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B. Herrmann, J. Rehder, S. Kahlke, H. Wiedemayer, A. Doerfler, W. Ischebeck, R. Laumer, M. Forsting, D. Stolke, K. Mann (2004)
Hypopituitarism following severe traumatic brain injury.Experimental and clinical endocrinology & diabetes : official journal, German Society of Endocrinology [and] German Diabetes Association, 114 6
H. Schneider, M. Schneider, B. Saller, S. Petersenn, M. Uhr, B. Husemann, F. Rosen, G. Stalla (2006)
Prevalence of anterior pituitary insufficiency 3 and 12 months after traumatic brain injury.European journal of endocrinology, 154 2
S. Giuliano, S. Talarico, Lúcia Bruno, F. Nicoletti, C. Ceccotti, A. Belfiore (2017)
Growth hormone deficiency and hypopituitarism in adults after complicated mild traumatic brain injuryEndocrine, 58
C. Krewer, Manfred Schneider, H. Schneider, I. Kreitschmann-Andermahr, M. Buchfelder, M. Faust, Christian Berg, H. Wallaschofski, C. Renner, E. Uhl, E. Koenig, M. Jordan, G. Stalla, A. Kopczak (2016)
Neuroendocrine Disturbances One to Five or More Years after Traumatic Brain Injury and Aneurysmal Subarachnoid Hemorrhage: Data from the German Database on Hypopituitarism.Journal of neurotrauma, 33 16
Rita Nguyen, K. Fiest, Jane McChesney, C. Kwon, N. Jetté, A. Frolkis, C. Atta, Sarah Mah, H. Dhaliwal, A. Reid, T. Pringsheim, J. Dykeman, C. Gallagher (2016)
The International Incidence of Traumatic Brain Injury: A Systematic Review and Meta-AnalysisCanadian Journal of Neurological Sciences / Journal Canadien des Sciences Neurologiques, 43
I. Karamouzis, L. Pagano, F. Prodam, C. Mele, M. Zavattaro, A. Busti, P. Marzullo, G. Aimaretti (2016)
Clinical and diagnostic approach to patients with hypopituitarism due to traumatic brain injury (TBI), subarachnoid hemorrhage (SAH), and ischemic stroke (IS)Endocrine, 52
J. Verhelst, A. Mattsson, A. Luger, M. Thunander, M. Góth, M. Kołtowska‐Häggström, R. Abs (2011)
Prevalence and characteristics of the metabolic syndrome in 2479 hypopituitary patients with adult-onset GH deficiency before GH replacement: a KIMS analysis.European journal of endocrinology, 165 6
F. Tanrıverdi, I. Kocyiğit, K. Ünlühızarcı, F. Casanueva, F. Keleştimur (2008)
Body composition, serum IGF-I and leptin level changes in amateur boxers: retired boxers have risk factors for cardiovascular disorders
A. Verma, V. Anand, N. Verma (2007)
Sleep disorders in chronic traumatic brain injury.Journal of clinical sleep medicine : JCSM : official publication of the American Academy of Sleep Medicine, 3 4
A. Członkowska, T. Litwin, K. Dzieżyc, M. Karlinski, J. Bring, C. Bjartmar (2018)
Characteristics of a newly diagnosed Polish cohort of patients with neurological manifestations of Wilson disease evaluated with the Unified Wilson’s Disease Rating ScaleBMC Neurology, 18
F. Prodam, M. Caputo, S. Belcastro, V. Garbaccio, M. Zavattaro, M. Samà, S. Bellone, L. Pagano, G. Bona, G. Aimaretti (2012)
Quality of life, mood disturbances and psychological parameters in adult patients with GH deficiency.Panminerva medica, 54 4
A. Leal‐Cerro, J. Flores, M. Rincon, F. Murillo, M. Pujol, F. García-Pesquera, C. Diéguez, F. Casanueva (2005)
Prevalence of hypopituitarism and growth hormone deficiency in adults long‐term after severe traumatic brain injuryClinical Endocrinology, 62
F. Prodam, V. Gasco, M. Caputo, M. Zavattaro, L. Pagano, P. Marzullo, S. Belcastro, A. Busti, C. Perino, S. Grottoli, E. Ghigo, G. Aimaretti (2013)
Metabolic alterations in patients who develop traumatic brain injury (TBI)-induced hypopituitarism.Growth hormone & IGF research : official journal of the Growth Hormone Research Society and the International IGF Research Society, 23 4
F. Tanrıverdi, S. Taheri, H. Ulutabanca, A. Çağlayan, Y. Ozkul, M. Dundar, A. Selçuklu, K. Unluhizarci, F. Casanueva, F. Keleştimur (2008)
Apolipoprotein E3/E3 genotype decreases the risk of pituitary dysfunction after traumatic brain injury due to various causes: preliminary data.Journal of neurotrauma, 25 9
(2005)
Effect of intravenous corticosteroids on death within 14 days in 10008 adults with clinically significant head injury (MRC CRASH trial): randomised placebo-controlled trial
N. Glynn, A. Agha (2013)
Which patient requires neuroendocrine assessment following traumatic brain injury, when and how?Clinical Endocrinology, 78
C. Jourdan, D. Brugel, K. Hubeaux, H. Toure, A. Laurent‐Vannier, M. Chevignard (2012)
Weight gain after childhood traumatic brain injury: a matter of concernDevelopmental Medicine & Child Neurology, 54
A. Genazzani, N. Pluchino, S. Luisi, M. Luisi (2007)
Estrogen, cognition and female ageing.Human reproduction update, 13 2
Arundhati Undurti, E. Colasurdo, C. Sikkema, Jaclyn Schultz, E. Peskind, K. Pagulayan, C. Wilkinson (2018)
Chronic Hypopituitarism Associated with Increased Postconcussive Symptoms Is Prevalent after Blast-Induced Mild Traumatic Brain InjuryFrontiers in Neurology, 9
O. Moreau, C. Cortet-Rudelli, E. Yollin, E. Merlen, W. Daveluy, M. Rousseaux (2013)
Growth hormone replacement therapy in patients with traumatic brain injury.Journal of neurotrauma, 30 11
B. Armin, P. Cohan, P. Christenson, D. McArthur, N. Mirza, J. Wiseman, Christina Wang, D. Kelly (2001)
541 ACUTE SECONDARY ADRENAL INSUFFICIENCY AFTER TRAUMATIC BRAIN INJURY.Journal of Investigative Medicine, 52
W. High, Maria Briones-Galang, Jessica Clark, C. Gilkison, K. Mossberg, D. Zgaljardic, B. Masel, R. Urban (2010)
Effect of growth hormone replacement therapy on cognition after traumatic brain injury.Journal of neurotrauma, 27 9
D. Kelly, I. Gonzalo, P. Cohan, N. Berman, R. Swerdloff, Christina Wang (2000)
Hypopituitarism following traumatic brain injury and aneurysmal subarachnoid hemorrhage: a preliminary report.Journal of neurosurgery, 93 5
A. Agha, M. Sherlock, J. Phillips, W. Tormey, C. Thompson (2005)
The natural history of post-traumatic neurohypophysial dysfunction.European journal of endocrinology, 152 3
K. Denicoff, R. Joffe, M. Lakshmanan, Jacob Robbins, D. Rubinow (1990)
Neuropsychiatric manifestations of altered thyroid state.The American journal of psychiatry, 147 1
Vinita Bhagia, C. Gilkison, R. Fitts, D. Zgaljardic, W. High, B. Masel, R. Urban, K. Mossberg (2010)
Effect of recombinant growth hormone replacement in a growth hormone deficient subject recovering from mild traumatic brain injury: A case reportBrain Injury, 24
V. Popović, S. Pekic, Dragan Pavlović, Nadja Maric, M. Jašović-Gašić, B. Djurović, M. Medic-Stojanoska, V. Zivkovic, Milan Stojanovic, M. Doknic, Natasa Milic, M. Djurovic, C. Diéguez, F. Casanueva (2004)
Hypopituitarism as a consequence of traumatic brain injury (TBI) and its possible relation with cognitive disabilities and mental distressJournal of Endocrinological Investigation, 27
F. Tanrıverdi, A. Bellis, A. Bizzarro, A. Sinisi, G. Bellastella, Elena Pane, A. Bellastella, K. Unluhizarci, A. Selçuklu, F. Casanueva, F. Keleştimur (2008)
Antipituitary antibodies after traumatic brain injury: is head trauma-induced pituitary dysfunction associated with autoimmunity?European journal of endocrinology, 159 1
C. Gardner, A. Mattsson, C. Daousi, M. Korbonits, M. Kołtowska-Haggstrom, D. Cuthbertson (2015)
GH deficiency after traumatic brain injury: improvement in quality of life with GH therapy: analysis of the KIMS database.European journal of endocrinology, 172 4
Pedro Reimunde, A. Quintana, B. Castañón, Nerea Casteleiro, Z. Vilarnovo, A. Otero, A. Devesa, X. Otero-Cepeda, J. Devesa (2011)
Effects of growth hormone (GH) replacement and cognitive rehabilitation in patients with cognitive disorders after traumatic brain injuryBrain Injury, 25
A. Agha, B. Rogers, M. Sherlock, P. O’Kelly, W. Tormey, J. Phillips, C. Thompson (2004)
Anterior pituitary dysfunction in survivors of traumatic brain injury.The Journal of clinical endocrinology and metabolism, 89 10
Mitch Flesher, D. Delahanty, A. Raimonde, E. Spoonster (2001)
Amnesia, neuroendocrine levels and PTSD in motor vehicle accident victimsBrain Injury, 15
G. Mcgauley, R. Cuneo, F. Salomon, P. Sönksen (1990)
Psychological well-being before and after growth hormone treatment in adults with growth hormone deficiency.Hormone research, 33 Suppl 4
M. Hannon, R. Crowley, L. Behan, E. O’Sullivan, M. O'Brien, M. Sherlock, D. Rawluk, R. O'Dwyer, W. Tormey, C. Thompson (2013)
Acute glucocorticoid deficiency and diabetes insipidus are common after acute traumatic brain injury and predict mortality.The Journal of clinical endocrinology and metabolism, 98 8
K. Park, Deog-Young Kim, Ju Lee, H. Nam, Y. Park (2010)
Anterior pituitary dysfunction in moderate-to-severe chronic traumatic brain injury patients and the influence on functional outcomeBrain Injury, 24
S. Lieberman, Asra Oberoi, C. Gilkison, B. Masel, R. Urban (2001)
Prevalence of neuroendocrine dysfunction in patients recovering from traumatic brain injury.The Journal of clinical endocrinology and metabolism, 86 6
M. Fleseriu, I. Hashim, N. Karavitaki, N. Karavitaki, S. Melmed, M. Murad, R. Salvatori, M. Samuels (2016)
Hormonal Replacement in Hypopituitarism in Adults: An Endocrine Society Clinical Practice Guideline.The Journal of clinical endocrinology and metabolism, 101 11
F. Tanrıverdi, H. Ulutabanca, K. Unluhizarci, A. Selçuklu, F. Casanueva, F. Keleştimur (2007)
Pituitary functions in the acute phase of traumatic brain injury: Are they related to severity of the injury or mortality?Brain Injury, 21
J. Takala, E. Ruokonen, N. Webster, Michael Nielsen, D. Zandstra, G. Vundelinckx, C. Hinds (1999)
Increased mortality associated with growth hormone treatment in critically ill adults.The New England journal of medicine, 341 11
P. Crenn, Sabrina Hamchaoui, Aliette Bourget-Massari, M. Hanachi, J. Melchior, P. Azouvi (2014)
Changes in weight after traumatic brain injury in adult patients: a longitudinal study.Clinical nutrition, 33 2
H. Simpson, R. Savine, P. Sönksen, B. Bengtsson, L. Carlsson, J. Christiansen, D. Clemmons, Pinchus Cohen, R. Hintz, K. Ho, P. Mullis, I. Robinson, C. Strasburger, Toshiaka Tanaka, M. Thorner (2002)
Growth hormone replacement therapy for adults: into the new millennium.Growth hormone & IGF research : official journal of the Growth Hormone Research Society and the International IGF Research Society, 12 1
H. Schneider, I. Kreitschmann-Andermahr, E. Ghigo, G. Stalla, A. Agha (2007)
Hypothalamopituitary dysfunction following traumatic brain injury and aneurysmal subarachnoid hemorrhage: a systematic review.JAMA, 298 12
N. Sundaram, Eliza Geer, B. Greenwald (2013)
The impact of traumatic brain injury on pituitary function.Endocrinology and metabolism clinics of North America, 42 3
L. Lanterna, Veronica Spreafico, Paolo Gritti, F. Prodam, A. Signorelli, F. Biroli, G. Aimaretti (2013)
Hypocortisolism in noncomatose patients during the acute phase of subarachnoid hemorrhage.Journal of stroke and cerebrovascular diseases : the official journal of National Stroke Association, 22 7
G. Aimaretti, M. Ambrosio, C. Somma, M. Gasperi, S. Cannavò, C. Scaroni, A. Fusco, P. Monte, E. Menis, M. Faustini‐Fustini, F. Grimaldi, F. Logoluso, P. Razzore, S. Rovere, S. Benvenga, E. Uberti, L. Marinis, G. Lombardi, F. Mantero, E. Martino, G. Giordano, E. Ghigo (2005)
Residual pituitary function after brain injury-induced hypopituitarism: a prospective 12-month study.The Journal of clinical endocrinology and metabolism, 90 11
E Cryan (1918)
Pituitary demage due to skull base fractureDtsch Med Wochenschr, 44
M. Klose, A. Juul, L. Poulsgaard, Michael Kosteljanetz, J. Brennum, U. Feldt-Rasmussen (2007)
Prevalence and predictive factors of post‐traumatic hypopituitarismClinical Endocrinology, 67
J. León-Carrión, Alfonso Leal-Cerro, F. Cabezas, A. Atutxa, S. Gomez, J. Cordero, A. Moreno, M. Ferrari, M. Dominguez-Morales (2007)
Cognitive deterioration due to GH deficiency in patients with traumatic brain injury: A preliminary reportBrain Injury, 21
M. Cherrier, S. Craft, Alvin Matsumoto (2003)
Cognitive changes associated with supplementation of testosterone or dihydrotestosterone in mildly hypogonadal men: a preliminary report.Journal of andrology, 24 4
D. Ozdemir, B. Baykara, I. Aksu, M. Kiray, A. Şişman, F. Çetin, A. Dayi, T. Gurpinar, N. Uysal, M. Arda (2012)
Relationship between circulating IGF-1 levels and traumatic brain injury-induced hippocampal damage and cognitive dysfunction in immature ratsNeuroscience Letters, 507
F. Tanrıverdi, H. Schneider, G. Aimaretti, B. Masel, F. Casanueva, F. Keleştimur (2015)
Pituitary dysfunction after traumatic brain injury: a clinical and pathophysiological approach.Endocrine reviews, 36 3
D. Kelly, C. Chaloner, D. Evans, A. Mathews, P. Cohan, Christina Wang, R. Swerdloff, M. Sim, Jihey Lee, Mathew Wright, C. Kernan, G. Barkhoudarian, K. Yuen, K. Guskiewicz (2014)
Prevalence of pituitary hormone dysfunction, metabolic syndrome, and impaired quality of life in retired professional football players: a prospective study.Journal of neurotrauma, 31 13
M. Cherrier, A. Matsumoto, J. Amory, Syed Ahmed, W. Bremner, E. Peskind, M. Raskind, M. Johnson, S. Craft (2005)
The role of aromatization in testosterone supplementationNeurology, 64
A. Agha, J. Phillips, P. O’Kelly, W. Tormey, C. Thompson (2005)
The natural history of post-traumatic hypopituitarism: implications for assessment and treatment.The American journal of medicine, 118 12
Amir Molaie, J. Maguire (2018)
Neuroendocrine Abnormalities Following Traumatic Brain Injury: An Important Contributor to Neuropsychiatric SequelaeFrontiers in Endocrinology, 9
K. Jellinger, W. Paulus, C. Wrocklage, I. Litvan (2001)
Traumatic brain injury as a risk factor for Alzheimer disease. Comparison of two retrospective autopsy cohorts with evaluation of ApoE genotypeBMC Neurology, 1
Chin Tan, S. Alavi, S. Baldeweg, A. Belli, A. Carson, C. Feeney, A. Goldstone, R. Greenwood, D. Menon, H. Simpson, A. Toogood, M. Gurnell, P. Hutchinson (2017)
The screening and management of pituitary dysfunction following traumatic brain injury in adults: British Neurotrauma Group guidanceJournal of Neurology, Neurosurgery, and Psychiatry, 88
M. Cooper, P. Stewart (2007)
Adrenal Insufficiency in Critical IllnessJournal of Intensive Care Medicine, 22
D. Kelly, D. McArthur, H. Levin, Shana Swimmer, J. Dusick, P. Cohan, Christina Wang, R. Swerdloff (2006)
Neurobehavioral and quality of life changes associated with growth hormone insufficiency after complicated mild, moderate, or severe traumatic brain injury.Journal of neurotrauma, 23 6
A. Attanasio, D. Mo, E. Erfurth, MengHee Tan, K. Ho, D. Kleinberg, A. Zimmermann, P. Chanson (2011)
Prevalence of metabolic syndrome in adult hypopituitary growth hormone (GH)-deficient patients before and after GH replacement.The Journal of clinical endocrinology and metabolism, 95 1
S. Moffat (2005)
Effects of Testosterone on Cognitive and Brain Aging in Elderly MenAnnals of the New York Academy of Sciences, 1055
J. Devesa, Pedro Reimunde, P. Devesa, M. Barberá, V. Arce (2013)
Growth hormone (GH) and brain traumaHormones and Behavior, 63
Lynette Desouza, U. Ladiwala, Sarah Daniel, S. Agashe, R. Vaidya, V. Vaidya (2005)
Thyroid hormone regulates hippocampal neurogenesis in the adult rat brainMolecular and Cellular Neuroscience, 29
M. Hannon, M. Sherlock, C. Thompson (2011)
Pituitary dysfunction following traumatic brain injury or subarachnoid haemorrhage - in "Endocrine Management in the Intensive Care Unit".Best practice & research. Clinical endocrinology & metabolism, 25 5
F. Tanrıverdi, Hakan Senyurek, K. Unluhizarci, A. Selçuklu, F. Casanueva, F. Keleştimur (2006)
High risk of hypopituitarism after traumatic brain injury: a prospective investigation of anterior pituitary function in the acute phase and 12 months after trauma.The Journal of clinical endocrinology and metabolism, 91 6
G. Aimaretti, M. Ambrosio, C. Somma, A. Fusco, S. Cannavò, M. Gasperi, C. Scaroni, L. Marinis, S. Benvenga, E. Uberti, G. Lombardi, F. Mantero, E. Martino, G. Giordano, E. Ghigo (2004)
Traumatic brain injury and subarachnoid haemorrhage are conditions at high risk for hypopituitarism: screening study at 3 months after the brain injuryClinical Endocrinology, 61
M. Bondanelli, L. Marinis, M. Ambrosio, M. Monesi, D. Valle, M. Zatelli, A. Fusco, A. Bianchi, M. Farneti, E. Uberti (2004)
Occurrence of pituitary dysfunction following traumatic brain injury.Journal of neurotrauma, 21 6
Fatih Tanriverdi, A. Agha, G. Aimaretti, F. Casanueva, Fahrettin Kelestimur, M. Klose, Brent Masel, Alberto Pereira, V. Popović, Harald Schneider (2011)
Manifesto for the current understanding and management of traumatic brain injury-induced hypopituitarismJournal of Endocrinological Investigation, 34
Andrew Westwood, A. Beiser, C. DeCarli, T. Harris, Tai-Chi Chen, Xuemei He, R. Roubenoff, A. Pikula, R. Au, L. Braverman, P. Wolf, R. Vasan, S. Seshadri (2014)
Insulin-like growth factor-1 and risk of Alzheimer dementia and brain atrophyNeurology, 82
I. Vanhorebeek, G. Berghe (2004)
Hormonal and metabolic strategies to attenuate catabolism in critically ill patients.Current opinion in pharmacology, 4 6
A. Jonasdottir, P. Sigurjónsson, I. Ólafsson, S. Kárason, G. Sigthorsson, H. Sigurjonsdottir (2018)
Hypopituitarism 3 and 12 months after traumatic brain injury and subarachnoid haemorrhageBrain Injury, 32
M. Quinn, A. Agha (2018)
Post-Traumatic Hypopituitarism—Who Should Be Screened, When, and How?Frontiers in Endocrinology, 9
M. Klose, T. Watt, Jannick Brennum, U. Feldt-Rasmussen (2007)
Posttraumatic hypopituitarism is associated with an unfavorable body composition and lipid profile, and decreased quality of life 12 months after injury.The Journal of clinical endocrinology and metabolism, 92 10
A. Agha, E. Thornton, P. O’Kelly, W. Tormey, J. Phillips, C. Thompson (2004)
Posterior pituitary dysfunction after traumatic brain injury.The Journal of clinical endocrinology and metabolism, 89 12
H. Schneider, G. Aimaretti, I. Kreitschmann-Andermahr, G. Stalla, E. Ghigo (2007)
HypopituitarismThe Lancet, 369
J. Hatton, R. Kryscio, M. Ryan, L. Ott, B. Young (2006)
Systemic metabolic effects of combined insulin-like growth factor-I and growth hormone therapy in patients who have sustained acute traumatic brain injury.Journal of neurosurgery, 105 6
I. Kreitschmann-Andermahr, E. Poll, A. Reineke, J. Gilsbach, G. Brabant, M. Buchfelder, W. Fassbender, M. Faust, P. Kann, H. Wallaschofski (2008)
Growth hormone deficient patients after traumatic brain injury--baseline characteristics and benefits after growth hormone replacement--an analysis of the German KIMS database.Growth hormone & IGF research : official journal of the Growth Hormone Research Society and the International IGF Research Society, 18 6
R. Luque, Qing Lin, J. Cordoba-Chacon, P. Subbaiah, T. Buch, A. Waisman, H. Vankelecom, R. Kineman (2011)
Metabolic Impact of Adult-Onset, Isolated, Growth Hormone Deficiency (AOiGHD) Due to Destruction of Pituitary SomatotropesPLoS ONE, 6
F. Tanrıverdi, C. Suer, H. Yapislar, I. Kocyiğit, A. Selçuklu, K. Unluhizarci, F. Casanueva, F. Keleştimur (2013)
Growth hormone deficiency due to sports‐related head trauma is associated with impaired cognitive performance in amateur boxers and kickboxers as revealed by P300 auditory event‐related potentialsClinical Endocrinology, 78
D. Kampen, B. Sherwin (1994)
Estrogen Use and Verbal Memory in Healthy Postmenopausal WomenObstetrics & Gynecology, 83
V. Arce, P. Devesa, J. Devesa (2013)
Role of growth hormone (GH) in the treatment on neural diseases: From neuroprotection to neural repairNeuroscience Research, 76
E. Wekking, B. Appelhof, E. Fliers, A. Schene, J. Huyser, J. Tijssen, W. Wiersinga (2005)
Cognitive functioning and well-being in euthyroid patients on thyroxine replacement therapy for primary hypothyroidism.European journal of endocrinology, 153 6
Z. Karaca, F. Tanrıverdi, K. Ünlühızarcı, F. Keleştimur (2016)
GH and Pituitary Hormone Alterations After Traumatic Brain Injury.Progress in molecular biology and translational science, 138
N. Åberg, K. Brywe, J. Isgaard (2006)
Aspects of Growth Hormone and Insulin-Like Growth Factor-I Related to Neuroprotection, Regeneration, and Functional Plasticity in the Adult BrainThe Scientific World Journal, 6
Traumatic brain injury (TBI) is an important public health problem with an increasing incidence in the last years. Relatively few cases are fatal; most individuals will survive and, in the long-term, the sequalae of TBI will include neuroendocrine dysfunctions with a much higher frequency than previously suspected. Patients who develop hypopituitarism after TBI present manifestations due to the number of deficient hormones, severity of hormonal deficiency, and the duration of hypopituitarism without diagnosis and treatment. The clinical spectrum of hypopituitarism is very large and many signs and symptoms of TBI survivors such as fatigue, concentration difficulties, depressive symptoms are nonspecific and overlap with symptoms of post-traumatic stress disorder and variably severe hypopituitarism related to brain damage remaining undiagnosed. This can explain why the diagnosis of hypopituitarism is often missed or delayed after this condition with potentially serious and hazardous consequences for the affected patients. Moreover, clinical experience cumulatively suggests that TBI-associated hypopituitarism is associated with poor recovery and worse outcome, since post-traumatic hypopituitarism is independently associated with cognitive impairment, poor quality of life, abnormal body composition, and adverse metabolic profile. In the present review, the current data related to clinical consequences of pituitary dysfunction after TBI in adult patients and therapeutic approaches are reported.
Pituitary – Springer Journals
Published: Mar 30, 2019
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