Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-25T06:36:28.978Z Has data issue: false hasContentIssue false

A Possible Case of Coccidioides Infection in a Thirteenth-Century Bolivian Mummy

Published online by Cambridge University Press:  17 August 2023

Jacopo Cilli
Affiliation:
Department of Medicine and Aging Sciences, G. d'Annunzio University of Chieti–Pescara, Chieti, Italy
Lucia Borrelli
Affiliation:
Anthropology Museum, University Federico II of Naples, Naples, Italy (luborrel@unina.it)
Ruggero D'Anastasio*
Affiliation:
Department of Medicine and Aging Sciences, G. d'Annunzio University of Chieti–Pescara, Chieti, Italy
Andrea Soricelli
Affiliation:
IRCCS SDN Centre, Parthenope University of Naples, Naples, Italy
Luigi Capasso
Affiliation:
Department of Medicine and Aging Sciences, G. d'Annunzio University of Chieti–Pescara, Chieti, Italy
*
Corresponding author: Ruggero D'Anastasio; Email: r.danastasio@unich.it
Rights & Permissions [Opens in a new window]

Abstract

Coccidioidomycosis is an infectious fungal disease endemic in Bolivia's Gran Chaco region that is caused by inspiration of the spores of Coccidiodes species. It is a respiratory pathology that can spread to the skeleton and produce diffuse lytic lesions in different parts of the body. This disease has rarely been described in historic populations, and we present here a new case of coccidioidomycosis in a mummified human individual. It corresponds to a female individual with an age at death of 25–35 years, dated to the Tiwanaku epoch of the thirteenth century AD. It was found inside a sepulchral cave near the city of Ulloma in western Bolivia. Radiographic examination shows numerous osseous lytic lesions with central cavitation concentrated on the cranial table and vertebral bodies. The observed condition could correspond to the secondary phase of coccidioidomycosis. This diagnosis is noteworthy because coccidioidomycosis was mainly described as a male work-related disease and has never been found in ancient western Bolivia.

La coccidioidomicosis es una enfermedad infecciosa micótica endémica de la región del Gran Chaco (Bolivia) causada por la inspiración de esporas de Coccidiodes spp. Puede producir lesiones líticas difusas en diferentes partes del cuerpo. Esta enfermedad rara vez ha sido descrita en poblaciones históricas, y nosotros presentamos un nuevo caso de coccidioidomicosis en un sujeto momificado, que corresponde a un individuo femenino con una edad estimada entre 25 y 35 años, datada en época Tiwanaku correspondiente al siglo trece. Se encontró dentro de una cueva sepulcral cerca de la ciudad de Ulloma, en el oeste de Bolivia. El análisis radiográfico muestra que el cuerpo momificado tiene numerosas lesiones óseas líticas con cavitación que se concentran en la tabla craneal y cuerpos vertebrales. Estas podrían corresponder a la fase secundaria de la coccidioidomicosis. El diagnóstico es históricamente importante porque ésta es una enfermedad laboral relacionada a sujetos masculinos y no había sido descrita para el oeste de Bolivia.

Type
Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of Society for American Archaeology

Coccidioidomycosis is a nontransmissible infectious fungal disease that is endemic to arid and semiarid regions of the southwestern United States, Mexico, and South America (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998; Blair Reference Blair2007; Patel and Cardile Reference Patel and Cardile2013; Temple Reference Temple2006). It is caused by inhalation of the arthrospores of Coccidioides species (Fisher et al. Reference Fisher, Koenig, White and Taylor2002). Coccidioides is a human respiratory pathogen that typically causes respiratory infection but can be disseminated throughout the body in fewer than 5% of cases. Bones are affected in approximately 20%–50% of the disseminated cases (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998; Blair Reference Blair2007; Patel and Cardile Reference Patel and Cardile2013). Although any bone can be involved, the axial structures are more commonly affected (Bisla and Taber Reference Bisla and Taber1976).

Coccidioidomycosis was first believed to be caused by the species Coccidioides immitis. Only later was it recognized that Coccidioides include two nearly identical species, known as Coccidioides immitis and Coccidioides posadasii (Fisher et al. Reference Fisher, Koenig, White and Taylor2002; Temple Reference Temple2006). C. immitis is indigenous to California (the “Californian” species), whereas C. posadasii is present in other endemic areas (the “non-Californian” species; Hector and Laniado-Laborin Reference Hector and Laniado-Laborin2005; Saubolle Reference Saubolle2007). Inhalation of Coccidioides arthrospores causes a self-limited, acute, community-acquired pneumonia-like disease as a primary form (Crum et al. Reference Crum, Lederman, Stafford, Scott Parrish and Wallace2004; Galgiani et al. Reference Galgiani, Ampel, Blair, Catanzaro, Johnson, Stevens and Williams2005). In 1%–5% of all coccidioidomycosis cases, the disease can develop into a progressive, chronic, and often fatal disseminated form (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998; Blair Reference Blair2007; Crum et al. Reference Crum, Lederman, Stafford, Scott Parrish and Wallace2004).

Adult males are more often infected (almost 70% of cases; Crum et al. Reference Crum, Lederman, Stafford, Scott Parrish and Wallace2004), probably because of occupational dust exposure. However, hormonal or genetic components could be involved (Ampel et al. Reference Ampel, Wieden and Galgiani1989). This study describes a probable case of coccidioidomycosis in a mummified individual found in western Bolivia, in an area where no ancient case of coccidioidomycosis has been diagnosed, according to a bibliographic search in international journals.

Materials and Methods

The Anthropology Museum of Federico II University of Naples in Italy possesses four human mummies from South America that its founder Giustiniano Nicolucci acquired in the late nineteenth century (Borrelli and Capasso Reference Borrelli and Capasso2019). The first scientific news of these mummies can be found in an article published by De Blasio (Reference De Blasio1900).

These are artificially mummified individuals in accordance with Andean funerary practices. They show the classic cutting lesion in the lower abdomen area, which was used as an opening for extraction of the bowels and preservation of the body by the straw method. In addition, rows of small holes at the level of the cuts are evident; they represent the remains of the sutures used by the embalmers to close the abdominal wall. The abdominal cavities were filled with coca leaves and straw, which were mixed with some natural balms. The skulls were artificially deformed, assuming a strongly dolichocephalic shape (Borrelli and Capasso Reference Borrelli and Capasso2019). Cranial deformation was a marker of ethnic/group identity and had spiritual and aesthetic significance for Andean cultures (Allison et al. Reference Allison, Gerszten, Munizaga, Santoro and Focacci1981; Bloom Reference Bloom2005), as did the use of coca leaves (Borrelli and Capasso Reference Borrelli and Capasso2019). According to De Blasio (Reference De Blasio1900), this practice follows the belief that children born with deformed skulls were superior beings; therefore, there was a tendency to deform the skulls of healthy born children to emphasize the superiority of a certain class compared to the others.

The mummy of this study (catalog no. MA2971) was purchased by Emilio di Tommasi, royal consul of Italy in Bolivia in 1897. It was found in the burial grounds of Ulloma, a province of La Paz (Bolivia), on August 27 of that same year (Figure 1; see De Blasio Reference De Blasio1900:Figure 5). The place of discovery and the type of funerary bundle—also found on the body of another mummy at the Anthropology Museum that came from the same archaeological site of Ulloma (Borrelli and Capasso Reference Borrelli and Capasso2019)—suggest the attribution of the mummy we studied to the Pacaxas (Pakasa) population of Aymara origin. This population's culture was influenced by that of Tiwanaku, albeit with regional characteristics (Kesseli and Pärssinen Reference Kesseli and Pärssinen2005). Therefore, the mummy has been attributed to the Tiwanaku culture. The sex was determined from the bones’ grossly visible morphology, according to the methodology of Ferembach and others (Reference Ferembach, Schwidetzky and Stloukal1980), and the age at death was calculated through the study of dental wear (Brothwell Reference Brothwell1981).

Figure 1. Map of Bolivia with the location of Gran Chaco Region where Coccidioides spp. are endemic.

Radiocarbon analyses were performed by the CIRCE laboratory of the Luigi Vanvitelli University of Campania, in Caserta, Italy. The radiographs were done by the IRCCS SDN Centre of Naples.

Results

The mummy is a female individual with an age at death of between 25 and 35 years. The individual was embalmed in a curled-up sitting position, with her legs folded into her chest and her hands on her shoulders. Radiocarbon analysis dated this individual to 765 ± 43 BP (DSH-8697_FV; rope; δ13 = −13‰). For this date the calibrated age range is 1182–1294 cal AD (2σ, IntCal2013).

The mummy shows paleopathological alterations in the skeleton. The radiographs highlight bone lesions that affected some vertebrae of the dorsal and lumbar tracts and the neurocranium bones: they show multiple unmerged osteolytic lesions with sclerotic margins in the cranial vault and thoracic and lumbar vertebrae. The lesions involve the inner table, and they are lytic and well demarcated, showing central cavitation because of the massive destruction of the cancellous bone. They vary widely in size and are circular in shape. We observed at least four circular lesions of the frontal bone, especially near the coronal suture, and a great concentration of small (about 0.5 cm) lesions widely spread on the parietal bones (Figure 2). The lesions are also visible on vertebral bodies, especially in the lumbar tract (Figure 3). The last lumbar vertebrae show clear signs of arthrosis with the formation of osteophytes and deformations of the vertebral bodies (Figure 4). The posterior elements of the vertebrae show pathological alterations (Figure 5). The analyses did not show any other osteolytic lesions in other regions of the skeleton.

Figure 2. X-ray of the skull (lateral view): arrows indicate osteolytic areas without signs of peripheral sclerosis.

Figure 3. X-ray of the spine (frontal view): arrows indicate osteolytic lesions on the vertebral bodies of the lumbar tract.

Figure 4. X-ray of the spine (lateral view): arrows indicate osteophytes and deformation of vertebral bodies caused by arthrosis.

Figure 5. Lumbar tract: a lesion with a confluent circular profile and a thickened antero-inferior margin is visible on one of the posterior laminae of L3 as a hyper-diaphanous area (black circle).

Discussion

The primary focus of coccidioidomycosis is the lungs, but infection can disseminate to other tissue and organs, and bone and joint involvement occurs in approximately 20%–50% of disseminated cases. The disease most frequently affects the axial skeleton—the spine, skull, sternum, and ribs (Crum et al. Reference Crum, Lederman, Stafford, Scott Parrish and Wallace2004)—and favors bony prominences, such as the acromion, the coracoid, the styloid process of the radius and ulna, and epiphyses of the humeri, tibiae, and clavicles (Ortner and Putschar Reference Ortner and Putschar1981). The osseous disease is chronic and progressive.

Radiographs are an important tool for the diagnosis of Coccidioides infections. A long-standing infection shows single or multifocal lytic, “punched-out” destructive lesions, with a loss of bone tissue and irregular borders (Blair Reference Blair2007). However, X-rays with these features might also suggest other kinds of infectious and non-infectious processes. The vertebral involvement could be attributable primarily to tuberculosis (Wesselius et al. Reference Wesselius, Brooks and Gail1977), myeloma (Micarelli et al. Reference Micarelli, Paine, Tafuri and Manzi2019), or other fungal infections (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998; Bried and Galgiani Reference Bried and Galgiani1986; Dalinka et al. Reference Dalinka, Dinenberg, Greendyk and Hopkins1971). Therefore, it can be difficult to distinguish among early stages of spinal mycotic infections.

We relied on the morphology and distribution of the lytic lesions found on the mummy, as well as geographic, ecological, biological, and clinical information, for the differential diagnosis. Multiple myeloma is characterized by small uniform lesions that are spherical and that have irregular margins and no signs of osteoblastic activity. Usually, a diagnostic tool for identifying multiple myeloma is the presence of small lytic lesions on the skull. The destruction of the vertebral bodies often leads to the collapse of multiple vertebrae, resulting in kyphosis or scoliosis. However, these defects are spread throughout the skeleton and usually affect males older than 40 years old (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998). Given the age of the mummy, the distribution of lesions, and the absence of vertebral collapse, kyphosis, or scoliosis, multiple myeloma can be reasonably excluded as the lesions’ causal agent.

Nearly 200 species of fungi are known to be responsible for human diseases (Pinto et al. Reference Pinto, Manjunath Shenoy, Girisha, Suchitra Shenoy and Sridhar2008). Among fungal diseases that can affect bone are aspergillosis, cryptococcosis, blastomycosis, and coccidioidomycosis, all of which can affect the same bone regions and produce well-defined lytic lesions (Temple Reference Temple2006). Determination of which fungus caused the condition of our mummy was therefore problematic. The lesion morphology and positions, together with the geographic and ecological information, were key factors in the diagnosis.

Spinal involvement with Aspergillus is not very common and is usually limited to the lumbar region (Tack et al. Reference Tack, Rhame, Brown and Thompson1982). In Cryptococcus infection, bone lesions can usually be found on the spine in the lumbar and the cervical regions (Jain et al. Reference Jain, Sharma and Jain1999). Cryptococcus lytic lesions can be similar to those in coccidioidomycosis; however, abscess formation by this fungus is rare (Kim et al. Reference Kim, Perry, Currier, Yaszemski and Garfin2006).

The most common extrapulmonary site for blastomycosis is the skin, in the form of dermal skin and hypodermic lesions (Teodori Reference Teodori1981): these lesions were absent in this mummy. There were also no collapsed vertebrae nor gibbous deformities of the vertebral column, as are often caused by Blastomyces infections (Kim et al. Reference Kim, Perry, Currier, Yaszemski and Garfin2006).

Lesions for the present sample match the clinical description of coccidioidomycosis, although with some differences, particularly the absence of lesions in the extremities of the long bones, hands, and ribs. When considering only bone lesions, the diagnosis of coccidioidomycosis is difficult. Epidemiological data (e.g., the area of diffusion of these fungi), however, can support the diagnosis of coccidioidomycosis.

Among fungi that could result in spinal infection, only Coccidioides spp. are associated with dry soils (Temple Reference Temple2006). Little is known about the areas of coccidioidomycosis in Bolivia, but the endemic area seems to be the Gran Chaco region in southern Bolivia (Ajello Reference Ajello1967). We therefore considered coccidioidomycosis to be the most likely diagnosis for the mummy's bone lesions.

Tuberculosis is the most common diagnostic error for Coccidioides lesions; indeed, the skeletal lesions of Ulloma's mummy could also be attributed to this infectious disease. Tuberculosis is a bacterial infection that typically involves the lower thoracic and upper lumbar vertebrae, as does mycotic infection (Kim et al. Reference Kim, Perry, Currier, Yaszemski and Garfin2006); the skull is rarely involved in skeletal tuberculosis, and it affects young individuals. Moreover, cranial tuberculous lesions are purely destructive from the outside to the inside of the skull (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998). The skull of the mummy of Ulloma shows no external cranial lesions but only those involving the internal cranial table. Multifocal, noncontiguous vertebral involvement is common both in tuberculosis and mycotic diseases (Dalinka et al. Reference Dalinka, Dinenberg, Greendyk and Hopkins1971). A tuberculosis vertebral infection usually spares the posterior elements of the vertebrae, which is an important aspect in the differential diagnosis with mycosis (Aufderheide and Rodriguez-Martin Reference Aufderheide and Rodriguez-Martin1998). Unlike tuberculosis, mycotic infection affects the posterior elements of the vertebrae, as in the present case, and could cause large abscesses (Kim et al. Reference Kim, Perry, Currier, Yaszemski and Garfin2006). The hip joint, with lesions of the femoral head and acetabulum, is frequently involved in cases of bone tuberculosis. Likewise, the sacroiliac joint is commonly the site of tuberculous infection, with evident destruction of the sacral wing; along with the involvement of the hip joint, the infection could cause a pelvic deformity (Kremer and Wiese Reference Kremer and Wiese1930; Ortner and Putschar Reference Ortner and Putschar1981). The thoracic cage, knee, ankle, tarsal, and tubular bones of the hands and feet may also be involved in skeletal tuberculosis (Ortner and Putschar Reference Ortner and Putschar1981). However, these tuberculous lesions were not found in our case.

Indeed, it was difficult to determine whether the lesions observed were attributable to tuberculosis or coccidioidomycosis, given that tuberculosis was present in the past in the Andean areas of Peru and Chile (Wilbur et al. Reference Wilbur, Farnbach, Knudson and Buikstra2008), although it was not described in the Ulloma region. Even though the skull and spinal lesions could be related to tuberculosis, the vertebral collapse with gibbus formation and the perforation of the cranial vault from the outside to the inside usually caused by tuberculosis were absent. At the same time, no lesions were observed in other regions of the postcranial skeleton that are typically involved with tuberculosis.

The differential diagnosis between tuberculosis and coccidioidomycosis remains difficult. However, the geographic origin of the mummy—the semiarid environment of South America—and some pathological signs, such as the morphology of the cranial lesions and the involvement of the posterior vertebral elements, support the diagnosis of coccidioidomycosis. Thus, tuberculosis does not appear to be the correct diagnosis for this mummy.

The diagnosis of coccidioidomycosis is particularly interesting because of the mummy's sex. This infection is work-related and usually affects males with a hormonal or genetic predisposition (Ampel et al. Reference Ampel, Wieden and Galgiani1989; Crum et al. Reference Crum, Lederman, Stafford, Scott Parrish and Wallace2004). This mummy is female, which suggests that in the Tiwanaku Andean culture of twelfth-century Bolivia, both sexes could carry out the same everyday work activities; in addition, those belonging to the higher social classes engaged in open-air recreational activities. Moreover, the presence of the disease on an individual from western Bolivia might be an indication of the mummy's provenance from the Gran Chaco region.

Conclusion

Coccidioidomycosis is caused by inhalation of Coccidioides spp. spores. Although it is a respiratory disease, it can also affect the skeleton. Because its bone lesions are similar to other mycotic and non-mycotic diseases, their morphology and distribution are important but not always sufficient elements for making a diagnosis on ancient human remains.

Epidemiological data can contribute to the diagnosis. In our case, the geographic location was a key factor for the identification of coccidioidomycosis, which was found in an adult woman, even though women generally did not suffer from mycosis.

Acknowledgments

The authors would like to thank Dr. Joan Viciano for the translation and revision of the abstract in Spanish and for his contributions during the restoration phases of the mummies of the Anthropology Museum of Naples.

Funding Statement

No funding was received for conducting this study.

Data Availability Statement

All data and materials are available at the Anthropology Museum, Federico II University of Naples, Italy. For additional information, please contact the authors.

Competing Interests

The authors declare none.

References

References Cited

Ajello, Libero. 1967. Comparative Ecology of Respiratory Mycotic Disease Agents. Bacteriological Reviews 31:624.CrossRefGoogle ScholarPubMed
Allison, Marvin J., Gerszten, Enrique, Munizaga, Juan, Santoro, Calogero, and Focacci, Guillermo. 1981. La práctica de la deformación craneana entre los pueblos andinos precolombinos. Chungara 7:238260.Google Scholar
Ampel, Neil M., Wieden, Marion A., and Galgiani, John N.. 1989. Coccidioidomycosis: Clinical Update. Reviews of Infectious Diseases 11:897911.CrossRefGoogle ScholarPubMed
Aufderheide, Arthur C., and Rodriguez-Martin, Conrado. 1998. The Cambridge Encyclopedia of Human Paleopathology. Cambridge University Press, Cambridge.Google Scholar
Bisla, Ranjit S., and Taber, Thomas H. Jr. 1976. Coccidioidomycosis of Bone and Joints. Clinical Orthopaedics and Related Research 121:196204.Google Scholar
Blair, Janis E. 2007. State-of-the-Art Treatment of Coccidioidomycosis Skeletal Infections. Annals of the New York Academy of Science 1111:422433.CrossRefGoogle ScholarPubMed
Bloom, Deborah E. 2005. Embodying Borders: Human Body Modification and Diversity in Tiwanaku Society. Journal of Anthropological Archaeology 24:124.CrossRefGoogle Scholar
Borrelli, Lucia, and Capasso, Maria Chiara (editors). 2019. Storia di vita sulle Ande: Le mummie precolombiane del Museo di Antropologia raccontano. Centro Museo delle Scienze Naturali e Fisiche, Naples.Google Scholar
Bried, James M., and Galgiani, John N.. 1986. Coccidioides immitis Infections in Bones and Joints. Clinical Orthopaedics and Related Research 211:235243.CrossRefGoogle Scholar
Brothwell, Don R. 1981. Digging Up Bones. Cornell University Press, Ithaca, New York.Google Scholar
Crum, Nancy F., Lederman, Edith R., Stafford, Christopher M., Scott Parrish, J., and Wallace, Mark R.. 2004. Coccidioidomycosis: A Descriptive Survey of a Reemerging Disease: Clinical Characteristics and Current Controversies. Medicine 83:149175.CrossRefGoogle ScholarPubMed
Dalinka, Murray K., Dinenberg, Stephen, Greendyk, William H., and Hopkins, Ralph. 1971. Roentgenographic Features of Osseous Coccidioidomycosis and Differential Diagnosis. Journal of Bone and Joint Surgery 53:11571164.CrossRefGoogle ScholarPubMed
De Blasio, Abele. 1900. Mummie e crani dell'antico Perù conservati in alcuni Musei dell'Università di Napoli. Rivista mensile di Psichiatria Forense, Antropologia Criminale e Scienze Affini 3:169189.Google Scholar
Ferembach, Denise, Schwidetzky, Ilse, and Stloukal, Milan. 1980. Recommendations of Age and Sex Diagnoses of Skeleton. Journal of Human Evolution 9:517549.Google Scholar
Fisher, Matthew C., Koenig, Gina L., White, Thomas J., and Taylor, John T.. 2002. Molecular and Phenotypic Description of Coccidioides posadasii sp. nov., Previously Recognized as the Non-California Population of Coccidioides immitis. Mycologia 94:7384.CrossRefGoogle ScholarPubMed
Galgiani, John N., Ampel, Neil M., Blair, Janis E., Catanzaro, Antonino, Johnson, Royce H., Stevens, David A., and Williams, Paul L.. 2005. Coccidioidomycosis. Clinical Infectious Diseases 41:12171223.CrossRefGoogle ScholarPubMed
Hector, Richard F., and Laniado-Laborin, Rafael. 2005. Coccidioidomycosis: A Fungal Disease of the Americas. PLoS Medicine 2(1):e2.CrossRefGoogle ScholarPubMed
Jain, Manjula, Sharma, Sunita, and Jain, Trilochan S.. 1999. Cryptococcosis of Thoracic Vertebra Simulating Tuberculosis: Diagnosis by Fine-Needle Aspiration Biopsy Cytology—A Case Report. Diagnostic Cytopathology 20:385386.3.0.CO;2-9>CrossRefGoogle ScholarPubMed
Kesseli, Risto, and Pärssinen, Martti. 2005. Identidad étnica y muerte: Torres funerarias (chullpas) como símbolos de poder étnico en el altiplano boliviano de Pakasa (1250–1600 d.C.). Bulletin de l'Institut Français d’Études Andines 34:379410.CrossRefGoogle Scholar
Kim, Choll W., Perry, Andrew, Currier, Brad, Yaszemski, Michael, and Garfin, Steven R.. 2006. Fungal Infections of the Spine. Clinical Orthopaedics and Related Research 444:9299.CrossRefGoogle ScholarPubMed
Kremer, Wilhelm and Wiese, Otto. 1930. Die Tuberkulose der Knochen und Gelenke: Ihre Pathologie, Diagnostik, Therapie und Ihre Soziale Bedeutung, Vol. 8. Die Tuberkulose und Ihre Grenzgebiete in Einzeldarstellungen. Springer, Berlin.CrossRefGoogle Scholar
Micarelli, Ileana, Paine, Robert R., Tafuri, Mary Ann, and Manzi, Giorgio. 2019. A Possible Case of Mycosis in a Post-Classical Burial from La Selvicciola (Italy). International Journal of Paleopathology 24:2533.CrossRefGoogle Scholar
Ortner, Donald J., and Putschar, Walter G. J.. 1981. Identification of Pathological Conditions in Human Skeletal Remains. Smithsonian Institution, Washington, DC.Google Scholar
Patel, Shalin S., and Cardile, Anthony P.. 2013. Diffuse Skeletal Coccicioidomycosis in an AIDS Patient. International Journal of Infectious Diseases 17:e928e929.CrossRefGoogle Scholar
Pinto, Jerome, Manjunath Shenoy, M., Girisha, Banavasi S., and Suchitra Shenoy, M.. 2008. Fungal Infection in Humans. In Frontiers in Fungal Ecology, Diversity and Metabolites, edited by Sridhar, K. R., pp. 227247. IK International Publishing House, New Delhi.Google Scholar
Saubolle, Michael A. 2007. Laboratory Aspects in the Diagnosis of Coccidioidomycosis. Annals of the New York Academy of Science 1111:301314.CrossRefGoogle ScholarPubMed
Tack, Kenneth J., Rhame, Frank S., Brown, Bruce, and Thompson, Roby Jr. 1982. Aspergillus Osteomyelitis: Report of Four Cases and Review of the Literature. American Journal of Medicine 73:295300.CrossRefGoogle ScholarPubMed
Temple, Daniel H. 2006. A Possible Case of Cocciodiodomycosis from the Los Muertos Site, Tempe, Arizona. International Journal of Osteoarchaeology 16:316327.CrossRefGoogle Scholar
Teodori, Ugo (editor). 1981. Trattato di Patologia Medica. Società Editrice Universo, Rome.Google Scholar
Wesselius, Lewis J., Brooks, Robert J., and Gail, Eric P.. 1977. Vertebral Coccidioidomycosis Presenting as Pott's Disease. Journal of the American Medical Association 238:13971398.CrossRefGoogle ScholarPubMed
Wilbur, Alicia K., Farnbach, Amy W., Knudson, Kelly J., and Buikstra, Jane E.. 2008. Diet, Tuberculosis, and the Paleopathological Record. Current Anthropology 49:963991.CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. Map of Bolivia with the location of Gran Chaco Region where Coccidioides spp. are endemic.

Figure 1

Figure 2. X-ray of the skull (lateral view): arrows indicate osteolytic areas without signs of peripheral sclerosis.

Figure 2

Figure 3. X-ray of the spine (frontal view): arrows indicate osteolytic lesions on the vertebral bodies of the lumbar tract.

Figure 3

Figure 4. X-ray of the spine (lateral view): arrows indicate osteophytes and deformation of vertebral bodies caused by arthrosis.

Figure 4

Figure 5. Lumbar tract: a lesion with a confluent circular profile and a thickened antero-inferior margin is visible on one of the posterior laminae of L3 as a hyper-diaphanous area (black circle).