Jane Pearce scite author profile

Cancer cells experience unique and dynamic shifts in their metabolic function in order to survive, proliferate, and evade growth inhibition in the resource-scarce tumor microenvironment. Therefore, identification of pharmacological agents with potential to reprogram cancer cell metabolism may improve clinical outcomes in cancer therapy. Cancer cells also often exhibit an increased dependence on the process known as autophagy, both for baseline survival and as a response to stressors such as chemotherapy or a decline in nutrient availability. There is evidence to suggest that this increased dependence on autophagy in cancer cells may be exploitable clinically by combining autophagy modulators with existing chemotherapies. In light of the increased metabolic rate in cancer cells, interest is growing in approaches aimed at "starving" cancer through dietary and pharmacologic interventions that reduce availability of nutrients and pro-growth hormonal signals known to promote cancer progression. Several dietary approaches, including chronic calorie restriction and multiple forms of fasting, have been investigated for their potential anti-cancer benefits, yielding promising results in animal models. Induction of autophagy in response to dietary energy restriction may underlie some of the observed benefit. However, while interventions based on dietary energy restriction have demonstrated safety in clinical trials, uncertainty remains regarding translation to humans as well as feasibility of achieving compliance due to the potential discomfort and weight loss that accompanies dietary restriction. Further induction of autophagy through dietary or pharmacologic metabolic reprogramming interventions may enhance the efficacy of autophagy inhibition in the context of adjuvant or neo-adjuvant chemotherapy. Nonetheless, it remains unclear whether therapeutic agents aimed at autophagy induction, autophagy inhibition, or both are a viable therapeutic strategy for improving cancer outcomes. This review discusses the literature available for the therapeutic potential of these approaches.

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Upstage Rate of Complex Sclerosing Lesions/Radial Scars

Jones

Pearce

Khalil

et al. 2022

The American Surgeon™

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Background Radial scars (RS) and complex sclerosing lesions (CSL) are breast radiologic findings described as small, stellate lesions causing architectural distortion. This can mimic malignancy. Core needle biopsy (CNB) is often performed. Advances in breast imaging have led to increased detection of RS/CSL. The upstage rate of RS/CSL to in situ or invasive disease is 0-40%. We sought to determine the upstaging rate of RS/CSL to in situ, invasive disease, or high-risk lesion at our institution to create excision guidelines. Methods The pathology database of a single center was searched for RS/CSL, from January 2013 to September 2020. We included CNB without malignancy or high-risk lesion (eg, atypical ductal hyperplasia). Patient demographics, indications for biopsy, imaging findings, biopsy procedure, and final pathology were collected. Results Forty-four patients were included. 52.3% had CNB for architectural distortion on mammography, 18.2% for mass, 11.4% for calcifications, 2.3% for abnormal MRI, and 15.9% for multiple reasons (eg, calcifications and mass). Most had an ultrasound: 43.2% had no abnormality and 34.1% had a mass. All CNB were vacuum assisted, 65.9% with 9-gauge needle, and averaged 10.0 cores. 77.3% were stereotactic biopsies, 13.6% ultrasound, and 6.8% MRI. 59.1% had excision after CNB. 82.1% of patients did not upstage. One patient upstaged to invasive ductal carcinoma (3.6%) and two patients to high-risk lesion (7.1%). Discussion There was low upstage rate of RS/CSL on excisional biopsy. Centers could consider close surveillance for RS/CSL on CNB. Longer follow-up in cases of deferred excision is needed to ensure oncologic safety.

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Jane Pearce

Psychological and Sexual Symptoms Associated with the Menopause and the Effects of Hormone Replacement Therapy

Psychological effects of continuation versus discontinuation of hormone replacement therapy by estrogen implants: A placebo-controlled study

Psychological effects of continuation versus discontinuation of hormone replacement therapy by estrogen implants: A placebo-controlled study

Dietary Energy Modulation and Autophagy: Exploiting Metabolic Vulnerabilities to Starve Cancer

Upstage Rate of Complex Sclerosing Lesions/Radial Scars

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