Skin Laser & Surgery Specialists Of New York & New Jersey
About David J. Goldberg MD.
Our Centers & Staff
Our Centers in the Media
Cosmetic Laser Procedures
Cosmetic Dermatology Treatments
Comprehensive Skin Care
Mohs Micrographic Surgery
Patient Information
Take Our Online Quiz
Request an Appointment
Contact Information



Dr. Goldberg's Biography
Academic Publications
Lectures & Appearances
Societies & Memberships
Dr. Goldberg's Books  
   






David J. Goldberg, M.D.


 
   
Title Description
Clinical, Laboratory, and MRI Analysis of Cellulite Treatment with a Unipolar Radiofrequency Device. Cellulite is seen in more than 85% of postpubertal women. Recent studies show that bipolar radiofrequency and low-level laser devices can produce mild skin tightening of cellulite. The primary objective was to determine if a novel unipolar, more deeply penetrating, radiofrequency device can promote better skin tightening with fewer treatments than is seen with previously described devices. The secondary objective was to determine if such a deeply penetrating device produced undesired effects on lipid metabolism.
The Use of Photodynamic Therapy in Dermatology: Results of a Consensus Conference Photodynamic therapy (PDT) has significant promise in improving outcomes of patients with a variety of cutaneous conditions. A group of experts, including Dr. Goldberg, met to review the principles, indications, and clinical benefits of PDT using ALA. The experts established consensus statements for pretreatment, posttreatment, ALA contact time, light sources, and numbers of sessions associated with ALA PDT for actinic keratosis and superficial basal cell carcinoma, photorejuvenation and cosmetic enhancement, acne, sebaceous skin, rosacea, and rhinophyma. They based consensus recommendations on their clinical experience and the medical literature.
Acne scar correction using calcium hydroxylapatite in a carrier-based gel This study sought to determine the efficacy and safety profile of calcium hydroxylapatite filler in the treatment of acne scars.
Use of phosphatidylcholine for the correction of lower lid bulging due to prominent fat pads Orbital fat tissue, while important in protecting the eye, can protrude during aging, making a patient look tired’. Surgical correction, although traditionally the treatment of choice, can lead to scarring. Phosphatidylcholine (PPT) has been shown to reduce the size of these fat pads after direct injection. The compound, licensed in Europe for intravenous treatment of fat embolism, has recently gained interest for reducing localized fat by subcutaneous injection. However, there is a dearth of clinical data relating to efficacy and side effects.
Effect of temperature-controlled cooling on light-based skin treatments A consideration of skin cooling requires an evaluation of both body and skin temperatures.
Past, present and future: Vascular lasers / light devices Vascular lasers were among the first available cutaneous light-based technologies. The past 20 years has seen a variety of safe and effective laser and light-based vascular treatment devices. This article provides a review of the medical and scientific literature, which concludes that newer lasers have led to increasing success and safety in the treatment of cutaneous vascular lesions.
Laser removal of pigmented and vascular lesions The purpose of this review article is to present the current treatment options for the common aesthetic complaints of pigmented and vascular lesions.
Treatment of terminal and vellus non-pigmented hairs with an optical/bipolar radiofrequency energy source – with and with out pre-treatment using topical aminolevulinic acid The present study compares the 6-month removal efficacy of a combined pulsed light bipolar radiofrequency device with and with out pre-treatment using topical aminolevulinic acid.
Superficial erbium:YAG laser resurfacing of photodamaged skin Light chemical peels and microdermabrasion have enjoyed recent popularity for the treatment of mild photoaging. However, clinical improvement from these modalities is often minimal from both a patient’s and physician’s perspective. Erbium:YAG lasers have been effective in treating mild to moderate photoaging, but the need for either regional or general anesthesia, as well as the significant post-treatment recovery period has limited its use.
Nonablative Laser Surgery for Pigmented Skin Nonablative laser surgery has been proven to improve early photodamaged skin and acne scars. These techniques include treatments with lasers, light sources, and/or radiofrequency devices.
Legal Issues in Laser Operation Increased demand for non-invasive cosmetic laser procedures has led to an increase in the use of physician extenders. This will deal with the concept of negligence and the potential for a resultant medical malpractice that may arise when these procedures are performed by physician extenders.
Laser Physician Legal Responsibility for Physician Extender Treatments Increased demand for non-invasive cosmetic laser procedures has led to an increase in the use of physician extenders (PE). This demand has now led to a variety of medical legal concerns surrounding the use of lasers by non-physician PE.
Comparative Treatment of Small Diameter (400mmm) Vascular Lesions Using Extended Pulse Dye Lasers Extended-pulse dye lasers (EPDL) are commonly used to treat a variety of vascular lesions. This study evaluated whether differences in pulse formats and cooling methods might affect outcome in the treatment of small facial telangiectasia.
Combination blue (415nm) and red (633nm) LED phototherapy in the treatment of mild to severe acne vulgaris Acne vulgaris represents both a challenge to the treating dermatologist and a major concern for the patient. Conventional treatments have proved inconsistent with often unacceptable side effects and high rates of recurrence. Non-thermal, non-laser, phototherapy for acne with a combination of blue and red light has recently attracted attention. The present study was designed to assess the efficacy of this combination phototherapy.
Clinical Comparison of Four Hair Removal Lasers & Lightsources There are few clinical studies directly comparing the efficacy of multiple hair removal systems in the same individual. This study evaluates the efficacy of four highly popular systems for hair removal.
Histologic and Ultrastructural Analysis of Ultraviolet B Laser and Light Source Treatment of Leukoderma in Striae Distensae Lasers and light sources emitting ultraviolet B (UVB) irradiation have been shown to repigment striae distensae.
Ultrastructural changes seen after ALA-IPL photorejuvenation: A pilot study Intense pulse light (IPL) treatment currently represents one of the most popular non-ablative photodamage skin treatments. Recent anecdotal evidence suggests that aminolevulonic acid (ALA) photodynamic therapy using IPL as a light source is superior to IPL alone for photorejuvenation.
Treatment of terminal and vellus non-pigmented hairs with an optical/ bipolar radiofrequency energy source-with and without pre-treatment using topical aminolevulinic acid Effective laser hair removal of pigmented hairs can be accomplished with a variety of melanin absorbing wavelengths. Such effective systems include 694-1064-nm laser systems and a variety of light based technologies. An alternative approach, albeit experimental in nature has been to pre-treat unwanted hair with a light-absorbing photosensitizer and/or photo-absorbing agent. Topically applied aminolevulinic acid has been shown to promote photoepilation.
Clinical, histologic and electron microscopic findings after injection of a calcium hydroxylapatite filler Evaluation of the clinical, histologic and electron microscopic ultra-structural changes seen with CaHa (Radiesse) at 1 and 6 months after skin injection.
Multicenter Study of Noninvasive Radiofrequency for Periorbital Tissue Tightening This 6-month study evaluated the efficacy and safety of treatment with a nonablative radiofrequency (RF) device.
Nonablative Facial Remodeling A variety of nonablative lasers have been used to improve skin color and toning. Evidence of new collagen has been seen. Using blinded observer analysis of electron microscopic changes, we have documented the effect of a nonablative Nd:YAG laser on collagen production and its relationship to patient age.
Noninvasive Cosmetic Treatments for the Aging Face This article reviews several noninvasive cosmetic treatments for the aging face that may be effective alternatives for patients who wish to avoid surgery.
Non-Ablative Laser Treatment of Facial Rhytides Non-ablative dermal remodeling has been shown to create new dermal collagen. This is thought to occur secondary to a laser-induced effect in the skin. Such procedures are cosmetically elegant.
Current therapy of Laser hair removal An in-depth look at long term laser hair removal.
Millisecond 1064-nm Neodymium:YAG Laser Treatment of Facial Telangiectases Millisecond pulse duration 1064-nm Neodymium:YAG (Nd:YAG) lasers have been shown to be effective in the treatment of both lower leg and facial spider veins.
Lasers for Facial Rejuvenation Laser and laser-like assisted facial rejuvenation has become very popular during the last decade. They can be divided into four basic techniques. Here is an in-depth look at each of these processes.
Atrophic and a Mixed Pattern of Acne Scars Improved Acne scar correction remains a challenge to the dermatologic surgeon. With nonablative laser resurfacing, this correction is related to dermal collagen remodeling and acne scar reorganization. This procedures leads to no obvious wounds.
Topical Suspension-assisted Q-switched Nd:YAG laser hair removal This 12-week study evaluated the use of lasers in hair removal.
Congenital and acquired pigmented lesions: to treat or not to treat with lasers? A variety of laser systems can be used to remove pigmented lesions. This article reviews several different options patients have to choose from.
Nonablative Resurfacing Nonablative or subsurface remodeling represents the newest approach to improve skin.
Laser Treatment of Vascular Lesions This article reviews the use of lasers to treat vascular lesions.
Laser Treatment Of Pigmented Lesions A complete look at how lasers are used to treat pigmented lesions.
Unwanted Hair: Evaluation and Treatment With Lasers and Light Lasers and light sources are now used to treat a variety of vascular and pigmented lesions with enormous success. More recently, there has been interest in the role of these technologies in the treatment of unwanted hair. This chapter describes the currently available lasers and light sources used for the treatment of unwanted hair.
 
 
   
Articles
1. Felig, P, Sherwin, RS, Goldberg, DJ et al: Hormonal Interactions in the regulation of blood glucose. Recent Prog Horm, Res., 35:322, 327, 1979.
2. Goldberg, DJ, Walskey, M, Sherwin, RS: Effect of somatostatin on the plasma amino acid response to ingested protein in man. Metabolism 28:866-890, 1979.
3. Goldberg, DJ: Amelanotic Melanoma Presenting as Bowen's Disease, J Derm Surg Oncol 9:902-904, 1983.
4. Goldberg, DJ, Bystryn, J-C: Regional variation in the expression of Bullous Pemphigoid Antigen in Human Skin. J. Inv Derm 80:354-356, 1983.
5. Goldberg, DJ, Bystryn, J-C: Regional variation in the expression of Bullous Pemphigoid Antigen and Location of Lesions in Bullous Pemphigoid. J. Inves Derm 82:326-331, 1984.
6. Goldberg, DJ: Multiple Vulvar Basal Cell Carcinomas. J Derm Surg Oncol 10:615-617, 1984.
7. Goldberg, DJ, Sabolinski, M, Bystryn, J-C: Human skin as a substrate for indirect immunofluorescent testing in Bullous Pemphigoid. Arch Derm 121:1137-1140, 1985.
8. Sarnoff, DS, Goldberg, DJ, Greenspan, AH, Albom, MJ: Multiple Pyogenic Granuloma-like lesions following hair transplantation. J Derm Surg Oncol 11:32-34, 1985.
9. Goldberg, DJ, Kechijian, P, Schinella, RS: Early onset hypopigmentation in Mycosis Fungoides. Am J Dermatopath 8:326-331, 1986.
10. Goldberg, DJ: Melanonychia Striata. J Derm Surg Oncol 12: 188-189, 1986.
11. Goldberg, DJ, Robins, P: Subungual Squamous Cell Carcinoma Treated by Mohs Surgery in a patient with Sarcoidosis. J Derm Surg Oncol 12:972-974, 1986.
12. Kopf, AW, Geronemus, R, Sanchez, M, Natow, A, Grossman, D, and Goldberg, D: Derm Rx: A Computer Aid to the Management of Diseases of the skin. Derm Clinics 4:589-598, 1986.
13. Goldberg, DJ, Schinella, RS, Kechijian, P: Hypopigmented Mycosis Fungoides: Specualtion about the Mechanism of Hypopigmentation. Amer J. Dermatopath 8:326-328, 1986.
14. Schwartz, RA, Goldberg, DJ, Mahmoud, F, DeJager, RL Lambert, WC, Najem, AZ and Cohen, PJ: The Muir-Torre Syndrome: a disease of sebaceous and colonic neoplasms. Dermatological 178:23-28, 1989.
15. Bickley, LK, Goldberg, DJ, Imesda, S, Lambert, WC, and Schwartz, RA: Multiple apocrine hydrocystomas treated by CO2 laser surgery. J Derm Sur Oncol 15:599-602, 1989.
16. Goldberg, DJ: Laser Surgery of the Skin. Am Family Phys 40:109-116, 1989.
17. Goldberg, DJ and Maso, M: Dermatofibrosarcoma Protuberans in a Child - Treatment by Mohs Micrographic Surgery. Ped Derm 7:57-59, 1990.
18. Janniger, C and Goldberg, DJ: Angiofibromas in Tuberous Sclerosis: Comparison of Treatment by Carbon Dioxide and Argon Laser. J Derm Sur Oncol 16:317-320, 1990.
19. Maso, MJ and Goldberg, DJ: Contact dermatoses from disposable glove use: A review. J Amer Acad Dermatol 23:733-737, 1990.
20. Goldberg, DJ: Squamous Cell Carcinoma Arising in a Site of Chronic Osteomyelitis. Treatment with Mohs Micrographic Surgery. J Derm Sur Oncol. 12:788-790, 1991.
21. Goldberg, DJ, Sciales, C: Pyogenic Granuloma in Children: Treatment with the Pulsed tunable Dye Laser. J Derm Surg Oncol 12:960-962, 1991.
22. Goldberg, DJ, Schwartz, RA: Basal Cell Carcinoma: Cosmetic Mutilation Following Incomplete Excision. Can J Derm. 3:162-169, 1991.
23. Goldberg, DJ, Nychay S: Nevus of OTA, Treatment with Q-Switched Ruby Laser. J Derm Surg Oncol. 18:817-821,1992.
24. Goldberg, DJ: Dermatologic Cosmetic Laser Surgery, J. Cosm Surg 9:281-288, 1992.
25. Goldberg, DJ, Kim YA: Angiosarcoma of the Skin: Treatment with Mohs Micrographic Surgery. J Derm Surg Oncol. 19:156-160, 1993.
26. Goldberg, DJ: Q-Switched Ruby Laser Treatment of Benign Pigmented Lesions of the Skin. J. Derm Surg Oncol 19: 251-253 1993.
27. Kilmer, SL, Wheeland, RG, Goldberg, DJ, Anderson, R: Treatment of epidermal pigmented lesions with the frequency doubled Q-Switched Nd:YAG laser. Arch Derm. 130:1515-1519, 1994.
28. Goldberg, DJ, Nychay S. Q-Switched Ruby Laser Treatment of Congenital Nevi. Arch Dermatol 131:621-623, 1995.
29. Spicer, MS, Goldberg, DJ. Lasers in Dermatology. J. Amer Acad Dermatol 1:1-25, 1996.
30. Goldberg, DJ, Marcus, J. The Use of the Frequency-Doubled Q-switched Nd:YAG Laser in the Treatment of Small Cutaneous Vascular Lesions. Derm Surg. 22:841-844, 1996.
31. Goldberg, DJ, Nychey, SG, Schwartz, RA. Bilateral Axillary Extramammary Paget's Disease Treated with Mohs Micrographic Surgery. Chrom. Derm. 6:659 - 667, 1996.
32. Goldberg, DJ, Schwartz, RS. Mycosis Fungoides Palmaris Et Plantaris: Successful Treatment with the Carbon Dioxide. Laser. Br J. Dermatol. 136:617-619, 1997.
33. Teikameyer, G, Goldberg, DJ. Skin Resurfacing with the Er:YAG Laser Derm. Surg. 23:685-87, 1997.
34. Goldberg, DJ, Whitworth, J. Laser Skin Resurfacing with the Q-Switched Nd:YAG Laser. Derm. Surg. 23:903-07, 1997.
35. Goldberg, DJ. Littler, K, Wheeland, RG. Topical Suspension Assisted Q-Switched Nd:YAG Laser Hair Removal. Derm. Surg. 23:741-45, 1997.
36. Goldberg, DJ. Physician-Patient Confidentiality:Legal and Ethical Implicationsin the Setting of Basal Cell Nevus Syndrome. Derm. Surg . 23:1095-97, 1997.
37. Goldberg, DJ. Various mechanisms of laser hair removal. Cosmet Dermatol 10:36-38, 1997
38. Goldberg, DJ and Meine J. Photoaged Neck Skin: Treatment with the Erbium YAG Laser. Derm. Surg. 24: 619-621, 1998
39. Goldberg, DJ and Meine J. Treatment of facial telangiectases with a diode laser. Derm Surg. 24: 916-918, 1998
40. Goldberg. DJ. Er:YAG Laser Resurfacing: What is its role? Aes Surg J.18:255-260, 1998.
41. Polnikorn N, Goldberg DJ, Suwanchinda A, Ng, SW. Er:YAG Laser Resurfacing in Asians. Derm Surg. 24: 1303-1307, 1998
42. Shriner DL, McCoy DK, Goldberg DJ. Mohs Micrographic Surgery. J. Am Acad Dermatol. 39: 98-106, 1998
43. Goldberg DJ and Metzler C. Skin Resurfacing Utilizing a Low-Fluence Nd: YAG Laser. J Cut Las Ther. 1:23-27, 1999
44. Goldberg, DJ. Unwanted Hair: Evaluation and Treatment with Lasers and Light Source Technology. Adv. Derm. 14: 223-248, 1999.
45. Goldberg DJ and Meine J. A Comparison of Four Frequency-Doubled Nd:YAG (532nm) Laser Systems for the Treatment of Facial Telangiectases. Dermatol Surg 25: 463-67, 1999
46.Goldberg DJ and Cutler KB. The Use of the Erbium:YAG Laser for the Treatment of Class III Rhytids. Derm Surg 25: 713-715, 1999
47.Goldberg DJ. Non-ablative subsurface remodeling: Clinical and histologic evaluation of a 1320-nm Nd:YAG laser. J Cut Las Ther 1:153-57, 1999
48.Goldberg DJ and Akhami R. Evaluation Comparing Multiple Treatments With a 2-msec and 10-msec Alexandrite Laser for Hair Removal. Las Surg Med 25: 223-28, 1999
49.Goldberg DJ. Subdermal Resurfacing. Oper. Tech. in Oculoplst, Orbital, and Reconsruct Surg. 2:188-93, 1999
50.Goldberg DJ and Samady J. Evaluation of a Long-Pulse Q-switched Nd:YAG Laser for Hair Removal. Derm Surg, 26:109-113, 2000
51.Goldberg DJ and Cutler KB. Non-ablative Treatment of Rhytids with Intense Pulsed Light. Lasers Surg Med. 26:196-200, 2000
52. Goldberg DJ. Congenital and acquired pigmented lesions: to treat or not to treat with lasers? Derm Ther 13: 60-68, 2000
53.Goldberg, DJ. Laser Treatment of Vascular Lesions. Clin Plas Surg. 27: 173- 180, 2000
54.Goldberg, DJ. Nonablative Resurfacing. Clin Plas Surg. 27: 287-292, 2000
55.Polnikorn N, Tanrattanakorn S, Goldberg DJ. Treatment of Hori's Nevus with the Q-switched Nd:YAG Laser. Derm Surg, 26:477-480, 2000
56. Pozner JM and Goldberg DJ. Histologic Effect of a Variable Pulsed Er:YAG Laser. Derm. Surg. 26:733-736, 2000
57. Goldberg DJ. Medicolegal Issues for the Dermatologist. Sem Cut Med Surg. 19: 181-88, 2000
58. Goldberg DJ. Full-Face, Nonablative Dermal Remodeling with a 1320nm Nd:YAG Laser. Derm Surg 26: 915-19, 2000
59. Goldberg DJ. New Collagen Formation After Dermal Remodeling with an Intense Pulsed Light Source. J Cut Las Ther. 2:58-61, 2000.
60. Goldberg DJ. Is Non-Ablative Laser Skin Resurfacing Really Effective? Cosm Dern 13:28-30, 2000
61. Goldberg DJ, Samady J. Comparison of Intense Pulsed Light and Nd:YAG Laser for Non-ablative Treatment of Facial Rhytids. Las Surg Med. 28: 141-44, 2001
62. Histologic Evaluation of a Millisecond Nd:YAG Laser for Hair Removal Las Surg Med. 28: 159-61,2001
63. Goldberg DJ, Samady J. Comparison of Intense Pulsed Light and Nd:YAG Laser for Non- ablative Treatment of Facial Rhytids. Las Surg Med. 28: 141-44, 2001
64. Goldberg DJ and Silapunt S Histologic Evaluation of a Millisecond Nd:YAG Laser for Hair Removal Las Surg Med. 28: 159-61,2001
65. Goldberg DJ and Silapunt S. Hair Removal Using a Long-pulsed Nd:YAG Laser: Comparison at Fluences of 50, 80 and 100 J/cm2. Dermatol Surg 27: 434-436, 2001
66. Goldberg DJ. Nd:YAG Laser Treatment of Spider Veins. Cosmet Dermatol 14: 35-38, 2001
67. Goldberg DJ and Silapunt S. Histologic Evaluation of a Q-Switched Nd:YAG Laser in the Nonablative Treatment of Wrinkles. Dermatol Surg. 27:744-46, 2001
68. Goldberg DJ and Silapunt S. Hair Removal with a combined light/heat based photoepilation system. J Cut Las Ther. 3:3-7, 2001
69. Rogachefsky AS, Silapunt S and Goldberg DJ. Evaluation of a super long pulse 810-nm diode hair removal in suntanned individuals. J Cut Las Ther. 3:57-62, 2001
70. Goldberg DJ. Nd:YAG Laser Treatment of Spider Veins. Scope Phlebol Lymphol. 8: 284-88, 2001
71. Goldberg DJ, Rogachefsky AS and Silapunt S. Non-Ablative Treatment of Facial Rhytides: A Comparison of 1450nm Diode Laser Treatment with Dynamic Cooling as Opposed to Treatment with Dynamic Cooling Alone. Las Surg Med 30:79-81, 2002
72. Rogachefsky AS, Silapunt S, Goldberg DJ. Nd:YAG Laser (1064nm) Irradiation for Lower Extremity Telangiectases and Small Reticular Veins: Efficacy as Measured by Vessel Color and Size. Dermatol Surg 28: 220-223. 2002
73. Goldberg DG. Laser Treatment of Congenital Nevi. Cos Dermatol 15: 25-27, 2002
74. Rogachefsky AS, Silapunt S and Goldberg DJ. Evaluation of a New Super-Long-Pulsed 810nm Diode Laser for the Removal of Unwanted Hair: The Concept of Thermal Damage Time. Dermatol Surg 28:410-14, 2002
75. Spencer JM, Gordon M and Goldberg DJ. Botulinum B treatment of the glabellar and frontalis regions: a dose response analysis. J Cosmetic & Laser Ther. 4:19-23, 2002
76. Goldberg DJ. Non-ablative Dermal remodeling. Laserexpress[Internet] . August 2002. Available from: http://www.lasernews.net
77. Goldberg DJ. Current Therapy : Laser Hair Removal. Dermatol Clin 20:561-67, 2002
78. Goldberg DJ. Nonablative Dermal Remodeling. Does It Really Work? Arch Dermatol.
138:1366-38, 2002
79. Rogachefsky AS, Becker K, Weiss G and Goldberg DJ. Evaluation of a Long-Pulsed Nd:YAG Laser at Different Parameters: An Analysis of Both Fluence and Pulse Duration. Dermatol Surg. 28: 932-36, 2002.
80. Pozner JN and Goldberg DJ. Nonablative Laser Resurfacing: State of the Art 2002. Aes Surg J. 22: 427-434. 2002
81. Goldberg DJ. Dermatologic Surgery and the Federal Anti-Kickback Statute. Dermatol Surg 28:1159-61, 2002.
82. Goldberg DJ. Informed Consent as it Relates to Botulinum Injections. Cosm Dermatol 16:41-42, 2003
83. Sarradet MS, Hussain M, and Goldberg DJ. Millisecond 1064-nm Neodymium:YAG Laser Treatment of Facial Telangictases. Dermatol Surg 29:56-58, 2003
84. Goldberg DJ, Tan M., Sarradet MD, et. al. Nonablative Dermal Remodeling with a 585nm, 350usec Flashlamp Pulsed Dye Laser: Clinical and Ultrastructural Analysis. Dermatol Surg. 29:161-164, 2003
85. Sarradet MD, Hussain M and Goldberg DJ. Electrosurgical Resurfacing: A Clinical,
Histologic , and Electron Microscopic Evaluation. Lasers Surg Med 32: 111-114, 2003.
86. Hussain M, Polnikorn N and Goldberg DJ. Laser-Assisted Hair Removal in Asian Skin:
Efficacy, Complications and the Effect of Single Versus Multiple Treatments. Dermatol Surg. 29:249-254, 2003
87. Goldberg DJ and Schmults C. Antibiotic Prophylaxis in Dermatologic Surgery. J Drugs
Dermatol. 2:127-30. 2003
88. Goldberg DJ. Lasers for Facial Rejuvenation. Am J Clin Dermatol 4:225-234, 2003
89. Hussain M, Suwanchinda A, Charuwichtratana S and Goldberg DJ. A New Long Pulsed Diode Laser Used For Hair Removal In Asian Skin Types. J Cosmetic & Laser Ther. 5:97-100, 2003
90. Goldberg DJ, Sarradet D and Hussain M. 308-nm Excimer Laser Treatment of Mature Hypopigmented Striae. Dermatol Surg 29: 596-599, 2003
91. Rogachefsky AS, Hussain M and Goldberg DJ. Atrophic and a Mixed Pattern of Acne Scars Improved With a 1320nm Nd:YAG Laser. Dermatol Surg 29: 904-908, 2003
92. Goldberg DJ. Update: Laser and Light Source Treatment of Pigmented Lesions. Cos Dermatol 16:21-24, 2003
93. Fitzpatrick R, Geronemus R, Goldberg D, et al. Multicenter Study of Noninvasive Radiofrequency for Periorbital Tissue Tightening. Las Surg Med. 33:232-242, 2003
 
Book Chapter
1. Bickley, LK, Goldberg, DJ: Perils of over-the-counter products. In Geriatric Dermatology: Clinical Diagnosis and Practical Therapy. VD Newcomer and E. Young (Eds) Igaku-Shoid Medical Publishers, NY, 1989, pp. 77-81.
2. Goldberg, DJ: Adnexal Neoplasms: Treatment with the Carbon Dioxide Laser. In Atlas of Cutaneous Laser Surgery. Apfelberg, DB (Ed). Raven Press, NY, 1992, P. 96.
3. Goldberg, DJ: Cutaneous Surgery. Wheeland, RG, Saunders, NY 1994, pp 410-416.
4. Goldberg, DJ: Treatment of Pigmented Lesions of the Skin with Lasers Facial Plas Surg (Lin Key, JM and Waner M (Eds). Saunders, PA 1996 pp. 291-294.
5. Goldberg, DJ: Laser Treatment of Pigmented Lesions. In Lasers in Dermatology. Alster, T (Ed). Saunders, PA, 1997 pp. 397-407.
6. Goldberg DJ: Laser Treatment of Pigmented Lesions. In Cosmetic Laser Surgery. Alster, T. and Apfelburg, D.(Eds.), Wiley-Liss 1998.
7. Goldberg DJ. Laser Hair Removal. In Laser Hair Removal, Goldberg DJ (Ed.). Dunitz, London, 2000
8. Goldberg DJ. Laser Treatment of Pigmented Lesions and Tattoos. In Cosmetic Dermatologic Surgery. Narins R (Ed.). Marcel Dekker, Inc. New York, 2000
 
Abstracts
1. Goldberg, DJ, Sherwin, RS: Somatostatin Inhibits Protein Absorption in Man. Clin Res 26:613A, 1978.
2. Goldberg, DJ, Torre, D. Bystryn, J-C: Antibodies to Epidermal Cytoplastic Antigens Following Treatment of Multiple Basal Cell Carcinomas. J Inves Derm 84:362, 1985.
3. Goldberg, DJ: Carbon dioxide laser vaporization of cutaneous adnexal neoplasms. Lasers Surg Med 1990;10(Suppl 2):52.
4. Wheeland, RG, Goldberg, DJ. A Comparison of the Infrared Coagulator and the Carbon Dioxide Laser in the Treatment of Tattoos. Lasers Surg Med.
5. Goldberg, DJ: Q-Switched ruby laser treatment of benign pigmented lesions -- the New Jersey experience. Lasers Surg Med 1991;11 (Suppl 3):65.
6. Goldberg, DJ: Treatment of pigmented and vascular lesions of the skin with the Q-switched Nd:YAG laser. Lasers Surg Med. 1993;13 (suppl 5):55.
7. Goldberg, DJ, Littler, C. Topical Solution Assisted Laser Hair Removal. Lasers Surg Med 1995;15(Suppl 7):47.
8. Goldberg, DJ: Topical Suspension Assisted Laser Hair Removal:Treatment of Axillary and Inguinal Regions. Lasers Surg Med. 1996;16 (Suppl 8): 34.
9. Goldberg, DJ: Evaluation of the Q-Switched Nd:YAG Laser for Skin Resurfacing. Lasers Surg Med 1996; 16 (suppl 8): 35.
10. Goldberg, DJ: Topical Carbon Suspension Potentiated Q- switched Nd:YAG Laser Resurfacing of Rhytids. Lasers Surg. Med 1997; 17 (Suppl 9):22
11. Goldberg, DJ. Erbium:YAG Laser Resurfacing of photoaged hand and neck skin. Lasers Surg Med 1998; 18 (Suppl 10): 31
12. Anderson R, Burns J, Garden J, Goldberg D, et al. Multicenter Study of Long-Pulse Ruby Laser Hair Removal. Lasers Surg Med 1999; 19 (Suppl 11): 14.
13. Goldberg DJ. Laser Hair Removal with a Millisecond Q-switched Nd:YAG Laser. Lasers Surg Med 1999; 19 (Suppl 11): 22.
14. Goldberg DJ. Non-Ablative Improvement of Superficial Rhytides with Long-Pulsed Non- Coherent Intense Pulsed Light Treatment. Lasers Surg Med 1999; 19 (Suppl 11): 25.
15. Goldberg DJ. Skin Resurfacing with a Combined Erbium:YAG and Carbon Dioxide Laser. Lasers Surg Med 1999; 19 (Suppl 11): 26.
16. Goldberg DJ. A Comparison Between the Subsurface Remodeling Efficacy of an Intense Pulsed Source and a Millisecond 1064nm Nd:YAG Laser. Lasers Surg Med 1999; 19 (Suppl 12): 17.
17. Rogachefsy AS, Silapunt S, Goldberg DJ. Evaluation of a Super Long Pulsed 810nm Diode Hair Removal Laser in Suntanned Individuals. Lasers Surg Med 2001; 21 (Suppl 13): 23
18. Goldberg DJ. The Hair Follicle Fluence Related Effect of a Pulsed Millisecond Nd:YAG Laser: Clinical and Histologic Analysis. Lasers Surg Med 2001; 21 (Suppl 13): 23
19. Rogachefsky AS, Silapunt S, Goldberg DJ. 1064nm Nd:YAG Laser Irradiation for Lower Extremity Telangiectases and Small Reticular Veins: Efficacy as Measured by Fluence and Vessel Size. Lasers Surg Med 2001; 21 (Suppl 13): 23
20. Goldberg DJ, Rogachefsky AS, Silapunt S. Non-ablative Laser Treatment of Facial Rhytides. Evaluation of a 1450nm Diode Laser with Dynamic Cooling Device. Lasers Surg Med 2001; 21 (Suppl 13): 31
21. Rogachefsky AS, Silapunt S, Goldberg DJ. Evaluation of a New Super Long Pulsed 810nm Diode Laser for the Removal of Unwanted Hair. The Concept of "Thermal Damage Time". Lasers Surg Med 2001; 21 (Suppl 13): 45
22. Goldberg DJ. A New Light/Heat Based Hair Removal System. Clinical and Histologic Evaluation of SpaTouch‰ Epilation. Lasers Surg Med 2001; 21 (Suppl 13): 46
23. Goldberg DJ. Non-ablative Dermal Remodeling with a Q-switched 1064nm Nd:YAG Laser. Lasers Surg Med 2001; 21 (Suppl 13): 47
24. Goldberg DJ. Non-ablative Dermal Remodeling: Comparing 3 Different Wavelengths: Does it Make A Difference? Lasers Surg Med 2002; 30 (Suppl 14): 31
25. Sarradet D, Hussain M, Garcia L, Goldberg DJ. Repigmentation of Striae With A 308nm Excimer Laser. Lasers Surg Med 2002; 30 (Suppl 14): 44
26. Goldberg DJ, Becker K, Weiss G, Rogachefsky A. The Effect and Interaction of Fluence and Pulse Duration on Pulsed Milllisecond Nd:YAG Laser Hair Removal. Lasers Surg Med 2002; 30 (Suppl 14): 68
27. Sarradet D, Tan M, Garcia L, Gordon M and Goldberg DJ. Ultrastructural Changes After Non- ablative Dermal Remodeling With a Low Fluence 350usec, 585nm Pulsed Dye Laser. Lasers Surg Med 2002; 30 (Suppl 14): 82
28. Sarradet D, Garcia L, Hussain M and Goldberg DJ. 1064nm Nd:YAG Laser Irradiation For Facial Telangiectases: Efficacy as Measured By Fluence and Vessel Size. Lasers Surg Med 2002; 30 (Suppl 14): 82