S
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Soumiya Pal's research focuses on the mechanisms of lymphatic dysfunction and lymphedema, particularly in the context of drug-induced conditions. Her work investigates the roles of G-protein coupled receptors, such as S1PR1, and mechanosensitive ion channels in the development and function of lymphatic vessels. Pal has explored the regulation of lymphatic valve development and tertiary lymphoid organ formation in the ileum, and has studied the impact of specific compounds like Dantrolene on preventing drug-induced lymphostasis in animal models. Her research also examines the real-time evaluation of calcium dynamics and contractility in isolated lymphatic vessels, contributing to a deeper understanding of pressure-induced chronotropy. Pal has published 15 papers, with 64 citations, and holds an h-index of 4. She collaborates with researchers at the University of Arkansas for Medical Sciences, including Amanda J. Stolarz, Shengyu Mu, Nancy Rusch, and Ashim K. Bagchi.
Metrics
- h-index: 4
- Publications: 15
- Citations: 66
Selected Publications
-
Clinical Relevance of Animal Models of Lymphatic Dysfunction and Lymphedema (2025)
-
Rhythmic Contractions of Lymph Vessels and Lymph Flow Are Disrupted in Hypertensive Rats (2024)
-
JoVE Video Dataset (2024)
-
Real-Time Evaluation of Absolute, Cytosolic, Free Ca<sup>2+</sup> and Corresponding Contractility in Isolated, Pressurized Lymph Vessels (2024)
-
Hypertension Induces Contractile Dysfunction in Rat Mesenteric Lymph Vessels (2022)
-
Drug-Related Lymphedema: Mysteries, Mechanisms, and Potential Therapies (2022)
-
Dantrolene Prevents the Lymphostasis Caused by Doxorubicin in the Rat Mesenteric Circulation (2021)
Collaboration Network
Top Collaborators
Amanda J. Stolarz
University of Arkansas for Medical Sciences
7 shared publications
In database
- Drug-Related Lymphedema: Mysteries, Mechanisms, and Potential Therapies
- Dantrolene Prevents the Lymphostasis Caused by Doxorubicin in the Rat Mesenteric Circulation
- Clinical Relevance of Animal Models of Lymphatic Dysfunction and Lymphedema
- Real-Time Evaluation of Absolute, Cytosolic, Free Ca<sup>2+</sup> and Corresponding Contractility in Isolated, Pressurized Lymph Vessels
- Hypertension Induces Contractile Dysfunction in Rat Mesenteric Lymph Vessels
Showing 5 of 7 shared publications
Scott D. Zawieja
6 shared publications
- S1PR1 regulates lymphatic valve development and tertiary lymphoid organ formation in the ileum
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Lymphatic dysfunction is linked to disease pathogenesis in Duchenne muscular dystrophy animal models
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Showing 5 of 6 shared publications
Michael J. Davis
6 shared publications
- S1PR1 regulates lymphatic valve development and tertiary lymphoid organ formation in the ileum
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Lymphatic dysfunction is linked to disease pathogenesis in Duchenne muscular dystrophy animal models
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Showing 5 of 6 shared publications
Hae Jin Kim
4 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Author response: Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Jorge A. Castorena‐Gonzalez
4 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Author response: Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Timothy L. Domeier
4 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Author response: Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Joshua P. Scallan
4 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Author response: Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Scott Earley
4 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Author response: Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Shengyu Mu
University of Arkansas for Medical Sciences
3 shared publications
In database
- Drug-Related Lymphedema: Mysteries, Mechanisms, and Potential Therapies
- Dantrolene Prevents the Lymphostasis Caused by Doxorubicin in the Rat Mesenteric Circulation
- Rhythmic Contractions of Lymph Vessels and Lymph Flow Are Disrupted in Hypertensive Rats
Nancy J. Rusch
University of Arkansas for Medical Sciences
3 shared publications
In database
- Drug-Related Lymphedema: Mysteries, Mechanisms, and Potential Therapies
- Dantrolene Prevents the Lymphostasis Caused by Doxorubicin in the Rat Mesenteric Circulation
- Rhythmic Contractions of Lymph Vessels and Lymph Flow Are Disrupted in Hypertensive Rats
Ashim K. Bagchi
University of Arkansas for Medical Sciences
3 shared publications
In database
- Real-Time Evaluation of Absolute, Cytosolic, Free Ca<sup>2+</sup> and Corresponding Contractility in Isolated, Pressurized Lymph Vessels
- JoVE Video Dataset
- Rhythmic Contractions of Lymph Vessels and Lymph Flow Are Disrupted in Hypertensive Rats
David S. Henry
University of Arkansas for Medical Sciences
2 shared publications
In database
- Hypertension Induces Contractile Dysfunction in Rat Mesenteric Lymph Vessels
- Rhythmic Contractions of Lymph Vessels and Lymph Flow Are Disrupted in Hypertensive Rats
Sung W. Rhee
University of Arkansas for Medical Sciences
2 shared publications
In database
- Hypertension Induces Contractile Dysfunction in Rat Mesenteric Lymph Vessels
- Rhythmic Contractions of Lymph Vessels and Lymph Flow Are Disrupted in Hypertensive Rats
Min Li
2 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Author response: Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Min Li
University of Missouri (US)
2 shared publications
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
- Roles of G-protein coupled receptors and mechanosensitive ion channels in pressure-induced chronotropy of lymphatic vessels
Similar Researchers
Based on overlapping research topics
James P. Turner
University of Arkansas at Fayetteville
Pharmacological Effects and Toxicity Studies
Receptor Mechanisms and Signaling
Immune Response and Inflammation
Prathyusha Bagam
National Center for Toxicological Research
Pharmacological Effects and Toxicity Studies
Receptor Mechanisms and Signaling
Immune Response and Inflammation
Bin Zhang
Arkansas State University
Pharmacological Effects and Toxicity Studies
Receptor Mechanisms and Signaling
Immune Response and Inflammation
Jerry Ware
University of Arkansas for Medical Sciences
Pharmacological Effects and Toxicity Studies
Receptor Mechanisms and Signaling
Immune Response and Inflammation
Jiřı́ Novotný
University of Arkansas at Fayetteville
Pharmacological Effects and Toxicity Studies
Receptor Mechanisms and Signaling
Immune Response and Inflammation
Susan M. Lantz
National Center for Toxicological Research
Pharmacological Effects and Toxicity Studies
Receptor Mechanisms and Signaling