Scientific Papers - Dr. H.N.
Mayrovitz - Related to Lymphedema or Limb Volumes Issues |
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1.
Mayrovitz
HN, Sims N, Macdonald J (2000)
Assessment
of limb volume by manual and automated measurement in patients with
edema
or lymphedema
Advances in Wound Care 2000;113:272-276
2.
Mayrovitz HN,
Sims
N, Macdonald JM. (2002)
Effects
of Pulsed
Radio
Frequency Diathermy on Postmastectomy Arm Lymphedema and Skin Blood
Flow: A Pilot Investigation
Lymphology
2002;35(suppl):353-356
3. Macdonald
JM, Sims
N,
Mayroviz
HN (2003)
Lymphedema,
Lipedema and the Open Wound: The Role of Compression Therapy.
Surgical Clinics of North America, 2003;83:639-658
4. Mayrovitz
HN. (2003)
Limb
volume estimates based on limb elliptical vs. circular cross section
models.
Lymphology 2003;31(3):140-143
5.
Mayrovitz HN, Sims N,
Pfister S, Litwin B. (2005)
Foot
volume estimates based on a geometric
algorithm in comparison to water displacement.
Lymphology
2005;38(1):20-27
6.
Mayrovitz HN, Sims N, Cross-Brown et al. (2005)
Transcutaneous
oxygen tension in arms of women with unilateral postmastectomy
lymphedema
Lymphology
2005;38:81-86
7. Mayrovitz HN (2005)
Tissue
water in arms of women with
postmastectomy lymphedema
ISBS
October 2005, Philadelphia
8
Mayrovitz HN, Sims N, Hill C. et al. (2006)
Hand
volume estimates based on a geometric
algorithm in comparison to water displacement.
Lymphology
2006;39(2):95-103
9. Mayrovitz HN (2007)
Assessing
local tissue
edema in postmastectomy lymphedema
Lymphology
2007;40:87-94
10. Mayrovitz HN, Macdonald
J,
Davey S, Olson K, Washington E. (2007)
Measurement
decisions for
clinical assessment of limb volume changes in patients with bilateral
and unilateral limb edema.
Physical Therapy 2007
(October)
87:(10) 1362-1368
11. Mayrovitz HN (2007)
Interface
pressures produced by two different types of lymphedema therapy devices.
Physical Therapy
(October) 87:(10)
379-1388
12.
Mayrovitz HN, Davey S, Shapiro E (2008)
Localized
Tissue
Water Changes Accompanying One Manual Lymphatic Drainage (MLD)Therapy
Session
Assessed by Changes in Tissue Dielectric Constant in Patients
with
Lower Extremity Lymphedema
Lymphology
2008;41:87-92
13. Mayrovitz HN, Davey S,
Shapiro E
(2008)
Local
tissue
water changes assessed by tissue dielectric constant: Single
measurements versus averaging of multiple measurements
Lymphology
2008;41:186-188
14. Mayrovitz HN, Davey S, Shapiro E (2008)
Local
Tissue Water Assessed by Dielectric Constant: Anatomical Site and Depth
Dependence in Women Prior to Breast Cancer-Related Surgery
Clinical
Physiology and
Functional Imaging 2008;28:337-342
15. Mayrovitz HN, Davey S, Shapiro E (2009)
Suitability of Single Tissue
Dielectric Constant
Measurements to Access Local Tissue Water in Normal and Lymphedematous
Skin
Clinical Physiology and
Functional
Imaging 2009;(29):23–127
16. Mayrovitz HN, Brown-Cross D,
Mayrovitz B, Humble-Golla A. (2009)
Lymphedema: Role of Truncal Clearance
as a Therapy
Component.
Home Health Care Management &
Practice 2009;21(5):325-337
17.
Mayrovitz HN (2009)
The
Standard of Care for Lymphedema: Current Concepts
and Physiological Considerations.
Lymphedema
Research and Biology 2009;7(2) 101-109
18. Mayrovitz HN (2009)
Assessing Lymphedema by Tissue
Indentation
Force and Local Tissue Water
Lymphology 2009;42:88-98
19. Mayrovitz HN, Weingrad D,
Davey
S. (2009)
Local
Tissue Water in At-Risk and Contralateral Forearms of Women with and
without Breast Cancer Treatment-Related Lymphedema
Lymphedema
Research and Biology 2009;7(3):153-8
20.
Mayrovitz HN (2010)
Local
Tissue Water Assessed by Measuring Forearm Skin Dielectric Constant:
Dependence on Measurement depth, Age and Body Mass Index
Skin
Research and Technology 2010;16:16-22
21. Hammond T, Mayrovitz
HN (2010)
Programmable
Intermittent
Pneumatic
Compression as a
Component of Therapy for Breast Cancer Treatment-Related Truncal and
Arm Lymphedema
Home
Health Care Management & Practice
2010;22:397-402
22.
Mayrovitz HN, Davey S, Weingrad D (2010)
Pre-Surgical Biophysical Lymphedema
Assessments of
Patients with Breast Cancer: Potential Utility of Local Tissue Water Measurements.
Proceedings of the 22nd
International Congress of Lymphology (Lymphology 43(Suppl), 2010)
21-25 September 2009
• Sydney,
Australia
23. Mayrovitz HN, Davey S (2011)
Changes
in Tissue Water and Indentation Resistance of Lymphadematous Limbs
Accompanying Low Level Laser Therapy (LLLT) of Fibrotic Skin
Lymphology 2011;44:168-177
24. Fife
CE, Davey
S, Maus EA, Guilliod
E, Mayrovitz HN (2012)
A
randomized
controlled trial
comparing two types of
pneumatic compression for breast cancer-related
lymphedema treatment in the home
Support
Care Cancer 2012;20:3279-3286
25.
Mayrovitz HN (2012)
Skin
Tissue
Dielectric Constant Values in Women with Breast Cancer: Pre-Surgery and
One Year Post-Surgery
Lymphology (Supplement
in press)
26. Mayrovitz HN (2012)
Limb
Volume Assessments Based on Circumference Measurements: Possibilities
and
Limitations
Lymphology
(Supplement
in press)
27.
Mayrovitz
HN, Bernal M, Carson S (2012)
Gender
Differences in Facial Skin
Dielectric Constant
Measured at 300 MHz
Skin Research and
Technology 2012;18:504–510
28. Fife
CE, Davey
S, Maus EA, Guilliod
E, Mayrovitz HN (2012)
A
randomized
controlled trial
comparing two types of
pneumatic compression for breast cancer-related
lymphedema treatment in the home
Support
Care Cancer
2012;20:3279-3286
29.
Mayrovitz HN (2012)
Skin
Tissue
Dielectric Constant Values in Women with Breast Cancer: Pre-Surgery and
One Year Post-Surgery
Lymphology 2012;45(Suppl):
156-163 (issn 00247766) published June 2013
30.
Mayrovitz HN, Bernal M, Brlit F, Desfor R (2013)
Biophysical
Measures of Skin Tissue Water: Variations within and among
Anatomical Sites and Correlations between Measures
Skin Research and Technology 2013;19:47–54
31.
Mayrovitz
HN, McClymont, Pandya N (2012)
Skin Tissue Water Assessed via Tissue
Dielectric
Constant Measurements in Persons with and without Diabetes Mellitus
Diabetes Technology & Therapeutics 2013;15:60-65
32. Mayrovitz
HN, Guo X, Salmon M, Uhde M. (2013)
Forearm Skin
Tissue Dielectric Constant Measured at 300 MHz: Effect of
Changes in Skin Vascular Volume and Blood Perfusion
Clinical
Physiology and Functional
Imaging 2013;33:55-61
33.
Mayrovitz HN, Bernal M, Brlit F, Desfor R (2013)
Biophysical
Measures of Skin Tissue Water: Variations within and among
Anatomical Sites and Correlations between Measures
Skin Research and Technology 2013;19:47–54
34.
Mayrovitz
HN, Guo X, Salmon M, Uhde M. (2013)
Forearm Skin
Tissue Dielectric Constant Measured at 300 MHz: Effect of
Changes in Skin Vascular Volume and Blood Perfusion
Clinical
Physiology and Functional
Imaging 2013;33:55-61
35. Mayrovitz
HN, McClymont, Pandya N (2013)
Skin Tissue Water Assessed via Tissue
Dielectric
Constant Measurements in Persons with and without Diabetes Mellitus
Diabetes Technology & Therapeutics 2013;15:60-65
36. Harrow J and
Mayrovitz HN (2014)
Subepidermal moisture surrounding
pressure ulcers in persons with a spinal cord injury: a pilot study
The Journal of Spinal Cord Injury 2014:37:719-728
37. Mayrovitz
HN, Weingrad DN, Davey S (2014)
Tissue
dielectric constant (TDC) measurements as a means of characterizing
localized
tissue
water in arms of women with and without breast cancer treatment related
lymphedema
Lymphology 2014;47:142-150
38. Mayrovitz HN, Weingrad D, Lopez, L. (2014)
Patterns of Temporal Changes in Tissue Dielectric
Constant (TDC) as Indices of
Localized Skin Water Changes in Women Treated for Breast Cancer: A
Pilot Study
Lymphatic Res and Biology 2015;13(1):20-32
39. Mayrovitz HN, Weingrad
D, Lopez, L. (2015)
Assessing
Localized Skin-to-Fat Water in Arms of Women
with Breast Cancer via Tissue Dielectric Constant Measurements in
Pre-Surgery and Post-Surgery Patients
Ann Surg Oncol 2015;22:1483-1489 (DOI
10.1245/s10434-014-4185-5)
40. Mayrovitz
(2015)
Assessing
free and bound water in skin at 300MHz using titssue dielectric
constant measurements with the MoistureMeterD
in: Lymphedema: Presentation, Diagnosis and Treatment
Editors: Greene AK, Brorson H and Slavin SA, Springer (2015, Chapter 13, pages 133-148 ISBN
978-3-319-14492-4)
41. Mayrovitz
HN, Weingrad D, Brlit F, Lopez L, Desfor R (2015)
Tissue Dielectric Constant (TDC) as an Index of
Localized Arm Skin Water: Differences between Measuring Probes and
Genders
Lymphology 2015;48:15-23
42. Mayrovitz
HN, Grammenos A,
Corbitt K, Bartos S. (2016)
Young adult gender differences in forearm skin-to-fat
tissue dielectric constant values measured at 300 MHz
Skin Research and Technology 2016;22:(1)81-88)
43. Mayrovitz
HN, Singh A, Akolkar, S (2016)
Age-Related Differences in
Tissue Dielectric Constant Values of Female Forearm Skin Measured
Noninvasively
at 300 MHz
Skin Research and Technology 2016;22:(2)189-195
44. Mayrovitz
HN, Weingrad D, Lopez, L (2016)
Tissue Dielectric Constant (TDC) as an Index of
Skin Water in Women with and without Breast Cancer:
Upper Limb Assessment via a Self-Contained Compact
Measurement Device
Lymphology 2016;49:27-35
45. Mayrovitz
HN, Grammenos A,
Corbitt K, Bartos S. (2016)
Age-Related Changes in Male Forearm Skin-to-Fat Tissue
Dielectric Constant at 300 MHz
Clinical Physiology and Functional Imaging (in press)
46. Mayrovitz
HN, Mahtani SA,
Pitts E, Michaelos L (2016)
Race-Related Differences
in Tissue Dielectric Constant Measured Noninvasively at 300 MHz
in Male and Female Skin
at Multiple Sites and Depths. Skin Research and Technology (in press)
47. Mayrovitz HN, Volosko I, Sarker B, Pandya N (2016)
Arm, Leg, and Foot Skin Water in Persons with Diabetes Mellitus (DM) in Relation
to HbA1c Assessed by Tissue Dielectric Constant (TDC) Technology Measured at 300 MHz.
J of Diabetes Science and Technology (in press)
48. Mayrovitz HN, Corbitt K, Grammenos A, Abello A, Mammino J (2016).
Skin indentation firmness and tissue dielectric constant assessed in face, neck, and arm skin of young healthy women.
Skin Research and Technology (in press)
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last
updated 2022-04-23