A time‐dependent survival analysis for early prognosis of chronic wounds by monitoring wound alkalinity

Hoang, Le Quynh; Pal, Suvra; Liu, Zhaoli; Senkowsky, Jon; Tang, Liping

doi:10.1111/iwj.14001

Cited by 7 publications

(3 citation statements)

References 59 publications

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“…For the proliferative and remodeling phases, an alkaline environment is required to promote the migration and accretion of fibroblasts and keratinocytes [ 219 ]. However, the microenvironmental disturbances marked by long-term alkaline wound microenvironment can cause chronic non-healing wounds [ 220 ]. Taking advantage of this phenomenon, pH responsive materials are designed based on the pH-triggered release mechanisms.…”

Section: Property and Function Design Of Biomimetic Biomaterials For ...mentioning

confidence: 99%

Advances and applications of biomimetic biomaterials for endogenous skin regeneration

Wang,

Hong,

et al. 2024

Bioactive Materials

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Section: Property and Function Design Of Biomimetic Biomaterials For ...mentioning

confidence: 99%

Advances and applications of biomimetic biomaterials for endogenous skin regeneration

Wang,

Hong,

et al. 2024

Bioactive Materials

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“…[99] Wearable biosensors can inform disease diagnostics by monitoring clinically relevant biomarkers via chemical reactivity (Figure 3e). [7,17,100] Multifunctional microgel polymers can monitor multiple health signals because the binding of physiologically relevant metabolites (e.g., uric acid and bacterial metabolites in sweat) promotes microgel polymer conformational changes that alter capacitance. [101] Advances in biological sample collection and processing, microfluidic devices, and smartphonebased data analysis have enabled wearable biosensors to continuously monitor biological fluids for physiological information.…”

Section: Wearable Devices For Real-time Monitoringmentioning

confidence: 99%

Bioenergy‐Based Closed‐Loop Medical Systems for the Integration of Treatment, Monitoring, and Feedback

Zhang,

Chen,

Zhou

et al. 2023

Small Science

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Wearable healthcare systems have captured the interest of researchers because they enable smarter and more personalized healthcare. However, these systems are limited by a separation between biosensors and therapeutic units that results in interrupted treatment and compromised patient recovery. It is therefore imperative to develop wearable closed‐loop medical devices that fully integrate physiological/pathological monitoring, signal feedback detection, diagnostics, and on‐demand therapeutic administration. Such systems require safe, sustainable, and continuously operating power sources, and bioenergy has gained attention in this regard because it can be sourced continuously from the human body without requiring substantial rigid energy storage space. The effective utilization of bioenergy would enable the realization of a self‐driven closed‐loop medical system with treatment‐monitoring feedback.

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“…While conventional survival analysis methods assume all individuals to be susceptible to the event of interest given sufficient follow-up time, [1][2][3] advancements in medical science have led to a proportion of patients responding favorably to treatment and experiencing no recurrence of disease until the end of a long follow-up time. These patients are described as recurrence-free survivors.…”

Section: Introductionmentioning

confidence: 99%

On the estimation of interval censored destructive negative binomial cure model

Treszoks,

Pal

2023

Statistics in Medicine

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In this article, a competitive risk survival model is considered in which the initial number of risks, assumed to follow a negative binomial distribution, is subject to a destructive mechanism. Assuming the population of interest to have a cure component, the form of the data as interval‐censored, and considering both the number of initial risks and risks remaining active after destruction to be missing data, we develop two distinct estimation algorithms for this model. Making use of the conditional distributions of the missing data, we develop an expectation maximization (EM) algorithm, in which the conditional expected complete log‐likelihood function is decomposed into simpler functions which are then maximized independently. A variation of the EM algorithm, called the stochastic EM (SEM) algorithm, is also developed with the goal of avoiding the calculation of complicated expectations and improving performance at parameter recovery. A Monte Carlo simulation study is carried out to evaluate the performance of both estimation methods through calculated bias, root mean square error, and coverage probability of the asymptotic confidence interval. We demonstrate the proposed SEM algorithm as the preferred estimation method through simulation and further illustrate the advantage of the SEM algorithm, as well as the use of a destructive model, with data from a children's mortality study.

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A time‐dependent survival analysis for early prognosis of chronic wounds by monitoring wound alkalinity

Cited by 7 publications

References 59 publications

Advances and applications of biomimetic biomaterials for endogenous skin regeneration

Advances and applications of biomimetic biomaterials for endogenous skin regeneration

Bioenergy‐Based Closed‐Loop Medical Systems for the Integration of Treatment, Monitoring, and Feedback

On the estimation of interval censored destructive negative binomial cure model

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