surrounding skin. For skin conditions such as or scarring, it restores pigmentation to even out tone, enhancing cosmetic outcomes and , though fading occurs in up to 32% of cases, necessitating touch-ups. Emerging uses extend to scalp micropigmentation for alopecia and even correction, highlighting its versatility in plastic and aesthetic surgery. Medical alert tattoos represent another key category, inscribing essential health details like allergies, , chronic illnesses (e.g., ), or do-not-resuscitate (DNR) directives directly on the body to aid responders when verbal communication is impossible. These tattoos, often placed on visible areas such as the or chest, have influenced patient management in 39% of reported encounters and are supported by 83% of healthcare professionals for their convenience over wearable alerts like bracelets. However, they carry risks including information inaccuracies (e.g., 10% error rate in markings), infection from non-sterile application, and ethical challenges regarding legal validity, particularly for DNR tattoos which are not universally binding. Performed by trained medical professionals, nurses, or specialized tattooists in clinical environments, medical tattooing prioritizes sterile techniques and biocompatible inks to minimize complications like , , or allergic reactions, though long-term fading and remain considerations. Overall, it bridges artistry and , offering non-invasive solutions that significantly boost confidence and functional in diverse clinical scenarios.

History

Early and Historical Uses

The practice of tattooing for medical or identification purposes has ancient roots, with one of the earliest examples found in around 2000 BCE. Tattoos discovered on female mummies from the Middle Kingdom, such as that of , a priestess of from Dynasty XI (c. 2134–1991 BCE), featured dotted and S-shaped patterns on the abdomen and thighs. French physician Daniel Fouquet proposed in 1898 that these markings served a therapeutic function, likely as a treatment for chronic pelvic conditions like , rather than purely ornamental or ritualistic purposes. In various tribal and indigenous cultures, tattoos also played roles in denoting health status, spiritual protection, and clan-specific medical knowledge prior to the 19th century. Among Polynesian societies, traditional tattoos known as tatau were applied to convey social rank, genealogy, and personal attributes, including symbols associated with health, longevity, and healing, such as the honu (turtle) motif representing endurance and well-being. These markings served as visual records of an individual's role within the community, potentially indicating knowledge of herbal remedies or spiritual healing practices passed down through clans. By the in , tattoos were increasingly examined and sometimes proposed for practical identification of prisoners and patients in institutional settings. Criminal anthropologists like Alexandre Lacassagne in and Cesare Lombroso in studied voluntary tattoos on convicts as markers of deviant identity, advocating their use in to track recidivists across borders. Although official state-mandated tattooing remained rare, proposals emerged to apply identifying marks on inmates in prisons and asylums to prevent escape or misidentification, reflecting broader efforts to classify and control marginalized populations through bodily inscription.

Modern Developments

Following , medical tattooing evolved significantly with the introduction of permanent ink markers for in . These small fiducial tattoos, typically placed on the skin to denote treatment fields and central axes, enabled precise positioning and beam alignment during sessions, reducing errors in dose delivery. The practice gained prominence in the in the UK and , coinciding with advancements in megavoltage radiotherapy equipment that demanded higher accuracy to minimize damage to surrounding healthy tissue. During and the era, tattoos were used to mark blood types on soldiers and personnel, facilitating rapid identification and transfusions in emergencies, serving as an early form of medical alert marking. In the and , paramedical tattooing emerged as a distinct , driven by rising rates of surgical interventions such as mastectomies for . This period saw the development of micropigmentation techniques to address post-surgical aesthetic and psychological needs, including scar and reconstruction of natural features. A key milestone was the first reported use of intradermal tattooing for areola reconstruction in 1974, introduced by Bunchman et al., which provided a non-surgical option to simulate the nipple-areola complex and improve patient satisfaction without further invasive procedures. The field expanded in the alongside broader adoption of , with paramedical applications extending to other reconstructive needs like . The 1990s marked further standardization through professional organizations, such as the founding of the Society of Permanent Cosmetic Professionals in 1990, which established guidelines for safe practices in cosmetic and medical tattooing. Concurrently, medical alert tattoos emerged in the early 21st century for chronic conditions like and allergies, serving as permanent identifiers in emergencies as alternatives to removable wearables; though underreported initially, their use reflected growing acceptance of tattoos in healthcare communication.

Applications

Medical Alert and Identification

Medical alert tattoos serve as permanent, visible indicators of critical health information, enabling emergency responders to quickly identify conditions that require specific interventions when patients are unconscious or otherwise unable to communicate. These tattoos typically feature concise phrases or symbols denoting allergies, such as "Penicillin Allergy," chronic illnesses like or with instructions such as "Epilepsy - Do Not Restrain," or essential details like . Placed in accessible locations like the , ankle, or , they offer a reliable alternative to removable medical alert jewelry, particularly for individuals in professions or situations where wearing bracelets or necklaces is impractical. The practice gained notable traction in the post-2000s era, driven by increasing tattoo acceptance and the desire for personalized, durable alerts amid rising chronic disease prevalence. For example, individuals with often opt for forearm tattoos stating "Diabetic - Insulin Dependent" to guide treatment during hypoglycemic episodes. Tattoo artists have reported growing requests for such markings, blending medical facts with aesthetic elements. This rise reflects a broader shift, as an increasing number of have turned to tattoos over traditional alerts, citing issues like loss or discomfort with wearables. The primary benefits lie in their potential to be , providing immediate context that can prevent adverse reactions or delays in care. In unconscious states, such tattoos have proven effective; a 2016 documented instance involved a 56-year-old man with hemophilia whose tattoo alerted providers to his condition during , facilitating prompt replacement therapy and averting severe hemorrhage. Healthcare surveys underscore this impact, with 39% of providers noting that alert tattoos directly influenced management decisions in acute scenarios. Emerging customization trends incorporate scannable QR codes within the tattoo design, linking to comprehensive digital medical records, emergency contacts, or detailed allergy histories accessible via . This addresses limitations of text-only tattoos by enabling rapid access to updated information, though it requires compatible scanning in emergencies. While rooted in 19th-century practices of using tattoos for personal identification among sailors and , modern medical alert tattoos prioritize health-specific utility over mere identity markers.

Radiation Therapy Markers

Radiation therapy markers consist of small, permanent dots or lines tattooed onto the skin to delineate treatment fields and facilitate precise patient alignment during external beam radiotherapy sessions. These markers serve as fixed reference points for radiation therapists to position the patient consistently each day, minimizing variations in beam delivery that could affect treatment efficacy or increase risks to surrounding healthy tissue. This practice has been standard since the 1950s, coinciding with the widespread adoption of megavoltage external beam techniques for cancer treatment. In the procedure, these markers are applied during the initial phase, where imaging such as CT scans defines the treatment area. Typically, 1-3 mm spots of ink are placed at strategic locations—often three to five points including anterior, lateral, and sometimes superior or inferior positions—for sites like or , guiding the alignment of the machine isocenter. The tattoos are created using sterile needles and or similar biocompatible pigments, ensuring they remain visible under treatment room lighting without interfering with imaging modalities. Compared to temporary alternatives such as oil-based pens or stains, permanent offer superior longevity, reducing setup errors by maintaining consistent visibility throughout a multi-week course of treatment. Clinical studies, including quality improvement analyses from the , have demonstrated enhanced isocentre reproducibility with permanent markers, with one trial reporting an increase from 86.7% to 92.1% of treatments within 5 mm of the planned position after optimizing tattoo placement protocols. This permanence contributes to overall setup accuracy, potentially lowering interfraction variations by supporting reliable daily repositioning without the need for frequent re-marking. Variations in marker design include the use of different numbers or positions for multi-beam treatments to distinguish fields and prevent overlap, such as additional lines for tangential fields or clustered dots for setups. While typically black, colored inks may be employed in some centers to differentiate multiple treatment sites or beams. Patient consent is mandatory prior to application, with discussions addressing the lifelong visibility of the marks; research highlights the psychological impact, as these tattoos can serve as enduring reminders of cancer, potentially contributing to emotional distress or concerns among survivors. In modern , developments like surface-guided (SGRT) are increasingly implemented as tattoo-free alternatives to mitigate these issues, with systems like VisionRT enabling optical surface monitoring for precise alignment as of 2025.

Paramedical Reconstruction

Paramedical reconstruction involves the use of micropigmentation, a form of medical tattooing, to restore the natural appearance of the nipple-areola complex following or other breast surgeries, primarily simulating skin color, texture, and subtle anatomical details without additional invasive procedures. This technique emerged in the early 1980s as an adjunct to surgical reconstruction, gaining prominence in the late 1980s and early 1990s as a standalone or complementary method to enhance aesthetic outcomes in recovery. The procedure employs specialized micropigmentation devices to deposit pigments into the dermal layer of the skin, layering multiple shades—typically flesh tones blended with subtle pinks, browns, and grays—to match the patient's natural tone and create realistic pigmentation. Sessions generally last 2 to 3 hours, allowing for precise application over the reconstructed or scarred mound, with practitioners adjusting depth and density to mimic Montgomery glands and fine textural variations. A follow-up touch-up session is commonly scheduled 6 to 8 weeks later to refine color fading and ensure longevity, as pigments may lighten by 20-50% during initial healing due to regeneration. Patient outcomes demonstrate high satisfaction, with systematic reviews reporting average ratings exceeding 90% for restorative tattooing in , attributed to improved and reduced psychological distress post-procedure. Advanced integrations, such as 3D tattooing techniques, further enhance results by using shading, highlighting, and multi-layer pigmentation to produce a raised illusion on flat surfaces, often yielding superior cosmetic without surgical protrusion. Professional standards for paramedical reconstruction are upheld through certifications from organizations like the Society of Permanent Cosmetic Professionals (SPCP), founded in 1990, which offers board-recognized credentials in permanent cosmetics and paramedical tattooing to ensure practitioner competency in safe, sterile techniques. The SPCP's Certified Paramedical Tattoo Professional (CPTP) designation, introduced in 2025 to standardize advanced training, requires documented hours in and paramedical procedures, promoting evidence-based practices in oncology-related applications.

Therapeutic Camouflage

Therapeutic camouflage involves the use of medical tattooing to conceal discolorations and scars resulting from non-surgical medical conditions, such as patches, burn scars, and , by implanting skin-tone matched inks into the . This technique, which gained popularity in the with the development of specialized pigments for semi-permanent applications, aims to blend affected areas with surrounding for a more uniform appearance. It draws on paramedical techniques to apply pigments in a controlled manner, distinguishing it from purely aesthetic procedures. The process typically requires multiple sessions to achieve optimal results, where pigments are blended layer by layer to mimic natural variations in tone, texture, and shading. For instance, in camouflaging port-wine stains, custom mixtures of flesh-toned inks are selected and implanted using fine to match the patient's complexion, often involving initial testing on small areas to ensure color accuracy before full application. Unlike cosmetic tattoos, medical camouflage employs greater depth control and stringent sterility protocols to minimize risk in compromised , with sessions spaced 4-6 weeks apart to allow and color assessment. Clinical evidence supports the efficacy of therapeutic camouflage in enhancing well-being. A 2017 study on dermatography for head and neck scars and skin grafts reported significant improvements in satisfaction and quality-of-life scores post-treatment, with participants noting reduced self-consciousness and better social integration. This aligns with broader findings from systematic reviews indicating that such interventions substantially alleviate distress in individuals with visible skin conditions. Despite its benefits, therapeutic camouflage has notable limitations. It is not recommended for areas with active skin conditions, such as infections, eczema, or ongoing , as the procedure could exacerbate symptoms or lead to poor pigment retention. Additionally, the pigments typically last 5-10 years before fading due to natural turnover and environmental factors, necessitating periodic touch-ups to maintain coverage.

Techniques and Procedures

Application Methods

The application of medical tattoos, also known as micropigmentation, begins with a thorough consultation between the practitioner and the patient to discuss , allergies, expectations, and assessment for optimal outcomes. This step ensures suitability and informs any necessary adjustments, such as for patients undergoing where markers require precise placement. Skin preparation follows, involving thorough cleansing of the treatment area with antiseptics like betadine or spirit to remove debris and reduce risk, followed by application of a topical numbing agent such as EMLA cream or lidocaine, which is left on for 45-60 minutes to minimize discomfort. A or template is then applied to guide the design, ensuring accuracy in areas like scar camouflage or areola reconstruction. The core procedure uses specialized micropigmentation machines, which are lightweight, electrically driven devices operating at 1,500-4,500 rpm, equipped with fine needles in 3-7 prong configurations (e.g., 3 prongs for , 5 for nipple-areola reconstruction and , 7 for brows) for precise deposition. These needles penetrate the upper at controlled depths of 0.8-1.5 mm—shallower than the 1-2 mm typical for decorative tattoos—to achieve subtle, long-lasting results while minimizing tissue trauma. The practitioner deposits in circular or linear movements, working in sections for larger areas. Sterilization protocols are paramount to prevent infections such as or , adhering to standards from health authorities like the , which mandate single-use, pre-sterilized needles and autoclaving of reusable equipment to eliminate microorganisms. Practitioners wear medical gloves, and the workspace is disinfected between sessions. Sessions typically last 1-4 hours, depending on the area's size and complexity, with patients often requiring multiple visits spaced 4-6 weeks apart for touch-ups as pigment settles. Post-procedure aftercare includes applying ointment and a protective dressing, avoiding direct water contact or sun exposure for 3-7 days, and moisturizing the area gently to promote healing and prevent fading. Patients are advised to monitor for signs of and follow up as recommended.

Materials and Equipment

Medical tattooing employs specialized inks formulated to minimize adverse reactions, particularly in sensitive applications such as skin reconstruction. These inks are typically , utilizing non-toxic, organic pigments free from like or mercury to reduce the risk of allergic responses. Iron oxide-based pigments are commonly incorporated in paramedical tattooing, or dermopigmentation, for their stability and compatibility with restoration procedures. Colors are selected to closely match natural tones or to serve as subtle markers, ensuring aesthetic integration without prominent visibility. Equipment for medical tattooing prioritizes precision and sterility, often featuring digital rotary machines with adjustable voltage settings ranging from 6 to 8 volts to control needle depth and speed for delicate skin areas. These machines pair with disposable needle cartridges, which are single-use to eliminate cross-contamination risks and maintain hygiene standards in clinical environments. Safety standards emphasize biocompatible materials that undergo testing for sterility and compatibility with medical imaging. Inks and pigments must be free from contaminants to prevent infections, and many are evaluated for MRI compatibility to avoid heating or distortion in scans, a critical consideration for cancer patients undergoing . Proper expiration and storage guidelines, such as maintaining inks at controlled temperatures away from direct light, ensure pigment integrity and safety during use. Innovations in the include vegetable-derived, vegan inks formulated from plant-based sources, which have gained adoption in paramedical tattooing to further lower rejection rates in patients with sensitive or compromised . These alternatives replace animal-derived components with synthetic or botanical equivalents, enhancing while preserving color vibrancy for applications like scar camouflage.

Risks and Considerations

Health and Safety Risks

Medical tattoos, like other forms of tattooing, carry potential health risks primarily related to infections and allergic responses, though these are generally infrequent when performed under sterile conditions. Infections can occur due to bacterial during the procedure, with common pathogens including and species; in rare cases, blood-borne infections such as or C may arise from inadequate sterilization of equipment. The incidence of post-tattoo infections is estimated at 0.5% to 6% across tattooed individuals, with medical tattooing showing similar or lower rates due to controlled clinical environments. Allergic reactions to pigments, often involving red or yellow inks containing metals like or mercury, manifest as localized swelling, itching, or granulomas and affect less than 1% of recipients, though can persist chronically in susceptible patients. Long-term complications include ink fading or migration, particularly in radiation therapy markers exposed to ionizing radiation, where pigment particles may disperse into deeper dermal layers, leading to blurred or diminished visibility over time. This migration can compromise treatment accuracy if not monitored, as ink nanoparticles have been observed traveling to lymph nodes via the . Emerging research as of 2025 has raised concerns about potential long-term risks, including a possible increased incidence of and skin cancers associated with tattoo ink particles that migrate to lymph nodes and may cause chronic , though further studies are needed to establish causality. Additionally, individuals predisposed to keloid scarring—due to genetic factors or prior hypertrophic responses—face an elevated risk of excessive deposition at tattoo sites, resulting in raised, itchy scars that extend beyond the original area; while overall keloid incidence from tattoos is low (around 1-2% in at-risk populations), it is more prevalent on the chest, shoulders, or earlobes. To mitigate these risks, practitioners conduct pre-procedure screening for allergies using patch tests on inks formulated to minimize metal content and reactivity. Post-procedure care involves applying ointments to prevent bacterial entry and implementing follow-up monitoring protocols, such as weekly check-ins for signs of or . A 2023 clinical study on medical tattooing for capillary malformations reported complication rates of under 2%, including only 1.1% hypertrophic scarring, underscoring the safety in certified settings compared to unregulated practices where rates can exceed 5% due to poor . Using sterile, single-use equipment and biocompatible materials further reduces adverse events, ensuring most patients experience only transient redness or swelling that resolves within days. Medical tattooing, also known as paramedical tattooing, is subject to varying regulations across countries to ensure practitioner competency and public safety. In the United States, licensing requirements for tattoo artists, including those performing paramedical procedures, are determined at the state level, with many states mandating specific training, bloodborne pathogen certification, and facility inspections since the early 2000s to mitigate infection risks. For instance, states like New Mexico require a permanent cosmetic tattoo license obtained through examinations on theory, state law, and practical skills. In the European Union, tattoo inks are not classified as medical devices under the Medical Device Regulation (EU) 2017/745 but are instead regulated under the REACH framework to restrict hazardous substances such as carcinogens and allergens, with key updates in Regulation (EU) 2020/2081 effective from 2022 to enhance ink safety. Informed consent is a cornerstone of ethical practice in medical tattooing, particularly for permanent skin alterations on vulnerable populations like cancer survivors undergoing areola reconstruction or scar camouflage. Practitioners must provide detailed disclosures on procedure risks, permanence, potential fading, and aftercare, often documented via standardized forms that address medical history, allergies, and treatment interactions, such as MRI compatibility. For cancer patients, consent processes emphasize psychological readiness and the elective nature of the procedure, ensuring patients understand that tattoos do not replace medical identification like bracelets. Ethical concerns in medical tattooing center on preventing exploitation of patients in distress, such as those seeking post-mastectomy reconstruction, by promoting transparent pricing, realistic outcome expectations, and avoidance of unsubstantiated claims about therapeutic benefits. Debates persist regarding permanent medical alert tattoos—such as "DNR" or notations—versus temporary alternatives like stickers or wearables, as tattoos lack legal enforceability and may lead to misinterpretation in emergencies, raising dilemmas about patient autonomy and clinician liability. Professional standards are upheld by organizations like the Society of Permanent Cosmetic Professionals (SPCP) and the American Academy of Micropigmentation (AAM), which offer certifications requiring adherence to codes of ethics focused on client welfare, continuing education, and sterile practices.

References

  1. https://pmc.ncbi.nlm.nih.gov/articles/PMC8214112/
  2. https://www.avensonline.org/fulltextarticles/JEMCC-2469-4045-08-0024.html
  3. https://pmc.ncbi.nlm.nih.gov/articles/PMC3381746/
  4. https://blogs.ucl.ac.uk/researchers-in-museums/2012/12/10/tattooed-mummy-amunet/
  5. http://criminocorpus.cnrs.fr/bibliotheque/livre/13/
  6. https://www.smithsonianmag.com/history/tattoos-worldwide-history-144038580/
  7. https://larskrutak.com/embodied-symbols-of-the-south-seas-tattoo-in-polynesia/
  8. https://www.cambridge.org/core/journals/journal-of-british-studies/article/convicts-and-the-cultural-significance-of-tattooing-in-nineteenthcentury-britain/56BAD52719158E45EF348D24176E6692
  9. https://www.bir.org.uk/useful-information/history-of-radiology/1950s/1950s-radiotherapy.aspx
  10. https://pmc.ncbi.nlm.nih.gov/articles/PMC3876603/
  11. https://www.sciencedirect.com/science/article/abs/pii/S0190962207023596
  12. https://link.springer.com/article/10.1007/s00266-020-02047-9
  13. https://pubmed.ncbi.nlm.nih.gov/37263198/
  14. https://www.ellebrow.com/permanent-makeup/permanent-makeup-history-and-evolution
  15. https://www.inkforgirls.com/permanent-makeup-licensing-credentials-legal
  16. https://pubmed.ncbi.nlm.nih.gov/22647627/
  17. https://abcnews.go.com/Health/DiabetesResource/story?id=4028385
  18. https://www.cbc.ca/news/health/medical-alert-tattoos-a-growing-trend-1.1267410
  19. https://www.usatoday.com/story/news/nation/2014/07/24/medical-alert-tattoos-debate/12788747/
  20. https://www.avensonline.org/wp-content/uploads/JEMCC-2469-4045-08-0024.pdf
  21. https://www.cbsnews.com/news/medical-tattoos-with-vital-information-replacing-bracelets-for-some/
  22. https://www.consultant360.com/articles/inked-life-tattoos-medical-alert-mechanism
  23. https://aestheticsbeautylaser.com/medical-tattoos-revolutionizing-patient-safety/
  24. https://www.cancer.gov/about-cancer/treatment/types/radiation-therapy/external-beam
  25. https://www.oncolink.org/cancer-treatment/radiation/support/radiation-therapy-tattoos
  26. https://pmc.ncbi.nlm.nih.gov/articles/PMC10823085/
  27. https://onlinelibrary.wiley.com/doi/10.1002/jmrs.79
  28. https://visionrt.com/applications-for-sgrt/tattoo-mark-free/
  29. https://pmc.ncbi.nlm.nih.gov/articles/PMC7544161/
  30. https://pmc.ncbi.nlm.nih.gov/articles/PMC2884724/
  31. https://pubmed.ncbi.nlm.nih.gov/34350501/
  32. https://www.ouh.nhs.uk/media/gjmhnwli/95367micropigmentation.pdf
  33. https://symetriestudiospa.com/3d-areola-restoration
  34. https://academic.oup.com/asj/article/45/3/271/7911894
  35. https://isips.org/corporate_members/the-society-of-permanent-cosmetic-professionals/
  36. https://spcp.org/paramedical-tattoo-certification
  37. https://pmc.ncbi.nlm.nih.gov/articles/PMC2965902/
  38. https://www.sarajustice.com/blog/the-evolution-of-cosmetic-tattooing/
  39. https://www.sciencedirect.com/science/article/abs/pii/S0738081X07001071
  40. https://www.thelondonscarclinic.com/treatments/medical-tattooing/
  41. https://pmc.ncbi.nlm.nih.gov/articles/PMC11977850/
  42. https://www.killerbeauty.co.uk/blog/cosmetic-vs-medical-tattooing
  43. https://pubmed.ncbi.nlm.nih.gov/27657879/
  44. https://www.sciencedirect.com/science/article/abs/pii/S1740144518301657
  45. https://beautiequeenspa.com/permanent-makeup-can-cover-scars/
  46. https://elitepmu.com/how-long-does-permanent-makeup-for-scar-camouflage-last/
  47. https://my.clevelandclinic.org/health/treatments/11004-micropigmentation
  48. https://pmc.ncbi.nlm.nih.gov/articles/PMC10506827/
  49. https://www.biotic.fr/en/content/129-better-understand-the-skin-to-improve-its-pigmentation
  50. https://www.kingpintattoosupply.com/blogs/news/how-deep-does-tattoo-ink-go-needle-depth-explained
  51. https://www.mayoclinic.org/healthy-lifestyle/adult-health/in-depth/tattoos-and-piercings/art-20045067
  52. https://tattooing101.com/learn/tattoo-equipment/hypoallergenic-tattoo-ink/
  53. https://www.sciencedirect.com/science/article/pii/S2452074825000382
  54. https://www.fda.gov/cosmetics/cosmetic-products/tattoos-permanent-makeup-fact-sheet
  55. https://www.tommyssupplies.com/blogs/news/voltage-demystified-how-to-adjust-tattoo-machine-settings-like-a-pro
  56. https://fytsupplies.com/blogs/guide/why-more-artists-are-switching-to-disposable-tattoo-cartridges
  57. https://pmc.ncbi.nlm.nih.gov/articles/PMC8980837/
  58. https://pmc.ncbi.nlm.nih.gov/articles/PMC6415705/
  59. https://www.starbritecolors.com/blogs/articles/the-ultimate-guide-to-vegan-and-organic-tattoo-inks
  60. https://bmcpublichealth.biomedcentral.com/articles/10.1186/s12889-025-21413-3
  61. https://enluvbeautylounge.com/how-to-become-a-paramedical-tattoo-artist/
  62. https://tattooing101.com/learn/tattoo-license/
  63. https://hyperrealacademy.com/pmu-licensing-requirements-by-state/
  64. https://echa.europa.eu/hot-topics/tattoo-inks
  65. https://www.obelis.net/news/regulating-toxic-chemicals-safer-tattooing-inks-and-permanent-makeup-for-a-safer-eu-market/
  66. https://d1l9wtg77iuzz5.cloudfront.net/assets/3675/121527/original_Consent_for_Tattoo_Application.pdf?1441786
  67. https://form.jotform.com/221306795558161
  68. https://www.cancercenter.com/community/blog/2023/02/what-you-should-know-about-tattoos-and-cancer
  69. https://pmc.ncbi.nlm.nih.gov/articles/PMC3445688/
  70. https://www.acepnow.com/article/do-not-resuscitate-tattoos-are-they-valid/
  71. https://micropigmentation.org/
Add your contribution
Related Hubs
User Avatar
No comments yet.