Anand Chandrasekhar

Overview

Explore the profile of Anand Chandrasekhar including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 41

Citations 931

Followers 0

Related Specialties

Biology

Reproductive Medicine

Neurology

Top 10 Co-Authors

Vinoth Sittaramane

Ramakrishna Mukkamala

Jin-Oh Hahn

Derrick M Glasco

Mohammad Yavarimanesh

Keerthana Natarajan

Bernd Fritzsch

Suman Gurung

Emilia Asante

Devynn Hummel

Published In

Dev Biol

Sci Rep

IEEE Trans Biomed Eng

Dev Dyn

J Neurogenet

Affiliations

Soon will be listed here.

Recent Articles

A smartphone application toward detection of systolic hypertension in underserved populations

Landry C, Dhamotharan V, Freithaler M, Hauspurg A, Muldoon M, Shroff S, et al.

Sci Rep . 2024 Jul; 14(1):15410. PMID: 38965318

High systolic blood pressure (BP) is the most important modifiable risk factor for cardiovascular disease. Managing systolic hypertension is especially difficult in underserved populations wherein access to cuff BP devices...

Tissue perfusion pressure enables continuous hemodynamic evaluation and risk prediction in the intensive care unit

Chandrasekhar A, Padros-Valls R, Pallares-Lopez R, Palanques-Tost E, Houstis N, Sundt T, et al.

Nat Med . 2023 Aug; 29(8):1998-2006. PMID: 37550417

Treatment of circulatory shock in critically ill patients requires management of blood pressure using invasive monitoring, but uncertainty remains as to optimal individual blood pressure targets. Critical closing pressure, which...

Smartphone-Based Blood Pressure Monitoring via the Oscillometric Finger Pressing Method: Analysis of Oscillation Width Variations Can Improve Diastolic Pressure Computation

Freithaler M, Chandrasekhar A, Dhamotharan V, Landry C, Shroff S, Mukkamala R

IEEE Trans Biomed Eng . 2023 May; 70(11):3052-3063. PMID: 37195838

Objective: Oscillometric finger pressing is a potential method for absolute blood pressure (BP) monitoring via a smartphone. The user presses their fingertip against a photoplethysmography-force sensor unit on a smartphone...

Celsr1 suppresses Wnt5a-mediated chemoattraction to prevent incorrect rostral migration of facial branchiomotor neurons

Hummel D, Becks A, Men H, Bryda E, Glasco D, Chandrasekhar A

Development . 2022 Nov; 149(22). PMID: 36325991

In the developing hindbrain, facial branchiomotor (FBM) neurons migrate caudally from rhombomere 4 (r4) to r6 to establish the circuit that drives jaw movements. Although the mechanisms regulating initiation of...

Mathematical Modeling of Oscillometric Blood Pressure Measurement: A Complete, Reduced Oscillogram Model

Dhamotharan V, Chandrasekhar A, Cheng H, Chen C, Sung S, Landry C, et al.

IEEE Trans Biomed Eng . 2022 Aug; 70(2):715-722. PMID: 36006885

Objective: Oscillogram modeling is a powerful tool for understanding and advancing popular oscillometric blood pressure (BP) measurement. A reduced oscillogram model relating cuff pressure oscillation amplitude ( ∆O) to external...

Defective Neuronal Positioning Correlates With Aberrant Motor Circuit Function in Zebrafish

Asante E, Hummel D, Gurung S, Kassim Y, Al-Shakarji N, Palaniappan K, et al.

Front Neural Circuits . 2021 Jul; 15:690475. PMID: 34248505

Precise positioning of neurons resulting from cell division and migration during development is critical for normal brain function. Disruption of neuronal migration can cause a myriad of neurological disorders. To...

Photoplethysmography Fast Upstroke Time Intervals Can Be Useful Features for Cuff-Less Measurement of Blood Pressure Changes in Humans

Natarajan K, Block R, Yavarimanesh M, Chandrasekhar A, Mestha L, Inan O, et al.

IEEE Trans Biomed Eng . 2021 Jun; 69(1):53-62. PMID: 34097603

Objective: Photoplethysmography (PPG) waveform analysis is being increasingly investigated for continuous, non-invasive, and cuff-less blood pressure (BP) measurement. However, the efficacy of this approach and the useful features and models...

Conventional pulse transit times as markers of blood pressure changes in humans

Block R, Yavarimanesh M, Natarajan K, Carek A, Mousavi A, Chandrasekhar A, et al.

Sci Rep . 2020 Oct; 10(1):16373. PMID: 33009445

Pulse transit time (PTT) represents a potential approach for cuff-less blood pressure (BP) monitoring. Conventionally, PTT is determined by (1) measuring (a) ECG and ear, finger, or toe PPG waveforms...

PPG Sensor Contact Pressure Should Be Taken Into Account for Cuff-Less Blood Pressure Measurement

Chandrasekhar A, Yavarimanesh M, Natarajan K, Hahn J, Mukkamala R

IEEE Trans Biomed Eng . 2020 Mar; 67(11):3134-3140. PMID: 32142414

Objective: Photo-plethysmography (PPG) sensors are often used to detect pulse transit time (PTT) for potential cuff-less blood pressure (BP) measurement. It is known that the contact pressure (CP) of the...

10.

Formulas to Explain Popular Oscillometric Blood Pressure Estimation Algorithms

Chandrasekhar A, Yavarimanesh M, Hahn J, Sung S, Chen C, Cheng H, et al.

Front Physiol . 2019 Dec; 10:1415. PMID: 31824333

Oscillometry is the blood pressure (BP) measurement principle of most automatic cuff devices. The oscillogram (which is approximately the blood volume oscillation amplitude-external pressure function) is measured, and BP is...