Biomedical Engineering Reference
In-Depth Information
222. Fitzpatrick RE, Goldman MP. Tattoo removal using the alexandrite
lasers. Arch Dermatol 1994; 130: 1508.
223. Alster TS. Q-switched alexandrite laser treatment (755 nm) of profes-
sional and amateur tattoos. J Am Acad Dermatol 1995; 33: 69.
224. Stafford TJ, Lizek R, Tan OT. Role of the alexandrite laser for removal of
tattoos. Lasers Surg Med 1995; 17: 32.
225. Garcia C, Clark RE. Tattoo removal using the alexandrite laser. NC Med
J 1995; 56: 336.
226. Dozier SE, Diven DG, Jones D, et al. The Q-switched alexandrite laser's
effects on tattoos in guinea pigs and harvested human skin. Dermatol
Surg 1995; 21: 237-40.
227. Moreno-Arias GA, Camps-Fresneda A. The use of Q-switched alexan-
drite laser (755 nm, 100 ns) for eyeliner tattoo removal. J Cut Laser Ther
1999; 1: 113-15.
228. Moreno-Arias GA, Camps-Fresneda A. Cosmetic tattoo refractive to
Q-switched alexandrite laser. J Cut Laser Ther 1999; 1: 117-19.
229. Moreno-Arias GA, Camps-Fresneda A. Use of the Q-switched alexan-
drite laser (755 nm, 100 ns) for eyebrow tattoo removal. Lasers Surg Med
1999; 25: 123-5.
230. Moreno-Arias GA, Casals-Andreu M, Camps-Fresneda A. Use of
Q-switched alexandrite laser (755 nm, 100 ns) for removal of traumatic
tattoo of different origins. Lasers Surg Med 1999; 25: 445-50.
231. Levine VJ, Geronemus RG. Tattoo removal with the Q-switched ruby
laser and the Q-switched Nd:YAG laser: a comparative study. Cutis 1995;
55: 291-6.
232. McMeekin TO, Goodwin DP. A comparison of the alexandrite laser
(755 nm) with the Q-switched ruby laser (694 nm) in the treatment of
tattoos. Lasers Surg Med Suppl 1993; S5: 43.
233. Kaufman R, Boehncke WH, Konig K, Hibst R. Comparative study of
Q-switched Nd:YAG and alexandrite laser treatment of tattoos. Lasers
Surg Med 1993; S5: 54.
234. Zelickson BD, Mehregan D, Zarrin AA, et al. Clinical, histologic, and
ultrastructural evaluation of tattoos treated with three laser systems.
Lasers Surg Med 1994; 15: 364-72.
235. Leuenberger ML, Mulas MW, Hata TR, et al. Comparison of the
Q-switched alexandrite, Nd:YAG, and ruby lasers in treating blue-black
tattoos. Dermatol Surg 1999; 25: 10-14.
236. Goyal S, Arndt KA, Stern RS, O'Hare D, Dover JS. Laser treatment of
tattoos: a prospective, paired, comparison study of the Q-switched
Nd:YAG (1064 nm), frequency-doubled Q-switched Nd:YAG (532 nm),
and Q-switched ruby lasers. J Am Acad Dermatol 1997; 36: 122-5.
237. Boehncke WH, Hibst R, Kaufman R. Within-individual comparison of
Q-switched Nd:YAG and alexandrite lasers in the treatment of mono-
chromatic black amateur tattoos. J Dermatol Treat 1994; 5: 29-32.
238. Kirby W, Desai A, Desai T. The Kirby-Desai scale: A proposed scale to
assess tattoo-removal treatments. J Clin Aesthet Dermatol 2009; 2: 32-7.
239. Kirby W, Koriakos A, Desai A, Desai T. Undesired pigmentary alterations
associated with quality-switched laser tattoo removal treatment: a retro-
spective study and review of the literature. Skin Aging 2010; 18: 38-40.
240. Fusade T, Toubel G, Grognard C, Mazer JM. Treatment of gunpowder
traumatic tattoo by Q-switched Nd:YAG laser: an unusual adverse effect.
Dermatol Surg 2000; 26: 1057-9.
241. Alora MB, Arndt KA, Taylor CR. Scarring following Q-switched laser
treatment of “double tattoos”. Arch Dermatol 2000; 136: 269-70.
242. Kirby W, Kartono F, Desai A, Desai T. Treatment of Bulla in three patients
after treatment with a Q-switched laser. J Clin Aesthet Dermatol 2010; 3:
39-41.
243. Sowden JM, Byrne JP, Smith AG, et al. Red tattoo reactions: X-ray micro-
analysis and patch-test studies. Br J Dermatol 1991; 124: 576-80.
244. Ashinoff R, Levine VJ, Soter NA. Allergic reactions to tattoo pigment
after laser treatment. Dermatol Surg 1995; 21: 291.
245. Vasold R, Naarmann N, Ulrich H, et al. Tattoo pigments are cleaved by
laser light—the chemical analysis in vitro provide evidence for hazard-
ous compounds. Photochem Photobiol 2004; 80: 185-90.
246. Bäumler W, Eibler ET, Hohenleutner U, et al. Q-switch laser and tattoo
pigments: first results of the chemical and photophysical analysis of
41 compounds. Lasers Surg Med 2000; 26: 13-21.
247. Kirby W, Kaur R, Kartono F, Desai A, Desai T. Research letter: Paradoxical
Darkening and Removal of Pink Ink Tattoo. J Cosmet Dermatol 2010;
9: 149-51.
248. Swanson VS. Tattoo ink darkening of a yellow tattoo after Q-switched
laser treatment. Clin Exp Dermatol 2002; 27: 461-3.
249. Cotton FA, Wilkinson G. The transition elements. In: Cotton FA,
Wilkinson G, eds. Advanced Inorganic Chemistry. New York: Interscience,
1972.
250. Anderson RR, Geronemus R, Kilmer SL, Farinelli W, Fitzpatrick RE.
Cosmetic tattoo ink darkening. A complication of Q-switched and
pulsed-laser treatment. Arch Dermatol 1993; 129: 1010-14.
251. Ross V, Naseef G, Lin G, et al. Comparison of responses of tattoos to
picosecond and nanosecond Q-switched neodymium:YAG lasers. Arch
Dermatol 1998; 134: 167.
252. Shelley WB, Shelley ED, Burmeister V. Tattoos from insulin needles.
Ann Intern Med 1986; 105: 549-50.
253. Balsam MS, Sagarin E, eds. Cosmetics: Science and Technology, 2nd edn.
New York: Wiley-Interscience, 1974.
254. Angres GA. Angres permalid-liner method: a new surgical procedure.
Am J Ophthalmol 1984; 16: 145.
255. Farber MG, Lamberg RC, Smith ME. A histologic study of eyelid pig-
ment eight weeks after implantation (eyelid tattoo). Arch Ophthalmol
1986; 104: 1434.
256. Angres GG. Blepharo and dermapigmentation techniques for facial cos-
mesis. Ear Nose Throat J 1987; 66: 344.
257. Putterman AM, Migliori ME. Elective excision of permanent eyeliner.
Arch Ophthalmol 1988; 106: 1034.
258. Dedio RM, Henry WJ, Scipione CR. Surgical removal of blepharopig-
mentation. Am J Cosmet Surg 1990; 7: 93.
259. Kirby W, Chen C, Desai A, Desai T. Successful treatment of cosmetic
mucosal tattoos via Q-switched laser. Dermatol Surg 2011; 37: 1767-9.
260. Shah G, Alster TS. Treatment of amalgam tattoo with a Q-switched alex-
andrite (755 nm) laser. Dermatol Surg 2002; 28: 1180-1.
261. Weiss ET, Geronemus RG. Combining fractional Resurfacing and
q-switched Ruby laser for tattoo removal. Dermatol Surg 2011; 37: 97.
262. Herd RM, Alora MB, Smoller B, Arndt KA, Dover JS. A clinical and his-
tologic prospective controlled comparative study of the picosecond
titanium:sapphire (795 nm) laser versus the Q-switched alexandrite
(752 nm) laser for removing tattoo pigment. J Am Acad Dermatol 1999;
40: 603-6.
263. Aschwanden A, Lorenser D, Unold HJ, et al. 2.1 Picosecond passively
mode-locked external-cavity semiconductor laser. Opt Lett 2005; 30:
272-4.
264. Audebert P, Renaudin P, Bastiani-Ceccotti S, et al. Picosecond time-
resolved X-ray absorption spectroscopy of ultrafast aluminum plasmas.
Phys Rev Lett 2005; 94: 025004; Epub 2005.
265. Izikson L, Farinelli W, Sakamoto F, et al. Safety and effectiveness of black
tattoo clearance in a pig model after a single treatment with a novel 758
nm 500 picosecond laser: a pilot study. Lasers Surg Med 2010; 42: 640-6.
266. Kossida T, Rigopoulos D, et al. Optimal tattoo removal in a single session
based on the method of repeated exposures. J Am Acad Dermatol 2012;
66: 271-7.
267. Cohen PR, Goldman MP. The adjuvant use of macrophage colony stim-
ulating factor in tattoo removal using laser. Med Hypotheses 1995; 45:
83-5.
268. Ramirez M, Magee N, Diven D, et al. Triweekly topical 5% imiquimod
cream fades experimental tattoos in guinea pigs. Cosmet Dermatol 2005;
18: 155-61.
269. Solis RR, Diven DG, Colome-Grimmer MI, Snyder N IV, Wagner RF Jr.
Experimental nonsurgical tattoo removal in a guinea pig model with
topical imiquimod and tretinoin. Dermatol Surg 2002; 28: 83-7.
270. Berman B, Poochareon VN, Villa AM. Novel dermatologic uses of the
immune response modifier imiquimod 5% cream. Skin Therapy Lett
2002; 7: 1-6.
271. Magee NS, Zamora JG, Colome-Grimmer MI, Wagner RF Jr. Triweekly
topical 5% imiquimod cream fades experimental tattoos in guinea pigs.
Cosmet Dermatol 2005; 18: 155-61.
